From fcc619d2dfae5872937923560401a363d589bd81 Mon Sep 17 00:00:00 2001 From: Christian Bianciotto Date: Mon, 19 Feb 2024 02:24:52 +0100 Subject: [PATCH] Add support for MKS GB boards. (#2886) Add support for MKS GB boards --- .github/workflows/buildBinary.yml | 3 + .github/workflows/buildTest.yml | 3 + .../original/MKSTFT28EVO.BIN | Bin 0 -> 28672 bytes .../original/README.md | 17 + README.md | 11 + TFT/src/Libraries/cmsis/gd32f30x/gd32f30x.h | 392 ++ .../cmsis/gd32f30x/system_gd32f30x.c | 997 +++++ .../cmsis/gd32f30x/system_gd32f30x.h | 67 + .../fwlib/gd32f30x/gd32f30x_libopt.h | 66 + .../fwlib/gd32f30x/inc/gd32f30x_adc.h | 403 ++ .../fwlib/gd32f30x/inc/gd32f30x_bkp.h | 244 ++ .../fwlib/gd32f30x/inc/gd32f30x_can.h | 754 ++++ .../fwlib/gd32f30x/inc/gd32f30x_crc.h | 81 + .../fwlib/gd32f30x/inc/gd32f30x_ctc.h | 185 + .../fwlib/gd32f30x/inc/gd32f30x_dac.h | 250 ++ .../fwlib/gd32f30x/inc/gd32f30x_dbg.h | 149 + .../fwlib/gd32f30x/inc/gd32f30x_dma.h | 285 ++ .../fwlib/gd32f30x/inc/gd32f30x_enet.h | 1702 ++++++++ .../fwlib/gd32f30x/inc/gd32f30x_exmc.h | 446 ++ .../fwlib/gd32f30x/inc/gd32f30x_exti.h | 255 ++ .../fwlib/gd32f30x/inc/gd32f30x_fmc.h | 375 ++ .../fwlib/gd32f30x/inc/gd32f30x_fwdgt.h | 114 + .../fwlib/gd32f30x/inc/gd32f30x_gpio.h | 537 +++ .../fwlib/gd32f30x/inc/gd32f30x_i2c.h | 357 ++ .../fwlib/gd32f30x/inc/gd32f30x_misc.h | 94 + .../fwlib/gd32f30x/inc/gd32f30x_pmu.h | 192 + .../fwlib/gd32f30x/inc/gd32f30x_rcu.h | 1070 +++++ .../fwlib/gd32f30x/inc/gd32f30x_rtc.h | 138 + .../fwlib/gd32f30x/inc/gd32f30x_sdio.h | 434 ++ .../fwlib/gd32f30x/inc/gd32f30x_spi.h | 365 ++ .../fwlib/gd32f30x/inc/gd32f30x_timer.h | 752 ++++ .../fwlib/gd32f30x/inc/gd32f30x_usart.h | 444 ++ .../fwlib/gd32f30x/inc/gd32f30x_wwdgt.h | 95 + .../fwlib/gd32f30x/scr/gd32f30x_adc.c | 941 +++++ .../fwlib/gd32f30x/scr/gd32f30x_bkp.c | 328 ++ .../fwlib/gd32f30x/scr/gd32f30x_can.c | 1042 +++++ .../fwlib/gd32f30x/scr/gd32f30x_crc.c | 130 + .../fwlib/gd32f30x/scr/gd32f30x_ctc.c | 392 ++ .../fwlib/gd32f30x/scr/gd32f30x_dac.c | 541 +++ .../fwlib/gd32f30x/scr/gd32f30x_dbg.c | 148 + .../fwlib/gd32f30x/scr/gd32f30x_dma.c | 735 ++++ .../fwlib/gd32f30x/scr/gd32f30x_enet.c | 3680 +++++++++++++++++ .../fwlib/gd32f30x/scr/gd32f30x_exmc.c | 677 +++ .../fwlib/gd32f30x/scr/gd32f30x_exti.c | 253 ++ .../fwlib/gd32f30x/scr/gd32f30x_fmc.c | 1009 +++++ .../fwlib/gd32f30x/scr/gd32f30x_fwdgt.c | 223 + .../fwlib/gd32f30x/scr/gd32f30x_gpio.c | 583 +++ .../fwlib/gd32f30x/scr/gd32f30x_i2c.c | 738 ++++ .../fwlib/gd32f30x/scr/gd32f30x_misc.c | 176 + .../fwlib/gd32f30x/scr/gd32f30x_pmu.c | 400 ++ .../fwlib/gd32f30x/scr/gd32f30x_rcu.c | 1332 ++++++ .../fwlib/gd32f30x/scr/gd32f30x_rtc.c | 230 ++ .../fwlib/gd32f30x/scr/gd32f30x_sdio.c | 809 ++++ .../fwlib/gd32f30x/scr/gd32f30x_spi.c | 859 ++++ .../fwlib/gd32f30x/scr/gd32f30x_timer.c | 2042 +++++++++ .../fwlib/gd32f30x/scr/gd32f30x_usart.c | 909 ++++ .../fwlib/gd32f30x/scr/gd32f30x_wwdgt.c | 128 + TFT/src/User/API/HW_Init.c | 15 +- .../driver/Include/drv_usb_core.h | 163 + .../driver/Include/drv_usb_dev.h | 303 ++ .../driver/Include/drv_usb_host.h | 194 + .../driver/Include/drv_usb_hw.h | 65 + .../driver/Include/drv_usb_regs.h | 658 +++ .../driver/Include/drv_usbd_int.h | 46 + .../driver/Include/drv_usbh_int.h | 55 + .../driver/Source/drv_usb_core.c | 339 ++ .../driver/Source/drv_usb_dev.c | 596 +++ .../driver/Source/drv_usb_host.c | 446 ++ .../driver/Source/drv_usbd_int.c | 474 +++ .../driver/Source/drv_usbh_int.c | 619 +++ .../GD32F30x_usbfs_library/gd32f30x_usb_hw.c | 297 ++ .../host/class/hid/Include/usbh_hid_core.h | 124 + .../class/hid/Include/usbh_standard_hid.h | 100 + .../host/class/hid/Source/usbh_hid_core.c | 579 +++ .../host/class/hid/Source/usbh_standard_hid.c | 274 ++ .../host/class/msc/Include/usbh_msc_bbb.h | 154 + .../host/class/msc/Include/usbh_msc_core.h | 125 + .../host/class/msc/Include/usbh_msc_scsi.h | 101 + .../host/class/msc/Source/usbh_msc_bbb.c | 363 ++ .../host/class/msc/Source/usbh_msc_core.c | 562 +++ .../host/class/msc/Source/usbh_msc_fatfs.c | 234 ++ .../host/class/msc/Source/usbh_msc_scsi.c | 398 ++ .../host/core/Include/usbh_core.h | 272 ++ .../host/core/Include/usbh_enum.h | 71 + .../host/core/Include/usbh_pipe.h | 103 + .../host/core/Include/usbh_transc.h | 51 + .../host/core/Source/usbh_core.c | 657 +++ .../host/core/Source/usbh_enum.c | 694 ++++ .../host/core/Source/usbh_pipe.c | 175 + .../host/core/Source/usbh_transc.c | 373 ++ .../Hal/GD32F30x_usbfs_library/usb_conf.h | 111 + .../Hal/GD32F30x_usbfs_library/usbh_conf.h | 47 + .../Hal/GD32F30x_usbfs_library/usbh_usr.c | 506 +++ .../Hal/GD32F30x_usbfs_library/usbh_usr.h | 95 + .../ustd/class/cdc/usb_cdc.h | 181 + .../ustd/class/hid/usb_hid.h | 84 + .../ustd/class/msc/msc_bbb.h | 70 + .../ustd/class/msc/msc_scsi.h | 118 + .../ustd/class/msc/usb_msc.h | 69 + .../ustd/common/usb_ch9_std.h | 249 ++ TFT/src/User/Hal/HD44780.c | 6 +- TFT/src/User/Hal/Knob_LED.c | 2 +- TFT/src/User/Hal/buzzer.c | 8 +- TFT/src/User/Hal/gd32f30x/GPIO_Init.c | 69 + TFT/src/User/Hal/gd32f30x/GPIO_Init.h | 158 + TFT/src/User/Hal/gd32f30x/HAL_Flash.c | 42 + TFT/src/User/Hal/gd32f30x/HAL_Flash.h | 9 + TFT/src/User/Hal/gd32f30x/Serial.c | 340 ++ TFT/src/User/Hal/gd32f30x/Serial.h | 62 + TFT/src/User/Hal/gd32f30x/lcd.c | 214 + TFT/src/User/Hal/gd32f30x/lcd.h | 52 + TFT/src/User/Hal/gd32f30x/lcd_dma.c | 98 + TFT/src/User/Hal/gd32f30x/lcd_dma.h | 9 + TFT/src/User/Hal/gd32f30x/spi.c | 125 + TFT/src/User/Hal/gd32f30x/spi.h | 18 + TFT/src/User/Hal/gd32f30x/spi_slave.c | 140 + TFT/src/User/Hal/gd32f30x/spi_slave.h | 12 + TFT/src/User/Hal/gd32f30x/timer_pwm.c | 70 + TFT/src/User/Hal/gd32f30x/timer_pwm.h | 104 + TFT/src/User/Hal/gd32f30x/uart.c | 137 + TFT/src/User/Hal/gd32f30x/uart.h | 20 + .../User/Variants/pin_MKS_GD_TFT28_V1_2-4.h | 42 + TFT/src/User/Variants/pin_MKS_TFT32_V1_4.h | 5 +- TFT/src/User/Variants/variants.h | 2 + TFT/src/User/config.ini | 2 + TFT/src/User/config_rrf.ini | 2 + TFT/src/User/main.c | 5 + TFT/src/User/os_timer.c | 4 +- buildroot/boards/GD32F305VC_0x7000.json | 60 + buildroot/ldscripts/gd32f30xxC_0x7000_iap.ld | 147 + buildroot/scripts/gd32f30xxC_0x7000_iap.py | 12 + platformio.ini | 45 +- 132 files changed, 42795 insertions(+), 18 deletions(-) create mode 100644 Bootloaders/MKS TFT28/Artillery TFT28 V3.0.5 (GD32F305)/original/MKSTFT28EVO.BIN create mode 100644 Bootloaders/MKS TFT28/Artillery TFT28 V3.0.5 (GD32F305)/original/README.md create mode 100644 TFT/src/Libraries/cmsis/gd32f30x/gd32f30x.h create mode 100644 TFT/src/Libraries/cmsis/gd32f30x/system_gd32f30x.c create mode 100644 TFT/src/Libraries/cmsis/gd32f30x/system_gd32f30x.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/gd32f30x_libopt.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_adc.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_bkp.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_can.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_crc.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_ctc.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dac.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dbg.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dma.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_enet.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_exmc.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_exti.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_fmc.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_fwdgt.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_gpio.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_i2c.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_misc.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_pmu.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_rcu.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_rtc.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_sdio.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_spi.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_timer.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_usart.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_wwdgt.h create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_adc.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_bkp.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_can.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_crc.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_ctc.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dac.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dbg.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dma.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_enet.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_exmc.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_exti.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_fmc.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_fwdgt.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_gpio.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_i2c.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_misc.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_pmu.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_rcu.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_rtc.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_sdio.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_spi.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_timer.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_usart.c create mode 100644 TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_wwdgt.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_core.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_dev.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_host.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_hw.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_regs.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usbd_int.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usbh_int.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_core.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_dev.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_host.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usbd_int.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usbh_int.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/gd32f30x_usb_hw.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Include/usbh_hid_core.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Include/usbh_standard_hid.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Source/usbh_hid_core.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Source/usbh_standard_hid.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_bbb.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_core.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_scsi.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_bbb.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_core.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_fatfs.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_scsi.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_core.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_enum.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_pipe.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_transc.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_core.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_enum.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_pipe.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_transc.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/usb_conf.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_conf.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_usr.c create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_usr.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/cdc/usb_cdc.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/hid/usb_hid.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/msc_bbb.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/msc_scsi.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/usb_msc.h create mode 100644 TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/common/usb_ch9_std.h create mode 100644 TFT/src/User/Hal/gd32f30x/GPIO_Init.c create mode 100644 TFT/src/User/Hal/gd32f30x/GPIO_Init.h create mode 100644 TFT/src/User/Hal/gd32f30x/HAL_Flash.c create mode 100644 TFT/src/User/Hal/gd32f30x/HAL_Flash.h create mode 100644 TFT/src/User/Hal/gd32f30x/Serial.c create mode 100644 TFT/src/User/Hal/gd32f30x/Serial.h create mode 100644 TFT/src/User/Hal/gd32f30x/lcd.c create mode 100644 TFT/src/User/Hal/gd32f30x/lcd.h create mode 100644 TFT/src/User/Hal/gd32f30x/lcd_dma.c create mode 100644 TFT/src/User/Hal/gd32f30x/lcd_dma.h create mode 100644 TFT/src/User/Hal/gd32f30x/spi.c create mode 100644 TFT/src/User/Hal/gd32f30x/spi.h create mode 100644 TFT/src/User/Hal/gd32f30x/spi_slave.c create mode 100644 TFT/src/User/Hal/gd32f30x/spi_slave.h create mode 100644 TFT/src/User/Hal/gd32f30x/timer_pwm.c create mode 100644 TFT/src/User/Hal/gd32f30x/timer_pwm.h create mode 100644 TFT/src/User/Hal/gd32f30x/uart.c create mode 100644 TFT/src/User/Hal/gd32f30x/uart.h create mode 100644 TFT/src/User/Variants/pin_MKS_GD_TFT28_V1_2-4.h create mode 100644 buildroot/boards/GD32F305VC_0x7000.json create mode 100644 buildroot/ldscripts/gd32f30xxC_0x7000_iap.ld create mode 100644 buildroot/scripts/gd32f30xxC_0x7000_iap.py diff --git a/.github/workflows/buildBinary.yml b/.github/workflows/buildBinary.yml index 07e8b89426..e8f50efc18 100644 --- a/.github/workflows/buildBinary.yml +++ b/.github/workflows/buildBinary.yml @@ -117,6 +117,9 @@ jobs: - name: Build MKS TFT35 V1.0 run: platformio run --environment MKS_TFT35_V1_0 + - name: Build MKS GD TFT28 V1.2-4 + run: platformio run --environment MKS_GD_TFT28_V1_2-4 + - name: Remove Old Binaries run: find "Copy to SD Card root directory to update/" -name '*.bin' -print -delete diff --git a/.github/workflows/buildTest.yml b/.github/workflows/buildTest.yml index ce7b32de08..2fa773cd89 100644 --- a/.github/workflows/buildTest.yml +++ b/.github/workflows/buildTest.yml @@ -113,3 +113,6 @@ jobs: - name: Build MKS TFT35 V1.0 run: platformio run --environment MKS_TFT35_V1_0 + + - name: Build MKS GD TFT28 V1.2-4 + run: platformio run --environment MKS_GD_TFT28_V1_2-4 diff --git a/Bootloaders/MKS TFT28/Artillery TFT28 V3.0.5 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z#**%Jwpsc@ddu1p+BU^T<2(>8HrX=VYH_lbk!*f3ZRRXf6+CV6SS^K8e(u>hWx7c2BCDssMuUXOw?FWbzpnVfa%=J3496`z@bkJ+7PF_q z`3w|KU@Zk)e$I(4-6d13AbVtx0@~V1v_;3iM4NLgIrm!%FIvX86ZGTvSPCtcu>}@B z$LBFK73_~IrcMdcKe{I)Jk?Bdp>*%Alt!DZb9@7z))=o)lrwr^|U51-STgF8! z$I{l5ZZa@+pr97K=KmI7b)Or>N~A|4wUz5675e;vD + +/** @addtogroup Exported_types + * @{ + */ +/*!< STM32F10x Standard Peripheral Library old types (maintained for legacy purpose) */ +typedef int32_t s32; +typedef int16_t s16; +typedef int8_t s8; + +typedef const int32_t sc32; /*!< Read Only */ +typedef const int16_t sc16; /*!< Read Only */ +typedef const int8_t sc8; /*!< Read Only */ + +typedef __IO int32_t vs32; +typedef __IO int16_t vs16; +typedef __IO int8_t vs8; + +typedef __I int32_t vsc32; /*!< Read Only */ +typedef __I int16_t vsc16; /*!< Read Only */ +typedef __I int8_t vsc8; /*!< Read Only */ + +typedef uint32_t u32; +typedef uint16_t u16; +typedef uint8_t u8; + +typedef const uint32_t uc32; /*!< Read Only */ +typedef const uint16_t uc16; /*!< Read Only */ +typedef const uint8_t uc8; /*!< Read Only */ + +typedef __IO uint32_t vu32; +typedef __IO uint16_t vu16; +typedef __IO uint8_t vu8; + +typedef __I uint32_t vuc32; /*!< Read Only */ +typedef __I uint16_t vuc16; /*!< Read Only */ +typedef __I uint8_t vuc8; /*!< Read Only */ + +/* enum definitions */ +typedef enum {DISABLE = 0, ENABLE = !DISABLE} EventStatus, ControlStatus; +typedef enum {RESET = 0, SET = !RESET} FlagStatus; +typedef enum {ERROR = 0, SUCCESS = !ERROR} ErrStatus; + +/* bit operations */ +#define REG32(addr) (*(volatile uint32_t *)(uint32_t)(addr)) +#define REG16(addr) (*(volatile uint16_t *)(uint32_t)(addr)) +#define REG8(addr) (*(volatile uint8_t *)(uint32_t)(addr)) +#define BIT(x) ((uint32_t)((uint32_t)0x01U<<(x))) +#define BITS(start, end) ((0xFFFFFFFFUL << (start)) & (0xFFFFFFFFUL >> (31U - (uint32_t)(end)))) +#define GET_BITS(regval, start, end) (((regval) & BITS((start),(end))) >> (start)) + +/* main flash and SRAM memory map */ +#define FLASH_BASE ((uint32_t)0x08000000U) /*!< main FLASH base address */ +#define SRAM_BASE ((uint32_t)0x20000000U) /*!< SRAM0 base address */ +#define OB_BASE ((uint32_t)0x1FFFF800U) /*!< OB base address */ +#define DBG_BASE ((uint32_t)0xE0042000U) /*!< DBG base address */ +#define EXMC_BASE ((uint32_t)0xA0000000U) /*!< EXMC register base address */ + +/* peripheral memory map */ +#define APB1_BUS_BASE ((uint32_t)0x40000000U) /*!< apb1 base address */ +#define APB2_BUS_BASE ((uint32_t)0x40010000U) /*!< apb2 base address */ +#define AHB1_BUS_BASE ((uint32_t)0x40018000U) /*!< ahb1 base address */ +#define AHB3_BUS_BASE ((uint32_t)0x60000000U) /*!< ahb3 base address */ + +/* advanced peripheral bus 1 memory map */ +#define TIMER_BASE (APB1_BUS_BASE + 0x00000000U) /*!< TIMER base address */ +#define RTC_BASE (APB1_BUS_BASE + 0x00002800U) /*!< RTC base address */ +#define WWDGT_BASE (APB1_BUS_BASE + 0x00002C00U) /*!< WWDGT base address */ +#define FWDGT_BASE (APB1_BUS_BASE + 0x00003000U) /*!< FWDGT base address */ +#define SPI_BASE (APB1_BUS_BASE + 0x00003800U) /*!< SPI base address */ +#define USART_BASE (APB1_BUS_BASE + 0x00004400U) /*!< USART base address */ +#define I2C_BASE (APB1_BUS_BASE + 0x00005400U) /*!< I2C base address */ +#define USBD_BASE (APB1_BUS_BASE + 0x00005C00U) /*!< USBD base address */ +#define USBD_RAM_BASE (APB1_BUS_BASE + 0x00006000U) /*!< USBD RAM base address */ +#define CAN_BASE (APB1_BUS_BASE + 0x00006400U) /*!< CAN base address */ +#define BKP_BASE (APB1_BUS_BASE + 0x00006C00U) /*!< BKP base address */ +#define PMU_BASE (APB1_BUS_BASE + 0x00007000U) /*!< PMU base address */ +#define DAC_BASE (APB1_BUS_BASE + 0x00007400U) /*!< DAC base address */ +#define CTC_BASE (APB1_BUS_BASE + 0x0000C800U) /*!< CTC base address */ + +/* advanced peripheral bus 2 memory map */ +#define AFIO_BASE (APB2_BUS_BASE + 0x00000000U) /*!< AFIO base address */ +#define EXTI_BASE (APB2_BUS_BASE + 0x00000400U) /*!< EXTI base address */ +#define GPIO_BASE (APB2_BUS_BASE + 0x00000800U) /*!< GPIO base address */ +#define ADC_BASE (APB2_BUS_BASE + 0x00002400U) /*!< ADC base address */ + +/* advanced high performance bus 1 memory map */ +#define SDIO_BASE (AHB1_BUS_BASE + 0x00000000U) /*!< SDIO base address */ +#define DMA_BASE (AHB1_BUS_BASE + 0x00008000U) /*!< DMA base address */ +#define RCU_BASE (AHB1_BUS_BASE + 0x00009000U) /*!< RCU base address */ +#define FMC_BASE (AHB1_BUS_BASE + 0x0000A000U) /*!< FMC base address */ +#define CRC_BASE (AHB1_BUS_BASE + 0x0000B000U) /*!< CRC base address */ +#define ENET_BASE (AHB1_BUS_BASE + 0x00010000U) /*!< ENET base address */ +#define USBFS_BASE (AHB1_BUS_BASE + 0x0FFE8000U) /*!< USBFS base address */ + +/* define marco USE_STDPERIPH_DRIVER */ +#if !defined USE_STDPERIPH_DRIVER +#define USE_STDPERIPH_DRIVER +#endif +#ifdef USE_STDPERIPH_DRIVER +#include "gd32f30x_libopt.h" +#endif /* USE_STDPERIPH_DRIVER */ + +#ifdef __cplusplus +} +#endif +#endif diff --git a/TFT/src/Libraries/cmsis/gd32f30x/system_gd32f30x.c b/TFT/src/Libraries/cmsis/gd32f30x/system_gd32f30x.c new file mode 100644 index 0000000000..dde45d5399 --- /dev/null +++ b/TFT/src/Libraries/cmsis/gd32f30x/system_gd32f30x.c @@ -0,0 +1,997 @@ +/*! + \file system_gd32f30x.c + \brief CMSIS Cortex-M4 Device Peripheral Access Layer Source File for + GD32F30x Device Series +*/ + +/* Copyright (c) 2012 ARM LIMITED + + All rights reserved. + Redistribution and use in source and binary forms, with or without + modification, are permitted provided that the following conditions are met: + - Redistributions of source code must retain the above copyright + notice, this list of conditions and the following disclaimer. + - Redistributions in binary form must reproduce the above copyright + notice, this list of conditions and the following disclaimer in the + documentation and/or other materials provided with the distribution. + - Neither the name of ARM nor the names of its contributors may be used + to endorse or promote products derived from this software without + specific prior written permission. + * + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" + AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE + ARE DISCLAIMED. IN NO EVENT SHALL COPYRIGHT HOLDERS AND CONTRIBUTORS BE + LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF + SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) + ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + POSSIBILITY OF SUCH DAMAGE. + ---------------------------------------------------------------------------*/ +/* This file refers the CMSIS standard, some adjustments are made according to GigaDevice chips */ + +#include "gd32f30x.h" + +/* system frequency define */ +#define __IRC8M (IRC8M_VALUE) /* internal 8 MHz RC oscillator frequency */ +#define __HXTAL (HXTAL_VALUE) /* high speed crystal oscillator frequency */ +#define __SYS_OSC_CLK (__IRC8M) /* main oscillator frequency */ + +/* select a system clock by uncommenting the following line */ +/* use IRC8M */ +//#define __SYSTEM_CLOCK_IRC8M (uint32_t)(__IRC8M) +//#define __SYSTEM_CLOCK_48M_PLL_IRC8M (uint32_t)(48000000) +//#define __SYSTEM_CLOCK_72M_PLL_IRC8M (uint32_t)(72000000) +//#define __SYSTEM_CLOCK_108M_PLL_IRC8M (uint32_t)(108000000) +//#define __SYSTEM_CLOCK_120M_PLL_IRC8M (uint32_t)(120000000) + +/* use HXTAL(XD series CK_HXTAL = 8M, CL series CK_HXTAL = 25M) */ +//#define __SYSTEM_CLOCK_HXTAL (uint32_t)(__HXTAL) +//#define __SYSTEM_CLOCK_48M_PLL_HXTAL (uint32_t)(48000000) +//#define __SYSTEM_CLOCK_72M_PLL_HXTAL (uint32_t)(72000000) +//#define __SYSTEM_CLOCK_108M_PLL_HXTAL (uint32_t)(108000000) +#define __SYSTEM_CLOCK_120M_PLL_HXTAL (uint32_t)(120000000) + +#define RCU_MODIFY(__delay) do{ \ + volatile uint32_t i; \ + if(0 != __delay){ \ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV2; \ + for(i=0; i<__delay; i++){ \ + } \ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV4; \ + for(i=0; i<__delay; i++){ \ + } \ + } \ + }while(0) + +#define SEL_IRC8M 0x00U +#define SEL_HXTAL 0x01U +#define SEL_PLL 0x02U + +/* set the system clock frequency and declare the system clock configuration function */ +#ifdef __SYSTEM_CLOCK_IRC8M +uint32_t SystemCoreClock = __SYSTEM_CLOCK_IRC8M; +static void system_clock_8m_irc8m(void); +#elif defined (__SYSTEM_CLOCK_48M_PLL_IRC8M) +uint32_t SystemCoreClock = __SYSTEM_CLOCK_48M_PLL_IRC8M; +static void system_clock_48m_irc8m(void); +#elif defined (__SYSTEM_CLOCK_72M_PLL_IRC8M) +uint32_t SystemCoreClock = __SYSTEM_CLOCK_72M_PLL_IRC8M; +static void system_clock_72m_irc8m(void); +#elif defined (__SYSTEM_CLOCK_108M_PLL_IRC8M) +uint32_t SystemCoreClock = __SYSTEM_CLOCK_108M_PLL_IRC8M; +static void system_clock_108m_irc8m(void); +#elif defined (__SYSTEM_CLOCK_120M_PLL_IRC8M) +uint32_t SystemCoreClock = __SYSTEM_CLOCK_120M_PLL_IRC8M; +static void system_clock_120m_irc8m(void); + +#elif defined (__SYSTEM_CLOCK_HXTAL) +uint32_t SystemCoreClock = __SYSTEM_CLOCK_HXTAL; +static void system_clock_hxtal(void); +#elif defined (__SYSTEM_CLOCK_48M_PLL_HXTAL) +uint32_t SystemCoreClock = __SYSTEM_CLOCK_48M_PLL_HXTAL; +static void system_clock_48m_hxtal(void); +#elif defined (__SYSTEM_CLOCK_72M_PLL_HXTAL) +uint32_t SystemCoreClock = __SYSTEM_CLOCK_72M_PLL_HXTAL; +static void system_clock_72m_hxtal(void); +#elif defined (__SYSTEM_CLOCK_108M_PLL_HXTAL) +uint32_t SystemCoreClock = __SYSTEM_CLOCK_108M_PLL_HXTAL; +static void system_clock_108m_hxtal(void); +#elif defined (__SYSTEM_CLOCK_120M_PLL_HXTAL) +//uint32_t SystemCoreClock = __SYSTEM_CLOCK_120M_PLL_HXTAL; Modif_fred +static void system_clock_120m_hxtal(void); +#endif /* __SYSTEM_CLOCK_IRC8M */ + +/* configure the system clock */ +static void system_clock_config(void); + +/*! + \brief setup the microcontroller system, initialize the system + \param[in] none + \param[out] none + \retval none +*/ +void SystemClockInit (void) //void SystemInit (void) Modif_fred +{ + /* FPU settings */ +#if (__FPU_PRESENT == 1) && (__FPU_USED == 1) + SCB->CPACR |= ((3UL << 10*2)|(3UL << 11*2)); /* set CP10 and CP11 Full Access */ +#endif + /* reset the RCU clock configuration to the default reset state */ + /* Set IRC8MEN bit */ + RCU_CTL |= RCU_CTL_IRC8MEN; + while(0U == (RCU_CTL & RCU_CTL_IRC8MSTB)){ + } + RCU_MODIFY(0x50); + + RCU_CFG0 &= ~RCU_CFG0_SCS; + +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + /* reset HXTALEN, CKMEN and PLLEN bits */ + RCU_CTL &= ~(RCU_CTL_PLLEN | RCU_CTL_CKMEN | RCU_CTL_HXTALEN); + /* disable all interrupts */ + RCU_INT = 0x009f0000U; +#elif defined(GD32F30X_CL) + /* Reset HXTALEN, CKMEN, PLLEN, PLL1EN and PLL2EN bits */ + RCU_CTL &= ~(RCU_CTL_PLLEN |RCU_CTL_PLL1EN | RCU_CTL_PLL2EN | RCU_CTL_CKMEN | RCU_CTL_HXTALEN); + /* disable all interrupts */ + RCU_INT = 0x00ff0000U; +#endif + + /* reset HXTALBPS bit */ + RCU_CTL &= ~(RCU_CTL_HXTALBPS); + + /* Reset CFG0 and CFG1 registers */ + RCU_CFG0 = 0x00000000U; + RCU_CFG1 = 0x00000000U; + + /* configure the system clock source, PLL Multiplier, AHB/APBx prescalers and Flash settings */ + system_clock_config(); +} +/*! + \brief configure the system clock + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_config(void) +{ +#ifdef __SYSTEM_CLOCK_IRC8M + system_clock_8m_irc8m(); +#elif defined (__SYSTEM_CLOCK_48M_PLL_IRC8M) + system_clock_48m_irc8m(); +#elif defined (__SYSTEM_CLOCK_72M_PLL_IRC8M) + system_clock_72m_irc8m(); +#elif defined (__SYSTEM_CLOCK_108M_PLL_IRC8M) + system_clock_108m_irc8m(); +#elif defined (__SYSTEM_CLOCK_120M_PLL_IRC8M) + system_clock_120m_irc8m(); + +#elif defined (__SYSTEM_CLOCK_HXTAL) + system_clock_hxtal(); +#elif defined (__SYSTEM_CLOCK_48M_PLL_HXTAL) + system_clock_48m_hxtal(); +#elif defined (__SYSTEM_CLOCK_72M_PLL_HXTAL) + system_clock_72m_hxtal(); +#elif defined (__SYSTEM_CLOCK_108M_PLL_HXTAL) + system_clock_108m_hxtal(); +#elif defined (__SYSTEM_CLOCK_120M_PLL_HXTAL) + system_clock_120m_hxtal(); +#endif /* __SYSTEM_CLOCK_IRC8M */ +} + +#ifdef __SYSTEM_CLOCK_IRC8M +/*! + \brief configure the system clock to 8M by IRC8M + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_8m_irc8m(void) +{ + uint32_t timeout = 0U; + uint32_t stab_flag = 0U; + + /* enable IRC8M */ + RCU_CTL |= RCU_CTL_IRC8MEN; + + /* wait until IRC8M is stable or the startup time is longer than IRC8M_STARTUP_TIMEOUT */ + do{ + timeout++; + stab_flag = (RCU_CTL & RCU_CTL_IRC8MSTB); + } + while((0U == stab_flag) && (IRC8M_STARTUP_TIMEOUT != timeout)); + + /* if fail */ + if(0U == (RCU_CTL & RCU_CTL_IRC8MSTB)){ + while(1){ + } + } + + /* AHB = SYSCLK */ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV1; + /* APB2 = AHB/1 */ + RCU_CFG0 |= RCU_APB2_CKAHB_DIV1; + /* APB1 = AHB/2 */ + RCU_CFG0 |= RCU_APB1_CKAHB_DIV2; + + /* select IRC8M as system clock */ + RCU_CFG0 &= ~RCU_CFG0_SCS; + RCU_CFG0 |= RCU_CKSYSSRC_IRC8M; + + /* wait until IRC8M is selected as system clock */ + while(0U != (RCU_CFG0 & RCU_SCSS_IRC8M)){ + } +} + +#elif defined (__SYSTEM_CLOCK_48M_PLL_IRC8M) +/*! + \brief configure the system clock to 48M by PLL which selects IRC8M as its clock source + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_48m_irc8m(void) +{ + uint32_t timeout = 0U; + uint32_t stab_flag = 0U; + + /* enable IRC8M */ + RCU_CTL |= RCU_CTL_IRC8MEN; + + /* wait until IRC8M is stable or the startup time is longer than IRC8M_STARTUP_TIMEOUT */ + do{ + timeout++; + stab_flag = (RCU_CTL & RCU_CTL_IRC8MSTB); + } + while((0U == stab_flag) && (IRC8M_STARTUP_TIMEOUT != timeout)); + + /* if fail */ + if(0U == (RCU_CTL & RCU_CTL_IRC8MSTB)){ + while(1){ + } + } + + /* LDO output voltage high mode */ + RCU_APB1EN |= RCU_APB1EN_PMUEN; + PMU_CTL |= PMU_CTL_LDOVS; + + /* IRC8M is stable */ + /* AHB = SYSCLK */ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV1; + /* APB2 = AHB/1 */ + RCU_CFG0 |= RCU_APB2_CKAHB_DIV1; + /* APB1 = AHB/2 */ + RCU_CFG0 |= RCU_APB1_CKAHB_DIV2; + + /* CK_PLL = (CK_IRC8M/2) * 12 = 48 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= RCU_PLL_MUL12; + + /* enable PLL */ + RCU_CTL |= RCU_CTL_PLLEN; + + /* wait until PLL is stable */ + while(0U == (RCU_CTL & RCU_CTL_PLLSTB)){ + } + + /* enable the high-drive to extend the clock frequency to 120 MHz */ + PMU_CTL |= PMU_CTL_HDEN; + while(0U == (PMU_CS & PMU_CS_HDRF)){ + } + + /* select the high-drive mode */ + PMU_CTL |= PMU_CTL_HDS; + while(0U == (PMU_CS & PMU_CS_HDSRF)){ + } + + /* select PLL as system clock */ + RCU_CFG0 &= ~RCU_CFG0_SCS; + RCU_CFG0 |= RCU_CKSYSSRC_PLL; + + /* wait until PLL is selected as system clock */ + while(0U == (RCU_CFG0 & RCU_SCSS_PLL)){ + } +} + +#elif defined (__SYSTEM_CLOCK_72M_PLL_IRC8M) +/*! + \brief configure the system clock to 72M by PLL which selects IRC8M as its clock source + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_72m_irc8m(void) +{ + uint32_t timeout = 0U; + uint32_t stab_flag = 0U; + + /* enable IRC8M */ + RCU_CTL |= RCU_CTL_IRC8MEN; + + /* wait until IRC8M is stable or the startup time is longer than IRC8M_STARTUP_TIMEOUT */ + do{ + timeout++; + stab_flag = (RCU_CTL & RCU_CTL_IRC8MSTB); + }while((0U == stab_flag) && (IRC8M_STARTUP_TIMEOUT != timeout)); + + /* if fail */ + if(0U == (RCU_CTL & RCU_CTL_IRC8MSTB)){ + while(1){ + } + } + + /* LDO output voltage high mode */ + RCU_APB1EN |= RCU_APB1EN_PMUEN; + PMU_CTL |= PMU_CTL_LDOVS; + + /* IRC8M is stable */ + /* AHB = SYSCLK */ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV1; + /* APB2 = AHB/1 */ + RCU_CFG0 |= RCU_APB2_CKAHB_DIV1; + /* APB1 = AHB/2 */ + RCU_CFG0 |= RCU_APB1_CKAHB_DIV2; + + /* CK_PLL = (CK_IRC8M/2) * 18 = 72 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= RCU_PLL_MUL18; + + /* enable PLL */ + RCU_CTL |= RCU_CTL_PLLEN; + + /* wait until PLL is stable */ + while(0U == (RCU_CTL & RCU_CTL_PLLSTB)){ + } + + /* enable the high-drive to extend the clock frequency to 120 MHz */ + PMU_CTL |= PMU_CTL_HDEN; + while(0U == (PMU_CS & PMU_CS_HDRF)){ + } + + /* select the high-drive mode */ + PMU_CTL |= PMU_CTL_HDS; + while(0U == (PMU_CS & PMU_CS_HDSRF)){ + } + + /* select PLL as system clock */ + RCU_CFG0 &= ~RCU_CFG0_SCS; + RCU_CFG0 |= RCU_CKSYSSRC_PLL; + + /* wait until PLL is selected as system clock */ + while(0U == (RCU_CFG0 & RCU_SCSS_PLL)){ + } +} + +#elif defined (__SYSTEM_CLOCK_108M_PLL_IRC8M) +/*! + \brief configure the system clock to 108M by PLL which selects IRC8M as its clock source + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_108m_irc8m(void) +{ + uint32_t timeout = 0U; + uint32_t stab_flag = 0U; + + /* enable IRC8M */ + RCU_CTL |= RCU_CTL_IRC8MEN; + + /* wait until IRC8M is stable or the startup time is longer than IRC8M_STARTUP_TIMEOUT */ + do{ + timeout++; + stab_flag = (RCU_CTL & RCU_CTL_IRC8MSTB); + }while((0U == stab_flag) && (IRC8M_STARTUP_TIMEOUT != timeout)); + + /* if fail */ + if(0U == (RCU_CTL & RCU_CTL_IRC8MSTB)){ + while(1){ + } + } + + /* LDO output voltage high mode */ + RCU_APB1EN |= RCU_APB1EN_PMUEN; + PMU_CTL |= PMU_CTL_LDOVS; + + /* IRC8M is stable */ + /* AHB = SYSCLK */ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV1; + /* APB2 = AHB/1 */ + RCU_CFG0 |= RCU_APB2_CKAHB_DIV1; + /* APB1 = AHB/2 */ + RCU_CFG0 |= RCU_APB1_CKAHB_DIV2; + + /* CK_PLL = (CK_IRC8M/2) * 27 = 108 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= RCU_PLL_MUL27; + + /* enable PLL */ + RCU_CTL |= RCU_CTL_PLLEN; + + /* wait until PLL is stable */ + while(0U == (RCU_CTL & RCU_CTL_PLLSTB)){ + } + + /* enable the high-drive to extend the clock frequency to 120 MHz */ + PMU_CTL |= PMU_CTL_HDEN; + while(0U == (PMU_CS & PMU_CS_HDRF)){ + } + + /* select the high-drive mode */ + PMU_CTL |= PMU_CTL_HDS; + while(0U == (PMU_CS & PMU_CS_HDSRF)){ + } + + /* select PLL as system clock */ + RCU_CFG0 &= ~RCU_CFG0_SCS; + RCU_CFG0 |= RCU_CKSYSSRC_PLL; + + /* wait until PLL is selected as system clock */ + while(0U == (RCU_CFG0 & RCU_SCSS_PLL)){ + } +} + +#elif defined (__SYSTEM_CLOCK_120M_PLL_IRC8M) +/*! + \brief configure the system clock to 120M by PLL which selects IRC8M as its clock source + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_120m_irc8m(void) +{ + uint32_t timeout = 0U; + uint32_t stab_flag = 0U; + + /* enable IRC8M */ + RCU_CTL |= RCU_CTL_IRC8MEN; + + /* wait until IRC8M is stable or the startup time is longer than IRC8M_STARTUP_TIMEOUT */ + do{ + timeout++; + stab_flag = (RCU_CTL & RCU_CTL_IRC8MSTB); + }while((0U == stab_flag) && (IRC8M_STARTUP_TIMEOUT != timeout)); + + /* if fail */ + if(0U == (RCU_CTL & RCU_CTL_IRC8MSTB)){ + while(1){ + } + } + + /* LDO output voltage high mode */ + RCU_APB1EN |= RCU_APB1EN_PMUEN; + PMU_CTL |= PMU_CTL_LDOVS; + + /* IRC8M is stable */ + /* AHB = SYSCLK */ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV1; + /* APB2 = AHB/1 */ + RCU_CFG0 |= RCU_APB2_CKAHB_DIV1; + /* APB1 = AHB/2 */ + RCU_CFG0 |= RCU_APB1_CKAHB_DIV2; + + /* CK_PLL = (CK_IRC8M/2) * 30 = 120 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= RCU_PLL_MUL30; + + /* enable PLL */ + RCU_CTL |= RCU_CTL_PLLEN; + + /* wait until PLL is stable */ + while(0U == (RCU_CTL & RCU_CTL_PLLSTB)){ + } + + /* enable the high-drive to extend the clock frequency to 120 MHz */ + PMU_CTL |= PMU_CTL_HDEN; + while(0U == (PMU_CS & PMU_CS_HDRF)){ + } + + /* select the high-drive mode */ + PMU_CTL |= PMU_CTL_HDS; + while(0U == (PMU_CS & PMU_CS_HDSRF)){ + } + + /* select PLL as system clock */ + RCU_CFG0 &= ~RCU_CFG0_SCS; + RCU_CFG0 |= RCU_CKSYSSRC_PLL; + + /* wait until PLL is selected as system clock */ + while(0U == (RCU_CFG0 & RCU_SCSS_PLL)){ + } +} + +#elif defined (__SYSTEM_CLOCK_HXTAL) +/*! + \brief configure the system clock to HXTAL + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_hxtal(void) +{ + uint32_t timeout = 0U; + uint32_t stab_flag = 0U; + + /* enable HXTAL */ + RCU_CTL |= RCU_CTL_HXTALEN; + + /* wait until HXTAL is stable or the startup time is longer than HXTAL_STARTUP_TIMEOUT */ + do{ + timeout++; + stab_flag = (RCU_CTL & RCU_CTL_HXTALSTB); + }while((0U == stab_flag) && (HXTAL_STARTUP_TIMEOUT != timeout)); + + /* if fail */ + if(0U == (RCU_CTL & RCU_CTL_HXTALSTB)){ + while(1){ + } + } + + /* AHB = SYSCLK */ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV1; + /* APB2 = AHB/1 */ + RCU_CFG0 |= RCU_APB2_CKAHB_DIV1; + /* APB1 = AHB/2 */ + RCU_CFG0 |= RCU_APB1_CKAHB_DIV2; + + /* select HXTAL as system clock */ + RCU_CFG0 &= ~RCU_CFG0_SCS; + RCU_CFG0 |= RCU_CKSYSSRC_HXTAL; + + /* wait until HXTAL is selected as system clock */ + while(0 == (RCU_CFG0 & RCU_SCSS_HXTAL)){ + } +} + +#elif defined (__SYSTEM_CLOCK_48M_PLL_HXTAL) +/*! + \brief configure the system clock to 48M by PLL which selects HXTAL(8M) as its clock source + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_48m_hxtal(void) +{ + uint32_t timeout = 0U; + uint32_t stab_flag = 0U; + + /* enable HXTAL */ + RCU_CTL |= RCU_CTL_HXTALEN; + + /* wait until HXTAL is stable or the startup time is longer than HXTAL_STARTUP_TIMEOUT */ + do{ + timeout++; + stab_flag = (RCU_CTL & RCU_CTL_HXTALSTB); + }while((0U == stab_flag) && (HXTAL_STARTUP_TIMEOUT != timeout)); + + /* if fail */ + if(0U == (RCU_CTL & RCU_CTL_HXTALSTB)){ + while(1){ + } + } + + RCU_APB1EN |= RCU_APB1EN_PMUEN; + PMU_CTL |= PMU_CTL_LDOVS; + + /* HXTAL is stable */ + /* AHB = SYSCLK */ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV1; + /* APB2 = AHB/1 */ + RCU_CFG0 |= RCU_APB2_CKAHB_DIV1; + /* APB1 = AHB/2 */ + RCU_CFG0 |= RCU_APB1_CKAHB_DIV2; + +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + /* select HXTAL/2 as clock source */ + RCU_CFG0 &= ~(RCU_CFG0_PLLSEL | RCU_CFG0_PREDV0); + RCU_CFG0 |= (RCU_PLLSRC_HXTAL_IRC48M | RCU_CFG0_PREDV0); + + /* CK_PLL = (CK_HXTAL/2) * 12 = 48 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= RCU_PLL_MUL12; + +#elif defined(GD32F30X_CL) + /* CK_PLL = (CK_PREDIV0) * 12 = 48 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= (RCU_PLLSRC_HXTAL_IRC48M | RCU_PLL_MUL12); + + /* CK_PREDIV0 = (CK_HXTAL)/5 *8 /10 = 4 MHz */ + RCU_CFG1 &= ~(RCU_CFG1_PLLPRESEL | RCU_CFG1_PREDV0SEL | RCU_CFG1_PLL1MF | RCU_CFG1_PREDV1 | RCU_CFG1_PREDV0); + RCU_CFG1 |= (RCU_PLLPRESRC_HXTAL | RCU_PREDV0SRC_CKPLL1 | RCU_PLL1_MUL8 | RCU_PREDV1_DIV5 | RCU_PREDV0_DIV10); + + /* enable PLL1 */ + RCU_CTL |= RCU_CTL_PLL1EN; + /* wait till PLL1 is ready */ + while((RCU_CTL & RCU_CTL_PLL1STB) == 0){ + } +#endif /* GD32F30X_HD and GD32F30X_XD */ + + /* enable PLL */ + RCU_CTL |= RCU_CTL_PLLEN; + + /* wait until PLL is stable */ + while(0U == (RCU_CTL & RCU_CTL_PLLSTB)){ + } + + /* enable the high-drive to extend the clock frequency to 120 MHz */ + PMU_CTL |= PMU_CTL_HDEN; + while(0U == (PMU_CS & PMU_CS_HDRF)){ + } + + /* select the high-drive mode */ + PMU_CTL |= PMU_CTL_HDS; + while(0U == (PMU_CS & PMU_CS_HDSRF)){ + } + + /* select PLL as system clock */ + RCU_CFG0 &= ~RCU_CFG0_SCS; + RCU_CFG0 |= RCU_CKSYSSRC_PLL; + + /* wait until PLL is selected as system clock */ + while(0U == (RCU_CFG0 & RCU_SCSS_PLL)){ + } +} +#elif defined (__SYSTEM_CLOCK_72M_PLL_HXTAL) +/*! + \brief configure the system clock to 72M by PLL which selects HXTAL(8M) as its clock source + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_72m_hxtal(void) +{ + uint32_t timeout = 0U; + uint32_t stab_flag = 0U; + + /* enable HXTAL */ + RCU_CTL |= RCU_CTL_HXTALEN; + + /* wait until HXTAL is stable or the startup time is longer than HXTAL_STARTUP_TIMEOUT */ + do{ + timeout++; + stab_flag = (RCU_CTL & RCU_CTL_HXTALSTB); + }while((0U == stab_flag) && (HXTAL_STARTUP_TIMEOUT != timeout)); + + /* if fail */ + if(0U == (RCU_CTL & RCU_CTL_HXTALSTB)){ + while(1){ + } + } + + RCU_APB1EN |= RCU_APB1EN_PMUEN; + PMU_CTL |= PMU_CTL_LDOVS; + + /* HXTAL is stable */ + /* AHB = SYSCLK */ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV1; + /* APB2 = AHB/1 */ + RCU_CFG0 |= RCU_APB2_CKAHB_DIV1; + /* APB1 = AHB/2 */ + RCU_CFG0 |= RCU_APB1_CKAHB_DIV2; + +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + /* select HXTAL/2 as clock source */ + RCU_CFG0 &= ~(RCU_CFG0_PLLSEL | RCU_CFG0_PREDV0); + RCU_CFG0 |= (RCU_PLLSRC_HXTAL_IRC48M | RCU_CFG0_PREDV0); + + /* CK_PLL = (CK_HXTAL/2) * 18 = 72 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= RCU_PLL_MUL18; + +#elif defined(GD32F30X_CL) + /* CK_PLL = (CK_PREDIV0) * 18 = 72 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= (RCU_PLLSRC_HXTAL_IRC48M | RCU_PLL_MUL18); + + /* CK_PREDIV0 = (CK_HXTAL)/5 *8 /10 = 4 MHz */ + RCU_CFG1 &= ~(RCU_CFG1_PLLPRESEL | RCU_CFG1_PREDV0SEL | RCU_CFG1_PLL1MF | RCU_CFG1_PREDV1 | RCU_CFG1_PREDV0); + RCU_CFG1 |= (RCU_PLLPRESRC_HXTAL | RCU_PREDV0SRC_CKPLL1 | RCU_PLL1_MUL8 | RCU_PREDV1_DIV5 | RCU_PREDV0_DIV10); + + /* enable PLL1 */ + RCU_CTL |= RCU_CTL_PLL1EN; + /* wait till PLL1 is ready */ + while((RCU_CTL & RCU_CTL_PLL1STB) == 0){ + } +#endif /* GD32F30X_HD and GD32F30X_XD */ + + /* enable PLL */ + RCU_CTL |= RCU_CTL_PLLEN; + + /* wait until PLL is stable */ + while(0U == (RCU_CTL & RCU_CTL_PLLSTB)){ + } + + /* enable the high-drive to extend the clock frequency to 120 MHz */ + PMU_CTL |= PMU_CTL_HDEN; + while(0U == (PMU_CS & PMU_CS_HDRF)){ + } + + /* select the high-drive mode */ + PMU_CTL |= PMU_CTL_HDS; + while(0U == (PMU_CS & PMU_CS_HDSRF)){ + } + + /* select PLL as system clock */ + RCU_CFG0 &= ~RCU_CFG0_SCS; + RCU_CFG0 |= RCU_CKSYSSRC_PLL; + + /* wait until PLL is selected as system clock */ + while(0U == (RCU_CFG0 & RCU_SCSS_PLL)){ + } +} + +#elif defined (__SYSTEM_CLOCK_108M_PLL_HXTAL) +/*! + \brief configure the system clock to 108M by PLL which selects HXTAL(8M) as its clock source + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_108m_hxtal(void) +{ + uint32_t timeout = 0U; + uint32_t stab_flag = 0U; + + /* enable HXTAL */ + RCU_CTL |= RCU_CTL_HXTALEN; + + /* wait until HXTAL is stable or the startup time is longer than HXTAL_STARTUP_TIMEOUT */ + do{ + timeout++; + stab_flag = (RCU_CTL & RCU_CTL_HXTALSTB); + }while((0U == stab_flag) && (HXTAL_STARTUP_TIMEOUT != timeout)); + + /* if fail */ + if(0U == (RCU_CTL & RCU_CTL_HXTALSTB)){ + while(1){ + } + } + + RCU_APB1EN |= RCU_APB1EN_PMUEN; + PMU_CTL |= PMU_CTL_LDOVS; + + /* HXTAL is stable */ + /* AHB = SYSCLK */ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV1; + /* APB2 = AHB/1 */ + RCU_CFG0 |= RCU_APB2_CKAHB_DIV1; + /* APB1 = AHB/2 */ + RCU_CFG0 |= RCU_APB1_CKAHB_DIV2; + +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + /* select HXTAL/2 as clock source */ + RCU_CFG0 &= ~(RCU_CFG0_PLLSEL | RCU_CFG0_PREDV0); + RCU_CFG0 |= (RCU_PLLSRC_HXTAL_IRC48M | RCU_CFG0_PREDV0); + + /* CK_PLL = (CK_HXTAL/2) * 27 = 108 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= RCU_PLL_MUL27; + +#elif defined(GD32F30X_CL) + /* CK_PLL = (CK_PREDIV0) * 27 = 108 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= (RCU_PLLSRC_HXTAL_IRC48M | RCU_PLL_MUL27); + + /* CK_PREDIV0 = (CK_HXTAL)/5 *8 /10 = 4 MHz */ + RCU_CFG1 &= ~(RCU_CFG1_PLLPRESEL | RCU_CFG1_PREDV0SEL | RCU_CFG1_PLL1MF | RCU_CFG1_PREDV1 | RCU_CFG1_PREDV0); + RCU_CFG1 |= (RCU_PLLPRESRC_HXTAL | RCU_PREDV0SRC_CKPLL1 | RCU_PLL1_MUL8 | RCU_PREDV1_DIV5 | RCU_PREDV0_DIV10); + + /* enable PLL1 */ + RCU_CTL |= RCU_CTL_PLL1EN; + /* wait till PLL1 is ready */ + while((RCU_CTL & RCU_CTL_PLL1STB) == 0){ + } +#endif /* GD32F30X_HD and GD32F30X_XD */ + + /* enable PLL */ + RCU_CTL |= RCU_CTL_PLLEN; + + /* wait until PLL is stable */ + while(0U == (RCU_CTL & RCU_CTL_PLLSTB)){ + } + + /* enable the high-drive to extend the clock frequency to 120 MHz */ + PMU_CTL |= PMU_CTL_HDEN; + while(0U == (PMU_CS & PMU_CS_HDRF)){ + } + + /* select the high-drive mode */ + PMU_CTL |= PMU_CTL_HDS; + while(0U == (PMU_CS & PMU_CS_HDSRF)){ + } + + /* select PLL as system clock */ + RCU_CFG0 &= ~RCU_CFG0_SCS; + RCU_CFG0 |= RCU_CKSYSSRC_PLL; + + /* wait until PLL is selected as system clock */ + while(0U == (RCU_CFG0 & RCU_SCSS_PLL)){ + } +} + +#elif defined (__SYSTEM_CLOCK_120M_PLL_HXTAL) +/*! + \brief configure the system clock to 120M by PLL which selects HXTAL(8M) as its clock source + \param[in] none + \param[out] none + \retval none +*/ +static void system_clock_120m_hxtal(void) +{ + uint32_t timeout = 0U; + uint32_t stab_flag = 0U; + + /* enable HXTAL */ + RCU_CTL |= RCU_CTL_HXTALEN; + + /* wait until HXTAL is stable or the startup time is longer than HXTAL_STARTUP_TIMEOUT */ + do{ + timeout++; + stab_flag = (RCU_CTL & RCU_CTL_HXTALSTB); + }while((0U == stab_flag) && (HXTAL_STARTUP_TIMEOUT != timeout)); + + /* if fail */ + if(0U == (RCU_CTL & RCU_CTL_HXTALSTB)){ + while(1){ + } + } + + RCU_APB1EN |= RCU_APB1EN_PMUEN; + PMU_CTL |= PMU_CTL_LDOVS; + + /* HXTAL is stable */ + /* AHB = SYSCLK */ + RCU_CFG0 |= RCU_AHB_CKSYS_DIV1; + /* APB2 = AHB/1 */ + RCU_CFG0 |= RCU_APB2_CKAHB_DIV1; + /* APB1 = AHB/2 */ + RCU_CFG0 |= RCU_APB1_CKAHB_DIV2; + +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + /* select HXTAL/2 as clock source */ + RCU_CFG0 &= ~(RCU_CFG0_PLLSEL | RCU_CFG0_PREDV0); + RCU_CFG0 |= (RCU_PLLSRC_HXTAL_IRC48M | RCU_CFG0_PREDV0); + + /* CK_PLL = (CK_HXTAL/2) * 30 = 120 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= RCU_PLL_MUL30; + +#elif defined(GD32F30X_CL) + /* CK_PLL = (CK_PREDIV0) * 30 = 120 MHz */ + RCU_CFG0 &= ~(RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + RCU_CFG0 |= (RCU_PLLSRC_HXTAL_IRC48M | RCU_PLL_MUL30); + + /* CK_PREDIV0 = (CK_HXTAL)/5 *8 /10 = 4 MHz */ + RCU_CFG1 &= ~(RCU_CFG1_PLLPRESEL | RCU_CFG1_PREDV0SEL | RCU_CFG1_PLL1MF | RCU_CFG1_PREDV1 | RCU_CFG1_PREDV0); + RCU_CFG1 |= (RCU_PLLPRESRC_HXTAL | RCU_PREDV0SRC_CKPLL1 | RCU_PLL1_MUL8 | RCU_PREDV1_DIV5 | RCU_PREDV0_DIV10); + + /* enable PLL1 */ + RCU_CTL |= RCU_CTL_PLL1EN; + /* wait till PLL1 is ready */ + while((RCU_CTL & RCU_CTL_PLL1STB) == 0U){ + } +#endif /* GD32F30X_HD and GD32F30X_XD */ + + /* enable PLL */ + RCU_CTL |= RCU_CTL_PLLEN; + + /* wait until PLL is stable */ + while(0U == (RCU_CTL & RCU_CTL_PLLSTB)){ + } + + /* enable the high-drive to extend the clock frequency to 120 MHz */ + PMU_CTL |= PMU_CTL_HDEN; + while(0U == (PMU_CS & PMU_CS_HDRF)){ + } + + /* select the high-drive mode */ + PMU_CTL |= PMU_CTL_HDS; + while(0U == (PMU_CS & PMU_CS_HDSRF)){ + } + + /* select PLL as system clock */ + RCU_CFG0 &= ~RCU_CFG0_SCS; + RCU_CFG0 |= RCU_CKSYSSRC_PLL; + + /* wait until PLL is selected as system clock */ + while(0U == (RCU_CFG0 & RCU_SCSS_PLL)){ + } +} +#endif /* __SYSTEM_CLOCK_IRC8M */ + +/*! + \brief update the SystemCoreClock with current core clock retrieved from cpu registers + \param[in] none + \param[out] none + \retval none +*/ +void RCU_GetClocksFreq(RCC_ClocksTypeDef* RCC_Clocks) +{ + uint32_t sws; + uint32_t pllsel, predv0sel, pllmf,ck_src, idx, clk_exp; + uint32_t predv0, predv1, pll1mf; + + /* exponent of AHB, APB1 and APB2 clock divider */ + uint8_t ahb_exp[16] = {0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 6, 7, 8, 9}; + uint8_t apb1_exp[8] = {0, 0, 0, 0, 1, 2, 3, 4}; + uint8_t apb2_exp[8] = {0, 0, 0, 0, 1, 2, 3, 4}; + + sws = GET_BITS(RCU_CFG0, 2, 3); + switch(sws){ + /* IRC8M is selected as CK_SYS */ + case SEL_IRC8M: + RCC_Clocks->SYSCLK_Frequency = IRC8M_VALUE; + break; + /* HXTAL is selected as CK_SYS */ + case SEL_HXTAL: + RCC_Clocks->SYSCLK_Frequency = HXTAL_VALUE; + break; + /* PLL is selected as CK_SYS */ + case SEL_PLL: + /* PLL clock source selection HXTAL or IRC8M/2 */ + pllsel = (RCU_CFG0 & RCU_CFG0_PLLSEL); + + if(RCU_PLLSRC_HXTAL_IRC48M == pllsel) { + /* PLL clock source is HXTAL */ + ck_src = HXTAL_VALUE; + + predv0sel = (RCU_CFG1 & RCU_CFG1_PREDV0SEL); + /* source clock use PLL1 */ + if(RCU_PREDV0SRC_CKPLL1 == predv0sel){ + predv1 = (uint32_t)((RCU_CFG1 & RCU_CFG1_PREDV1) >> 4) + 1U; + pll1mf = (uint32_t)((RCU_CFG1 & RCU_CFG1_PLL1MF) >> 8) + 2U; + + if(17U == pll1mf){ + pll1mf = 20U; + } + ck_src = (ck_src/predv1)*pll1mf; + } + predv0 = (RCU_CFG1 & RCU_CFG1_PREDV0) + 1U; + ck_src /= predv0; + }else{ + /* PLL clock source is IRC8M/2 */ + ck_src = IRC8M_VALUE/2U; + } + + /* PLL multiplication factor */ + pllmf = GET_BITS(RCU_CFG0, 18, 21); + if((RCU_CFG0 & RCU_CFG0_PLLMF_4)){ + pllmf |= 0x10U; + } + + if(13U == pllmf){ + /* PLL source clock multiply by 6.5 */ + RCC_Clocks->SYSCLK_Frequency = ck_src*6U + ck_src/2U; + }else{ + if(pllmf < 15U){ + pllmf += 2U; + }else{ + pllmf += 1U; + } + RCC_Clocks->SYSCLK_Frequency = ck_src*pllmf; + } + break; + /* IRC8M is selected as CK_SYS */ + default: + RCC_Clocks->SYSCLK_Frequency = IRC8M_VALUE; + break; + } + + /* calculate AHB clock frequency */ + idx = GET_BITS(RCU_CFG0, 4, 7); + clk_exp = ahb_exp[idx]; + RCC_Clocks->HCLK_Frequency = RCC_Clocks->SYSCLK_Frequency >> clk_exp; + + /* calculate APB1 clock frequency */ + idx = GET_BITS(RCU_CFG0, 8, 10); + clk_exp = apb1_exp[idx]; + RCC_Clocks->PCLK1_Frequency = RCC_Clocks->HCLK_Frequency >> clk_exp; + + /* calculate APB2 clock frequency */ + idx = GET_BITS(RCU_CFG0, 11, 13); + clk_exp = apb2_exp[idx]; + RCC_Clocks->PCLK2_Frequency = RCC_Clocks->HCLK_Frequency >> clk_exp; +} diff --git a/TFT/src/Libraries/cmsis/gd32f30x/system_gd32f30x.h b/TFT/src/Libraries/cmsis/gd32f30x/system_gd32f30x.h new file mode 100644 index 0000000000..a179cef766 --- /dev/null +++ b/TFT/src/Libraries/cmsis/gd32f30x/system_gd32f30x.h @@ -0,0 +1,67 @@ +/*! + \file system_gd32f30x.h + \brief CMSIS Cortex-M4 Device Peripheral Access Layer Header File for + GD32F30x Device Series +*/ + +/* Copyright (c) 2012 ARM LIMITED + + All rights reserved. + Redistribution and use in source and binary forms, with or without + modification, are permitted provided that the following conditions are met: + - Redistributions of source code must retain the above copyright + notice, this list of conditions and the following disclaimer. + - Redistributions in binary form must reproduce the above copyright + notice, this list of conditions and the following disclaimer in the + documentation and/or other materials provided with the distribution. + - Neither the name of ARM nor the names of its contributors may be used + to endorse or promote products derived from this software without + specific prior written permission. + * + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" + AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE + ARE DISCLAIMED. IN NO EVENT SHALL COPYRIGHT HOLDERS AND CONTRIBUTORS BE + LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF + SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) + ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + POSSIBILITY OF SUCH DAMAGE. + ---------------------------------------------------------------------------*/ +/* This file refers the CMSIS standard, some adjustments are made according to GigaDevice chips */ + +#ifndef SYSTEM_GD32F30X_H +#define SYSTEM_GD32F30X_H + +#ifdef __cplusplus +extern "C" { +#endif + +#include + +typedef struct +{ + uint32_t SYSCLK_Frequency; /*!< SYSCLK clock frequency expressed in Hz */ + uint32_t HCLK_Frequency; /*!< HCLK clock frequency expressed in Hz */ + uint32_t PCLK1_Frequency; /*!< PCLK1 clock frequency expressed in Hz */ + uint32_t PCLK2_Frequency; /*!< PCLK2 clock frequency expressed in Hz */ +}RCC_ClocksTypeDef; + +/* system clock frequency (core clock) */ +//extern uint32_t SystemCoreClock; + +/* function declarations */ +/* initialize the system and update the SystemCoreClock variable */ +extern void SystemClockInit (void); +/* update the SystemCoreClock with current core clock retrieved from cpu registers */ +//extern void SystemCoreClockUpdate (void); + +void RCU_GetClocksFreq(RCC_ClocksTypeDef* RCC_Clocks); + +#ifdef __cplusplus +} +#endif + +#endif /* SYSTEM_GD32F30X_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/gd32f30x_libopt.h b/TFT/src/Libraries/fwlib/gd32f30x/gd32f30x_libopt.h new file mode 100644 index 0000000000..e295a8d820 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/gd32f30x_libopt.h @@ -0,0 +1,66 @@ +/*! + \file gd32f30x_libopt.h + \brief library optional for gd32f30x + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_LIBOPT_H +#define GD32F30X_LIBOPT_H + +#include "gd32f30x_rcu.h" +#include "gd32f30x_adc.h" +#include "gd32f30x_can.h" +#include "gd32f30x_crc.h" +#include "gd32f30x_ctc.h" +#include "gd32f30x_dac.h" +#include "gd32f30x_dbg.h" +#include "gd32f30x_dma.h" +#include "gd32f30x_exti.h" +#include "gd32f30x_fmc.h" +#include "gd32f30x_fwdgt.h" +#include "gd32f30x_gpio.h" +#include "gd32f30x_i2c.h" +#include "gd32f30x_pmu.h" +#include "gd32f30x_bkp.h" +#include "gd32f30x_rtc.h" +#include "gd32f30x_sdio.h" +#include "gd32f30x_spi.h" +#include "gd32f30x_timer.h" +#include "gd32f30x_usart.h" +#include "gd32f30x_wwdgt.h" +#include "gd32f30x_misc.h" +#include "gd32f30x_enet.h" +#include "gd32f30x_exmc.h" + +#endif /* GD32F30X_LIBOPT_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_adc.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_adc.h new file mode 100644 index 0000000000..ee9638ceaf --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_adc.h @@ -0,0 +1,403 @@ +/*! + \file gd32f30x_adc.h + \brief definitions for the ADC + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_ADC_H +#define GD32F30X_ADC_H + +#include "gd32f30x.h" + +/* ADC definitions */ +#define ADC0 ADC_BASE +#define ADC1 (ADC_BASE + 0x400U) +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define ADC2 (ADC_BASE + 0x1800U) +#endif + +/* registers definitions */ +#define ADC_STAT(adcx) REG32((adcx) + 0x00U) /*!< ADC status register */ +#define ADC_CTL0(adcx) REG32((adcx) + 0x04U) /*!< ADC control register 0 */ +#define ADC_CTL1(adcx) REG32((adcx) + 0x08U) /*!< ADC control register 1 */ +#define ADC_SAMPT0(adcx) REG32((adcx) + 0x0CU) /*!< ADC sampling time register 0 */ +#define ADC_SAMPT1(adcx) REG32((adcx) + 0x10U) /*!< ADC sampling time register 1 */ +#define ADC_IOFF0(adcx) REG32((adcx) + 0x14U) /*!< ADC inserted channel data offset register 0 */ +#define ADC_IOFF1(adcx) REG32((adcx) + 0x18U) /*!< ADC inserted channel data offset register 1 */ +#define ADC_IOFF2(adcx) REG32((adcx) + 0x1CU) /*!< ADC inserted channel data offset register 2 */ +#define ADC_IOFF3(adcx) REG32((adcx) + 0x20U) /*!< ADC inserted channel data offset register 3 */ +#define ADC_WDHT(adcx) REG32((adcx) + 0x24U) /*!< ADC watchdog high threshold register */ +#define ADC_WDLT(adcx) REG32((adcx) + 0x28U) /*!< ADC watchdog low threshold register */ +#define ADC_RSQ0(adcx) REG32((adcx) + 0x2CU) /*!< ADC regular sequence register 0 */ +#define ADC_RSQ1(adcx) REG32((adcx) + 0x30U) /*!< ADC regular sequence register 1 */ +#define ADC_RSQ2(adcx) REG32((adcx) + 0x34U) /*!< ADC regular sequence register 2 */ +#define ADC_ISQ(adcx) REG32((adcx) + 0x38U) /*!< ADC inserted sequence register */ +#define ADC_IDATA0(adcx) REG32((adcx) + 0x3CU) /*!< ADC inserted data register 0 */ +#define ADC_IDATA1(adcx) REG32((adcx) + 0x40U) /*!< ADC inserted data register 1 */ +#define ADC_IDATA2(adcx) REG32((adcx) + 0x44U) /*!< ADC inserted data register 2 */ +#define ADC_IDATA3(adcx) REG32((adcx) + 0x48U) /*!< ADC inserted data register 3 */ +#define ADC_RDATA(adcx) REG32((adcx) + 0x4CU) /*!< ADC regular data register */ +#define ADC_OVSAMPCTL(adcx) REG32((adcx) + 0x80U) /*!< ADC oversampling control register */ + +/* bits definitions */ +/* ADC_STAT */ +#define ADC_STAT_WDE BIT(0) /*!< analog watchdog event flag */ +#define ADC_STAT_EOC BIT(1) /*!< end of conversion */ +#define ADC_STAT_EOIC BIT(2) /*!< inserted channel end of conversion */ +#define ADC_STAT_STIC BIT(3) /*!< inserted channel start flag */ +#define ADC_STAT_STRC BIT(4) /*!< regular channel start flag */ + +/* ADC_CTL0 */ +#define ADC_CTL0_WDCHSEL BITS(0,4) /*!< analog watchdog channel select bits */ +#define ADC_CTL0_EOCIE BIT(5) /*!< interrupt enable for EOC */ +#define ADC_CTL0_WDEIE BIT(6) /*!< analog watchdog interrupt enable */ +#define ADC_CTL0_EOICIE BIT(7) /*!< interrupt enable for inserted channels */ +#define ADC_CTL0_SM BIT(8) /*!< scan mode */ +#define ADC_CTL0_WDSC BIT(9) /*!< when in scan mode, analog watchdog is effective on a single channel */ +#define ADC_CTL0_ICA BIT(10) /*!< automatic inserted group conversion */ +#define ADC_CTL0_DISRC BIT(11) /*!< discontinuous mode on regular channels */ +#define ADC_CTL0_DISIC BIT(12) /*!< discontinuous mode on inserted channels */ +#define ADC_CTL0_DISNUM BITS(13,15) /*!< discontinuous mode channel count */ +#define ADC_CTL0_SYNCM BITS(16,19) /*!< sync mode selection */ +#define ADC_CTL0_IWDEN BIT(22) /*!< analog watchdog enable on inserted channels */ +#define ADC_CTL0_RWDEN BIT(23) /*!< analog watchdog enable on regular channels */ +#define ADC_CTL0_DRES BITS(24,25) /*!< ADC data resolution */ + +/* ADC_CTL1 */ +#define ADC_CTL1_ADCON BIT(0) /*!< ADC converter on */ +#define ADC_CTL1_CTN BIT(1) /*!< continuous conversion */ +#define ADC_CTL1_CLB BIT(2) /*!< ADC calibration */ +#define ADC_CTL1_RSTCLB BIT(3) /*!< reset calibration */ +#define ADC_CTL1_DMA BIT(8) /*!< direct memory access mode */ +#define ADC_CTL1_DAL BIT(11) /*!< data alignment */ +#define ADC_CTL1_ETSIC BITS(12,14) /*!< external trigger select for inserted channel */ +#define ADC_CTL1_ETEIC BIT(15) /*!< external trigger enable for inserted channel */ +#define ADC_CTL1_ETSRC BITS(17,19) /*!< external trigger select for regular channel */ +#define ADC_CTL1_ETERC BIT(20) /*!< external trigger conversion mode for inserted channels */ +#define ADC_CTL1_SWICST BIT(21) /*!< start on inserted channel */ +#define ADC_CTL1_SWRCST BIT(22) /*!< start on regular channel */ +#define ADC_CTL1_TSVREN BIT(23) /*!< channel 16 and 17 enable of ADC0 */ + +/* ADC_SAMPTx x=0..1 */ +#define ADC_SAMPTX_SPTN BITS(0,2) /*!< channel x sample time selection */ + +/* ADC_IOFFx x=0..3 */ +#define ADC_IOFFX_IOFF BITS(0,11) /*!< data offset for inserted channel x */ + +/* ADC_WDHT */ +#define ADC_WDHT_WDHT BITS(0,11) /*!< analog watchdog high threshold */ + +/* ADC_WDLT */ +#define ADC_WDLT_WDLT BITS(0,11) /*!< analog watchdog low threshold */ + +/* ADC_RSQx */ +#define ADC_RSQX_RSQN BITS(0,4) /*!< x conversion in regular sequence */ +#define ADC_RSQ0_RL BITS(20,23) /*!< regular channel sequence length */ + +/* ADC_ISQ */ +#define ADC_ISQ_ISQN BITS(0,4) /*!< x conversion in regular sequence */ +#define ADC_ISQ_IL BITS(20,21) /*!< inserted sequence length */ + +/* ADC_IDATAx x=0..3*/ +#define ADC_IDATAX_IDATAN BITS(0,15) /*!< inserted data x */ + +/* ADC_RDATA */ +#define ADC_RDATA_RDATA BITS(0,15) /*!< regular data */ +#define ADC_RDATA_ADC1RDTR BITS(16,31) /*!< ADC1 regular channel data */ + +/* ADC_OVSAMPCTL */ +#define ADC_OVSAMPCTL_OVSEN BIT(0) /*!< oversampling enable */ +#define ADC_OVSAMPCTL_OVSR BITS(2,4) /*!< oversampling ratio */ +#define ADC_OVSAMPCTL_OVSS BITS(5,8) /*!< oversampling shift */ +#define ADC_OVSAMPCTL_TOVS BIT(9) /*!< triggered oversampling */ +#define ADC_OVSAMPCTL_DRES BITS(12,13) /*!< oversampling shift */ + + +/* constants definitions */ +/* ADC status flag */ +#define ADC_FLAG_WDE ADC_STAT_WDE /*!< analog watchdog event flag */ +#define ADC_FLAG_EOC ADC_STAT_EOC /*!< end of conversion */ +#define ADC_FLAG_EOIC ADC_STAT_EOIC /*!< inserted channel end of conversion */ +#define ADC_FLAG_STIC ADC_STAT_STIC /*!< inserted channel start flag */ +#define ADC_FLAG_STRC ADC_STAT_STRC /*!< regular channel start flag */ + +/* adc_ctl0 register value */ +#define CTL0_DISNUM(regval) (BITS(13,15) & ((uint32_t)(regval) << 13)) /*!< write value to ADC_CTL0_DISNUM bit field */ + +/* ADC special function definitions */ +#define ADC_SCAN_MODE ADC_CTL0_SM /*!< scan mode */ +#define ADC_INSERTED_CHANNEL_AUTO ADC_CTL0_ICA /*!< inserted channel group convert automatically */ +#define ADC_CONTINUOUS_MODE ADC_CTL1_CTN /*!< continuous mode */ + +/* ADC synchronization mode */ +#define CTL0_SYNCM(regval) (BITS(16,19) & ((uint32_t)(regval) << 16)) /*!< write value to ADC_CTL0_SYNCM bit field */ +#define ADC_MODE_FREE CTL0_SYNCM(0) /*!< all the ADCs work independently */ +#define ADC_DAUL_REGULAL_PARALLEL_INSERTED_PARALLEL CTL0_SYNCM(1) /*!< ADC0 and ADC1 work in combined regular parallel + inserted parallel mode */ +#define ADC_DAUL_REGULAL_PARALLEL_INSERTED_ROTATION CTL0_SYNCM(2) /*!< ADC0 and ADC1 work in combined regular parallel + trigger rotation mode */ +#define ADC_DAUL_INSERTED_PARALLEL_REGULAL_FOLLOWUP_FAST CTL0_SYNCM(3) /*!< ADC0 and ADC1 work in combined inserted parallel + follow-up fast mode */ +#define ADC_DAUL_INSERTED_PARALLEL_REGULAL_FOLLOWUP_SLOW CTL0_SYNCM(4) /*!< ADC0 and ADC1 work in combined inserted parallel + follow-up slow mode */ +#define ADC_DAUL_INSERTED_PARALLEL CTL0_SYNCM(5) /*!< ADC0 and ADC1 work in inserted parallel mode only */ +#define ADC_DAUL_REGULAL_PARALLEL CTL0_SYNCM(6) /*!< ADC0 and ADC1 work in regular parallel mode only */ +#define ADC_DAUL_REGULAL_FOLLOWUP_FAST CTL0_SYNCM(7) /*!< ADC0 and ADC1 work in follow-up fast mode only */ +#define ADC_DAUL_REGULAL_FOLLOWUP_SLOW CTL0_SYNCM(8) /*!< ADC0 and ADC1 work in follow-up slow mode only */ +#define ADC_DAUL_INSERTED_TRRIGGER_ROTATION CTL0_SYNCM(9) /*!< ADC0 and ADC1 work in trigger rotation mode only */ + +/* ADC data alignment */ +#define ADC_DATAALIGN_RIGHT ((uint32_t)0x00000000U) /*!< LSB alignment */ +#define ADC_DATAALIGN_LEFT ADC_CTL1_DAL /*!< MSB alignment */ + +/* ADC external trigger select for regular channel */ +#define CTL1_ETSRC(regval) (BITS(17,19) & ((uint32_t)(regval) << 17)) /*!< write value to ADC_CTL1_ETSRC bit field */ +#define ADC0_1_EXTTRIG_REGULAR_T0_CH0 CTL1_ETSRC(0) /*!< timer 0 CC0 event select */ +#define ADC0_1_EXTTRIG_REGULAR_T0_CH1 CTL1_ETSRC(1) /*!< timer 0 CC1 event select */ +#define ADC0_1_EXTTRIG_REGULAR_T0_CH2 CTL1_ETSRC(2) /*!< timer 0 CC2 event select */ +#define ADC0_1_EXTTRIG_REGULAR_T1_CH1 CTL1_ETSRC(3) /*!< timer 1 CC1 event select */ +#define ADC0_1_EXTTRIG_REGULAR_T2_TRGO CTL1_ETSRC(4) /*!< timer 2 TRGO event select */ +#define ADC0_1_EXTTRIG_REGULAR_T3_CH3 CTL1_ETSRC(5) /*!< timer 3 CC3 event select */ +#define ADC0_1_EXTTRIG_REGULAR_T7_TRGO CTL1_ETSRC(6) /*!< timer 7 TRGO event select */ +#define ADC0_1_EXTTRIG_REGULAR_EXTI_11 CTL1_ETSRC(6) /*!< external interrupt line 11 */ +#define ADC0_1_2_EXTTRIG_REGULAR_NONE CTL1_ETSRC(7) /*!< software trigger */ + +#define ADC2_EXTTRIG_REGULAR_T2_CH0 CTL1_ETSRC(0) /*!< timer 2 CC0 event select */ +#define ADC2_EXTTRIG_REGULAR_T1_CH2 CTL1_ETSRC(1) /*!< timer 1 CC2 event select */ +#define ADC2_EXTTRIG_REGULAR_T0_CH2 CTL1_ETSRC(2) /*!< timer 0 CC2 event select */ +#define ADC2_EXTTRIG_REGULAR_T7_CH0 CTL1_ETSRC(3) /*!< timer 7 CC0 event select */ +#define ADC2_EXTTRIG_REGULAR_T7_TRGO CTL1_ETSRC(4) /*!< timer 7 TRGO event select */ +#define ADC2_EXTTRIG_REGULAR_T4_CH0 CTL1_ETSRC(5) /*!< timer 4 CC0 event select */ +#define ADC2_EXTTRIG_REGULAR_T4_CH2 CTL1_ETSRC(6) /*!< timer 4 CC2 event select */ + +/* ADC external trigger select for inserted channel */ +#define CTL1_ETSIC(regval) (BITS(12,14) & ((uint32_t)(regval) << 12)) /*!< write value to ADC_CTL1_ETSIC bit field */ +#define ADC0_1_EXTTRIG_INSERTED_T0_TRGO CTL1_ETSIC(0) /*!< timer 0 TRGO event select */ +#define ADC0_1_EXTTRIG_INSERTED_T0_CH3 CTL1_ETSIC(1) /*!< timer 0 CC3 event select */ +#define ADC0_1_EXTTRIG_INSERTED_T1_TRGO CTL1_ETSIC(2) /*!< timer 1 TRGO event select */ +#define ADC0_1_EXTTRIG_INSERTED_T1_CH0 CTL1_ETSIC(3) /*!< timer 1 CC0 event select */ +#define ADC0_1_EXTTRIG_INSERTED_T2_CH3 CTL1_ETSIC(4) /*!< timer 2 CC3 event select */ +#define ADC0_1_EXTTRIG_INSERTED_T3_TRGO CTL1_ETSIC(5) /*!< timer 3 TRGO event select */ +#define ADC0_1_EXTTRIG_INSERTED_EXTI_15 CTL1_ETSIC(6) /*!< external interrupt line 15 */ +#define ADC0_1_EXTTRIG_INSERTED_T7_CH3 CTL1_ETSIC(6) /*!< timer 7 CC3 event select */ +#define ADC0_1_2_EXTTRIG_INSERTED_NONE CTL1_ETSIC(7) /*!< software trigger */ + +#define ADC2_EXTTRIG_INSERTED_T0_TRGO CTL1_ETSIC(0) /*!< timer 0 TRGO event select */ +#define ADC2_EXTTRIG_INSERTED_T0_CH3 CTL1_ETSIC(1) /*!< timer 0 CC3 event select */ +#define ADC2_EXTTRIG_INSERTED_T3_CH2 CTL1_ETSIC(2) /*!< timer 3 CC2 event select */ +#define ADC2_EXTTRIG_INSERTED_T7_CH1 CTL1_ETSIC(3) /*!< timer 7 CC1 event select */ +#define ADC2_EXTTRIG_INSERTED_T7_CH3 CTL1_ETSIC(4) /*!< timer 7 CC3 event select */ +#define ADC2_EXTTRIG_INSERTED_T4_TRGO CTL1_ETSIC(5) /*!< timer 4 TRGO event select */ +#define ADC2_EXTTRIG_INSERTED_T4_CH3 CTL1_ETSIC(6) /*!< timer 4 CC3 event select */ + +/* ADC channel sample time */ +#define SAMPTX_SPT(regval) (BITS(0,2) & ((uint32_t)(regval) << 0)) /*!< write value to ADC_SAMPTX_SPT bit field */ +#define ADC_SAMPLETIME_1POINT5 SAMPTX_SPT(0) /*!< 1.5 sampling cycles */ +#define ADC_SAMPLETIME_7POINT5 SAMPTX_SPT(1) /*!< 7.5 sampling cycles */ +#define ADC_SAMPLETIME_13POINT5 SAMPTX_SPT(2) /*!< 13.5 sampling cycles */ +#define ADC_SAMPLETIME_28POINT5 SAMPTX_SPT(3) /*!< 28.5 sampling cycles */ +#define ADC_SAMPLETIME_41POINT5 SAMPTX_SPT(4) /*!< 41.5 sampling cycles */ +#define ADC_SAMPLETIME_55POINT5 SAMPTX_SPT(5) /*!< 55.5 sampling cycles */ +#define ADC_SAMPLETIME_71POINT5 SAMPTX_SPT(6) /*!< 71.5 sampling cycles */ +#define ADC_SAMPLETIME_239POINT5 SAMPTX_SPT(7) /*!< 239.5 sampling cycles */ + +/* adc_ioffx register value */ +#define IOFFX_IOFF(regval) (BITS(0,11) & ((uint32_t)(regval) << 0)) /*!< write value to ADC_IOFFX_IOFF bit field */ + +/* adc_wdht register value */ +#define WDHT_WDHT(regval) (BITS(0,11) & ((uint32_t)(regval) << 0)) /*!< write value to ADC_WDHT_WDHT bit field */ + +/* adc_wdlt register value */ +#define WDLT_WDLT(regval) (BITS(0,11) & ((uint32_t)(regval) << 0)) /*!< write value to ADC_WDLT_WDLT bit field */ + +/* adc_rsqx register value */ +#define RSQ0_RL(regval) (BITS(20,23) & ((uint32_t)(regval) << 20)) /*!< write value to ADC_RSQ0_RL bit field */ + +/* adc_isq register value */ +#define ISQ_IL(regval) (BITS(20,21) & ((uint32_t)(regval) << 20)) /*!< write value to ADC_ISQ_IL bit field */ + +/* adc_ovsampctl register value */ +/* ADC resolution */ +#define OVSAMPCTL_DRES(regval) (BITS(12,13) & ((uint32_t)(regval) << 12)) /*!< write value to ADC_OVSAMPCTL_DRES bit field */ +#define ADC_RESOLUTION_12B OVSAMPCTL_DRES(0) /*!< 12-bit ADC resolution */ +#define ADC_RESOLUTION_10B OVSAMPCTL_DRES(1) /*!< 10-bit ADC resolution */ +#define ADC_RESOLUTION_8B OVSAMPCTL_DRES(2) /*!< 8-bit ADC resolution */ +#define ADC_RESOLUTION_6B OVSAMPCTL_DRES(3) /*!< 6-bit ADC resolution */ + +/* oversampling shift */ +#define OVSAMPCTL_OVSS(regval) (BITS(5,8) & ((uint32_t)(regval) << 5)) /*!< write value to ADC_OVSAMPCTL_OVSS bit field */ +#define ADC_OVERSAMPLING_SHIFT_NONE OVSAMPCTL_OVSS(0) /*!< no oversampling shift */ +#define ADC_OVERSAMPLING_SHIFT_1B OVSAMPCTL_OVSS(1) /*!< 1-bit oversampling shift */ +#define ADC_OVERSAMPLING_SHIFT_2B OVSAMPCTL_OVSS(2) /*!< 2-bit oversampling shift */ +#define ADC_OVERSAMPLING_SHIFT_3B OVSAMPCTL_OVSS(3) /*!< 3-bit oversampling shift */ +#define ADC_OVERSAMPLING_SHIFT_4B OVSAMPCTL_OVSS(4) /*!< 4-bit oversampling shift */ +#define ADC_OVERSAMPLING_SHIFT_5B OVSAMPCTL_OVSS(5) /*!< 5-bit oversampling shift */ +#define ADC_OVERSAMPLING_SHIFT_6B OVSAMPCTL_OVSS(6) /*!< 6-bit oversampling shift */ +#define ADC_OVERSAMPLING_SHIFT_7B OVSAMPCTL_OVSS(7) /*!< 7-bit oversampling shift */ +#define ADC_OVERSAMPLING_SHIFT_8B OVSAMPCTL_OVSS(8) /*!< 8-bit oversampling shift */ + +/* oversampling ratio */ +#define OVSAMPCTL_OVSR(regval) (BITS(2,4) & ((uint32_t)(regval) << 2)) /*!< write value to ADC_OVSAMPCTL_OVSR bit field */ +#define ADC_OVERSAMPLING_RATIO_MUL2 OVSAMPCTL_OVSR(0) /*!< oversampling ratio multiple 2 */ +#define ADC_OVERSAMPLING_RATIO_MUL4 OVSAMPCTL_OVSR(1) /*!< oversampling ratio multiple 4 */ +#define ADC_OVERSAMPLING_RATIO_MUL8 OVSAMPCTL_OVSR(2) /*!< oversampling ratio multiple 8 */ +#define ADC_OVERSAMPLING_RATIO_MUL16 OVSAMPCTL_OVSR(3) /*!< oversampling ratio multiple 16 */ +#define ADC_OVERSAMPLING_RATIO_MUL32 OVSAMPCTL_OVSR(4) /*!< oversampling ratio multiple 32 */ +#define ADC_OVERSAMPLING_RATIO_MUL64 OVSAMPCTL_OVSR(5) /*!< oversampling ratio multiple 64 */ +#define ADC_OVERSAMPLING_RATIO_MUL128 OVSAMPCTL_OVSR(6) /*!< oversampling ratio multiple 128 */ +#define ADC_OVERSAMPLING_RATIO_MUL256 OVSAMPCTL_OVSR(7) /*!< oversampling ratio multiple 256 */ + +/* triggered oversampling */ +#define ADC_OVERSAMPLING_ALL_CONVERT ((uint32_t)0x00000000U) /*!< all oversampled conversions for a channel are done consecutively after a trigger */ +#define ADC_OVERSAMPLING_ONE_CONVERT ADC_OVSAMPCTL_TOVS /*!< each oversampled conversion for a channel needs a trigger */ + +/* ADC channel group definitions */ +#define ADC_REGULAR_CHANNEL ((uint8_t)0x01U) /*!< adc regular channel group */ +#define ADC_INSERTED_CHANNEL ((uint8_t)0x02U) /*!< adc inserted channel group */ +#define ADC_REGULAR_INSERTED_CHANNEL ((uint8_t)0x03U) /*!< both regular and inserted channel group */ + +#define ADC_CHANNEL_DISCON_DISABLE ((uint8_t)0x04U) /*!< disable discontinuous mode of regular & inserted channel */ + +/* ADC inserted channel definitions */ +#define ADC_INSERTED_CHANNEL_0 ((uint8_t)0x00U) /*!< adc inserted channel 0 */ +#define ADC_INSERTED_CHANNEL_1 ((uint8_t)0x01U) /*!< adc inserted channel 1 */ +#define ADC_INSERTED_CHANNEL_2 ((uint8_t)0x02U) /*!< adc inserted channel 2 */ +#define ADC_INSERTED_CHANNEL_3 ((uint8_t)0x03U) /*!< adc inserted channel 3 */ + +/* ADC channel definitions */ +#define ADC_CHANNEL_0 ((uint8_t)0x00U) /*!< ADC channel 0 */ +#define ADC_CHANNEL_1 ((uint8_t)0x01U) /*!< ADC channel 1 */ +#define ADC_CHANNEL_2 ((uint8_t)0x02U) /*!< ADC channel 2 */ +#define ADC_CHANNEL_3 ((uint8_t)0x03U) /*!< ADC channel 3 */ +#define ADC_CHANNEL_4 ((uint8_t)0x04U) /*!< ADC channel 4 */ +#define ADC_CHANNEL_5 ((uint8_t)0x05U) /*!< ADC channel 5 */ +#define ADC_CHANNEL_6 ((uint8_t)0x06U) /*!< ADC channel 6 */ +#define ADC_CHANNEL_7 ((uint8_t)0x07U) /*!< ADC channel 7 */ +#define ADC_CHANNEL_8 ((uint8_t)0x08U) /*!< ADC channel 8 */ +#define ADC_CHANNEL_9 ((uint8_t)0x09U) /*!< ADC channel 9 */ +#define ADC_CHANNEL_10 ((uint8_t)0x0AU) /*!< ADC channel 10 */ +#define ADC_CHANNEL_11 ((uint8_t)0x0BU) /*!< ADC channel 11 */ +#define ADC_CHANNEL_12 ((uint8_t)0x0CU) /*!< ADC channel 12 */ +#define ADC_CHANNEL_13 ((uint8_t)0x0DU) /*!< ADC channel 13 */ +#define ADC_CHANNEL_14 ((uint8_t)0x0EU) /*!< ADC channel 14 */ +#define ADC_CHANNEL_15 ((uint8_t)0x0FU) /*!< ADC channel 15 */ +#define ADC_CHANNEL_16 ((uint8_t)0x10U) /*!< ADC channel 16 */ +#define ADC_CHANNEL_17 ((uint8_t)0x11U) /*!< ADC channel 17 */ + +/* ADC interrupt */ +#define ADC_INT_WDE ADC_STAT_WDE /*!< analog watchdog event interrupt */ +#define ADC_INT_EOC ADC_STAT_EOC /*!< end of group conversion interrupt */ +#define ADC_INT_EOIC ADC_STAT_EOIC /*!< end of inserted group conversion interrupt */ + +/* ADC interrupt flag */ +#define ADC_INT_FLAG_WDE ADC_STAT_WDE /*!< analog watchdog event interrupt flag */ +#define ADC_INT_FLAG_EOC ADC_STAT_EOC /*!< end of group conversion interrupt flag */ +#define ADC_INT_FLAG_EOIC ADC_STAT_EOIC /*!< end of inserted group conversion interrupt flag */ + +/* function declarations */ +/* reset ADC */ +void adc_deinit(uint32_t adc_periph); +/* enable ADC interface */ +void adc_enable(uint32_t adc_periph); +/* disable ADC interface */ +void adc_disable(uint32_t adc_periph); +/* ADC calibration and reset calibration */ +void adc_calibration_enable(uint32_t adc_periph); +/* enable DMA request */ +void adc_dma_mode_enable(uint32_t adc_periph); +/* disable DMA request */ +void adc_dma_mode_disable(uint32_t adc_periph); +/* enable the temperature sensor and Vrefint channel */ +void adc_tempsensor_vrefint_enable(void); +/* disable the temperature sensor and Vrefint channel */ +void adc_tempsensor_vrefint_disable(void); + +/* configure ADC resolution */ +void adc_resolution_config(uint32_t adc_periph , uint32_t resolution); +/* configure ADC discontinuous mode */ +void adc_discontinuous_mode_config(uint32_t adc_periph , uint8_t adc_channel_group , uint8_t length); + +/* configure the ADC mode */ +void adc_mode_config(uint32_t mode); +/* enable or disable ADC special function */ +void adc_special_function_config(uint32_t adc_periph , uint32_t function , ControlStatus newvalue); +/* configure ADC data alignment */ +void adc_data_alignment_config(uint32_t adc_periph , uint32_t data_alignment); +/* configure the length of regular channel group or inserted channel group */ +void adc_channel_length_config(uint32_t adc_periph , uint8_t adc_channel_group , uint32_t length); +/* configure ADC regular channel */ +void adc_regular_channel_config(uint32_t adc_periph , uint8_t rank , uint8_t adc_channel , uint32_t sample_time); +/* configure ADC inserted channel */ +void adc_inserted_channel_config(uint32_t adc_periph , uint8_t rank , uint8_t adc_channel , uint32_t sample_time); +/* configure ADC inserted channel offset */ +void adc_inserted_channel_offset_config(uint32_t adc_periph , uint8_t inserted_channel , uint16_t offset); +/* enable ADC external trigger */ +void adc_external_trigger_config(uint32_t adc_periph, uint8_t adc_channel_group, ControlStatus newvalue); +/* configure ADC external trigger source */ +void adc_external_trigger_source_config(uint32_t adc_periph, uint8_t adc_channel_group, uint32_t external_trigger_source); +/* enable ADC software trigger */ +void adc_software_trigger_enable(uint32_t adc_periph , uint8_t adc_channel_group); + +/* read ADC regular group data register */ +uint16_t adc_regular_data_read(uint32_t adc_periph); +/* read ADC inserted group data register */ +uint16_t adc_inserted_data_read(uint32_t adc_periph , uint8_t inserted_channel); +/* read the last ADC0 and ADC1 conversion result data in sync mode */ +uint32_t adc_sync_mode_convert_value_read(void); + +/* get the ADC flag bits */ +FlagStatus adc_flag_get(uint32_t adc_periph , uint32_t adc_flag); +/* clear the ADC flag bits */ +void adc_flag_clear(uint32_t adc_periph , uint32_t adc_flag); +/* get the ADC interrupt bits */ +FlagStatus adc_interrupt_flag_get(uint32_t adc_periph , uint32_t adc_interrupt); +/* clear the ADC flag */ +void adc_interrupt_flag_clear(uint32_t adc_periph , uint32_t adc_interrupt); +/* enable ADC interrupt */ +void adc_interrupt_enable(uint32_t adc_periph , uint32_t adc_interrupt); +/* disable ADC interrupt */ +void adc_interrupt_disable(uint32_t adc_periph , uint32_t adc_interrupt); + +/* configure ADC analog watchdog single channel */ +void adc_watchdog_single_channel_enable(uint32_t adc_periph, uint8_t adc_channel); +/* configure ADC analog watchdog group channel */ +void adc_watchdog_group_channel_enable(uint32_t adc_periph, uint8_t adc_channel_group); +/* disable ADC analog watchdog */ +void adc_watchdog_disable(uint32_t adc_periph); +/* configure ADC analog watchdog threshold */ +void adc_watchdog_threshold_config(uint32_t adc_periph , uint16_t low_threshold , uint16_t high_threshold); + +/* configure ADC oversample mode */ +void adc_oversample_mode_config(uint32_t adc_periph , uint32_t mode , uint16_t shift , uint8_t ratio); +/* enable ADC oversample mode */ +void adc_oversample_mode_enable(uint32_t adc_periph); +/* disable ADC oversample mode */ +void adc_oversample_mode_disable(uint32_t adc_periph); +#endif /* GD32F30X_ADC_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_bkp.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_bkp.h new file mode 100644 index 0000000000..215a8f9941 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_bkp.h @@ -0,0 +1,244 @@ +/*! + \file gd32f30x_bkp.h + \brief definitions for the BKP + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_BKP_H +#define GD32F30X_BKP_H + +#include "gd32f30x.h" + +/* BKP definitions */ +#define BKP BKP_BASE /*!< BKP base address */ + +/* registers definitions */ +#define BKP_DATA0 REG16((BKP) + 0x04U) /*!< BKP data register 0 */ +#define BKP_DATA1 REG16((BKP) + 0x08U) /*!< BKP data register 1 */ +#define BKP_DATA2 REG16((BKP) + 0x0CU) /*!< BKP data register 2 */ +#define BKP_DATA3 REG16((BKP) + 0x10U) /*!< BKP data register 3 */ +#define BKP_DATA4 REG16((BKP) + 0x14U) /*!< BKP data register 4 */ +#define BKP_DATA5 REG16((BKP) + 0x18U) /*!< BKP data register 5 */ +#define BKP_DATA6 REG16((BKP) + 0x1CU) /*!< BKP data register 6 */ +#define BKP_DATA7 REG16((BKP) + 0x20U) /*!< BKP data register 7 */ +#define BKP_DATA8 REG16((BKP) + 0x24U) /*!< BKP data register 8 */ +#define BKP_DATA9 REG16((BKP) + 0x28U) /*!< BKP data register 9 */ +#define BKP_DATA10 REG16((BKP) + 0x40U) /*!< BKP data register 10 */ +#define BKP_DATA11 REG16((BKP) + 0x44U) /*!< BKP data register 11 */ +#define BKP_DATA12 REG16((BKP) + 0x48U) /*!< BKP data register 12 */ +#define BKP_DATA13 REG16((BKP) + 0x4CU) /*!< BKP data register 13 */ +#define BKP_DATA14 REG16((BKP) + 0x50U) /*!< BKP data register 14 */ +#define BKP_DATA15 REG16((BKP) + 0x54U) /*!< BKP data register 15 */ +#define BKP_DATA16 REG16((BKP) + 0x58U) /*!< BKP data register 16 */ +#define BKP_DATA17 REG16((BKP) + 0x5CU) /*!< BKP data register 17 */ +#define BKP_DATA18 REG16((BKP) + 0x60U) /*!< BKP data register 18 */ +#define BKP_DATA19 REG16((BKP) + 0x64U) /*!< BKP data register 19 */ +#define BKP_DATA20 REG16((BKP) + 0x68U) /*!< BKP data register 20 */ +#define BKP_DATA21 REG16((BKP) + 0x6CU) /*!< BKP data register 21 */ +#define BKP_DATA22 REG16((BKP) + 0x70U) /*!< BKP data register 22 */ +#define BKP_DATA23 REG16((BKP) + 0x74U) /*!< BKP data register 23 */ +#define BKP_DATA24 REG16((BKP) + 0x78U) /*!< BKP data register 24 */ +#define BKP_DATA25 REG16((BKP) + 0x7CU) /*!< BKP data register 25 */ +#define BKP_DATA26 REG16((BKP) + 0x80U) /*!< BKP data register 26 */ +#define BKP_DATA27 REG16((BKP) + 0x84U) /*!< BKP data register 27 */ +#define BKP_DATA28 REG16((BKP) + 0x88U) /*!< BKP data register 28 */ +#define BKP_DATA29 REG16((BKP) + 0x8CU) /*!< BKP data register 29 */ +#define BKP_DATA30 REG16((BKP) + 0x90U) /*!< BKP data register 30 */ +#define BKP_DATA31 REG16((BKP) + 0x94U) /*!< BKP data register 31 */ +#define BKP_DATA32 REG16((BKP) + 0x98U) /*!< BKP data register 32 */ +#define BKP_DATA33 REG16((BKP) + 0x9CU) /*!< BKP data register 33 */ +#define BKP_DATA34 REG16((BKP) + 0xA0U) /*!< BKP data register 34 */ +#define BKP_DATA35 REG16((BKP) + 0xA4U) /*!< BKP data register 35 */ +#define BKP_DATA36 REG16((BKP) + 0xA8U) /*!< BKP data register 36 */ +#define BKP_DATA37 REG16((BKP) + 0xACU) /*!< BKP data register 37 */ +#define BKP_DATA38 REG16((BKP) + 0xB0U) /*!< BKP data register 38 */ +#define BKP_DATA39 REG16((BKP) + 0xB4U) /*!< BKP data register 39 */ +#define BKP_DATA40 REG16((BKP) + 0xB8U) /*!< BKP data register 40 */ +#define BKP_DATA41 REG16((BKP) + 0xBCU) /*!< BKP data register 41 */ +#define BKP_OCTL REG16((BKP) + 0x2CU) /*!< RTC signal output control register */ +#define BKP_TPCTL REG16((BKP) + 0x30U) /*!< tamper pin control register */ +#define BKP_TPCS REG16((BKP) + 0x34U) /*!< tamper control and status register */ + +/* bits definitions */ +/* BKP_DATA */ +#define BKP_DATA BITS(0,15) /*!< backup data */ + +/* BKP_OCTL */ +#define BKP_OCTL_RCCV BITS(0,6) /*!< RTC clock calibration value */ +#define BKP_OCTL_COEN BIT(7) /*!< RTC clock calibration output enable */ +#define BKP_OCTL_ASOEN BIT(8) /*!< RTC alarm or second signal output enable */ +#define BKP_OCTL_ROSEL BIT(9) /*!< RTC output selection */ +#define BKP_OCTL_CCOSEL BIT(14) /*!< RTC clock output selection */ +#define BKP_OCTL_CALDIR BIT(15) /*!< RTC clock calibration direction */ + +/* BKP_TPCTL */ +#define BKP_TPCTL_TPEN BIT(0) /*!< tamper detection enable */ +#define BKP_TPCTL_TPAL BIT(1) /*!< tamper pin active level */ + +/* BKP_TPCS */ +#define BKP_TPCS_TER BIT(0) /*!< tamper event reset */ +#define BKP_TPCS_TIR BIT(1) /*!< tamper interrupt reset */ +#define BKP_TPCS_TPIE BIT(2) /*!< tamper interrupt enable */ +#define BKP_TPCS_TEF BIT(8) /*!< tamper event flag */ +#define BKP_TPCS_TIF BIT(9) /*!< tamper interrupt flag */ + +/* constants definitions */ +/* BKP register */ +#define BKP_DATA0_9(number) REG16((BKP) + 0x04U + (number) * 0x04U) +#define BKP_DATA10_41(number) REG16((BKP) + 0x40U + ((number)-10U) * 0x04U) + +/* get data of BKP data register */ +#define BKP_DATA_GET(regval) GET_BITS((uint32_t)(regval), 0, 15) + +/* RTC clock calibration value */ +#define OCTL_RCCV(regval) (BITS(0,6) & ((uint32_t)(regval) << 0)) + +/* RTC output selection */ +#define RTC_OUTPUT_ALARM_PULSE ((uint16_t)0x0000U) /*!< RTC alarm pulse is selected as the RTC output */ +#define RTC_OUTPUT_SECOND_PULSE ((uint16_t)0x0200U) /*!< RTC second pulse is selected as the RTC output */ + +/* RTC clock output selection */ +#define RTC_CLOCK_DIV_64 ((uint16_t)0x0000U) /*!< RTC clock div 64 */ +#define RTC_CLOCK_DIV_1 ((uint16_t)0x4000U) /*!< RTC clock div 1 */ + +/* RTC clock calibration direction */ +#define RTC_CLOCK_SLOWED_DOWN ((uint16_t)0x0000U) /*!< RTC clock slow down */ +#define RTC_CLOCK_SPEED_UP ((uint16_t)0x8000U) /*!< RTC clock speed up */ + +/* tamper pin active level */ +#define TAMPER_PIN_ACTIVE_HIGH ((uint16_t)0x0000U) /*!< the tamper pin is active high */ +#define TAMPER_PIN_ACTIVE_LOW ((uint16_t)0x0002U) /*!< the tamper pin is active low */ + +/* tamper flag */ +#define BKP_FLAG_TAMPER BKP_TPCS_TEF /*!< tamper event flag */ + +/* tamper interrupt flag */ +#define BKP_INT_FLAG_TAMPER BKP_TPCS_TIF /*!< tamper interrupt flag */ + +/* BKP data register number */ +typedef enum +{ + BKP_DATA_0 = 1, /*!< BKP data register 0 */ + BKP_DATA_1, /*!< BKP data register 1 */ + BKP_DATA_2, /*!< BKP data register 2 */ + BKP_DATA_3, /*!< BKP data register 3 */ + BKP_DATA_4, /*!< BKP data register 4 */ + BKP_DATA_5, /*!< BKP data register 5 */ + BKP_DATA_6, /*!< BKP data register 6 */ + BKP_DATA_7, /*!< BKP data register 7 */ + BKP_DATA_8, /*!< BKP data register 8 */ + BKP_DATA_9, /*!< BKP data register 9 */ + BKP_DATA_10, /*!< BKP data register 10 */ + BKP_DATA_11, /*!< BKP data register 11 */ + BKP_DATA_12, /*!< BKP data register 12 */ + BKP_DATA_13, /*!< BKP data register 13 */ + BKP_DATA_14, /*!< BKP data register 14 */ + BKP_DATA_15, /*!< BKP data register 15 */ + BKP_DATA_16, /*!< BKP data register 16 */ + BKP_DATA_17, /*!< BKP data register 17 */ + BKP_DATA_18, /*!< BKP data register 18 */ + BKP_DATA_19, /*!< BKP data register 19 */ + BKP_DATA_20, /*!< BKP data register 20 */ + BKP_DATA_21, /*!< BKP data register 21 */ + BKP_DATA_22, /*!< BKP data register 22 */ + BKP_DATA_23, /*!< BKP data register 23 */ + BKP_DATA_24, /*!< BKP data register 24 */ + BKP_DATA_25, /*!< BKP data register 25 */ + BKP_DATA_26, /*!< BKP data register 26 */ + BKP_DATA_27, /*!< BKP data register 27 */ + BKP_DATA_28, /*!< BKP data register 28 */ + BKP_DATA_29, /*!< BKP data register 29 */ + BKP_DATA_30, /*!< BKP data register 30 */ + BKP_DATA_31, /*!< BKP data register 31 */ + BKP_DATA_32, /*!< BKP data register 32 */ + BKP_DATA_33, /*!< BKP data register 33 */ + BKP_DATA_34, /*!< BKP data register 34 */ + BKP_DATA_35, /*!< BKP data register 35 */ + BKP_DATA_36, /*!< BKP data register 36 */ + BKP_DATA_37, /*!< BKP data register 37 */ + BKP_DATA_38, /*!< BKP data register 38 */ + BKP_DATA_39, /*!< BKP data register 39 */ + BKP_DATA_40, /*!< BKP data register 40 */ + BKP_DATA_41, /*!< BKP data register 41 */ +}bkp_data_register_enum; + +/* function declarations */ +/* reset BKP registers */ +void bkp_deinit(void); +/* write BKP data register */ +void bkp_write_data(bkp_data_register_enum register_number, uint16_t data); +/* read BKP data register */ +uint16_t bkp_read_data(bkp_data_register_enum register_number); + +/* RTC related functions */ +/* enable RTC clock calibration output */ +void bkp_rtc_calibration_output_enable(void); +/* disable RTC clock calibration output */ +void bkp_rtc_calibration_output_disable(void); +/* enable RTC alarm or second signal output */ +void bkp_rtc_signal_output_enable(void); +/* disable RTC alarm or second signal output */ +void bkp_rtc_signal_output_disable(void); +/* RTC output selection */ +void bkp_rtc_output_select(uint16_t outputsel); +/* RTC clock output selection */ +void bkp_rtc_clock_output_select(uint16_t clocksel); +/* RTC clock calibration direction */ +void bkp_rtc_clock_calibration_direction(uint16_t direction); +/* set RTC clock calibration value */ +void bkp_rtc_calibration_value_set(uint8_t value); + +/* tamper pin related functions */ +/* enable tamper pin detection */ +void bkp_tamper_detection_enable(void); +/* disable tamper pin detection */ +void bkp_tamper_detection_disable(void); +/* set tamper pin active level */ +void bkp_tamper_active_level_set(uint16_t level); +/* enable tamper pin interrupt */ +void bkp_tamper_interrupt_enable(void); +/* disable tamper pin interrupt */ +void bkp_tamper_interrupt_disable(void); + +/* flag functions */ +/* get BKP flag state */ +FlagStatus bkp_flag_get(uint16_t flag); +/* clear BKP flag state */ +void bkp_flag_clear(uint16_t flag); +/* get BKP interrupt flag state */ +FlagStatus bkp_interrupt_flag_get(uint16_t flag); +/* clear BKP interrupt flag state */ +void bkp_interrupt_flag_clear(uint16_t flag); + +#endif /* GD32F30X_BKP_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_can.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_can.h new file mode 100644 index 0000000000..6cf85d7b8d --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_can.h @@ -0,0 +1,754 @@ +/*! + \file gd32f30x_can.h + \brief definitions for the CAN + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2019-11-27, V2.0.1, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_CAN_H +#define GD32F30X_CAN_H + +#include "gd32f30x.h" + +/* CAN definitions */ +#define CAN0 CAN_BASE /*!< CAN0 base address */ +#define CAN1 (CAN0 + 0x00000400U) /*!< CAN1 base address */ + +/* registers definitions */ +#define CAN_CTL(canx) REG32((canx) + 0x00U) /*!< CAN control register */ +#define CAN_STAT(canx) REG32((canx) + 0x04U) /*!< CAN status register */ +#define CAN_TSTAT(canx) REG32((canx) + 0x08U) /*!< CAN transmit status register*/ +#define CAN_RFIFO0(canx) REG32((canx) + 0x0CU) /*!< CAN receive FIFO0 register */ +#define CAN_RFIFO1(canx) REG32((canx) + 0x10U) /*!< CAN receive FIFO1 register */ +#define CAN_INTEN(canx) REG32((canx) + 0x14U) /*!< CAN interrupt enable register */ +#define CAN_ERR(canx) REG32((canx) + 0x18U) /*!< CAN error register */ +#define CAN_BT(canx) REG32((canx) + 0x1CU) /*!< CAN bit timing register */ +#define CAN_TMI0(canx) REG32((canx) + 0x180U) /*!< CAN transmit mailbox0 identifier register */ +#define CAN_TMP0(canx) REG32((canx) + 0x184U) /*!< CAN transmit mailbox0 property register */ +#define CAN_TMDATA00(canx) REG32((canx) + 0x188U) /*!< CAN transmit mailbox0 data0 register */ +#define CAN_TMDATA10(canx) REG32((canx) + 0x18CU) /*!< CAN transmit mailbox0 data1 register */ +#define CAN_TMI1(canx) REG32((canx) + 0x190U) /*!< CAN transmit mailbox1 identifier register */ +#define CAN_TMP1(canx) REG32((canx) + 0x194U) /*!< CAN transmit mailbox1 property register */ +#define CAN_TMDATA01(canx) REG32((canx) + 0x198U) /*!< CAN transmit mailbox1 data0 register */ +#define CAN_TMDATA11(canx) REG32((canx) + 0x19CU) /*!< CAN transmit mailbox1 data1 register */ +#define CAN_TMI2(canx) REG32((canx) + 0x1A0U) /*!< CAN transmit mailbox2 identifier register */ +#define CAN_TMP2(canx) REG32((canx) + 0x1A4U) /*!< CAN transmit mailbox2 property register */ +#define CAN_TMDATA02(canx) REG32((canx) + 0x1A8U) /*!< CAN transmit mailbox2 data0 register */ +#define CAN_TMDATA12(canx) REG32((canx) + 0x1ACU) /*!< CAN transmit mailbox2 data1 register */ +#define CAN_RFIFOMI0(canx) REG32((canx) + 0x1B0U) /*!< CAN receive FIFO0 mailbox identifier register */ +#define CAN_RFIFOMP0(canx) REG32((canx) + 0x1B4U) /*!< CAN receive FIFO0 mailbox property register */ +#define CAN_RFIFOMDATA00(canx) REG32((canx) + 0x1B8U) /*!< CAN receive FIFO0 mailbox data0 register */ +#define CAN_RFIFOMDATA10(canx) REG32((canx) + 0x1BCU) /*!< CAN receive FIFO0 mailbox data1 register */ +#define CAN_RFIFOMI1(canx) REG32((canx) + 0x1C0U) /*!< CAN receive FIFO1 mailbox identifier register */ +#define CAN_RFIFOMP1(canx) REG32((canx) + 0x1C4U) /*!< CAN receive FIFO1 mailbox property register */ +#define CAN_RFIFOMDATA01(canx) REG32((canx) + 0x1C8U) /*!< CAN receive FIFO1 mailbox data0 register */ +#define CAN_RFIFOMDATA11(canx) REG32((canx) + 0x1CCU) /*!< CAN receive FIFO1 mailbox data1 register */ +#define CAN_FCTL(canx) REG32((canx) + 0x200U) /*!< CAN filter control register */ +#define CAN_FMCFG(canx) REG32((canx) + 0x204U) /*!< CAN filter mode register */ +#define CAN_FSCFG(canx) REG32((canx) + 0x20CU) /*!< CAN filter scale register */ +#define CAN_FAFIFO(canx) REG32((canx) + 0x214U) /*!< CAN filter associated FIFO register */ +#define CAN_FW(canx) REG32((canx) + 0x21CU) /*!< CAN filter working register */ +#define CAN_F0DATA0(canx) REG32((canx) + 0x240U) /*!< CAN filter 0 data 0 register */ +#define CAN_F1DATA0(canx) REG32((canx) + 0x248U) /*!< CAN filter 1 data 0 register */ +#define CAN_F2DATA0(canx) REG32((canx) + 0x250U) /*!< CAN filter 2 data 0 register */ +#define CAN_F3DATA0(canx) REG32((canx) + 0x258U) /*!< CAN filter 3 data 0 register */ +#define CAN_F4DATA0(canx) REG32((canx) + 0x260U) /*!< CAN filter 4 data 0 register */ +#define CAN_F5DATA0(canx) REG32((canx) + 0x268U) /*!< CAN filter 5 data 0 register */ +#define CAN_F6DATA0(canx) REG32((canx) + 0x270U) /*!< CAN filter 6 data 0 register */ +#define CAN_F7DATA0(canx) REG32((canx) + 0x278U) /*!< CAN filter 7 data 0 register */ +#define CAN_F8DATA0(canx) REG32((canx) + 0x280U) /*!< CAN filter 8 data 0 register */ +#define CAN_F9DATA0(canx) REG32((canx) + 0x288U) /*!< CAN filter 9 data 0 register */ +#define CAN_F10DATA0(canx) REG32((canx) + 0x290U) /*!< CAN filter 10 data 0 register */ +#define CAN_F11DATA0(canx) REG32((canx) + 0x298U) /*!< CAN filter 11 data 0 register */ +#define CAN_F12DATA0(canx) REG32((canx) + 0x2A0U) /*!< CAN filter 12 data 0 register */ +#define CAN_F13DATA0(canx) REG32((canx) + 0x2A8U) /*!< CAN filter 13 data 0 register */ +#define CAN_F14DATA0(canx) REG32((canx) + 0x2B0U) /*!< CAN filter 14 data 0 register */ +#define CAN_F15DATA0(canx) REG32((canx) + 0x2B8U) /*!< CAN filter 15 data 0 register */ +#define CAN_F16DATA0(canx) REG32((canx) + 0x2C0U) /*!< CAN filter 16 data 0 register */ +#define CAN_F17DATA0(canx) REG32((canx) + 0x2C8U) /*!< CAN filter 17 data 0 register */ +#define CAN_F18DATA0(canx) REG32((canx) + 0x2D0U) /*!< CAN filter 18 data 0 register */ +#define CAN_F19DATA0(canx) REG32((canx) + 0x2D8U) /*!< CAN filter 19 data 0 register */ +#define CAN_F20DATA0(canx) REG32((canx) + 0x2E0U) /*!< CAN filter 20 data 0 register */ +#define CAN_F21DATA0(canx) REG32((canx) + 0x2E8U) /*!< CAN filter 21 data 0 register */ +#define CAN_F22DATA0(canx) REG32((canx) + 0x2F0U) /*!< CAN filter 22 data 0 register */ +#define CAN_F23DATA0(canx) REG32((canx) + 0x3F8U) /*!< CAN filter 23 data 0 register */ +#define CAN_F24DATA0(canx) REG32((canx) + 0x300U) /*!< CAN filter 24 data 0 register */ +#define CAN_F25DATA0(canx) REG32((canx) + 0x308U) /*!< CAN filter 25 data 0 register */ +#define CAN_F26DATA0(canx) REG32((canx) + 0x310U) /*!< CAN filter 26 data 0 register */ +#define CAN_F27DATA0(canx) REG32((canx) + 0x318U) /*!< CAN filter 27 data 0 register */ +#define CAN_F0DATA1(canx) REG32((canx) + 0x244U) /*!< CAN filter 0 data 1 register */ +#define CAN_F1DATA1(canx) REG32((canx) + 0x24CU) /*!< CAN filter 1 data 1 register */ +#define CAN_F2DATA1(canx) REG32((canx) + 0x254U) /*!< CAN filter 2 data 1 register */ +#define CAN_F3DATA1(canx) REG32((canx) + 0x25CU) /*!< CAN filter 3 data 1 register */ +#define CAN_F4DATA1(canx) REG32((canx) + 0x264U) /*!< CAN filter 4 data 1 register */ +#define CAN_F5DATA1(canx) REG32((canx) + 0x26CU) /*!< CAN filter 5 data 1 register */ +#define CAN_F6DATA1(canx) REG32((canx) + 0x274U) /*!< CAN filter 6 data 1 register */ +#define CAN_F7DATA1(canx) REG32((canx) + 0x27CU) /*!< CAN filter 7 data 1 register */ +#define CAN_F8DATA1(canx) REG32((canx) + 0x284U) /*!< CAN filter 8 data 1 register */ +#define CAN_F9DATA1(canx) REG32((canx) + 0x28CU) /*!< CAN filter 9 data 1 register */ +#define CAN_F10DATA1(canx) REG32((canx) + 0x294U) /*!< CAN filter 10 data 1 register */ +#define CAN_F11DATA1(canx) REG32((canx) + 0x29CU) /*!< CAN filter 11 data 1 register */ +#define CAN_F12DATA1(canx) REG32((canx) + 0x2A4U) /*!< CAN filter 12 data 1 register */ +#define CAN_F13DATA1(canx) REG32((canx) + 0x2ACU) /*!< CAN filter 13 data 1 register */ +#define CAN_F14DATA1(canx) REG32((canx) + 0x2B4U) /*!< CAN filter 14 data 1 register */ +#define CAN_F15DATA1(canx) REG32((canx) + 0x2BCU) /*!< CAN filter 15 data 1 register */ +#define CAN_F16DATA1(canx) REG32((canx) + 0x2C4U) /*!< CAN filter 16 data 1 register */ +#define CAN_F17DATA1(canx) REG32((canx) + 0x24CU) /*!< CAN filter 17 data 1 register */ +#define CAN_F18DATA1(canx) REG32((canx) + 0x2D4U) /*!< CAN filter 18 data 1 register */ +#define CAN_F19DATA1(canx) REG32((canx) + 0x2DCU) /*!< CAN filter 19 data 1 register */ +#define CAN_F20DATA1(canx) REG32((canx) + 0x2E4U) /*!< CAN filter 20 data 1 register */ +#define CAN_F21DATA1(canx) REG32((canx) + 0x2ECU) /*!< CAN filter 21 data 1 register */ +#define CAN_F22DATA1(canx) REG32((canx) + 0x2F4U) /*!< CAN filter 22 data 1 register */ +#define CAN_F23DATA1(canx) REG32((canx) + 0x2FCU) /*!< CAN filter 23 data 1 register */ +#define CAN_F24DATA1(canx) REG32((canx) + 0x304U) /*!< CAN filter 24 data 1 register */ +#define CAN_F25DATA1(canx) REG32((canx) + 0x30CU) /*!< CAN filter 25 data 1 register */ +#define CAN_F26DATA1(canx) REG32((canx) + 0x314U) /*!< CAN filter 26 data 1 register */ +#define CAN_F27DATA1(canx) REG32((canx) + 0x31CU) /*!< CAN filter 27 data 1 register */ + +/* CAN transmit mailbox bank */ +#define CAN_TMI(canx, bank) REG32((canx) + 0x180U + ((bank) * 0x10U)) /*!< CAN transmit mailbox identifier register */ +#define CAN_TMP(canx, bank) REG32((canx) + 0x184U + ((bank) * 0x10U)) /*!< CAN transmit mailbox property register */ +#define CAN_TMDATA0(canx, bank) REG32((canx) + 0x188U + ((bank) * 0x10U)) /*!< CAN transmit mailbox data0 register */ +#define CAN_TMDATA1(canx, bank) REG32((canx) + 0x18CU + ((bank) * 0x10U)) /*!< CAN transmit mailbox data1 register */ + +/* CAN filter bank */ +#define CAN_FDATA0(canx, bank) REG32((canx) + 0x240U + ((bank) * 0x8U) + 0x0U) /*!< CAN filter data 0 register */ +#define CAN_FDATA1(canx, bank) REG32((canx) + 0x240U + ((bank) * 0x8U) + 0x4U) /*!< CAN filter data 1 register */ + +/* CAN receive fifo mailbox bank */ +#define CAN_RFIFOMI(canx, bank) REG32((canx) + 0x1B0U + ((bank) * 0x10U)) /*!< CAN receive FIFO mailbox identifier register */ +#define CAN_RFIFOMP(canx, bank) REG32((canx) + 0x1B4U + ((bank) * 0x10U)) /*!< CAN receive FIFO mailbox property register */ +#define CAN_RFIFOMDATA0(canx, bank) REG32((canx) + 0x1B8U + ((bank) * 0x10U)) /*!< CAN receive FIFO mailbox data0 register */ +#define CAN_RFIFOMDATA1(canx, bank) REG32((canx) + 0x1BCU + ((bank) * 0x10U)) /*!< CAN receive FIFO mailbox data1 register */ + +/* bits definitions */ +/* CAN_CTL */ +#define CAN_CTL_IWMOD BIT(0) /*!< initial working mode */ +#define CAN_CTL_SLPWMOD BIT(1) /*!< sleep working mode */ +#define CAN_CTL_TFO BIT(2) /*!< transmit FIFO order */ +#define CAN_CTL_RFOD BIT(3) /*!< receive FIFO overwrite disable */ +#define CAN_CTL_ARD BIT(4) /*!< automatic retransmission disable */ +#define CAN_CTL_AWU BIT(5) /*!< automatic wakeup */ +#define CAN_CTL_ABOR BIT(6) /*!< automatic bus-off recovery */ +#define CAN_CTL_TTC BIT(7) /*!< time triggered communication */ +#define CAN_CTL_SWRST BIT(15) /*!< CAN software reset */ +#define CAN_CTL_DFZ BIT(16) /*!< CAN debug freeze */ + +/* CAN_STAT */ +#define CAN_STAT_IWS BIT(0) /*!< initial working state */ +#define CAN_STAT_SLPWS BIT(1) /*!< sleep working state */ +#define CAN_STAT_ERRIF BIT(2) /*!< error interrupt flag*/ +#define CAN_STAT_WUIF BIT(3) /*!< status change interrupt flag of wakeup from sleep working mode */ +#define CAN_STAT_SLPIF BIT(4) /*!< status change interrupt flag of sleep working mode entering */ +#define CAN_STAT_TS BIT(8) /*!< transmitting state */ +#define CAN_STAT_RS BIT(9) /*!< receiving state */ +#define CAN_STAT_LASTRX BIT(10) /*!< last sample value of rx pin */ +#define CAN_STAT_RXL BIT(11) /*!< CAN rx signal */ + +/* CAN_TSTAT */ +#define CAN_TSTAT_MTF0 BIT(0) /*!< mailbox0 transmit finished */ +#define CAN_TSTAT_MTFNERR0 BIT(1) /*!< mailbox0 transmit finished and no error */ +#define CAN_TSTAT_MAL0 BIT(2) /*!< mailbox0 arbitration lost */ +#define CAN_TSTAT_MTE0 BIT(3) /*!< mailbox0 transmit error */ +#define CAN_TSTAT_MST0 BIT(7) /*!< mailbox0 stop transmitting */ +#define CAN_TSTAT_MTF1 BIT(8) /*!< mailbox1 transmit finished */ +#define CAN_TSTAT_MTFNERR1 BIT(9) /*!< mailbox1 transmit finished and no error */ +#define CAN_TSTAT_MAL1 BIT(10) /*!< mailbox1 arbitration lost */ +#define CAN_TSTAT_MTE1 BIT(11) /*!< mailbox1 transmit error */ +#define CAN_TSTAT_MST1 BIT(15) /*!< mailbox1 stop transmitting */ +#define CAN_TSTAT_MTF2 BIT(16) /*!< mailbox2 transmit finished */ +#define CAN_TSTAT_MTFNERR2 BIT(17) /*!< mailbox2 transmit finished and no error */ +#define CAN_TSTAT_MAL2 BIT(18) /*!< mailbox2 arbitration lost */ +#define CAN_TSTAT_MTE2 BIT(19) /*!< mailbox2 transmit error */ +#define CAN_TSTAT_MST2 BIT(23) /*!< mailbox2 stop transmitting */ +#define CAN_TSTAT_NUM BITS(24,25) /*!< mailbox number */ +#define CAN_TSTAT_TME0 BIT(26) /*!< transmit mailbox0 empty */ +#define CAN_TSTAT_TME1 BIT(27) /*!< transmit mailbox1 empty */ +#define CAN_TSTAT_TME2 BIT(28) /*!< transmit mailbox2 empty */ +#define CAN_TSTAT_TMLS0 BIT(29) /*!< last sending priority flag for mailbox0 */ +#define CAN_TSTAT_TMLS1 BIT(30) /*!< last sending priority flag for mailbox1 */ +#define CAN_TSTAT_TMLS2 BIT(31) /*!< last sending priority flag for mailbox2 */ + +/* CAN_RFIFO0 */ +#define CAN_RFIFO0_RFL0 BITS(0,1) /*!< receive FIFO0 length */ +#define CAN_RFIFO0_RFF0 BIT(3) /*!< receive FIFO0 full */ +#define CAN_RFIFO0_RFO0 BIT(4) /*!< receive FIFO0 overfull */ +#define CAN_RFIFO0_RFD0 BIT(5) /*!< receive FIFO0 dequeue */ + +/* CAN_RFIFO1 */ +#define CAN_RFIFO1_RFL1 BITS(0,1) /*!< receive FIFO1 length */ +#define CAN_RFIFO1_RFF1 BIT(3) /*!< receive FIFO1 full */ +#define CAN_RFIFO1_RFO1 BIT(4) /*!< receive FIFO1 overfull */ +#define CAN_RFIFO1_RFD1 BIT(5) /*!< receive FIFO1 dequeue */ + +/* CAN_INTEN */ +#define CAN_INTEN_TMEIE BIT(0) /*!< transmit mailbox empty interrupt enable */ +#define CAN_INTEN_RFNEIE0 BIT(1) /*!< receive FIFO0 not empty interrupt enable */ +#define CAN_INTEN_RFFIE0 BIT(2) /*!< receive FIFO0 full interrupt enable */ +#define CAN_INTEN_RFOIE0 BIT(3) /*!< receive FIFO0 overfull interrupt enable */ +#define CAN_INTEN_RFNEIE1 BIT(4) /*!< receive FIFO1 not empty interrupt enable */ +#define CAN_INTEN_RFFIE1 BIT(5) /*!< receive FIFO1 full interrupt enable */ +#define CAN_INTEN_RFOIE1 BIT(6) /*!< receive FIFO1 overfull interrupt enable */ +#define CAN_INTEN_WERRIE BIT(8) /*!< warning error interrupt enable */ +#define CAN_INTEN_PERRIE BIT(9) /*!< passive error interrupt enable */ +#define CAN_INTEN_BOIE BIT(10) /*!< bus-off interrupt enable */ +#define CAN_INTEN_ERRNIE BIT(11) /*!< error number interrupt enable */ +#define CAN_INTEN_ERRIE BIT(15) /*!< error interrupt enable */ +#define CAN_INTEN_WIE BIT(16) /*!< wakeup interrupt enable */ +#define CAN_INTEN_SLPWIE BIT(17) /*!< sleep working interrupt enable */ + +/* CAN_ERR */ +#define CAN_ERR_WERR BIT(0) /*!< warning error */ +#define CAN_ERR_PERR BIT(1) /*!< passive error */ +#define CAN_ERR_BOERR BIT(2) /*!< bus-off error */ +#define CAN_ERR_ERRN BITS(4,6) /*!< error number */ +#define CAN_ERR_TECNT BITS(16,23) /*!< transmit error count */ +#define CAN_ERR_RECNT BITS(24,31) /*!< receive error count */ + +/* CAN_BT */ +#define CAN_BT_BAUDPSC BITS(0,9) /*!< baudrate prescaler */ +#define CAN_BT_BS1 BITS(16,19) /*!< bit segment 1 */ +#define CAN_BT_BS2 BITS(20,22) /*!< bit segment 2 */ +#define CAN_BT_SJW BITS(24,25) /*!< resynchronization jump width */ +#define CAN_BT_LCMOD BIT(30) /*!< loopback communication mode */ +#define CAN_BT_SCMOD BIT(31) /*!< silent communication mode */ + +/* CAN_TMIx */ +#define CAN_TMI_TEN BIT(0) /*!< transmit enable */ +#define CAN_TMI_FT BIT(1) /*!< frame type */ +#define CAN_TMI_FF BIT(2) /*!< frame format */ +#define CAN_TMI_EFID BITS(3,31) /*!< the frame identifier */ +#define CAN_TMI_SFID BITS(21,31) /*!< the frame identifier */ + +/* CAN_TMPx */ +#define CAN_TMP_DLENC BITS(0,3) /*!< data length code */ +#define CAN_TMP_TSEN BIT(8) /*!< time stamp enable */ +#define CAN_TMP_TS BITS(16,31) /*!< time stamp */ + +/* CAN_TMDATA0x */ +#define CAN_TMDATA0_DB0 BITS(0,7) /*!< transmit data byte 0 */ +#define CAN_TMDATA0_DB1 BITS(8,15) /*!< transmit data byte 1 */ +#define CAN_TMDATA0_DB2 BITS(16,23) /*!< transmit data byte 2 */ +#define CAN_TMDATA0_DB3 BITS(24,31) /*!< transmit data byte 3 */ + +/* CAN_TMDATA1x */ +#define CAN_TMDATA1_DB4 BITS(0,7) /*!< transmit data byte 4 */ +#define CAN_TMDATA1_DB5 BITS(8,15) /*!< transmit data byte 5 */ +#define CAN_TMDATA1_DB6 BITS(16,23) /*!< transmit data byte 6 */ +#define CAN_TMDATA1_DB7 BITS(24,31) /*!< transmit data byte 7 */ + +/* CAN_RFIFOMIx */ +#define CAN_RFIFOMI_FT BIT(1) /*!< frame type */ +#define CAN_RFIFOMI_FF BIT(2) /*!< frame format */ +#define CAN_RFIFOMI_EFID BITS(3,31) /*!< the frame identifier */ +#define CAN_RFIFOMI_SFID BITS(21,31) /*!< the frame identifier */ + +/* CAN_RFIFOMPx */ +#define CAN_RFIFOMP_DLENC BITS(0,3) /*!< receive data length code */ +#define CAN_RFIFOMP_FI BITS(8,15) /*!< filter index */ +#define CAN_RFIFOMP_TS BITS(16,31) /*!< time stamp */ + +/* CAN_RFIFOMDATA0x */ +#define CAN_RFIFOMDATA0_DB0 BITS(0,7) /*!< receive data byte 0 */ +#define CAN_RFIFOMDATA0_DB1 BITS(8,15) /*!< receive data byte 1 */ +#define CAN_RFIFOMDATA0_DB2 BITS(16,23) /*!< receive data byte 2 */ +#define CAN_RFIFOMDATA0_DB3 BITS(24,31) /*!< receive data byte 3 */ + +/* CAN_RFIFOMDATA1x */ +#define CAN_RFIFOMDATA1_DB4 BITS(0,7) /*!< receive data byte 4 */ +#define CAN_RFIFOMDATA1_DB5 BITS(8,15) /*!< receive data byte 5 */ +#define CAN_RFIFOMDATA1_DB6 BITS(16,23) /*!< receive data byte 6 */ +#define CAN_RFIFOMDATA1_DB7 BITS(24,31) /*!< receive data byte 7 */ + +/* CAN_FCTL */ +#define CAN_FCTL_FLD BIT(0) /*!< filter lock disable */ +#define CAN_FCTL_HBC1F BITS(8,13) /*!< header bank of CAN1 filter */ + +/* CAN_FMCFG */ +#define CAN_FMCFG_FMOD(regval) BIT(regval) /*!< filter mode, list or mask*/ + +/* CAN_FSCFG */ +#define CAN_FSCFG_FS(regval) BIT(regval) /*!< filter scale, 32 bits or 16 bits*/ + +/* CAN_FAFIFO */ +#define CAN_FAFIFOR_FAF(regval) BIT(regval) /*!< filter associated with FIFO */ + +/* CAN_FW */ +#define CAN_FW_FW(regval) BIT(regval) /*!< filter working */ + +/* CAN_FxDATAy */ +#define CAN_FDATA_FD(regval) BIT(regval) /*!< filter data */ + +/* consts definitions */ +/* define the CAN bit position and its register index offset */ +#define CAN_REGIDX_BIT(regidx, bitpos) (((uint32_t)(regidx) << 6) | (uint32_t)(bitpos)) +#define CAN_REG_VAL(canx, offset) (REG32((canx) + ((uint32_t)(offset) >> 6))) +#define CAN_BIT_POS(val) ((uint32_t)(val) & 0x1FU) + +#define CAN_REGIDX_BITS(regidx, bitpos0, bitpos1) (((uint32_t)(regidx) << 12) | ((uint32_t)(bitpos0) << 6) | (uint32_t)(bitpos1)) +#define CAN_REG_VALS(canx, offset) (REG32((canx) + ((uint32_t)(offset) >> 12))) +#define CAN_BIT_POS0(val) (((uint32_t)(val) >> 6) & 0x1FU) +#define CAN_BIT_POS1(val) ((uint32_t)(val) & 0x1FU) + +/* register offset */ +#define STAT_REG_OFFSET ((uint8_t)0x04U) /*!< STAT register offset */ +#define TSTAT_REG_OFFSET ((uint8_t)0x08U) /*!< TSTAT register offset */ +#define RFIFO0_REG_OFFSET ((uint8_t)0x0CU) /*!< RFIFO0 register offset */ +#define RFIFO1_REG_OFFSET ((uint8_t)0x10U) /*!< RFIFO1 register offset */ +#define ERR_REG_OFFSET ((uint8_t)0x18U) /*!< ERR register offset */ + +/* CAN flags */ +typedef enum +{ + /* flags in STAT register */ + CAN_FLAG_RXL = CAN_REGIDX_BIT(STAT_REG_OFFSET, 11U), /*!< RX level */ + CAN_FLAG_LASTRX = CAN_REGIDX_BIT(STAT_REG_OFFSET, 10U), /*!< last sample value of RX pin */ + CAN_FLAG_RS = CAN_REGIDX_BIT(STAT_REG_OFFSET, 9U), /*!< receiving state */ + CAN_FLAG_TS = CAN_REGIDX_BIT(STAT_REG_OFFSET, 8U), /*!< transmitting state */ + CAN_FLAG_SLPIF = CAN_REGIDX_BIT(STAT_REG_OFFSET, 4U), /*!< status change flag of entering sleep working mode */ + CAN_FLAG_WUIF = CAN_REGIDX_BIT(STAT_REG_OFFSET, 3U), /*!< status change flag of wakeup from sleep working mode */ + CAN_FLAG_ERRIF = CAN_REGIDX_BIT(STAT_REG_OFFSET, 2U), /*!< error flag */ + CAN_FLAG_SLPWS = CAN_REGIDX_BIT(STAT_REG_OFFSET, 1U), /*!< sleep working state */ + CAN_FLAG_IWS = CAN_REGIDX_BIT(STAT_REG_OFFSET, 0U), /*!< initial working state */ + /* flags in TSTAT register */ + CAN_FLAG_TMLS2 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 31U), /*!< transmit mailbox 2 last sending in Tx FIFO */ + CAN_FLAG_TMLS1 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 30U), /*!< transmit mailbox 1 last sending in Tx FIFO */ + CAN_FLAG_TMLS0 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 29U), /*!< transmit mailbox 0 last sending in Tx FIFO */ + CAN_FLAG_TME2 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 28U), /*!< transmit mailbox 2 empty */ + CAN_FLAG_TME1 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 27U), /*!< transmit mailbox 1 empty */ + CAN_FLAG_TME0 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 26U), /*!< transmit mailbox 0 empty */ + CAN_FLAG_MTE2 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 19U), /*!< mailbox 2 transmit error */ + CAN_FLAG_MTE1 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 11U), /*!< mailbox 1 transmit error */ + CAN_FLAG_MTE0 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 3U), /*!< mailbox 0 transmit error */ + CAN_FLAG_MAL2 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 18U), /*!< mailbox 2 arbitration lost */ + CAN_FLAG_MAL1 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 10U), /*!< mailbox 1 arbitration lost */ + CAN_FLAG_MAL0 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 2U), /*!< mailbox 0 arbitration lost */ + CAN_FLAG_MTFNERR2 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 17U), /*!< mailbox 2 transmit finished with no error */ + CAN_FLAG_MTFNERR1 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 9U), /*!< mailbox 1 transmit finished with no error */ + CAN_FLAG_MTFNERR0 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 1U), /*!< mailbox 0 transmit finished with no error */ + CAN_FLAG_MTF2 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 16U), /*!< mailbox 2 transmit finished */ + CAN_FLAG_MTF1 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 8U), /*!< mailbox 1 transmit finished */ + CAN_FLAG_MTF0 = CAN_REGIDX_BIT(TSTAT_REG_OFFSET, 0U), /*!< mailbox 0 transmit finished */ + /* flags in RFIFO0 register */ + CAN_FLAG_RFO0 = CAN_REGIDX_BIT(RFIFO0_REG_OFFSET, 4U), /*!< receive FIFO0 overfull */ + CAN_FLAG_RFF0 = CAN_REGIDX_BIT(RFIFO0_REG_OFFSET, 3U), /*!< receive FIFO0 full */ + /* flags in RFIFO1 register */ + CAN_FLAG_RFO1 = CAN_REGIDX_BIT(RFIFO1_REG_OFFSET, 4U), /*!< receive FIFO1 overfull */ + CAN_FLAG_RFF1 = CAN_REGIDX_BIT(RFIFO1_REG_OFFSET, 3U), /*!< receive FIFO1 full */ + /* flags in ERR register */ + CAN_FLAG_BOERR = CAN_REGIDX_BIT(ERR_REG_OFFSET, 2U), /*!< bus-off error */ + CAN_FLAG_PERR = CAN_REGIDX_BIT(ERR_REG_OFFSET, 1U), /*!< passive error */ + CAN_FLAG_WERR = CAN_REGIDX_BIT(ERR_REG_OFFSET, 0U), /*!< warning error */ +}can_flag_enum; + +/* CAN interrupt flags */ +typedef enum +{ + /* interrupt flags in STAT register */ + CAN_INT_FLAG_SLPIF = CAN_REGIDX_BITS(STAT_REG_OFFSET, 4U, 17U), /*!< status change interrupt flag of sleep working mode entering */ + CAN_INT_FLAG_WUIF = CAN_REGIDX_BITS(STAT_REG_OFFSET, 3U, 16), /*!< status change interrupt flag of wakeup from sleep working mode */ + CAN_INT_FLAG_ERRIF = CAN_REGIDX_BITS(STAT_REG_OFFSET, 2U, 15), /*!< error interrupt flag */ + /* interrupt flags in TSTAT register */ + CAN_INT_FLAG_MTF2 = CAN_REGIDX_BITS(TSTAT_REG_OFFSET, 16U, 0U), /*!< mailbox 2 transmit finished interrupt flag */ + CAN_INT_FLAG_MTF1 = CAN_REGIDX_BITS(TSTAT_REG_OFFSET, 8U, 0U), /*!< mailbox 1 transmit finished interrupt flag */ + CAN_INT_FLAG_MTF0 = CAN_REGIDX_BITS(TSTAT_REG_OFFSET, 0U, 0U), /*!< mailbox 0 transmit finished interrupt flag */ + /* interrupt flags in RFIFO0 register */ + CAN_INT_FLAG_RFO0 = CAN_REGIDX_BITS(RFIFO0_REG_OFFSET, 4U, 3U), /*!< receive FIFO0 overfull interrupt flag */ + CAN_INT_FLAG_RFF0 = CAN_REGIDX_BITS(RFIFO0_REG_OFFSET, 3U, 2U), /*!< receive FIFO0 full interrupt flag */ + CAN_INT_FLAG_RFL0 = CAN_REGIDX_BITS(RFIFO0_REG_OFFSET, 2U, 1U), /*!< receive FIFO0 not empty interrupt flag */ + /* interrupt flags in RFIFO0 register */ + CAN_INT_FLAG_RFO1 = CAN_REGIDX_BITS(RFIFO1_REG_OFFSET, 4U, 6U), /*!< receive FIFO1 overfull interrupt flag */ + CAN_INT_FLAG_RFF1 = CAN_REGIDX_BITS(RFIFO1_REG_OFFSET, 3U, 5U), /*!< receive FIFO1 full interrupt flag */ + CAN_INT_FLAG_RFL1 = CAN_REGIDX_BITS(RFIFO1_REG_OFFSET, 2U, 4U), /*!< receive FIFO1 not empty interrupt flag */ + /* interrupt flags in ERR register */ + CAN_INT_FLAG_ERRN = CAN_REGIDX_BITS(ERR_REG_OFFSET, 3U, 11U), /*!< error number interrupt flag */ + CAN_INT_FLAG_BOERR = CAN_REGIDX_BITS(ERR_REG_OFFSET, 2U, 10U), /*!< bus-off error interrupt flag */ + CAN_INT_FLAG_PERR = CAN_REGIDX_BITS(ERR_REG_OFFSET, 1U, 9U), /*!< passive error interrupt flag */ + CAN_INT_FLAG_WERR = CAN_REGIDX_BITS(ERR_REG_OFFSET, 0U, 8U), /*!< warning error interrupt flag */ +}can_interrupt_flag_enum; + +/* CAN initiliaze parameters struct */ +typedef struct +{ + uint8_t working_mode; /*!< CAN working mode */ + uint8_t resync_jump_width; /*!< CAN resynchronization jump width */ + uint8_t time_segment_1; /*!< time segment 1 */ + uint8_t time_segment_2; /*!< time segment 2 */ + ControlStatus time_triggered; /*!< time triggered communication mode */ + ControlStatus auto_bus_off_recovery; /*!< automatic bus-off recovery */ + ControlStatus auto_wake_up; /*!< automatic wake-up mode */ + ControlStatus auto_retrans; /*!< automatic retransmission mode */ + ControlStatus rec_fifo_overwrite; /*!< receive FIFO overwrite mode */ + ControlStatus trans_fifo_order; /*!< transmit FIFO order */ + uint16_t prescaler; /*!< baudrate prescaler */ +}can_parameter_struct; + +/* CAN transmit message struct */ +typedef struct +{ + uint32_t tx_sfid; /*!< standard format frame identifier */ + uint32_t tx_efid; /*!< extended format frame identifier */ + uint8_t tx_ff; /*!< format of frame, standard or extended format */ + uint8_t tx_ft; /*!< type of frame, data or remote */ + uint8_t tx_dlen; /*!< data length */ + uint8_t tx_data[8]; /*!< transmit data */ +}can_trasnmit_message_struct; + +/* CAN receive message struct */ +typedef struct +{ + uint32_t rx_sfid; /*!< standard format frame identifier */ + uint32_t rx_efid; /*!< extended format frame identifier */ + uint8_t rx_ff; /*!< format of frame, standard or extended format */ + uint8_t rx_ft; /*!< type of frame, data or remote */ + uint8_t rx_dlen; /*!< data length */ + uint8_t rx_data[8]; /*!< receive data */ + uint8_t rx_fi; /*!< filtering index */ +} can_receive_message_struct; + +/* CAN filter parameters struct */ +typedef struct +{ + uint16_t filter_list_high; /*!< filter list number high bits*/ + uint16_t filter_list_low; /*!< filter list number low bits */ + uint16_t filter_mask_high; /*!< filter mask number high bits */ + uint16_t filter_mask_low; /*!< filter mask number low bits */ + uint16_t filter_fifo_number; /*!< receive FIFO associated with the filter */ + uint16_t filter_number; /*!< filter number */ + uint16_t filter_mode; /*!< filter mode, list or mask */ + uint16_t filter_bits; /*!< filter scale */ + ControlStatus filter_enable; /*!< filter work or not */ +}can_filter_parameter_struct; + +/* CAN errors */ +typedef enum +{ + CAN_ERROR_NONE = 0, /*!< no error */ + CAN_ERROR_FILL, /*!< fill error */ + CAN_ERROR_FORMATE, /*!< format error */ + CAN_ERROR_ACK, /*!< ACK error */ + CAN_ERROR_BITRECESSIVE, /*!< bit recessive error */ + CAN_ERROR_BITDOMINANTER, /*!< bit dominant error */ + CAN_ERROR_CRC, /*!< CRC error */ + CAN_ERROR_SOFTWARECFG, /*!< software configure */ +}can_error_enum; + +/* transmit states */ +typedef enum +{ + CAN_TRANSMIT_FAILED = 0U, /*!< CAN transmitted failure */ + CAN_TRANSMIT_OK = 1U, /*!< CAN transmitted success */ + CAN_TRANSMIT_PENDING = 2U, /*!< CAN transmitted pending */ + CAN_TRANSMIT_NOMAILBOX = 4U, /*!< no empty mailbox to be used for CAN */ +}can_transmit_state_enum; + +typedef enum +{ + CAN_INIT_STRUCT = 0, /* CAN initiliaze parameters struct */ + CAN_FILTER_STRUCT, /* CAN filter parameters struct */ + CAN_TX_MESSAGE_STRUCT, /* CAN transmit message struct */ + CAN_RX_MESSAGE_STRUCT, /* CAN receive message struct */ +}can_struct_type_enum; + +/* CAN baudrate prescaler*/ +#define BT_BAUDPSC(regval) (BITS(0,9) & ((uint32_t)(regval) << 0)) + +/* CAN bit segment 1*/ +#define BT_BS1(regval) (BITS(16,19) & ((uint32_t)(regval) << 16)) + +/* CAN bit segment 2*/ +#define BT_BS2(regval) (BITS(20,22) & ((uint32_t)(regval) << 20)) + +/* CAN resynchronization jump width*/ +#define BT_SJW(regval) (BITS(24,25) & ((uint32_t)(regval) << 24)) + +/* CAN communication mode*/ +#define BT_MODE(regval) (BITS(30,31) & ((uint32_t)(regval) << 30)) + +/* CAN FDATA high 16 bits */ +#define FDATA_MASK_HIGH(regval) (BITS(16,31) & ((uint32_t)(regval) << 16)) + +/* CAN FDATA low 16 bits */ +#define FDATA_MASK_LOW(regval) (BITS(0,15) & ((uint32_t)(regval) << 0)) + +/* CAN1 filter start bank_number*/ +#define FCTL_HBC1F(regval) (BITS(8,13) & ((uint32_t)(regval) << 8)) + +/* CAN transmit mailbox extended identifier*/ +#define TMI_EFID(regval) (BITS(3,31) & ((uint32_t)(regval) << 3)) + +/* CAN transmit mailbox standard identifier*/ +#define TMI_SFID(regval) (BITS(21,31) & ((uint32_t)(regval) << 21)) + +/* transmit data byte 0 */ +#define TMDATA0_DB0(regval) (BITS(0,7) & ((uint32_t)(regval) << 0)) + +/* transmit data byte 1 */ +#define TMDATA0_DB1(regval) (BITS(8,15) & ((uint32_t)(regval) << 8)) + +/* transmit data byte 2 */ +#define TMDATA0_DB2(regval) (BITS(16,23) & ((uint32_t)(regval) << 16)) + +/* transmit data byte 3 */ +#define TMDATA0_DB3(regval) (BITS(24,31) & ((uint32_t)(regval) << 24)) + +/* transmit data byte 4 */ +#define TMDATA1_DB4(regval) (BITS(0,7) & ((uint32_t)(regval) << 0)) + +/* transmit data byte 5 */ +#define TMDATA1_DB5(regval) (BITS(8,15) & ((uint32_t)(regval) << 8)) + +/* transmit data byte 6 */ +#define TMDATA1_DB6(regval) (BITS(16,23) & ((uint32_t)(regval) << 16)) + +/* transmit data byte 7 */ +#define TMDATA1_DB7(regval) (BITS(24,31) & ((uint32_t)(regval) << 24)) + +/* receive mailbox extended identifier*/ +#define GET_RFIFOMI_EFID(regval) GET_BITS((uint32_t)(regval), 3U, 31U) + +/* receive mailbox standrad identifier*/ +#define GET_RFIFOMI_SFID(regval) GET_BITS((uint32_t)(regval), 21U, 31U) + +/* receive data length */ +#define GET_RFIFOMP_DLENC(regval) GET_BITS((uint32_t)(regval), 0U, 3U) + +/* the index of the filter by which the frame is passed */ +#define GET_RFIFOMP_FI(regval) GET_BITS((uint32_t)(regval), 8U, 15U) + +/* receive data byte 0 */ +#define GET_RFIFOMDATA0_DB0(regval) GET_BITS((uint32_t)(regval), 0U, 7U) + +/* receive data byte 1 */ +#define GET_RFIFOMDATA0_DB1(regval) GET_BITS((uint32_t)(regval), 8U, 15U) + +/* receive data byte 2 */ +#define GET_RFIFOMDATA0_DB2(regval) GET_BITS((uint32_t)(regval), 16U, 23U) + +/* receive data byte 3 */ +#define GET_RFIFOMDATA0_DB3(regval) GET_BITS((uint32_t)(regval), 24U, 31U) + +/* receive data byte 4 */ +#define GET_RFIFOMDATA1_DB4(regval) GET_BITS((uint32_t)(regval), 0U, 7U) + +/* receive data byte 5 */ +#define GET_RFIFOMDATA1_DB5(regval) GET_BITS((uint32_t)(regval), 8U, 15U) + +/* receive data byte 6 */ +#define GET_RFIFOMDATA1_DB6(regval) GET_BITS((uint32_t)(regval), 16U, 23U) + +/* receive data byte 7 */ +#define GET_RFIFOMDATA1_DB7(regval) GET_BITS((uint32_t)(regval), 24U, 31U) + +/* error number */ +#define GET_ERR_ERRN(regval) GET_BITS((uint32_t)(regval), 4U, 6U) + +/* transmit error count */ +#define GET_ERR_TECNT(regval) GET_BITS((uint32_t)(regval), 16U, 23U) + +/* receive error count */ +#define GET_ERR_RECNT(regval) GET_BITS((uint32_t)(regval), 24U, 31U) + +/* CAN errors */ +#define ERR_ERRN(regval) (BITS(4,6) & ((uint32_t)(regval) << 4)) +#define CAN_ERRN_0 ERR_ERRN(0U) /* no error */ +#define CAN_ERRN_1 ERR_ERRN(1U) /*!< fill error */ +#define CAN_ERRN_2 ERR_ERRN(2U) /*!< format error */ +#define CAN_ERRN_3 ERR_ERRN(3U) /*!< ACK error */ +#define CAN_ERRN_4 ERR_ERRN(4U) /*!< bit recessive error */ +#define CAN_ERRN_5 ERR_ERRN(5U) /*!< bit dominant error */ +#define CAN_ERRN_6 ERR_ERRN(6U) /*!< CRC error */ +#define CAN_ERRN_7 ERR_ERRN(7U) /*!< software error */ + +#define CAN_STATE_PENDING ((uint32_t)0x00000000U) /*!< CAN pending */ + +/* CAN communication mode */ +#define CAN_NORMAL_MODE ((uint8_t)0x00U) /*!< normal communication mode */ +#define CAN_LOOPBACK_MODE ((uint8_t)0x01U) /*!< loopback communication mode */ +#define CAN_SILENT_MODE ((uint8_t)0x02U) /*!< silent communication mode */ +#define CAN_SILENT_LOOPBACK_MODE ((uint8_t)0x03U) /*!< loopback and silent communication mode */ + +/* CAN resynchronisation jump width */ +#define CAN_BT_SJW_1TQ ((uint8_t)0x00U) /*!< 1 time quanta */ +#define CAN_BT_SJW_2TQ ((uint8_t)0x01U) /*!< 2 time quanta */ +#define CAN_BT_SJW_3TQ ((uint8_t)0x02U) /*!< 3 time quanta */ +#define CAN_BT_SJW_4TQ ((uint8_t)0x03U) /*!< 4 time quanta */ + +/* CAN time segment 1 */ +#define CAN_BT_BS1_1TQ ((uint8_t)0x00U) /*!< 1 time quanta */ +#define CAN_BT_BS1_2TQ ((uint8_t)0x01U) /*!< 2 time quanta */ +#define CAN_BT_BS1_3TQ ((uint8_t)0x02U) /*!< 3 time quanta */ +#define CAN_BT_BS1_4TQ ((uint8_t)0x03U) /*!< 4 time quanta */ +#define CAN_BT_BS1_5TQ ((uint8_t)0x04U) /*!< 5 time quanta */ +#define CAN_BT_BS1_6TQ ((uint8_t)0x05U) /*!< 6 time quanta */ +#define CAN_BT_BS1_7TQ ((uint8_t)0x06U) /*!< 7 time quanta */ +#define CAN_BT_BS1_8TQ ((uint8_t)0x07U) /*!< 8 time quanta */ +#define CAN_BT_BS1_9TQ ((uint8_t)0x08U) /*!< 9 time quanta */ +#define CAN_BT_BS1_10TQ ((uint8_t)0x09U) /*!< 10 time quanta */ +#define CAN_BT_BS1_11TQ ((uint8_t)0x0AU) /*!< 11 time quanta */ +#define CAN_BT_BS1_12TQ ((uint8_t)0x0BU) /*!< 12 time quanta */ +#define CAN_BT_BS1_13TQ ((uint8_t)0x0CU) /*!< 13 time quanta */ +#define CAN_BT_BS1_14TQ ((uint8_t)0x0DU) /*!< 14 time quanta */ +#define CAN_BT_BS1_15TQ ((uint8_t)0x0EU) /*!< 15 time quanta */ +#define CAN_BT_BS1_16TQ ((uint8_t)0x0FU) /*!< 16 time quanta */ + +/* CAN time segment 2 */ +#define CAN_BT_BS2_1TQ ((uint8_t)0x00U) /*!< 1 time quanta */ +#define CAN_BT_BS2_2TQ ((uint8_t)0x01U) /*!< 2 time quanta */ +#define CAN_BT_BS2_3TQ ((uint8_t)0x02U) /*!< 3 time quanta */ +#define CAN_BT_BS2_4TQ ((uint8_t)0x03U) /*!< 4 time quanta */ +#define CAN_BT_BS2_5TQ ((uint8_t)0x04U) /*!< 5 time quanta */ +#define CAN_BT_BS2_6TQ ((uint8_t)0x05U) /*!< 6 time quanta */ +#define CAN_BT_BS2_7TQ ((uint8_t)0x06U) /*!< 7 time quanta */ +#define CAN_BT_BS2_8TQ ((uint8_t)0x07U) /*!< 8 time quanta */ + +/* CAN mailbox number */ +#define CAN_MAILBOX0 ((uint8_t)0x00U) /*!< mailbox0 */ +#define CAN_MAILBOX1 ((uint8_t)0x01U) /*!< mailbox1 */ +#define CAN_MAILBOX2 ((uint8_t)0x02U) /*!< mailbox2 */ +#define CAN_NOMAILBOX ((uint8_t)0x03U) /*!< no mailbox empty */ + +/* CAN frame format */ +#define CAN_FF_STANDARD ((uint32_t)0x00000000U) /*!< standard frame */ +#define CAN_FF_EXTENDED ((uint32_t)0x00000004U) /*!< extended frame */ + +/* CAN receive fifo */ +#define CAN_FIFO0 ((uint8_t)0x00U) /*!< receive FIFO0 */ +#define CAN_FIFO1 ((uint8_t)0x01U) /*!< receive FIFO1 */ + +/* frame number of receive fifo */ +#define CAN_RFIF_RFL_MASK ((uint32_t)0x00000003U) /*!< mask for frame number in receive FIFOx */ + +#define CAN_SFID_MASK ((uint32_t)0x000007FFU) /*!< mask of standard identifier */ +#define CAN_EFID_MASK ((uint32_t)0x1FFFFFFFU) /*!< mask of extended identifier */ + +/* CAN working mode */ +#define CAN_MODE_INITIALIZE ((uint8_t)0x01U) /*!< CAN initialize mode */ +#define CAN_MODE_NORMAL ((uint8_t)0x02U) /*!< CAN normal mode */ +#define CAN_MODE_SLEEP ((uint8_t)0x04U) /*!< CAN sleep mode */ + +/* filter bits */ +#define CAN_FILTERBITS_16BIT ((uint8_t)0x00U) /*!< CAN filter 16 bits */ +#define CAN_FILTERBITS_32BIT ((uint8_t)0x01U) /*!< CAN filter 32 bits */ + +/* filter mode */ +#define CAN_FILTERMODE_MASK ((uint8_t)0x00U) /*!< mask mode */ +#define CAN_FILTERMODE_LIST ((uint8_t)0x01U) /*!< list mode */ + +/* filter 16 bits mask */ +#define CAN_FILTER_MASK_16BITS ((uint32_t)0x0000FFFFU) /*!< can filter 16 bits mask */ + +/* frame type */ +#define CAN_FT_DATA ((uint32_t)0x00000000U) /*!< data frame */ +#define CAN_FT_REMOTE ((uint32_t)0x00000002U) /*!< remote frame */ + +/* CAN timeout */ +#define CAN_TIMEOUT ((uint32_t)0x0000FFFFU) /*!< timeout value */ + +/* interrupt enable bits */ +#define CAN_INT_TME CAN_INTEN_TMEIE /*!< transmit mailbox empty interrupt enable */ +#define CAN_INT_RFNE0 CAN_INTEN_RFNEIE0 /*!< receive FIFO0 not empty interrupt enable */ +#define CAN_INT_RFF0 CAN_INTEN_RFFIE0 /*!< receive FIFO0 full interrupt enable */ +#define CAN_INT_RFO0 CAN_INTEN_RFOIE0 /*!< receive FIFO0 overfull interrupt enable */ +#define CAN_INT_RFNE1 CAN_INTEN_RFNEIE1 /*!< receive FIFO1 not empty interrupt enable */ +#define CAN_INT_RFF1 CAN_INTEN_RFFIE1 /*!< receive FIFO1 full interrupt enable */ +#define CAN_INT_RFO1 CAN_INTEN_RFOIE1 /*!< receive FIFO1 overfull interrupt enable */ +#define CAN_INT_WERR CAN_INTEN_WERRIE /*!< warning error interrupt enable */ +#define CAN_INT_PERR CAN_INTEN_PERRIE /*!< passive error interrupt enable */ +#define CAN_INT_BO CAN_INTEN_BOIE /*!< bus-off interrupt enable */ +#define CAN_INT_ERRN CAN_INTEN_ERRNIE /*!< error number interrupt enable */ +#define CAN_INT_ERR CAN_INTEN_ERRIE /*!< error interrupt enable */ +#define CAN_INT_WAKEUP CAN_INTEN_WIE /*!< wakeup interrupt enable */ +#define CAN_INT_SLPW CAN_INTEN_SLPWIE /*!< sleep working interrupt enable */ + +/* function declarations */ +/* deinitialize CAN */ +void can_deinit(uint32_t can_periph); +/* initialize CAN struct */ +void can_struct_para_init(can_struct_type_enum type, void* p_struct); +/* initialize CAN */ +ErrStatus can_init(uint32_t can_periph, can_parameter_struct* can_parameter_init); +/* CAN filter init */ +void can_filter_init(can_filter_parameter_struct* can_filter_parameter_init); +/* set can1 fliter start bank number */ +void can1_filter_start_bank(uint8_t start_bank); +/* enable functions */ +/* CAN debug freeze enable */ +void can_debug_freeze_enable(uint32_t can_periph); +/* CAN debug freeze disable */ +void can_debug_freeze_disable(uint32_t can_periph); +/* CAN time trigger mode enable */ +void can_time_trigger_mode_enable(uint32_t can_periph); +/* CAN time trigger mode disable */ +void can_time_trigger_mode_disable(uint32_t can_periph); + +/* transmit functions */ +/* transmit CAN message */ +uint8_t can_message_transmit(uint32_t can_periph, can_trasnmit_message_struct* transmit_message); +/* get CAN transmit state */ +can_transmit_state_enum can_transmit_states(uint32_t can_periph, uint8_t mailbox_number); +/* stop CAN transmission */ +void can_transmission_stop(uint32_t can_periph, uint8_t mailbox_number); +/* CAN receive message */ +void can_message_receive(uint32_t can_periph, uint8_t fifo_number, can_receive_message_struct* receive_message); +/* CAN release fifo */ +void can_fifo_release(uint32_t can_periph, uint8_t fifo_number); +/* CAN receive message length */ +uint8_t can_receive_message_length_get(uint32_t can_periph, uint8_t fifo_number); +/* CAN working mode */ +ErrStatus can_working_mode_set(uint32_t can_periph, uint8_t working_mode); +/* CAN wakeup from sleep mode */ +ErrStatus can_wakeup(uint32_t can_periph); + +/* CAN get error */ +can_error_enum can_error_get(uint32_t can_periph); +/* get CAN receive error number */ +uint8_t can_receive_error_number_get(uint32_t can_periph); +/* get CAN transmit error number */ +uint8_t can_transmit_error_number_get(uint32_t can_periph); + +/* CAN interrupt enable */ +void can_interrupt_enable(uint32_t can_periph, uint32_t interrupt); +/* CAN interrupt disable */ +void can_interrupt_disable(uint32_t can_periph, uint32_t interrupt); +/* CAN get flag state */ +FlagStatus can_flag_get(uint32_t can_periph, can_flag_enum flag); +/* CAN clear flag state */ +void can_flag_clear(uint32_t can_periph, can_flag_enum flag); +/* CAN get interrupt flag state */ +FlagStatus can_interrupt_flag_get(uint32_t can_periph, can_interrupt_flag_enum flag); +/* CAN clear interrupt flag state */ +void can_interrupt_flag_clear(uint32_t can_periph, can_interrupt_flag_enum flag); + +#endif /* GD32F30X_CAN_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_crc.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_crc.h new file mode 100644 index 0000000000..156313419d --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_crc.h @@ -0,0 +1,81 @@ +/*! + \file gd32f30x_crc.h + \brief definitions for the CRC + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_CRC_H +#define GD32F30X_CRC_H + +#include "gd32f30x.h" + +/* CRC definitions */ +#define CRC CRC_BASE + +/* registers definitions */ +#define CRC_DATA REG32(CRC + 0x00U) /*!< CRC data register */ +#define CRC_FDATA REG32(CRC + 0x04U) /*!< CRC free data register */ +#define CRC_CTL REG32(CRC + 0x08U) /*!< CRC control register */ + +/* bits definitions */ +/* CRC_DATA */ +#define CRC_DATA_DATA BITS(0,31) /*!< CRC calculation result bits */ + +/* CRC_FDATA */ +#define CRC_FDATA_FDATA BITS(0,7) /*!< CRC free data bits */ + +/* CRC_CTL */ +#define CRC_CTL_RST BIT(0) /*!< CRC reset CRC_DATA register bit */ + + +/* function declarations */ +/* deinit CRC calculation unit */ +void crc_deinit(void); + +/* reset data register(CRC_DATA) to the value of 0xFFFFFFFF */ +void crc_data_register_reset(void); +/* read the value of the data register */ +uint32_t crc_data_register_read(void); + +/* read the value of the free data register */ +uint8_t crc_free_data_register_read(void); +/* write data to the free data register */ +void crc_free_data_register_write(uint8_t free_data); + +/* calculate the CRC value of a 32-bit data */ +uint32_t crc_single_data_calculate(uint32_t sdata); +/* calculate the CRC value of an array of 32-bit values */ +uint32_t crc_block_data_calculate(const uint32_t *array, uint32_t size); + +#endif /* GD32F30X_CRC_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_ctc.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_ctc.h new file mode 100644 index 0000000000..013dcb6981 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_ctc.h @@ -0,0 +1,185 @@ +/*! + \file gd32f30x_ctc.h + \brief definitions for the CTC + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_CTC_H +#define GD32F30X_CTC_H + +#include "gd32f30x.h" + +/* CTC definitions */ +#define CTC CTC_BASE + +/* registers definitions */ +#define CTC_CTL0 REG32((CTC) + 0x00U) /*!< CTC control register 0 */ +#define CTC_CTL1 REG32((CTC) + 0x04U) /*!< CTC control register 1 */ +#define CTC_STAT REG32((CTC) + 0x08U) /*!< CTC status register */ +#define CTC_INTC REG32((CTC) + 0x0CU) /*!< CTC interrupt clear register */ + +/* bits definitions */ +/* CTC_CTL0 */ +#define CTC_CTL0_CKOKIE BIT(0) /*!< clock trim OK(CKOKIF) interrupt enable */ +#define CTC_CTL0_CKWARNIE BIT(1) /*!< clock trim warning(CKWARNIF) interrupt enable */ +#define CTC_CTL0_ERRIE BIT(2) /*!< error(ERRIF) interrupt enable */ +#define CTC_CTL0_EREFIE BIT(3) /*!< EREFIF interrupt enable */ +#define CTC_CTL0_CNTEN BIT(5) /*!< CTC counter enable */ +#define CTC_CTL0_AUTOTRIM BIT(6) /*!< hardware automatically trim mode */ +#define CTC_CTL0_SWREFPUL BIT(7) /*!< software reference source sync pulse */ +#define CTC_CTL0_TRIMVALUE BITS(8,13) /*!< IRC48M trim value */ + +/* CTC_CTL1 */ +#define CTC_CTL1_RLVALUE BITS(0,15) /*!< CTC counter reload value */ +#define CTC_CTL1_CKLIM BITS(16,23) /*!< clock trim base limit value */ +#define CTC_CTL1_REFPSC BITS(24,26) /*!< reference signal source prescaler */ +#define CTC_CTL1_REFSEL BITS(28,29) /*!< reference signal source selection */ +#define CTC_CTL1_REFPOL BIT(31) /*!< reference signal source polarity */ + +/* CTC_STAT */ +#define CTC_STAT_CKOKIF BIT(0) /*!< clock trim OK interrupt flag */ +#define CTC_STAT_CKWARNIF BIT(1) /*!< clock trim warning interrupt flag */ +#define CTC_STAT_ERRIF BIT(2) /*!< error interrupt flag */ +#define CTC_STAT_EREFIF BIT(3) /*!< expect reference interrupt flag */ +#define CTC_STAT_CKERR BIT(8) /*!< clock trim error bit */ +#define CTC_STAT_REFMISS BIT(9) /*!< reference sync pulse miss */ +#define CTC_STAT_TRIMERR BIT(10) /*!< trim value error bit */ +#define CTC_STAT_REFDIR BIT(15) /*!< CTC trim counter direction when reference sync pulse occurred */ +#define CTC_STAT_REFCAP BITS(16,31) /*!< CTC counter capture when reference sync pulse occurred */ + +/* CTC_INTC */ +#define CTC_INTC_CKOKIC BIT(0) /*!< CKOKIF interrupt clear bit */ +#define CTC_INTC_CKWARNIC BIT(1) /*!< CKWARNIF interrupt clear bit */ +#define CTC_INTC_ERRIC BIT(2) /*!< ERRIF interrupt clear bit */ +#define CTC_INTC_EREFIC BIT(3) /*!< EREFIF interrupt clear bit */ + +/* constants definitions */ +/* hardware automatically trim mode definitions */ +#define CTC_HARDWARE_TRIM_MODE_ENABLE CTC_CTL0_AUTOTRIM /*!< hardware automatically trim mode enable*/ +#define CTC_HARDWARE_TRIM_MODE_DISABLE ((uint32_t)0x00000000U) /*!< hardware automatically trim mode disable*/ + +/* reference signal source polarity definitions */ +#define CTC_REFSOURCE_POLARITY_FALLING CTC_CTL1_REFPOL /*!< reference signal source polarity is falling edge*/ +#define CTC_REFSOURCE_POLARITY_RISING ((uint32_t)0x00000000U) /*!< reference signal source polarity is rising edge*/ + +/* reference signal source selection definitions */ +#define CTL1_REFSEL(regval) (BITS(28,29) & ((uint32_t)(regval) << 28)) +#define CTC_REFSOURCE_GPIO CTL1_REFSEL(0) /*!< GPIO is selected */ +#define CTC_REFSOURCE_LXTAL CTL1_REFSEL(1) /*!< LXTAL is selected */ + +/* reference signal source prescaler definitions */ +#define CTL1_REFPSC(regval) (BITS(24,26) & ((uint32_t)(regval) << 24)) +#define CTC_REFSOURCE_PSC_OFF CTL1_REFPSC(0) /*!< reference signal not divided */ +#define CTC_REFSOURCE_PSC_DIV2 CTL1_REFPSC(1) /*!< reference signal divided by 2 */ +#define CTC_REFSOURCE_PSC_DIV4 CTL1_REFPSC(2) /*!< reference signal divided by 4 */ +#define CTC_REFSOURCE_PSC_DIV8 CTL1_REFPSC(3) /*!< reference signal divided by 8 */ +#define CTC_REFSOURCE_PSC_DIV16 CTL1_REFPSC(4) /*!< reference signal divided by 16 */ +#define CTC_REFSOURCE_PSC_DIV32 CTL1_REFPSC(5) /*!< reference signal divided by 32 */ +#define CTC_REFSOURCE_PSC_DIV64 CTL1_REFPSC(6) /*!< reference signal divided by 64 */ +#define CTC_REFSOURCE_PSC_DIV128 CTL1_REFPSC(7) /*!< reference signal divided by 128 */ + +/* CTC interrupt enable definitions */ +#define CTC_INT_CKOK CTC_CTL0_CKOKIE /*!< clock trim OK interrupt enable */ +#define CTC_INT_CKWARN CTC_CTL0_CKWARNIE /*!< clock trim warning interrupt enable */ +#define CTC_INT_ERR CTC_CTL0_ERRIE /*!< error interrupt enable */ +#define CTC_INT_EREF CTC_CTL0_EREFIE /*!< expect reference interrupt enable */ + +/* CTC interrupt source definitions */ +#define CTC_INT_FLAG_CKOK CTC_STAT_CKOKIF /*!< clock trim OK interrupt flag */ +#define CTC_INT_FLAG_CKWARN CTC_STAT_CKWARNIF /*!< clock trim warning interrupt flag */ +#define CTC_INT_FLAG_ERR CTC_STAT_ERRIF /*!< error interrupt flag */ +#define CTC_INT_FLAG_EREF CTC_STAT_EREFIF /*!< expect reference interrupt flag */ +#define CTC_INT_FLAG_CKERR CTC_STAT_CKERR /*!< clock trim error bit */ +#define CTC_INT_FLAG_REFMISS CTC_STAT_REFMISS /*!< reference sync pulse miss */ +#define CTC_INT_FLAG_TRIMERR CTC_STAT_TRIMERR /*!< trim value error */ + +/* CTC flag definitions */ +#define CTC_FLAG_CKOK CTC_STAT_CKOKIF /*!< clock trim OK flag */ +#define CTC_FLAG_CKWARN CTC_STAT_CKWARNIF /*!< clock trim warning flag */ +#define CTC_FLAG_ERR CTC_STAT_ERRIF /*!< error flag */ +#define CTC_FLAG_EREF CTC_STAT_EREFIF /*!< expect reference flag */ +#define CTC_FLAG_CKERR CTC_STAT_CKERR /*!< clock trim error bit */ +#define CTC_FLAG_REFMISS CTC_STAT_REFMISS /*!< reference sync pulse miss */ +#define CTC_FLAG_TRIMERR CTC_STAT_TRIMERR /*!< trim value error bit */ + +/* function declarations */ +/* reset ctc clock trim controller */ +void ctc_deinit(void); +/* enable CTC trim counter */ +void ctc_counter_enable(void); +/* disable CTC trim counter */ +void ctc_counter_disable(void); + +/* configure the IRC48M trim value */ +void ctc_irc48m_trim_value_config(uint8_t trim_value); +/* generate software reference source sync pulse */ +void ctc_software_refsource_pulse_generate(void); +/* configure hardware automatically trim mode */ +void ctc_hardware_trim_mode_config(uint32_t hardmode); + +/* configure reference signal source polarity */ +void ctc_refsource_polarity_config(uint32_t polarity); +/* select reference signal source */ +void ctc_refsource_signal_select(uint32_t refs); +/* configure reference signal source prescaler */ +void ctc_refsource_prescaler_config(uint32_t prescaler); +/* configure clock trim base limit value */ +void ctc_clock_limit_value_config(uint8_t limit_value); +/* configure CTC counter reload value */ +void ctc_counter_reload_value_config(uint16_t reload_value); + +/* read CTC counter capture value when reference sync pulse occurred */ +uint16_t ctc_counter_capture_value_read(void); +/* read CTC trim counter direction when reference sync pulse occurred */ +FlagStatus ctc_counter_direction_read(void); +/* read CTC counter reload value */ +uint16_t ctc_counter_reload_value_read(void); +/* read the IRC48M trim value */ +uint8_t ctc_irc48m_trim_value_read(void); + +/* interrupt & flag functions */ +/* enable the CTC interrupt */ +void ctc_interrupt_enable(uint32_t interrupt); +/* disable the CTC interrupt */ +void ctc_interrupt_disable(uint32_t interrupt); +/* get CTC interrupt flag */ +FlagStatus ctc_interrupt_flag_get(uint32_t int_flag); +/* clear CTC interrupt flag */ +void ctc_interrupt_flag_clear(uint32_t int_flag); +/* get CTC flag */ +FlagStatus ctc_flag_get(uint32_t flag); +/* clear CTC flag */ +void ctc_flag_clear(uint32_t flag); + +#endif /* GD32F30X_CTC_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dac.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dac.h new file mode 100644 index 0000000000..24c28c23fb --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dac.h @@ -0,0 +1,250 @@ +/*! + \file gd32f30x_dac.h + \brief definitions for the DAC + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_DAC_H +#define GD32F30X_DAC_H + +#include "gd32f30x.h" + +/* DACx(x=0,1) definitions */ +#define DAC DAC_BASE +#define DAC0 0U +#define DAC1 1U + +/* registers definitions */ +#define DAC_CTL REG32(DAC + 0x00U) /*!< DAC control register */ +#define DAC_SWT REG32(DAC + 0x04U) /*!< DAC software trigger register */ +#define DAC0_R12DH REG32(DAC + 0x08U) /*!< DAC0 12-bit right-aligned data holding register */ +#define DAC0_L12DH REG32(DAC + 0x0CU) /*!< DAC0 12-bit left-aligned data holding register */ +#define DAC0_R8DH REG32(DAC + 0x10U) /*!< DAC0 8-bit right-aligned data holding register */ +#define DAC1_R12DH REG32(DAC + 0x14U) /*!< DAC1 12-bit right-aligned data holding register */ +#define DAC1_L12DH REG32(DAC + 0x18U) /*!< DAC1 12-bit left-aligned data holding register */ +#define DAC1_R8DH REG32(DAC + 0x1CU) /*!< DAC1 8-bit right-aligned data holding register */ +#define DACC_R12DH REG32(DAC + 0x20U) /*!< DAC concurrent mode 12-bit right-aligned data holding register */ +#define DACC_L12DH REG32(DAC + 0x24U) /*!< DAC concurrent mode 12-bit left-aligned data holding register */ +#define DACC_R8DH REG32(DAC + 0x28U) /*!< DAC concurrent mode 8-bit right-aligned data holding register */ +#define DAC0_DO REG32(DAC + 0x2CU) /*!< DAC0 data output register */ +#define DAC1_DO REG32(DAC + 0x30U) /*!< DAC1 data output register */ + +/* bits definitions */ +/* DAC_CTL */ +#define DAC_CTL_DEN0 BIT(0) /*!< DAC0 enable/disable bit */ +#define DAC_CTL_DBOFF0 BIT(1) /*!< DAC0 output buffer turn on/turn off bit */ +#define DAC_CTL_DTEN0 BIT(2) /*!< DAC0 trigger enable/disable bit */ +#define DAC_CTL_DTSEL0 BITS(3,5) /*!< DAC0 trigger source selection enable/disable bits */ +#define DAC_CTL_DWM0 BITS(6,7) /*!< DAC0 noise wave mode */ +#define DAC_CTL_DWBW0 BITS(8,11) /*!< DAC0 noise wave bit width */ +#define DAC_CTL_DDMAEN0 BIT(12) /*!< DAC0 DMA enable/disable bit */ +#define DAC_CTL_DEN1 BIT(16) /*!< DAC1 enable/disable bit */ +#define DAC_CTL_DBOFF1 BIT(17) /*!< DAC1 output buffer turn on/turn off bit */ +#define DAC_CTL_DTEN1 BIT(18) /*!< DAC1 trigger enable/disable bit */ +#define DAC_CTL_DTSEL1 BITS(19,21) /*!< DAC1 trigger source selection enable/disable bits */ +#define DAC_CTL_DWM1 BITS(22,23) /*!< DAC1 noise wave mode */ +#define DAC_CTL_DWBW1 BITS(24,27) /*!< DAC1 noise wave bit width */ +#define DAC_CTL_DDMAEN1 BIT(28) /*!< DAC1 DMA enable/disable bit */ + +/* DAC_SWT */ +#define DAC_SWT_SWTR0 BIT(0) /*!< DAC0 software trigger bit, cleared by hardware */ +#define DAC_SWT_SWTR1 BIT(1) /*!< DAC1 software trigger bit, cleared by hardware */ + +/* DAC0_R12DH */ +#define DAC0_R12DH_DAC0_DH BITS(0,11) /*!< DAC0 12-bit right-aligned data bits */ + +/* DAC0_L12DH */ +#define DAC0_L12DH_DAC0_DH BITS(4,15) /*!< DAC0 12-bit left-aligned data bits */ + +/* DAC0_R8DH */ +#define DAC0_R8DH_DAC0_DH BITS(0,7) /*!< DAC0 8-bit right-aligned data bits */ + +/* DAC1_R12DH */ +#define DAC1_R12DH_DAC1_DH BITS(0,11) /*!< DAC1 12-bit right-aligned data bits */ + +/* DAC1_L12DH */ +#define DAC1_L12DH_DAC1_DH BITS(4,15) /*!< DAC1 12-bit left-aligned data bits */ + +/* DAC1_R8DH */ +#define DAC1_R8DH_DAC1_DH BITS(0,7) /*!< DAC1 8-bit right-aligned data bits */ + +/* DACC_R12DH */ +#define DACC_R12DH_DAC0_DH BITS(0,11) /*!< DAC concurrent mode DAC0 12-bit right-aligned data bits */ +#define DACC_R12DH_DAC1_DH BITS(16,27) /*!< DAC concurrent mode DAC1 12-bit right-aligned data bits */ + +/* DACC_L12DH */ +#define DACC_L12DH_DAC0_DH BITS(4,15) /*!< DAC concurrent mode DAC0 12-bit left-aligned data bits */ +#define DACC_L12DH_DAC1_DH BITS(20,31) /*!< DAC concurrent mode DAC1 12-bit left-aligned data bits */ + +/* DACC_R8DH */ +#define DACC_R8DH_DAC0_DH BITS(0,7) /*!< DAC concurrent mode DAC0 8-bit right-aligned data bits */ +#define DACC_R8DH_DAC1_DH BITS(8,15) /*!< DAC concurrent mode DAC1 8-bit right-aligned data bits */ + +/* DAC0_DO */ +#define DAC0_DO_DAC0_DO BITS(0,11) /*!< DAC0 12-bit output data bits */ + +/* DAC1_DO */ +#define DAC1_DO_DAC1_DO BITS(0,11) /*!< DAC1 12-bit output data bits */ + +/* constants definitions */ +/* DAC trigger source */ +#define CTL_DTSEL(regval) (BITS(3,5) & ((uint32_t)(regval) << 3)) +#define DAC_TRIGGER_T5_TRGO CTL_DTSEL(0) /*!< TIMER5 TRGO */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define DAC_TRIGGER_T7_TRGO CTL_DTSEL(1) /*!< TIMER7 TRGO */ +#elif defined(GD32F30X_CL) +#define DAC_TRIGGER_T2_TRGO CTL_DTSEL(1) /*!< TIMER2 TRGO */ +#endif /* GD32F30X_HD and GD32F30X_XD */ +#define DAC_TRIGGER_T6_TRGO CTL_DTSEL(2) /*!< TIMER6 TRGO */ +#define DAC_TRIGGER_T4_TRGO CTL_DTSEL(3) /*!< TIMER4 TRGO */ +#define DAC_TRIGGER_T1_TRGO CTL_DTSEL(4) /*!< TIMER1 TRGO */ +#define DAC_TRIGGER_T3_TRGO CTL_DTSEL(5) /*!< TIMER3 TRGO */ +#define DAC_TRIGGER_EXTI_9 CTL_DTSEL(6) /*!< EXTI interrupt line9 event */ +#define DAC_TRIGGER_SOFTWARE CTL_DTSEL(7) /*!< software trigger */ + +/* DAC noise wave mode */ +#define CTL_DWM(regval) (BITS(6,7) & ((uint32_t)(regval) << 6)) +#define DAC_WAVE_DISABLE CTL_DWM(0) /*!< wave disable */ +#define DAC_WAVE_MODE_LFSR CTL_DWM(1) /*!< LFSR noise mode */ +#define DAC_WAVE_MODE_TRIANGLE CTL_DWM(2) /*!< triangle noise mode */ + +/* DAC noise wave bit width */ +#define DWBW(regval) (BITS(8,11) & ((uint32_t)(regval) << 8)) +#define DAC_WAVE_BIT_WIDTH_1 DWBW(0) /*!< bit width of the wave signal is 1 */ +#define DAC_WAVE_BIT_WIDTH_2 DWBW(1) /*!< bit width of the wave signal is 2 */ +#define DAC_WAVE_BIT_WIDTH_3 DWBW(2) /*!< bit width of the wave signal is 3 */ +#define DAC_WAVE_BIT_WIDTH_4 DWBW(3) /*!< bit width of the wave signal is 4 */ +#define DAC_WAVE_BIT_WIDTH_5 DWBW(4) /*!< bit width of the wave signal is 5 */ +#define DAC_WAVE_BIT_WIDTH_6 DWBW(5) /*!< bit width of the wave signal is 6 */ +#define DAC_WAVE_BIT_WIDTH_7 DWBW(6) /*!< bit width of the wave signal is 7 */ +#define DAC_WAVE_BIT_WIDTH_8 DWBW(7) /*!< bit width of the wave signal is 8 */ +#define DAC_WAVE_BIT_WIDTH_9 DWBW(8) /*!< bit width of the wave signal is 9 */ +#define DAC_WAVE_BIT_WIDTH_10 DWBW(9) /*!< bit width of the wave signal is 10 */ +#define DAC_WAVE_BIT_WIDTH_11 DWBW(10) /*!< bit width of the wave signal is 11 */ +#define DAC_WAVE_BIT_WIDTH_12 DWBW(11) /*!< bit width of the wave signal is 12 */ + +/* unmask LFSR bits in DAC LFSR noise mode */ +#define DAC_LFSR_BIT0 DAC_WAVE_BIT_WIDTH_1 /*!< unmask the LFSR bit0 */ +#define DAC_LFSR_BITS1_0 DAC_WAVE_BIT_WIDTH_2 /*!< unmask the LFSR bits[1:0] */ +#define DAC_LFSR_BITS2_0 DAC_WAVE_BIT_WIDTH_3 /*!< unmask the LFSR bits[2:0] */ +#define DAC_LFSR_BITS3_0 DAC_WAVE_BIT_WIDTH_4 /*!< unmask the LFSR bits[3:0] */ +#define DAC_LFSR_BITS4_0 DAC_WAVE_BIT_WIDTH_5 /*!< unmask the LFSR bits[4:0] */ +#define DAC_LFSR_BITS5_0 DAC_WAVE_BIT_WIDTH_6 /*!< unmask the LFSR bits[5:0] */ +#define DAC_LFSR_BITS6_0 DAC_WAVE_BIT_WIDTH_7 /*!< unmask the LFSR bits[6:0] */ +#define DAC_LFSR_BITS7_0 DAC_WAVE_BIT_WIDTH_8 /*!< unmask the LFSR bits[7:0] */ +#define DAC_LFSR_BITS8_0 DAC_WAVE_BIT_WIDTH_9 /*!< unmask the LFSR bits[8:0] */ +#define DAC_LFSR_BITS9_0 DAC_WAVE_BIT_WIDTH_10 /*!< unmask the LFSR bits[9:0] */ +#define DAC_LFSR_BITS10_0 DAC_WAVE_BIT_WIDTH_11 /*!< unmask the LFSR bits[10:0] */ +#define DAC_LFSR_BITS11_0 DAC_WAVE_BIT_WIDTH_12 /*!< unmask the LFSR bits[11:0] */ + +/* DAC data alignment */ +#define DATA_ALIGN(regval) (BITS(0,1) & ((uint32_t)(regval) << 0)) +#define DAC_ALIGN_12B_R DATA_ALIGN(0) /*!< data right 12 bit alignment */ +#define DAC_ALIGN_12B_L DATA_ALIGN(1) /*!< data left 12 bit alignment */ +#define DAC_ALIGN_8B_R DATA_ALIGN(2) /*!< data right 8 bit alignment */ + +/* triangle amplitude in DAC triangle noise mode */ +#define DAC_TRIANGLE_AMPLITUDE_1 DAC_WAVE_BIT_WIDTH_1 /*!< triangle amplitude is 1 */ +#define DAC_TRIANGLE_AMPLITUDE_3 DAC_WAVE_BIT_WIDTH_2 /*!< triangle amplitude is 3 */ +#define DAC_TRIANGLE_AMPLITUDE_7 DAC_WAVE_BIT_WIDTH_3 /*!< triangle amplitude is 7 */ +#define DAC_TRIANGLE_AMPLITUDE_15 DAC_WAVE_BIT_WIDTH_4 /*!< triangle amplitude is 15 */ +#define DAC_TRIANGLE_AMPLITUDE_31 DAC_WAVE_BIT_WIDTH_5 /*!< triangle amplitude is 31 */ +#define DAC_TRIANGLE_AMPLITUDE_63 DAC_WAVE_BIT_WIDTH_6 /*!< triangle amplitude is 63 */ +#define DAC_TRIANGLE_AMPLITUDE_127 DAC_WAVE_BIT_WIDTH_7 /*!< triangle amplitude is 127 */ +#define DAC_TRIANGLE_AMPLITUDE_255 DAC_WAVE_BIT_WIDTH_8 /*!< triangle amplitude is 255 */ +#define DAC_TRIANGLE_AMPLITUDE_511 DAC_WAVE_BIT_WIDTH_9 /*!< triangle amplitude is 511 */ +#define DAC_TRIANGLE_AMPLITUDE_1023 DAC_WAVE_BIT_WIDTH_10 /*!< triangle amplitude is 1023 */ +#define DAC_TRIANGLE_AMPLITUDE_2047 DAC_WAVE_BIT_WIDTH_11 /*!< triangle amplitude is 2047 */ +#define DAC_TRIANGLE_AMPLITUDE_4095 DAC_WAVE_BIT_WIDTH_12 /*!< triangle amplitude is 4095 */ + +/* function declarations */ +/* initialization functions */ +/* deinitialize DAC */ +void dac_deinit(void); +/* enable DAC */ +void dac_enable(uint32_t dac_periph); +/* disable DAC */ +void dac_disable(uint32_t dac_periph); +/* enable DAC DMA */ +void dac_dma_enable(uint32_t dac_periph); +/* disable DAC DMA */ +void dac_dma_disable(uint32_t dac_periph); +/* enable DAC output buffer */ +void dac_output_buffer_enable(uint32_t dac_periph); +/* disable DAC output buffer */ +void dac_output_buffer_disable(uint32_t dac_periph); +/* get the last data output value */ +uint16_t dac_output_value_get(uint32_t dac_periph); +/* set DAC data holding register value */ +void dac_data_set(uint32_t dac_periph, uint32_t dac_align, uint16_t data); + +/* DAC trigger configuration */ +/* enable DAC trigger */ +void dac_trigger_enable(uint32_t dac_periph); +/* disable DAC trigger */ +void dac_trigger_disable(uint32_t dac_periph); +/* configure DAC trigger source */ +void dac_trigger_source_config(uint32_t dac_periph, uint32_t triggersource); +/* enable DAC software trigger */ +void dac_software_trigger_enable(uint32_t dac_periph); +/* disable DAC software trigger */ +void dac_software_trigger_disable(uint32_t dac_periph); + +/* DAC wave mode configuration */ +/* configure DAC wave mode */ +void dac_wave_mode_config(uint32_t dac_periph, uint32_t wave_mode); +/* configure DAC wave bit width */ +void dac_wave_bit_width_config(uint32_t dac_periph, uint32_t bit_width); +/* configure DAC LFSR noise mode */ +void dac_lfsr_noise_config(uint32_t dac_periph, uint32_t unmask_bits); +/* configure DAC triangle noise mode */ +void dac_triangle_noise_config(uint32_t dac_periph, uint32_t amplitude); + +/* DAC concurrent mode configuration */ +/* enable DAC concurrent mode */ +void dac_concurrent_enable(void); +/* disable DAC concurrent mode */ +void dac_concurrent_disable(void); +/* enable DAC concurrent software trigger */ +void dac_concurrent_software_trigger_enable(void); +/* disable DAC concurrent software trigger */ +void dac_concurrent_software_trigger_disable(void); +/* enable DAC concurrent buffer function */ +void dac_concurrent_output_buffer_enable(void); +/* disable DAC concurrent buffer function */ +void dac_concurrent_output_buffer_disable(void); +/* set DAC concurrent mode data holding register value */ +void dac_concurrent_data_set(uint32_t dac_align, uint16_t data0, uint16_t data1); + +#endif /* GD32F30X_DAC_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dbg.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dbg.h new file mode 100644 index 0000000000..bc54b70fd6 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dbg.h @@ -0,0 +1,149 @@ +/*! + \file gd32f30x_dbg.h + \brief definitions for the DBG + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_DBG_H +#define GD32F30X_DBG_H + +#include "gd32f30x.h" + +/* DBG definitions */ +#define DBG DBG_BASE + +/* registers definitions */ +#define DBG_ID REG32(DBG + 0x00U) /*!< DBG_ID code register */ +#define DBG_CTL0 REG32(DBG + 0x04U) /*!< DBG control register 0 */ + +/* bits definitions */ +/* DBG_ID */ +#define DBG_ID_ID_CODE BITS(0,31) /*!< DBG ID code values */ + +/* DBG_CTL0 */ +#define DBG_CTL0_SLP_HOLD BIT(0) /*!< keep debugger connection during sleep mode */ +#define DBG_CTL0_DSLP_HOLD BIT(1) /*!< keep debugger connection during deepsleep mode */ +#define DBG_CTL0_STB_HOLD BIT(2) /*!< keep debugger connection during standby mode */ +#define DBG_CTL0_TRACE_IOEN BIT(5) /*!< enable trace pin assignment */ +#define DBG_CTL0_FWDGT_HOLD BIT(8) /*!< debug FWDGT kept when core is halted */ +#define DBG_CTL0_WWDGT_HOLD BIT(9) /*!< debug WWDGT kept when core is halted */ +#define DBG_CTL0_TIMER0_HOLD BIT(10) /*!< hold TIMER0 counter when core is halted */ +#define DBG_CTL0_TIMER1_HOLD BIT(11) /*!< hold TIMER1 counter when core is halted */ +#define DBG_CTL0_TIMER2_HOLD BIT(12) /*!< hold TIMER2 counter when core is halted */ +#define DBG_CTL0_TIMER3_HOLD BIT(13) /*!< hold TIMER3 counter when core is halted */ +#define DBG_CTL0_CAN0_HOLD BIT(14) /*!< debug CAN0 kept when core is halted */ +#define DBG_CTL0_I2C0_HOLD BIT(15) /*!< hold I2C0 smbus when core is halted */ +#define DBG_CTL0_I2C1_HOLD BIT(16) /*!< hold I2C1 smbus when core is halted */ +#define DBG_CTL0_TIMER7_HOLD BIT(17) /*!< hold TIMER7 counter when core is halted */ +#define DBG_CTL0_TIMER4_HOLD BIT(18) /*!< hold TIMER4 counter when core is halted */ +#define DBG_CTL0_TIMER5_HOLD BIT(19) /*!< hold TIMER5 counter when core is halted */ +#define DBG_CTL0_TIMER6_HOLD BIT(20) /*!< hold TIMER6 counter when core is halted */ +#ifdef GD32F30X_CL +#define DBG_CTL0_CAN1_HOLD BIT(21) /*!< debug CAN1 kept when core is halted */ +#endif /* GD32F30X_CL */ +#ifndef GD32F30X_HD +#define DBG_CTL0_TIMER11_HOLD BIT(25) /*!< hold TIMER11 counter when core is halted */ +#define DBG_CTL0_TIMER12_HOLD BIT(26) /*!< hold TIMER12 counter when core is halted */ +#define DBG_CTL0_TIMER13_HOLD BIT(27) /*!< hold TIMER13 counter when core is halted */ +#define DBG_CTL0_TIMER8_HOLD BIT(28) /*!< hold TIMER8 counter when core is halted */ +#define DBG_CTL0_TIMER9_HOLD BIT(29) /*!< hold TIMER9 counter when core is halted */ +#define DBG_CTL0_TIMER10_HOLD BIT(30) /*!< hold TIMER10 counter when core is halted */ +#endif /* GD32F30X_HD */ + +/* constants definitions */ +#define DBG_LOW_POWER_SLEEP DBG_CTL0_SLP_HOLD /*!< keep debugger connection during sleep mode */ +#define DBG_LOW_POWER_DEEPSLEEP DBG_CTL0_DSLP_HOLD /*!< keep debugger connection during deepsleep mode */ +#define DBG_LOW_POWER_STANDBY DBG_CTL0_STB_HOLD /*!< keep debugger connection during standby mode */ + +/* define the peripheral debug hold bit position and its register index offset */ +#define DBG_REGIDX_BIT(regidx, bitpos) (((regidx) << 6) | (bitpos)) +#define DBG_REG_VAL(periph) (REG32(DBG + ((uint32_t)(periph) >> 6))) +#define DBG_BIT_POS(val) ((uint32_t)(val) & 0x1FU) + +/* register index */ +enum dbg_reg_idx +{ + DBG_IDX_CTL0 = 0x04U +}; + +typedef enum +{ + DBG_FWDGT_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 8U), /*!< debug FWDGT kept when core is halted */ + DBG_WWDGT_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 9U), /*!< debug WWDGT kept when core is halted */ + DBG_TIMER0_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 10U), /*!< hold TIMER0 counter when core is halted */ + DBG_TIMER1_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 11U), /*!< hold TIMER1 counter when core is halted */ + DBG_TIMER2_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 12U), /*!< hold TIMER2 counter when core is halted */ + DBG_TIMER3_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 13U), /*!< hold TIMER3 counter when core is halted */ + DBG_CAN0_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 14U), /*!< debug CAN0 kept when core is halted */ + DBG_I2C0_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 15U), /*!< hold I2C0 smbus when core is halted */ + DBG_I2C1_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 16U), /*!< hold I2C1 smbus when core is halted */ + DBG_TIMER7_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 17U), /*!< hold TIMER7 counter when core is halted */ + DBG_TIMER4_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 18U), /*!< hold TIMER4 counter when core is halted */ + DBG_TIMER5_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 19U), /*!< hold TIMER5 counter when core is halted */ + DBG_TIMER6_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 20U), /*!< hold TIMER6 counter when core is halted */ +#ifdef GD32F30X_CL + DBG_CAN1_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 21U), /*!< debug CAN1 kept when core is halted */ +#endif /* GD32F30X_CL */ +#ifndef GD32F30X_HD + DBG_TIMER11_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 25U), /*!< hold TIMER11 counter when core is halted */ + DBG_TIMER12_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 26U), /*!< hold TIMER12 counter when core is halted */ + DBG_TIMER13_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 27U), /*!< hold TIMER13 counter when core is halted */ + DBG_TIMER8_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 28U), /*!< hold TIMER8 counter when core is halted */ + DBG_TIMER9_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 29U), /*!< hold TIMER9 counter when core is halted */ + DBG_TIMER10_HOLD = DBG_REGIDX_BIT(DBG_IDX_CTL0, 30U), /*!< hold TIMER10 counter when core is halted */ +#endif /* GD32F30X_HD */ +}dbg_periph_enum; + +/* function declarations */ +/* deinitialize the DBG */ +void dbg_deinit(void); +/* read DBG_ID code register */ +uint32_t dbg_id_get(void); + +/* enable low power behavior when the MCU is in debug mode */ +void dbg_low_power_enable(uint32_t dbg_low_power); +/* disable low power behavior when the MCU is in debug mode */ +void dbg_low_power_disable(uint32_t dbg_low_power); + +/* enable peripheral behavior when the MCU is in debug mode */ +void dbg_periph_enable(dbg_periph_enum dbg_periph); +/* disable peripheral behavior when the MCU is in debug mode */ +void dbg_periph_disable(dbg_periph_enum dbg_periph); + +/* enable trace pin assignment */ +void dbg_trace_pin_enable(void); +/* disable trace pin assignment */ +void dbg_trace_pin_disable(void); + +#endif /* GD32F30X_DBG_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dma.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dma.h new file mode 100644 index 0000000000..13f715fa59 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_dma.h @@ -0,0 +1,285 @@ +/*! + \file gd32f30x_dma.h + \brief definitions for the DMA + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_DMA_H +#define GD32F30X_DMA_H + +#include "gd32f30x.h" + +/* DMA definitions */ +#define DMA0 (DMA_BASE) /*!< DMA0 base address */ +#define DMA1 (DMA_BASE + 0x0400U) /*!< DMA1 base address */ + +/* registers definitions */ +#define DMA_INTF(dmax) REG32((dmax) + 0x00U) /*!< DMA interrupt flag register */ +#define DMA_INTC(dmax) REG32((dmax) + 0x04U) /*!< DMA interrupt flag clear register */ + +#define DMA_CH0CTL(dmax) REG32((dmax) + 0x08U) /*!< DMA channel 0 control register */ +#define DMA_CH0CNT(dmax) REG32((dmax) + 0x0CU) /*!< DMA channel 0 counter register */ +#define DMA_CH0PADDR(dmax) REG32((dmax) + 0x10U) /*!< DMA channel 0 peripheral base address register */ +#define DMA_CH0MADDR(dmax) REG32((dmax) + 0x14U) /*!< DMA channel 0 memory base address register */ + +#define DMA_CH1CTL(dmax) REG32((dmax) + 0x1CU) /*!< DMA channel 1 control register */ +#define DMA_CH1CNT(dmax) REG32((dmax) + 0x20U) /*!< DMA channel 1 counter register */ +#define DMA_CH1PADDR(dmax) REG32((dmax) + 0x24U) /*!< DMA channel 1 peripheral base address register */ +#define DMA_CH1MADDR(dmax) REG32((dmax) + 0x28U) /*!< DMA channel 1 memory base address register */ + +#define DMA_CH2CTL(dmax) REG32((dmax) + 0x30U) /*!< DMA channel 2 control register */ +#define DMA_CH2CNT(dmax) REG32((dmax) + 0x34U) /*!< DMA channel 2 counter register */ +#define DMA_CH2PADDR(dmax) REG32((dmax) + 0x38U) /*!< DMA channel 2 peripheral base address register */ +#define DMA_CH2MADDR(dmax) REG32((dmax) + 0x3CU) /*!< DMA channel 2 memory base address register */ + +#define DMA_CH3CTL(dmax) REG32((dmax) + 0x44U) /*!< DMA channel 3 control register */ +#define DMA_CH3CNT(dmax) REG32((dmax) + 0x48U) /*!< DMA channel 3 counter register */ +#define DMA_CH3PADDR(dmax) REG32((dmax) + 0x4CU) /*!< DMA channel 3 peripheral base address register */ +#define DMA_CH3MADDR(dmax) REG32((dmax) + 0x50U) /*!< DMA channel 3 memory base address register */ + +#define DMA_CH4CTL(dmax) REG32((dmax) + 0x58U) /*!< DMA channel 4 control register */ +#define DMA_CH4CNT(dmax) REG32((dmax) + 0x5CU) /*!< DMA channel 4 counter register */ +#define DMA_CH4PADDR(dmax) REG32((dmax) + 0x60U) /*!< DMA channel 4 peripheral base address register */ +#define DMA_CH4MADDR(dmax) REG32((dmax) + 0x64U) /*!< DMA channel 4 memory base address register */ + +#define DMA_CH5CTL(dmax) REG32((dmax) + 0x6CU) /*!< DMA channel 5 control register */ +#define DMA_CH5CNT(dmax) REG32((dmax) + 0x70U) /*!< DMA channel 5 counter register */ +#define DMA_CH5PADDR(dmax) REG32((dmax) + 0x74U) /*!< DMA channel 5 peripheral base address register */ +#define DMA_CH5MADDR(dmax) REG32((dmax) + 0x78U) /*!< DMA channel 5 memory base address register */ + +#define DMA_CH6CTL(dmax) REG32((dmax) + 0x80U) /*!< DMA channel 6 control register */ +#define DMA_CH6CNT(dmax) REG32((dmax) + 0x84U) /*!< DMA channel 6 counter register */ +#define DMA_CH6PADDR(dmax) REG32((dmax) + 0x88U) /*!< DMA channel 6 peripheral base address register */ +#define DMA_CH6MADDR(dmax) REG32((dmax) + 0x8CU) /*!< DMA channel 6 memory base address register */ + +/* bits definitions */ +/* DMA_INTF */ +#define DMA_INTF_GIF BIT(0) /*!< global interrupt flag of channel */ +#define DMA_INTF_FTFIF BIT(1) /*!< full transfer finish flag of channel */ +#define DMA_INTF_HTFIF BIT(2) /*!< half transfer finish flag of channel */ +#define DMA_INTF_ERRIF BIT(3) /*!< error flag of channel */ + +/* DMA_INTC */ +#define DMA_INTC_GIFC BIT(0) /*!< clear global interrupt flag of channel */ +#define DMA_INTC_FTFIFC BIT(1) /*!< clear transfer finish flag of channel */ +#define DMA_INTC_HTFIFC BIT(2) /*!< clear half transfer finish flag of channel */ +#define DMA_INTC_ERRIFC BIT(3) /*!< clear error flag of channel */ + +/* DMA_CHxCTL, x=0..6 */ +#define DMA_CHXCTL_CHEN BIT(0) /*!< channel enable */ +#define DMA_CHXCTL_FTFIE BIT(1) /*!< enable bit for channel full transfer finish interrupt */ +#define DMA_CHXCTL_HTFIE BIT(2) /*!< enable bit for channel half transfer finish interrupt */ +#define DMA_CHXCTL_ERRIE BIT(3) /*!< enable bit for channel error interrupt */ +#define DMA_CHXCTL_DIR BIT(4) /*!< transfer direction */ +#define DMA_CHXCTL_CMEN BIT(5) /*!< circular mode enable */ +#define DMA_CHXCTL_PNAGA BIT(6) /*!< next address generation algorithm of peripheral */ +#define DMA_CHXCTL_MNAGA BIT(7) /*!< next address generation algorithm of memory */ +#define DMA_CHXCTL_PWIDTH BITS(8,9) /*!< transfer data width of peripheral */ +#define DMA_CHXCTL_MWIDTH BITS(10,11) /*!< transfer data width of memory */ +#define DMA_CHXCTL_PRIO BITS(12,13) /*!< priority level */ +#define DMA_CHXCTL_M2M BIT(14) /*!< memory to memory mode */ + +/* DMA_CHxCNT,x=0..6 */ +#define DMA_CHXCNT_CNT BITS(0,15) /*!< transfer counter */ + +/* DMA_CHxPADDR,x=0..6 */ +#define DMA_CHXPADDR_PADDR BITS(0,31) /*!< peripheral base address */ + +/* DMA_CHxMADDR,x=0..6 */ +#define DMA_CHXMADDR_MADDR BITS(0,31) /*!< memory base address */ + +/* constants definitions */ +/* DMA channel select */ +typedef enum +{ + DMA_CH0 = 0, /*!< DMA Channel0 */ + DMA_CH1, /*!< DMA Channel1 */ + DMA_CH2, /*!< DMA Channel2 */ + DMA_CH3, /*!< DMA Channel3 */ + DMA_CH4, /*!< DMA Channel4 */ + DMA_CH5, /*!< DMA Channel5 */ + DMA_CH6 /*!< DMA Channel6 */ +} dma_channel_enum; + +/* DMA initialize struct */ +typedef struct +{ + uint32_t periph_addr; /*!< peripheral base address */ + uint32_t periph_width; /*!< transfer data size of peripheral */ + uint32_t memory_addr; /*!< memory base address */ + uint32_t memory_width; /*!< transfer data size of memory */ + uint32_t number; /*!< channel transfer number */ + uint32_t priority; /*!< channel priority level */ + uint8_t periph_inc; /*!< peripheral increasing mode */ + uint8_t memory_inc; /*!< memory increasing mode */ + uint8_t direction; /*!< channel data transfer direction */ + +} dma_parameter_struct; + +#define DMA_FLAG_ADD(flag, shift) ((flag) << ((shift) * 4U)) /*!< DMA channel flag shift */ + +/* DMA_register address */ +#define DMA_CHCTL(dma, channel) REG32(((dma) + 0x08U) + 0x14U * (uint32_t)(channel)) /*!< the address of DMA channel CHXCTL register */ +#define DMA_CHCNT(dma, channel) REG32(((dma) + 0x0CU) + 0x14U * (uint32_t)(channel)) /*!< the address of DMA channel CHXCNT register */ +#define DMA_CHPADDR(dma, channel) REG32(((dma) + 0x10U) + 0x14U * (uint32_t)(channel)) /*!< the address of DMA channel CHXPADDR register */ +#define DMA_CHMADDR(dma, channel) REG32(((dma) + 0x14U) + 0x14U * (uint32_t)(channel)) /*!< the address of DMA channel CHXMADDR register */ + +/* DMA reset value */ +#define DMA_CHCTL_RESET_VALUE ((uint32_t)0x00000000U) /*!< the reset value of DMA channel CHXCTL register */ +#define DMA_CHCNT_RESET_VALUE ((uint32_t)0x00000000U) /*!< the reset value of DMA channel CHXCNT register */ +#define DMA_CHPADDR_RESET_VALUE ((uint32_t)0x00000000U) /*!< the reset value of DMA channel CHXPADDR register */ +#define DMA_CHMADDR_RESET_VALUE ((uint32_t)0x00000000U) /*!< the reset value of DMA channel CHXMADDR register */ +#define DMA_CHINTF_RESET_VALUE (DMA_INTF_GIF | DMA_INTF_FTFIF | \ + DMA_INTF_HTFIF | DMA_INTF_ERRIF) /*!< clear DMA channel DMA_INTF register */ + +/* DMA_INTF register */ +/* interrupt flag bits */ +#define DMA_INT_FLAG_G DMA_INTF_GIF /*!< global interrupt flag of channel */ +#define DMA_INT_FLAG_FTF DMA_INTF_FTFIF /*!< full transfer finish interrupt flag of channel */ +#define DMA_INT_FLAG_HTF DMA_INTF_HTFIF /*!< half transfer finish interrupt flag of channel */ +#define DMA_INT_FLAG_ERR DMA_INTF_ERRIF /*!< error interrupt flag of channel */ + +/* flag bits */ +#define DMA_FLAG_G DMA_INTF_GIF /*!< global interrupt flag of channel */ +#define DMA_FLAG_FTF DMA_INTF_FTFIF /*!< full transfer finish flag of channel */ +#define DMA_FLAG_HTF DMA_INTF_HTFIF /*!< half transfer finish flag of channel */ +#define DMA_FLAG_ERR DMA_INTF_ERRIF /*!< error flag of channel */ + +/* DMA_CHxCTL register */ +/* interrupt enable bits */ +#define DMA_INT_FTF DMA_CHXCTL_FTFIE /*!< enable bit for channel full transfer finish interrupt */ +#define DMA_INT_HTF DMA_CHXCTL_HTFIE /*!< enable bit for channel half transfer finish interrupt */ +#define DMA_INT_ERR DMA_CHXCTL_ERRIE /*!< enable bit for channel error interrupt */ + +/* transfer direction */ +#define DMA_PERIPHERAL_TO_MEMORY ((uint8_t)0x0000U) /*!< read from peripheral and write to memory */ +#define DMA_MEMORY_TO_PERIPHERAL ((uint8_t)0x0001U) /*!< read from memory and write to peripheral */ + +/* peripheral increasing mode */ +#define DMA_PERIPH_INCREASE_DISABLE ((uint8_t)0x0000U) /*!< next address of peripheral is fixed address mode */ +#define DMA_PERIPH_INCREASE_ENABLE ((uint8_t)0x0001U) /*!< next address of peripheral is increasing address mode */ + +/* memory increasing mode */ +#define DMA_MEMORY_INCREASE_DISABLE ((uint8_t)0x0000U) /*!< next address of memory is fixed address mode */ +#define DMA_MEMORY_INCREASE_ENABLE ((uint8_t)0x0001U) /*!< next address of memory is increasing address mode */ + +/* transfer data size of peripheral */ +#define CHCTL_PWIDTH(regval) (BITS(8,9) & ((uint32_t)(regval) << 8)) /*!< transfer data size of peripheral */ +#define DMA_PERIPHERAL_WIDTH_8BIT CHCTL_PWIDTH(0) /*!< transfer data size of peripheral is 8-bit */ +#define DMA_PERIPHERAL_WIDTH_16BIT CHCTL_PWIDTH(1) /*!< transfer data size of peripheral is 16-bit */ +#define DMA_PERIPHERAL_WIDTH_32BIT CHCTL_PWIDTH(2) /*!< transfer data size of peripheral is 32-bit */ + +/* transfer data size of memory */ +#define CHCTL_MWIDTH(regval) (BITS(10,11) & ((uint32_t)(regval) << 10)) /*!< transfer data size of memory */ +#define DMA_MEMORY_WIDTH_8BIT CHCTL_MWIDTH(0) /*!< transfer data size of memory is 8-bit */ +#define DMA_MEMORY_WIDTH_16BIT CHCTL_MWIDTH(1) /*!< transfer data size of memory is 16-bit */ +#define DMA_MEMORY_WIDTH_32BIT CHCTL_MWIDTH(2) /*!< transfer data size of memory is 32-bit */ + +/* channel priority level */ +#define CHCTL_PRIO(regval) (BITS(12,13) & ((uint32_t)(regval) << 12)) /*!< DMA channel priority level */ +#define DMA_PRIORITY_LOW CHCTL_PRIO(0) /*!< low priority */ +#define DMA_PRIORITY_MEDIUM CHCTL_PRIO(1) /*!< medium priority */ +#define DMA_PRIORITY_HIGH CHCTL_PRIO(2) /*!< high priority */ +#define DMA_PRIORITY_ULTRA_HIGH CHCTL_PRIO(3) /*!< ultra high priority */ + +/* memory to memory mode */ +#define DMA_MEMORY_TO_MEMORY_DISABLE ((uint32_t)0x00000000U) +#define DMA_MEMORY_TO_MEMORY_ENABLE ((uint32_t)0x00000001U) + +/* DMA_CHxCNT register */ +/* transfer counter */ +#define DMA_CHANNEL_CNT_MASK DMA_CHXCNT_CNT /*!< transfer counter mask */ + +/* function declarations */ +/* DMA deinitialization and initialization functions */ +/* deinitialize DMA a channel registers */ +void dma_deinit(uint32_t dma_periph, dma_channel_enum channelx); +/* initialize the parameters of DMA struct with the default values */ +void dma_struct_para_init(dma_parameter_struct* init_struct); +/* initialize DMA channel */ +void dma_init(uint32_t dma_periph, dma_channel_enum channelx, dma_parameter_struct* init_struct); +/* enable DMA circulation mode */ +void dma_circulation_enable(uint32_t dma_periph, dma_channel_enum channelx); +/* disable DMA circulation mode */ +void dma_circulation_disable(uint32_t dma_periph, dma_channel_enum channelx); +/* enable memory to memory mode */ +void dma_memory_to_memory_enable(uint32_t dma_periph, dma_channel_enum channelx); +/* disable memory to memory mode */ +void dma_memory_to_memory_disable(uint32_t dma_periph, dma_channel_enum channelx); +/* enable DMA channel */ +void dma_channel_enable(uint32_t dma_periph, dma_channel_enum channelx); +/* disable DMA channel */ +void dma_channel_disable(uint32_t dma_periph, dma_channel_enum channelx); + +/* DMA configuration functions */ +/* set DMA peripheral base address */ +void dma_periph_address_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t address); +/* set DMA memory base address */ +void dma_memory_address_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t address); +/* set the number of remaining data to be transferred by the DMA */ +void dma_transfer_number_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t number); +/* get the number of remaining data to be transferred by the DMA */ +uint32_t dma_transfer_number_get(uint32_t dma_periph, dma_channel_enum channelx); +/* configure priority level of DMA channel */ +void dma_priority_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t priority); +/* configure transfer data size of memory */ +void dma_memory_width_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t mwidth); +/* configure transfer data size of peripheral */ +void dma_periph_width_config (uint32_t dma_periph, dma_channel_enum channelx, uint32_t pwidth); +/* enable next address increasement algorithm of memory */ +void dma_memory_increase_enable(uint32_t dma_periph, dma_channel_enum channelx); +/* disable next address increasement algorithm of memory */ +void dma_memory_increase_disable(uint32_t dma_periph, dma_channel_enum channelx); +/* enable next address increasement algorithm of peripheral */ +void dma_periph_increase_enable(uint32_t dma_periph, dma_channel_enum channelx); +/* disable next address increasement algorithm of peripheral */ +void dma_periph_increase_disable(uint32_t dma_periph, dma_channel_enum channelx); +/* configure the direction of data transfer on the channel */ +void dma_transfer_direction_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t direction); + +/* flag and interrupt functions */ +/* check DMA flag is set or not */ +FlagStatus dma_flag_get(uint32_t dma_periph, dma_channel_enum channelx, uint32_t flag); +/* clear DMA a channel flag */ +void dma_flag_clear(uint32_t dma_periph, dma_channel_enum channelx, uint32_t flag); +/* check DMA flag and interrupt enable bit is set or not */ +FlagStatus dma_interrupt_flag_get(uint32_t dma_periph, dma_channel_enum channelx, uint32_t flag); +/* clear DMA a channel flag */ +void dma_interrupt_flag_clear(uint32_t dma_periph, dma_channel_enum channelx, uint32_t flag); +/* enable DMA interrupt */ +void dma_interrupt_enable(uint32_t dma_periph, dma_channel_enum channelx, uint32_t source); +/* disable DMA interrupt */ +void dma_interrupt_disable(uint32_t dma_periph, dma_channel_enum channelx, uint32_t source); + +#endif /* GD32F30X_DMA_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_enet.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_enet.h new file mode 100644 index 0000000000..ae00437c6f --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_enet.h @@ -0,0 +1,1702 @@ +/*! + \file gd32f30x_enet.h + \brief definitions for the ENET + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-04-02, V2.0.1, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_ENET_H +#define GD32F30X_ENET_H + +#include "gd32f30x.h" + +#define IF_USE_EXTERNPHY_LIB 0 +#if (1 == IF_USE_EXTERNPHY_LIB) +#include "phy.h" +#endif + +#ifndef ENET_RXBUF_NUM +#define ENET_RXBUF_NUM 5U /*!< ethernet Rx DMA descriptor number */ +#endif + +#ifndef ENET_TXBUF_NUM +#define ENET_TXBUF_NUM 5U /*!< ethernet Tx DMA descriptor number */ +#endif + +#ifndef ENET_RXBUF_SIZE +#define ENET_RXBUF_SIZE ENET_MAX_FRAME_SIZE /*!< ethernet receive buffer size */ +#endif + +#ifndef ENET_TXBUF_SIZE +#define ENET_TXBUF_SIZE ENET_MAX_FRAME_SIZE /*!< ethernet transmit buffer size */ +#endif + +/* #define SELECT_DESCRIPTORS_ENHANCED_MODE */ + +/* #define USE_DELAY */ + +#ifndef _PHY_H_ +#define DP83848 0 +#define LAN8700 1 +#define PHY_TYPE DP83848 + +#define PHY_ADDRESS ((uint16_t)1U) /*!< phy address determined by the hardware */ + +/* PHY read write timeouts */ +#define PHY_READ_TO ((uint32_t)0x0004FFFFU) /*!< PHY read timeout */ +#define PHY_WRITE_TO ((uint32_t)0x0004FFFFU) /*!< PHY write timeout */ + +/* PHY delay */ +#define PHY_RESETDELAY ((uint32_t)0x008FFFFFU) /*!< PHY reset delay */ +#define PHY_CONFIGDELAY ((uint32_t)0x00FFFFFFU) /*!< PHY configure delay */ + +/* PHY register address */ +#define PHY_REG_BCR 0U /*!< tranceiver basic control register */ +#define PHY_REG_BSR 1U /*!< tranceiver basic status register */ + +/* PHY basic control register */ +#define PHY_RESET ((uint16_t)0x8000) /*!< PHY reset */ +#define PHY_LOOPBACK ((uint16_t)0x4000) /*!< enable phy loop-back mode */ +#define PHY_FULLDUPLEX_100M ((uint16_t)0x2100) /*!< configure speed to 100 Mbit/s and the full-duplex mode */ +#define PHY_HALFDUPLEX_100M ((uint16_t)0x2000) /*!< configure speed to 100 Mbit/s and the half-duplex mode */ +#define PHY_FULLDUPLEX_10M ((uint16_t)0x0100) /*!< configure speed to 10 Mbit/s and the full-duplex mode */ +#define PHY_HALFDUPLEX_10M ((uint16_t)0x0000) /*!< configure speed to 10 Mbit/s and the half-duplex mode */ +#define PHY_AUTONEGOTIATION ((uint16_t)0x1000) /*!< enable auto-negotiation function */ +#define PHY_RESTART_AUTONEGOTIATION ((uint16_t)0x0200) /*!< restart auto-negotiation function */ +#define PHY_POWERDOWN ((uint16_t)0x0800) /*!< enable the power down mode */ +#define PHY_ISOLATE ((uint16_t)0x0400) /*!< isolate PHY from MII */ + +/* PHY basic status register */ +#define PHY_AUTONEGO_COMPLETE ((uint16_t)0x0020) /*!< auto-negotioation process completed */ +#define PHY_LINKED_STATUS ((uint16_t)0x0004) /*!< valid link established */ +#define PHY_JABBER_DETECTION ((uint16_t)0x0002) /*!< jabber condition detected */ + +#if(PHY_TYPE == LAN8700) +#define PHY_SR 31U /*!< tranceiver status register */ +#define PHY_SPEED_STATUS ((uint16_t)0x0004) /*!< configured information of speed: 10Mbit/s */ +#define PHY_DUPLEX_STATUS ((uint16_t)0x0010) /*!< configured information of duplex: full-duplex */ +#elif(PHY_TYPE == DP83848) +#define PHY_SR 16U /*!< tranceiver status register */ +#define PHY_SPEED_STATUS ((uint16_t)0x0002) /*!< configured information of speed: 10Mbit/s */ +#define PHY_DUPLEX_STATUS ((uint16_t)0x0004) /*!< configured information of duplex: full-duplex */ +#endif /* PHY_TYPE */ + +#endif /* _PHY_H_ */ + + +/* ENET definitions */ +#define ENET ENET_BASE + +/* registers definitions */ +#define ENET_MAC_CFG REG32((ENET) + 0x00U) /*!< ethernet MAC configuration register */ +#define ENET_MAC_FRMF REG32((ENET) + 0x04U) /*!< ethernet MAC frame filter register */ +#define ENET_MAC_HLH REG32((ENET) + 0x08U) /*!< ethernet MAC hash list high register */ +#define ENET_MAC_HLL REG32((ENET) + 0x0CU) /*!< ethernet MAC hash list low register */ +#define ENET_MAC_PHY_CTL REG32((ENET) + 0x10U) /*!< ethernet MAC PHY control register */ +#define ENET_MAC_PHY_DATA REG32((ENET) + 0x14U) /*!< ethernet MAC PHY data register */ +#define ENET_MAC_FCTL REG32((ENET) + 0x18U) /*!< ethernet MAC flow control register */ +#define ENET_MAC_VLT REG32((ENET) + 0x1CU) /*!< ethernet MAC VLAN tag register */ +#define ENET_MAC_RWFF REG32((ENET) + 0x28U) /*!< ethernet MAC remote wakeup frame filter register */ +#define ENET_MAC_WUM REG32((ENET) + 0x2CU) /*!< ethernet MAC wakeup management register */ +#define ENET_MAC_DBG REG32((ENET) + 0x34U) /*!< ethernet MAC debug register */ +#define ENET_MAC_INTF REG32((ENET) + 0x38U) /*!< ethernet MAC interrupt flag register */ +#define ENET_MAC_INTMSK REG32((ENET) + 0x3CU) /*!< ethernet MAC interrupt mask register */ +#define ENET_MAC_ADDR0H REG32((ENET) + 0x40U) /*!< ethernet MAC address 0 high register */ +#define ENET_MAC_ADDR0L REG32((ENET) + 0x44U) /*!< ethernet MAC address 0 low register */ +#define ENET_MAC_ADDR1H REG32((ENET) + 0x48U) /*!< ethernet MAC address 1 high register */ +#define ENET_MAC_ADDR1L REG32((ENET) + 0x4CU) /*!< ethernet MAC address 1 low register */ +#define ENET_MAC_ADDT2H REG32((ENET) + 0x50U) /*!< ethernet MAC address 2 high register */ +#define ENET_MAC_ADDR2L REG32((ENET) + 0x54U) /*!< ethernet MAC address 2 low register */ +#define ENET_MAC_ADDR3H REG32((ENET) + 0x58U) /*!< ethernet MAC address 3 high register */ +#define ENET_MAC_ADDR3L REG32((ENET) + 0x5CU) /*!< ethernet MAC address 3 low register */ +#define ENET_MAC_FCTH REG32((ENET) + 0x1080U) /*!< ethernet MAC flow control threshold register */ + +#define ENET_MSC_CTL REG32((ENET) + 0x100U) /*!< ethernet MSC control register */ +#define ENET_MSC_RINTF REG32((ENET) + 0x104U) /*!< ethernet MSC receive interrupt flag register */ +#define ENET_MSC_TINTF REG32((ENET) + 0x108U) /*!< ethernet MSC transmit interrupt flag register */ +#define ENET_MSC_RINTMSK REG32((ENET) + 0x10CU) /*!< ethernet MSC receive interrupt mask register */ +#define ENET_MSC_TINTMSK REG32((ENET) + 0x110U) /*!< ethernet MSC transmit interrupt mask register */ +#define ENET_MSC_SCCNT REG32((ENET) + 0x14CU) /*!< ethernet MSC transmitted good frames after a single collision counter register */ +#define ENET_MSC_MSCCNT REG32((ENET) + 0x150U) /*!< ethernet MSC transmitted good frames after more than a single collision counter register */ +#define ENET_MSC_TGFCNT REG32((ENET) + 0x168U) /*!< ethernet MSC transmitted good frames counter register */ +#define ENET_MSC_RFCECNT REG32((ENET) + 0x194U) /*!< ethernet MSC received frames with CRC error counter register */ +#define ENET_MSC_RFAECNT REG32((ENET) + 0x198U) /*!< ethernet MSC received frames with alignment error counter register */ +#define ENET_MSC_RGUFCNT REG32((ENET) + 0x1C4U) /*!< ethernet MSC received good unicast frames counter register */ + +#define ENET_PTP_TSCTL REG32((ENET) + 0x700U) /*!< ethernet PTP time stamp control register */ +#define ENET_PTP_SSINC REG32((ENET) + 0x704U) /*!< ethernet PTP subsecond increment register */ +#define ENET_PTP_TSH REG32((ENET) + 0x708U) /*!< ethernet PTP time stamp high register */ +#define ENET_PTP_TSL REG32((ENET) + 0x70CU) /*!< ethernet PTP time stamp low register */ +#define ENET_PTP_TSUH REG32((ENET) + 0x710U) /*!< ethernet PTP time stamp update high register */ +#define ENET_PTP_TSUL REG32((ENET) + 0x714U) /*!< ethernet PTP time stamp update low register */ +#define ENET_PTP_TSADDEND REG32((ENET) + 0x718U) /*!< ethernet PTP time stamp addend register */ +#define ENET_PTP_ETH REG32((ENET) + 0x71CU) /*!< ethernet PTP expected time high register */ +#define ENET_PTP_ETL REG32((ENET) + 0x720U) /*!< ethernet PTP expected time low register */ +#define ENET_PTP_TSF REG32((ENET) + 0x728U) /*!< ethernet PTP time stamp flag register */ +#define ENET_PTP_PPSCTL REG32((ENET) + 0x72CU) /*!< ethernet PTP PPS control register */ + +#define ENET_DMA_BCTL REG32((ENET) + 0x1000U) /*!< ethernet DMA bus control register */ +#define ENET_DMA_TPEN REG32((ENET) + 0x1004U) /*!< ethernet DMA transmit poll enable register */ +#define ENET_DMA_RPEN REG32((ENET) + 0x1008U) /*!< ethernet DMA receive poll enable register */ +#define ENET_DMA_RDTADDR REG32((ENET) + 0x100CU) /*!< ethernet DMA receive descriptor table address register */ +#define ENET_DMA_TDTADDR REG32((ENET) + 0x1010U) /*!< ethernet DMA transmit descriptor table address register */ +#define ENET_DMA_STAT REG32((ENET) + 0x1014U) /*!< ethernet DMA status register */ +#define ENET_DMA_CTL REG32((ENET) + 0x1018U) /*!< ethernet DMA control register */ +#define ENET_DMA_INTEN REG32((ENET) + 0x101CU) /*!< ethernet DMA interrupt enable register */ +#define ENET_DMA_MFBOCNT REG32((ENET) + 0x1020U) /*!< ethernet DMA missed frame and buffer overflow counter register */ +#define ENET_DMA_RSWDC REG32((ENET) + 0x1024U) /*!< ethernet DMA receive state watchdog counter register */ +#define ENET_DMA_CTDADDR REG32((ENET) + 0x1048U) /*!< ethernet DMA current transmit descriptor address register */ +#define ENET_DMA_CRDADDR REG32((ENET) + 0x104CU) /*!< ethernet DMA current receive descriptor address register */ +#define ENET_DMA_CTBADDR REG32((ENET) + 0x1050U) /*!< ethernet DMA current transmit buffer address register */ +#define ENET_DMA_CRBADDR REG32((ENET) + 0x1054U) /*!< ethernet DMA current receive buffer address register */ + +/* bits definitions */ +/* ENET_MAC_CFG */ +#define ENET_MAC_CFG_REN BIT(2) /*!< receiver enable */ +#define ENET_MAC_CFG_TEN BIT(3) /*!< transmitter enable */ +#define ENET_MAC_CFG_DFC BIT(4) /*!< defferal check */ +#define ENET_MAC_CFG_BOL BITS(5,6) /*!< back-off limit */ +#define ENET_MAC_CFG_APCD BIT(7) /*!< automatic pad/CRC drop */ +#define ENET_MAC_CFG_RTD BIT(9) /*!< retry disable */ +#define ENET_MAC_CFG_IPFCO BIT(10) /*!< IP frame checksum offload */ +#define ENET_MAC_CFG_DPM BIT(11) /*!< duplex mode */ +#define ENET_MAC_CFG_LBM BIT(12) /*!< loopback mode */ +#define ENET_MAC_CFG_ROD BIT(13) /*!< receive own disable */ +#define ENET_MAC_CFG_SPD BIT(14) /*!< fast eneternet speed */ +#define ENET_MAC_CFG_CSD BIT(16) /*!< carrier sense disable */ +#define ENET_MAC_CFG_IGBS BITS(17,19) /*!< inter-frame gap bit selection */ +#define ENET_MAC_CFG_JBD BIT(22) /*!< jabber disable */ +#define ENET_MAC_CFG_WDD BIT(23) /*!< watchdog disable */ +#define ENET_MAC_CFG_TFCD BIT(25) /*!< type frame CRC dropping */ + +/* ENET_MAC_FRMF */ +#define ENET_MAC_FRMF_PM BIT(0) /*!< promiscuous mode */ +#define ENET_MAC_FRMF_HUF BIT(1) /*!< hash unicast filter */ +#define ENET_MAC_FRMF_HMF BIT(2) /*!< hash multicast filter */ +#define ENET_MAC_FRMF_DAIFLT BIT(3) /*!< destination address inverse filtering enable */ +#define ENET_MAC_FRMF_MFD BIT(4) /*!< multicast filter disable */ +#define ENET_MAC_FRMF_BFRMD BIT(5) /*!< broadcast frame disable */ +#define ENET_MAC_FRMF_PCFRM BITS(6,7) /*!< pass control frames */ +#define ENET_MAC_FRMF_SAIFLT BIT(8) /*!< source address inverse filtering */ +#define ENET_MAC_FRMF_SAFLT BIT(9) /*!< source address filter */ +#define ENET_MAC_FRMF_HPFLT BIT(10) /*!< hash or perfect filter */ +#define ENET_MAC_FRMF_FAR BIT(31) /*!< frames all receive */ + +/* ENET_MAC_HLH */ +#define ENET_MAC_HLH_HLH BITS(0,31) /*!< hash list high */ + +/* ENET_MAC_HLL */ +#define ENET_MAC_HLL_HLL BITS(0,31) /*!< hash list low */ + +/* ENET_MAC_PHY_CTL */ +#define ENET_MAC_PHY_CTL_PB BIT(0) /*!< PHY busy */ +#define ENET_MAC_PHY_CTL_PW BIT(1) /*!< PHY write */ +#define ENET_MAC_PHY_CTL_CLR BITS(2,4) /*!< clock range */ +#define ENET_MAC_PHY_CTL_PR BITS(6,10) /*!< PHY register */ +#define ENET_MAC_PHY_CTL_PA BITS(11,15) /*!< PHY address */ + +/* ENET_MAC_PHY_DATA */ +#define ENET_MAC_PHY_DATA_PD BITS(0,15) /*!< PHY data */ + +/* ENET_MAC_FCTL */ +#define ENET_MAC_FCTL_FLCBBKPA BIT(0) /*!< flow control busy(in full duplex mode)/backpressure activate(in half duplex mode) */ +#define ENET_MAC_FCTL_TFCEN BIT(1) /*!< transmit flow control enable */ +#define ENET_MAC_FCTL_RFCEN BIT(2) /*!< receive flow control enable */ +#define ENET_MAC_FCTL_UPFDT BIT(3) /*!< unicast pause frame detect */ +#define ENET_MAC_FCTL_PLTS BITS(4,5) /*!< pause low threshold */ +#define ENET_MAC_FCTL_DZQP BIT(7) /*!< disable zero-quanta pause */ +#define ENET_MAC_FCTL_PTM BITS(16,31) /*!< pause time */ + +/* ENET_MAC_VLT */ +#define ENET_MAC_VLT_VLTI BITS(0,15) /*!< VLAN tag identifier(for receive frames) */ +#define ENET_MAC_VLT_VLTC BIT(16) /*!< 12-bit VLAN tag comparison */ + +/* ENET_MAC_RWFF */ +#define ENET_MAC_RWFF_DATA BITS(0,31) /*!< wakeup frame filter register data */ + +/* ENET_MAC_WUM */ +#define ENET_MAC_WUM_PWD BIT(0) /*!< power down */ +#define ENET_MAC_WUM_MPEN BIT(1) /*!< magic packet enable */ +#define ENET_MAC_WUM_WFEN BIT(2) /*!< wakeup frame enable */ +#define ENET_MAC_WUM_MPKR BIT(5) /*!< magic packet received */ +#define ENET_MAC_WUM_WUFR BIT(6) /*!< wakeup frame received */ +#define ENET_MAC_WUM_GU BIT(9) /*!< global unicast */ +#define ENET_MAC_WUM_WUFFRPR BIT(31) /*!< wakeup frame filter register pointer reset */ + +/* ENET_MAC_DBG */ +#define ENET_MAC_DBG_MRNI BIT(0) /*!< MAC receive state not idle */ +#define ENET_MAC_DBG_RXAFS BITS(1,2) /*!< Rx asynchronous FIFO status */ +#define ENET_MAC_DBG_RXFW BIT(4) /*!< RxFIFO is writing */ +#define ENET_MAC_DBG_RXFRS BITS(5,6) /*!< RxFIFO read operation status */ +#define ENET_MAC_DBG_RXFS BITS(8,9) /*!< RxFIFO state */ +#define ENET_MAC_DBG_MTNI BIT(16) /*!< MAC transmit state not idle */ +#define ENET_MAC_DBG_SOMT BITS(17,18) /*!< status of mac transmitter */ +#define ENET_MAC_DBG_PCS BIT(19) /*!< pause condition status */ +#define ENET_MAC_DBG_TXFRS BITS(20,21) /*!< TxFIFO read operation status */ +#define ENET_MAC_DBG_TXFW BIT(22) /*!< TxFIFO is writing */ +#define ENET_MAC_DBG_TXFNE BIT(24) /*!< TxFIFO not empty flag */ +#define ENET_MAC_DBG_TXFF BIT(25) /*!< TxFIFO full flag */ + +/* ENET_MAC_INTF */ +#define ENET_MAC_INTF_WUM BIT(3) /*!< WUM status */ +#define ENET_MAC_INTF_MSC BIT(4) /*!< MSC status */ +#define ENET_MAC_INTF_MSCR BIT(5) /*!< MSC receive status */ +#define ENET_MAC_INTF_MSCT BIT(6) /*!< MSC transmit status */ +#define ENET_MAC_INTF_TMST BIT(9) /*!< timestamp trigger status */ + +/* ENET_MAC_INTMSK */ +#define ENET_MAC_INTMSK_WUMIM BIT(3) /*!< WUM interrupt mask */ +#define ENET_MAC_INTMSK_TMSTIM BIT(9) /*!< timestamp trigger interrupt mask */ + +/* ENET_MAC_ADDR0H */ +#define ENET_MAC_ADDR0H_ADDR0H BITS(0,15) /*!< MAC address0 high */ +#define ENET_MAC_ADDR0H_MO BIT(31) /*!< always read 1 and must be kept */ + +/* ENET_MAC_ADDR0L */ +#define ENET_MAC_ADDR0L_ADDR0L BITS(0,31) /*!< MAC address0 low */ + +/* ENET_MAC_ADDR1H */ +#define ENET_MAC_ADDR1H_ADDR1H BITS(0,15) /*!< MAC address1 high */ +#define ENET_MAC_ADDR1H_MB BITS(24,29) /*!< mask byte */ +#define ENET_MAC_ADDR1H_SAF BIT(30) /*!< source address filter */ +#define ENET_MAC_ADDR1H_AFE BIT(31) /*!< address filter enable */ + +/* ENET_MAC_ADDR1L */ +#define ENET_MAC_ADDR1L_ADDR1L BITS(0,31) /*!< MAC address1 low */ + +/* ENET_MAC_ADDR2H */ +#define ENET_MAC_ADDR2H_ADDR2H BITS(0,15) /*!< MAC address2 high */ +#define ENET_MAC_ADDR2H_MB BITS(24,29) /*!< mask byte */ +#define ENET_MAC_ADDR2H_SAF BIT(30) /*!< source address filter */ +#define ENET_MAC_ADDR2H_AFE BIT(31) /*!< address filter enable */ + +/* ENET_MAC_ADDR2L */ +#define ENET_MAC_ADDR2L_ADDR2L BITS(0,31) /*!< MAC address2 low */ + +/* ENET_MAC_ADDR3H */ +#define ENET_MAC_ADDR3H_ADDR3H BITS(0,15) /*!< MAC address3 high */ +#define ENET_MAC_ADDR3H_MB BITS(24,29) /*!< mask byte */ +#define ENET_MAC_ADDR3H_SAF BIT(30) /*!< source address filter */ +#define ENET_MAC_ADDR3H_AFE BIT(31) /*!< address filter enable */ + +/* ENET_MAC_ADDR3L */ +#define ENET_MAC_ADDR3L_ADDR3L BITS(0,31) /*!< MAC address3 low */ + +/* ENET_MAC_FCTH */ +#define ENET_MAC_FCTH_RFA BITS(0,2) /*!< threshold of active flow control */ +#define ENET_MAC_FCTH_RFD BITS(4,6) /*!< threshold of deactive flow control */ + +/* ENET_MSC_CTL */ +#define ENET_MSC_CTL_CTR BIT(0) /*!< counter reset */ +#define ENET_MSC_CTL_CTSR BIT(1) /*!< counter stop rollover */ +#define ENET_MSC_CTL_RTOR BIT(2) /*!< reset on read */ +#define ENET_MSC_CTL_MCFZ BIT(3) /*!< MSC counter freeze */ +#define ENET_MSC_CTL_PMC BIT(4) /*!< preset MSC counter */ +#define ENET_MSC_CTL_AFHPM BIT(5) /*!< almost full or half preset mode */ + +/* ENET_MSC_RINTF */ +#define ENET_MSC_RINTF_RFCE BIT(5) /*!< received frames CRC error */ +#define ENET_MSC_RINTF_RFAE BIT(6) /*!< received frames alignment error */ +#define ENET_MSC_RINTF_RGUF BIT(17) /*!< receive good unicast frames */ + +/* ENET_MSC_TINTF */ +#define ENET_MSC_TINTF_TGFSC BIT(14) /*!< transmitted good frames single collision */ +#define ENET_MSC_TINTF_TGFMSC BIT(15) /*!< transmitted good frames more single collision */ +#define ENET_MSC_TINTF_TGF BIT(21) /*!< transmitted good frames */ + +/* ENET_MSC_RINTMSK */ +#define ENET_MSC_RINTMSK_RFCEIM BIT(5) /*!< received frame CRC error interrupt mask */ +#define ENET_MSC_RINTMSK_RFAEIM BIT(6) /*!< received frames alignment error interrupt mask */ +#define ENET_MSC_RINTMSK_RGUFIM BIT(17) /*!< received good unicast frames interrupt mask */ + +/* ENET_MSC_TINTMSK */ +#define ENET_MSC_TINTMSK_TGFSCIM BIT(14) /*!< transmitted good frames single collision interrupt mask */ +#define ENET_MSC_TINTMSK_TGFMSCIM BIT(15) /*!< transmitted good frames more single collision interrupt mask */ +#define ENET_MSC_TINTMSK_TGFIM BIT(21) /*!< transmitted good frames interrupt mask */ + +/* ENET_MSC_SCCNT */ +#define ENET_MSC_SCCNT_SCC BITS(0,31) /*!< transmitted good frames single collision counter */ + +/* ENET_MSC_MSCCNT */ +#define ENET_MSC_MSCCNT_MSCC BITS(0,31) /*!< transmitted good frames more one single collision counter */ + +/* ENET_MSC_TGFCNT */ +#define ENET_MSC_TGFCNT_TGF BITS(0,31) /*!< transmitted good frames counter */ + +/* ENET_MSC_RFCECNT */ +#define ENET_MSC_RFCECNT_RFCER BITS(0,31) /*!< received frames with CRC error counter */ + +/* ENET_MSC_RFAECNT */ +#define ENET_MSC_RFAECNT_RFAER BITS(0,31) /*!< received frames alignment error counter */ + +/* ENET_MSC_RGUFCNT */ +#define ENET_MSC_RGUFCNT_RGUF BITS(0,31) /*!< received good unicast frames counter */ + +/* ENET_PTP_TSCTL */ +#define ENET_PTP_TSCTL_TMSEN BIT(0) /*!< timestamp enable */ +#define ENET_PTP_TSCTL_TMSFCU BIT(1) /*!< timestamp fine or coarse update */ +#define ENET_PTP_TSCTL_TMSSTI BIT(2) /*!< timestamp system time initialize */ +#define ENET_PTP_TSCTL_TMSSTU BIT(3) /*!< timestamp system time update */ +#define ENET_PTP_TSCTL_TMSITEN BIT(4) /*!< timestamp interrupt trigger enable */ +#define ENET_PTP_TSCTL_TMSARU BIT(5) /*!< timestamp addend register update */ +#define ENET_PTP_TSCTL_ARFSEN BIT(8) /*!< all received frames snapshot enable */ +#define ENET_PTP_TSCTL_SCROM BIT(9) /*!< subsecond counter rollover mode */ +#define ENET_PTP_TSCTL_PFSV BIT(10) /*!< PTP frame snooping version */ +#define ENET_PTP_TSCTL_ESEN BIT(11) /*!< received Ethernet snapshot enable */ +#define ENET_PTP_TSCTL_IP6SEN BIT(12) /*!< received IPv6 snapshot enable */ +#define ENET_PTP_TSCTL_IP4SEN BIT(13) /*!< received IPv4 snapshot enable */ +#define ENET_PTP_TSCTL_ETMSEN BIT(14) /*!< received event type message snapshot enable */ +#define ENET_PTP_TSCTL_MNMSEN BIT(15) /*!< received master node message snapshot enable */ +#define ENET_PTP_TSCTL_CKNT BITS(16,17) /*!< clock node type for time stamp */ +#define ENET_PTP_TSCTL_MAFEN BIT(18) /*!< MAC address filter enable for PTP frame */ + +/* ENET_PTP_SSINC */ +#define ENET_PTP_SSINC_STMSSI BITS(0,7) /*!< system time subsecond increment */ + +/* ENET_PTP_TSH */ +#define ENET_PTP_TSH_STMS BITS(0,31) /*!< system time second */ + +/* ENET_PTP_TSL */ +#define ENET_PTP_TSL_STMSS BITS(0,30) /*!< system time subseconds */ +#define ENET_PTP_TSL_STS BIT(31) /*!< system time sign */ + +/* ENET_PTP_TSUH */ +#define ENET_PTP_TSUH_TMSUS BITS(0,31) /*!< timestamp update seconds */ + +/* ENET_PTP_TSUL */ +#define ENET_PTP_TSUL_TMSUSS BITS(0,30) /*!< timestamp update subseconds */ +#define ENET_PTP_TSUL_TMSUPNS BIT(31) /*!< timestamp update positive or negative sign */ + +/* ENET_PTP_TSADDEND */ +#define ENET_PTP_TSADDEND_TMSA BITS(0,31) /*!< timestamp addend */ + +/* ENET_PTP_ETH */ +#define ENET_PTP_ETH_ETSH BITS(0,31) /*!< expected time high */ + +/* ENET_PTP_ETL */ +#define ENET_PTP_ETL_ETSL BITS(0,31) /*!< expected time low */ + +/* ENET_PTP_TSF */ +#define ENET_PTP_TSF_TSSCO BIT(0) /*!< timestamp second counter overflow */ +#define ENET_PTP_TSF_TTM BIT(1) /*!< target time match */ + +/* ENET_PTP_PPSCTL */ +#define ENET_PTP_PPSCTL_PPSOFC BITS(0,3) /*!< PPS output frequency configure */ + +/* ENET_DMA_BCTL */ +#define ENET_DMA_BCTL_SWR BIT(0) /*!< software reset */ +#define ENET_DMA_BCTL_DAB BIT(1) /*!< DMA arbitration */ +#define ENET_DMA_BCTL_DPSL BITS(2,6) /*!< descriptor skip length */ +#define ENET_DMA_BCTL_DFM BIT(7) /*!< descriptor format mode */ +#define ENET_DMA_BCTL_PGBL BITS(8,13) /*!< programmable burst length */ +#define ENET_DMA_BCTL_RTPR BITS(14,15) /*!< RxDMA and TxDMA transfer priority ratio */ +#define ENET_DMA_BCTL_FB BIT(16) /*!< fixed Burst */ +#define ENET_DMA_BCTL_RXDP BITS(17,22) /*!< RxDMA PGBL */ +#define ENET_DMA_BCTL_UIP BIT(23) /*!< use independent PGBL */ +#define ENET_DMA_BCTL_FPBL BIT(24) /*!< four times PGBL mode */ +#define ENET_DMA_BCTL_AA BIT(25) /*!< address-aligned */ +#define ENET_DMA_BCTL_MB BIT(26) /*!< mixed burst */ + +/* ENET_DMA_TPEN */ +#define ENET_DMA_TPEN_TPE BITS(0,31) /*!< transmit poll enable */ + +/* ENET_DMA_RPEN */ +#define ENET_DMA_RPEN_RPE BITS(0,31) /*!< receive poll enable */ + +/* ENET_DMA_RDTADDR */ +#define ENET_DMA_RDTADDR_SRT BITS(0,31) /*!< start address of receive table */ + +/* ENET_DMA_TDTADDR */ +#define ENET_DMA_TDTADDR_STT BITS(0,31) /*!< start address of transmit table */ + +/* ENET_DMA_STAT */ +#define ENET_DMA_STAT_TS BIT(0) /*!< transmit status */ +#define ENET_DMA_STAT_TPS BIT(1) /*!< transmit process stopped status */ +#define ENET_DMA_STAT_TBU BIT(2) /*!< transmit buffer unavailable status */ +#define ENET_DMA_STAT_TJT BIT(3) /*!< transmit jabber timeout status */ +#define ENET_DMA_STAT_RO BIT(4) /*!< receive overflow status */ +#define ENET_DMA_STAT_TU BIT(5) /*!< transmit underflow status */ +#define ENET_DMA_STAT_RS BIT(6) /*!< receive status */ +#define ENET_DMA_STAT_RBU BIT(7) /*!< receive buffer unavailable status */ +#define ENET_DMA_STAT_RPS BIT(8) /*!< receive process stopped status */ +#define ENET_DMA_STAT_RWT BIT(9) /*!< receive watchdog timeout status */ +#define ENET_DMA_STAT_ET BIT(10) /*!< early transmit status */ +#define ENET_DMA_STAT_FBE BIT(13) /*!< fatal bus error status */ +#define ENET_DMA_STAT_ER BIT(14) /*!< early receive status */ +#define ENET_DMA_STAT_AI BIT(15) /*!< abnormal interrupt summary */ +#define ENET_DMA_STAT_NI BIT(16) /*!< normal interrupt summary */ +#define ENET_DMA_STAT_RP BITS(17,19) /*!< receive process state */ +#define ENET_DMA_STAT_TP BITS(20,22) /*!< transmit process state */ +#define ENET_DMA_STAT_EB BITS(23,25) /*!< error bits status */ +#define ENET_DMA_STAT_MSC BIT(27) /*!< MSC status */ +#define ENET_DMA_STAT_WUM BIT(28) /*!< WUM status */ +#define ENET_DMA_STAT_TST BIT(29) /*!< timestamp trigger status */ + +/* ENET_DMA_CTL */ +#define ENET_DMA_CTL_SRE BIT(1) /*!< start/stop receive enable */ +#define ENET_DMA_CTL_OSF BIT(2) /*!< operate on second frame */ +#define ENET_DMA_CTL_RTHC BITS(3,4) /*!< receive threshold control */ +#define ENET_DMA_CTL_FUF BIT(6) /*!< forward undersized good frames */ +#define ENET_DMA_CTL_FERF BIT(7) /*!< forward error frames */ +#define ENET_DMA_CTL_STE BIT(13) /*!< start/stop transmission enable */ +#define ENET_DMA_CTL_TTHC BITS(14,16) /*!< transmit threshold control */ +#define ENET_DMA_CTL_FTF BIT(20) /*!< flush transmit FIFO */ +#define ENET_DMA_CTL_TSFD BIT(21) /*!< transmit store-and-forward */ +#define ENET_DMA_CTL_DAFRF BIT(24) /*!< disable flushing of received frames */ +#define ENET_DMA_CTL_RSFD BIT(25) /*!< receive store-and-forward */ +#define ENET_DMA_CTL_DTCERFD BIT(26) /*!< dropping of TCP/IP checksum error frames disable */ + +/* ENET_DMA_INTEN */ +#define ENET_DMA_INTEN_TIE BIT(0) /*!< transmit interrupt enable */ +#define ENET_DMA_INTEN_TPSIE BIT(1) /*!< transmit process stopped interrupt enable */ +#define ENET_DMA_INTEN_TBUIE BIT(2) /*!< transmit buffer unavailable interrupt enable */ +#define ENET_DMA_INTEN_TJTIE BIT(3) /*!< transmit jabber timeout interrupt enable */ +#define ENET_DMA_INTEN_ROIE BIT(4) /*!< receive overflow interrupt enable */ +#define ENET_DMA_INTEN_TUIE BIT(5) /*!< transmit underflow interrupt enable */ +#define ENET_DMA_INTEN_RIE BIT(6) /*!< receive interrupt enable */ +#define ENET_DMA_INTEN_RBUIE BIT(7) /*!< receive buffer unavailable interrupt enable */ +#define ENET_DMA_INTEN_RPSIE BIT(8) /*!< receive process stopped interrupt enable */ +#define ENET_DMA_INTEN_RWTIE BIT(9) /*!< receive watchdog timeout interrupt enable */ +#define ENET_DMA_INTEN_ETIE BIT(10) /*!< early transmit interrupt enable */ +#define ENET_DMA_INTEN_FBEIE BIT(13) /*!< fatal bus error interrupt enable */ +#define ENET_DMA_INTEN_ERIE BIT(14) /*!< early receive interrupt enable */ +#define ENET_DMA_INTEN_AIE BIT(15) /*!< abnormal interrupt summary enable */ +#define ENET_DMA_INTEN_NIE BIT(16) /*!< normal interrupt summary enable */ + +/* ENET_DMA_MFBOCNT */ +#define ENET_DMA_MFBOCNT_MSFC BITS(0,15) /*!< missed frames by the controller */ +#define ENET_DMA_MFBOCNT_MSFA BITS(17,27) /*!< missed frames by the application */ + +/* ENET_DMA_RSWDC */ +#define ENET_DMA_RSWDC_WDCFRS BITS(0,7) /*!< watchdog counter for receive status (RS) */ + +/* ENET_DMA_CTDADDR */ +#define ENET_DMA_CTDADDR_TDAP BITS(0,31) /*!< transmit descriptor address pointer */ + +/* ENET_DMA_CRDADDR */ +#define ENET_DMA_CRDADDR_RDAP BITS(0,31) /*!< receive descriptor address pointer */ + +/* ENET_DMA_CTBADDR */ +#define ENET_DMA_CTBADDR_TBAP BITS(0,31) /*!< transmit buffer address pointer */ + +/* ENET_DMA_CRBADDR */ +#define ENET_DMA_CRBADDR_RBAP BITS(0,31) /*!< receive buffer address pointer */ + +/* ENET DMA Tx descriptor TDES0 */ +#define ENET_TDES0_DB BIT(0) /*!< deferred */ +#define ENET_TDES0_UFE BIT(1) /*!< underflow error */ +#define ENET_TDES0_EXD BIT(2) /*!< excessive deferral */ +#define ENET_TDES0_COCNT BITS(3,6) /*!< collision count */ +#define ENET_TDES0_VFRM BIT(7) /*!< VLAN frame */ +#define ENET_TDES0_ECO BIT(8) /*!< excessive collision */ +#define ENET_TDES0_LCO BIT(9) /*!< late collision */ +#define ENET_TDES0_NCA BIT(10) /*!< no carrier */ +#define ENET_TDES0_LCA BIT(11) /*!< loss of carrier */ +#define ENET_TDES0_IPPE BIT(12) /*!< IP payload error */ +#define ENET_TDES0_FRMF BIT(13) /*!< frame flushed */ +#define ENET_TDES0_JT BIT(14) /*!< jabber timeout */ +#define ENET_TDES0_ES BIT(15) /*!< error summary */ +#define ENET_TDES0_IPHE BIT(16) /*!< IP header error */ +#define ENET_TDES0_TTMSS BIT(17) /*!< transmit timestamp status */ +#define ENET_TDES0_TCHM BIT(20) /*!< the second address chained mode */ +#define ENET_TDES0_TERM BIT(21) /*!< transmit end of ring mode*/ +#define ENET_TDES0_CM BITS(22,23) /*!< checksum mode */ +#define ENET_TDES0_TTSEN BIT(25) /*!< transmit timestamp function enable */ +#define ENET_TDES0_DPAD BIT(26) /*!< disable adding pad */ +#define ENET_TDES0_DCRC BIT(27) /*!< disable CRC */ +#define ENET_TDES0_FSG BIT(28) /*!< first segment */ +#define ENET_TDES0_LSG BIT(29) /*!< last segment */ +#define ENET_TDES0_INTC BIT(30) /*!< interrupt on completion */ +#define ENET_TDES0_DAV BIT(31) /*!< DAV bit */ + +/* ENET DMA Tx descriptor TDES1 */ +#define ENET_TDES1_TB1S BITS(0,12) /*!< transmit buffer 1 size */ +#define ENET_TDES1_TB2S BITS(16,28) /*!< transmit buffer 2 size */ + +/* ENET DMA Tx descriptor TDES2 */ +#define ENET_TDES2_TB1AP BITS(0,31) /*!< transmit buffer 1 address pointer/transmit frame timestamp low 32-bit value */ + +/* ENET DMA Tx descriptor TDES3 */ +#define ENET_TDES3_TB2AP BITS(0,31) /*!< transmit buffer 2 address pointer (or next descriptor address) / transmit frame timestamp high 32-bit value */ + +#ifdef SELECT_DESCRIPTORS_ENHANCED_MODE +/* ENET DMA Tx descriptor TDES6 */ +#define ENET_TDES6_TTSL BITS(0,31) /*!< transmit frame timestamp low 32-bit value */ + +/* ENET DMA Tx descriptor TDES7 */ +#define ENET_TDES7_TTSH BITS(0,31) /*!< transmit frame timestamp high 32-bit value */ +#endif /* SELECT_DESCRIPTORS_ENHANCED_MODE */ + +/* ENET DMA Rx descriptor RDES0 */ +#define ENET_RDES0_PCERR BIT(0) /*!< payload checksum error */ +#define ENET_RDES0_EXSV BIT(0) /*!< extended status valid */ +#define ENET_RDES0_CERR BIT(1) /*!< CRC error */ +#define ENET_RDES0_DBERR BIT(2) /*!< dribble bit error */ +#define ENET_RDES0_RERR BIT(3) /*!< receive error */ +#define ENET_RDES0_RWDT BIT(4) /*!< receive watchdog timeout */ +#define ENET_RDES0_FRMT BIT(5) /*!< frame type */ +#define ENET_RDES0_LCO BIT(6) /*!< late collision */ +#define ENET_RDES0_IPHERR BIT(7) /*!< IP frame header error */ +#define ENET_RDES0_TSV BIT(7) /*!< timestamp valid */ +#define ENET_RDES0_LDES BIT(8) /*!< last descriptor */ +#define ENET_RDES0_FDES BIT(9) /*!< first descriptor */ +#define ENET_RDES0_VTAG BIT(10) /*!< VLAN tag */ +#define ENET_RDES0_OERR BIT(11) /*!< overflow Error */ +#define ENET_RDES0_LERR BIT(12) /*!< length error */ +#define ENET_RDES0_SAFF BIT(13) /*!< SA filter fail */ +#define ENET_RDES0_DERR BIT(14) /*!< descriptor error */ +#define ENET_RDES0_ERRS BIT(15) /*!< error summary */ +#define ENET_RDES0_FRML BITS(16,29) /*!< frame length */ +#define ENET_RDES0_DAFF BIT(30) /*!< destination address filter fail */ +#define ENET_RDES0_DAV BIT(31) /*!< descriptor available */ + +/* ENET DMA Rx descriptor RDES1 */ +#define ENET_RDES1_RB1S BITS(0,12) /*!< receive buffer 1 size */ +#define ENET_RDES1_RCHM BIT(14) /*!< receive chained mode for second address */ +#define ENET_RDES1_RERM BIT(15) /*!< receive end of ring mode*/ +#define ENET_RDES1_RB2S BITS(16,28) /*!< receive buffer 2 size */ +#define ENET_RDES1_DINTC BIT(31) /*!< disable interrupt on completion */ + +/* ENET DMA Rx descriptor RDES2 */ +#define ENET_RDES2_RB1AP BITS(0,31) /*!< receive buffer 1 address pointer / receive frame timestamp low 32-bit */ + +/* ENET DMA Rx descriptor RDES3 */ +#define ENET_RDES3_RB2AP BITS(0,31) /*!< receive buffer 2 address pointer (next descriptor address)/receive frame timestamp high 32-bit value */ + +#ifdef SELECT_DESCRIPTORS_ENHANCED_MODE +/* ENET DMA Rx descriptor RDES4 */ +#define ENET_RDES4_IPPLDT BITS(0,2) /*!< IP frame payload type */ +#define ENET_RDES4_IPHERR BIT(3) /*!< IP frame header error */ +#define ENET_RDES4_IPPLDERR BIT(4) /*!< IP frame payload error */ +#define ENET_RDES4_IPCKSB BIT(5) /*!< IP frame checksum bypassed */ +#define ENET_RDES4_IPF4 BIT(6) /*!< IP frame in version 4 */ +#define ENET_RDES4_IPF6 BIT(7) /*!< IP frame in version 6 */ +#define ENET_RDES4_PTPMT BITS(8,11) /*!< PTP message type */ +#define ENET_RDES4_PTPOEF BIT(12) /*!< PTP on ethernet frame */ +#define ENET_RDES4_PTPVF BIT(13) /*!< PTP version format */ + +/* ENET DMA Rx descriptor RDES6 */ +#define ENET_RDES6_RTSL BITS(0,31) /*!< receive frame timestamp low 32-bit value */ + +/* ENET DMA Rx descriptor RDES7 */ +#define ENET_RDES7_RTSH BITS(0,31) /*!< receive frame timestamp high 32-bit value */ +#endif /* SELECT_DESCRIPTORS_ENHANCED_MODE */ + +/* constants definitions */ +/* define bit position and its register index offset */ +#define ENET_REGIDX_BIT(regidx, bitpos) (((uint32_t)(regidx) << 6) | (uint32_t)(bitpos)) +#define ENET_REG_VAL(periph) (REG32(ENET + ((uint32_t)(periph)>>6))) +#define ENET_BIT_POS(val) ((uint32_t)(val) & 0x1FU) + +/* ENET clock range judgement */ +#define ENET_RANGE(hclk, n, m) (((hclk) >= (n))&&((hclk) < (m))) + +/* define MAC address configuration and reference address */ +#define ENET_SET_MACADDRH(p) (((uint32_t)(p)[5] << 8) | (uint32_t)(p)[4]) +#define ENET_SET_MACADDRL(p) (((uint32_t)(p)[3] << 24) | ((uint32_t)(p)[2] << 16) | ((uint32_t)(p)[1] << 8) | (uint32_t)(p)[0]) +#define ENET_ADDRH_BASE ((ENET) + 0x40U) +#define ENET_ADDRL_BASE ((ENET) + 0x44U) +#define ENET_GET_MACADDR(offset, n) ((uint8_t)((REG32((ENET_ADDRL_BASE + (offset)) - (((n) / 4U) * 4U)) >> (8U * ((n) % 4U))) & 0xFFU)) + +/* register offset */ +#define MAC_FCTL_REG_OFFSET 0x0018U /*!< MAC flow control register offset */ +#define MAC_WUM_REG_OFFSET 0x002CU /*!< MAC wakeup management register offset */ +#define MAC_INTF_REG_OFFSET 0x0038U /*!< MAC interrupt flag register offset */ +#define MAC_INTMSK_REG_OFFSET 0x003CU /*!< MAC interrupt mask register offset */ + +#define MSC_RINTF_REG_OFFSET 0x0104U /*!< MSC receive interrupt flag register offset */ +#define MSC_TINTF_REG_OFFSET 0x0108U /*!< MSC transmit interrupt flag register offset */ +#define MSC_RINTMSK_REG_OFFSET 0x010CU /*!< MSC receive interrupt mask register offset */ +#define MSC_TINTMSK_REG_OFFSET 0x0110U /*!< MSC transmit interrupt mask register offset */ +#define MSC_SCCNT_REG_OFFSET 0x014CU /*!< MSC transmitted good frames after a single collision counter register offset */ +#define MSC_MSCCNT_REG_OFFSET 0x0150U /*!< MSC transmitted good frames after more than a single collision counter register offset */ +#define MSC_TGFCNT_REG_OFFSET 0x0168U /*!< MSC transmitted good frames counter register offset */ +#define MSC_RFCECNT_REG_OFFSET 0x0194U /*!< MSC received frames with CRC error counter register offset */ +#define MSC_RFAECNT_REG_OFFSET 0x0198U /*!< MSC received frames with alignment error counter register offset */ +#define MSC_RGUFCNT_REG_OFFSET 0x01C4U /*!< MSC received good unicast frames counter register offset */ + +#define PTP_TSF_REG_OFFSET 0x0728U /*!< PTP time stamp flag register offset */ + +#define DMA_STAT_REG_OFFSET 0x1014U /*!< DMA status register offset */ +#define DMA_INTEN_REG_OFFSET 0x101CU /*!< DMA interrupt enable register offset */ +#define DMA_TDTADDR_REG_OFFSET 0x1010U /*!< DMA transmit descriptor table address register offset */ +#define DMA_CTDADDR_REG_OFFSET 0x1048U /*!< DMA current transmit descriptor address register */ +#define DMA_CTBADDR_REG_OFFSET 0x1050U /*!< DMA current transmit buffer address register */ +#define DMA_RDTADDR_REG_OFFSET 0x100CU /*!< DMA receive descriptor table address register */ +#define DMA_CRDADDR_REG_OFFSET 0x104CU /*!< DMA current receive descriptor address register */ +#define DMA_CRBADDR_REG_OFFSET 0x1054U /*!< DMA current receive buffer address register */ + +/* ENET status flag get */ +typedef enum +{ + /* ENET_MAC_WUM register */ + ENET_MAC_FLAG_MPKR = ENET_REGIDX_BIT(MAC_WUM_REG_OFFSET, 5U), /*!< magic packet received flag */ + ENET_MAC_FLAG_WUFR = ENET_REGIDX_BIT(MAC_WUM_REG_OFFSET, 6U), /*!< wakeup frame received flag */ + /* ENET_MAC_FCTL register */ + ENET_MAC_FLAG_FLOWCONTROL = ENET_REGIDX_BIT(MAC_FCTL_REG_OFFSET, 0U), /*!< flow control status flag */ + /* ENET_MAC_INTF register */ + ENET_MAC_FLAG_WUM = ENET_REGIDX_BIT(MAC_INTF_REG_OFFSET, 3U), /*!< WUM status flag */ + ENET_MAC_FLAG_MSC = ENET_REGIDX_BIT(MAC_INTF_REG_OFFSET, 4U), /*!< MSC status flag */ + ENET_MAC_FLAG_MSCR = ENET_REGIDX_BIT(MAC_INTF_REG_OFFSET, 5U), /*!< MSC receive status flag */ + ENET_MAC_FLAG_MSCT = ENET_REGIDX_BIT(MAC_INTF_REG_OFFSET, 6U), /*!< MSC transmit status flag */ + ENET_MAC_FLAG_TMST = ENET_REGIDX_BIT(MAC_INTF_REG_OFFSET, 9U), /*!< timestamp trigger status flag */ + /* ENET_PTP_TSF register */ + ENET_PTP_FLAG_TSSCO = ENET_REGIDX_BIT(PTP_TSF_REG_OFFSET, 0U), /*!< timestamp second counter overflow flag */ + ENET_PTP_FLAG_TTM = ENET_REGIDX_BIT(PTP_TSF_REG_OFFSET, 1U), /*!< target time match flag */ + /* ENET_MSC_RINTF register */ + ENET_MSC_FLAG_RFCE = ENET_REGIDX_BIT(MSC_RINTF_REG_OFFSET, 5U), /*!< received frames CRC error flag */ + ENET_MSC_FLAG_RFAE = ENET_REGIDX_BIT(MSC_RINTF_REG_OFFSET, 6U), /*!< received frames alignment error flag */ + ENET_MSC_FLAG_RGUF = ENET_REGIDX_BIT(MSC_RINTF_REG_OFFSET, 17U), /*!< received good unicast frames flag */ + /* ENET_MSC_TINTF register */ + ENET_MSC_FLAG_TGFSC = ENET_REGIDX_BIT(MSC_TINTF_REG_OFFSET, 14U), /*!< transmitted good frames single collision flag */ + ENET_MSC_FLAG_TGFMSC = ENET_REGIDX_BIT(MSC_TINTF_REG_OFFSET, 15U), /*!< transmitted good frames more single collision flag */ + ENET_MSC_FLAG_TGF = ENET_REGIDX_BIT(MSC_TINTF_REG_OFFSET, 21U), /*!< transmitted good frames flag */ + /* ENET_DMA_STAT register */ + ENET_DMA_FLAG_TS = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 0U), /*!< transmit status flag */ + ENET_DMA_FLAG_TPS = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 1U), /*!< transmit process stopped status flag */ + ENET_DMA_FLAG_TBU = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 2U), /*!< transmit buffer unavailable status flag */ + ENET_DMA_FLAG_TJT = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 3U), /*!< transmit jabber timeout status flag */ + ENET_DMA_FLAG_RO = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 4U), /*!< receive overflow status flag */ + ENET_DMA_FLAG_TU = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 5U), /*!< transmit underflow status flag */ + ENET_DMA_FLAG_RS = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 6U), /*!< receive status flag */ + ENET_DMA_FLAG_RBU = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 7U), /*!< receive buffer unavailable status flag */ + ENET_DMA_FLAG_RPS = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 8U), /*!< receive process stopped status flag */ + ENET_DMA_FLAG_RWT = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 9U), /*!< receive watchdog timeout status flag */ + ENET_DMA_FLAG_ET = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 10U), /*!< early transmit status flag */ + ENET_DMA_FLAG_FBE = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 13U), /*!< fatal bus error status flag */ + ENET_DMA_FLAG_ER = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 14U), /*!< early receive status flag */ + ENET_DMA_FLAG_AI = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 15U), /*!< abnormal interrupt summary flag */ + ENET_DMA_FLAG_NI = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 16U), /*!< normal interrupt summary flag */ + ENET_DMA_FLAG_EB_DMA_ERROR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 23U), /*!< error during data transfer by RxDMA/TxDMA flag */ + ENET_DMA_FLAG_EB_TRANSFER_ERROR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 24U), /*!< error during write/read transfer flag */ + ENET_DMA_FLAG_EB_ACCESS_ERROR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 25U), /*!< error during data buffer/descriptor access flag */ + ENET_DMA_FLAG_MSC = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 27U), /*!< MSC status flag */ + ENET_DMA_FLAG_WUM = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 28U), /*!< WUM status flag */ + ENET_DMA_FLAG_TST = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 29U), /*!< timestamp trigger status flag */ +}enet_flag_enum; + +/* ENET stutus flag clear */ +typedef enum +{ + /* ENET_DMA_STAT register */ + ENET_DMA_FLAG_TS_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 0U), /*!< transmit status flag */ + ENET_DMA_FLAG_TPS_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 1U), /*!< transmit process stopped status flag */ + ENET_DMA_FLAG_TBU_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 2U), /*!< transmit buffer unavailable status flag */ + ENET_DMA_FLAG_TJT_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 3U), /*!< transmit jabber timeout status flag */ + ENET_DMA_FLAG_RO_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 4U), /*!< receive overflow status flag */ + ENET_DMA_FLAG_TU_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 5U), /*!< transmit underflow status flag */ + ENET_DMA_FLAG_RS_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 6U), /*!< receive status flag */ + ENET_DMA_FLAG_RBU_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 7U), /*!< receive buffer unavailable status flag */ + ENET_DMA_FLAG_RPS_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 8U), /*!< receive process stopped status flag */ + ENET_DMA_FLAG_RWT_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 9U), /*!< receive watchdog timeout status flag */ + ENET_DMA_FLAG_ET_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 10U), /*!< early transmit status flag */ + ENET_DMA_FLAG_FBE_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 13U), /*!< fatal bus error status flag */ + ENET_DMA_FLAG_ER_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 14U), /*!< early receive status flag */ + ENET_DMA_FLAG_AI_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 15U), /*!< abnormal interrupt summary flag */ + ENET_DMA_FLAG_NI_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 16U), /*!< normal interrupt summary flag */ +}enet_flag_clear_enum; + +/* ENET interrupt enable/disable */ +typedef enum +{ + /* ENET_MAC_INTMSK register */ + ENET_MAC_INT_WUMIM = ENET_REGIDX_BIT(MAC_INTMSK_REG_OFFSET, 3U), /*!< WUM interrupt mask */ + ENET_MAC_INT_TMSTIM = ENET_REGIDX_BIT(MAC_INTMSK_REG_OFFSET, 9U), /*!< timestamp trigger interrupt mask */ + /* ENET_MSC_RINTMSK register */ + ENET_MSC_INT_RFCEIM = ENET_REGIDX_BIT(MSC_RINTMSK_REG_OFFSET, 5U), /*!< received frame CRC error interrupt mask */ + ENET_MSC_INT_RFAEIM = ENET_REGIDX_BIT(MSC_RINTMSK_REG_OFFSET, 6U), /*!< received frames alignment error interrupt mask */ + ENET_MSC_INT_RGUFIM = ENET_REGIDX_BIT(MSC_RINTMSK_REG_OFFSET, 17U), /*!< received good unicast frames interrupt mask */ + /* ENET_MSC_TINTMSK register */ + ENET_MSC_INT_TGFSCIM = ENET_REGIDX_BIT(MSC_TINTMSK_REG_OFFSET, 14U), /*!< transmitted good frames single collision interrupt mask */ + ENET_MSC_INT_TGFMSCIM = ENET_REGIDX_BIT(MSC_TINTMSK_REG_OFFSET, 15U), /*!< transmitted good frames more single collision interrupt mask */ + ENET_MSC_INT_TGFIM = ENET_REGIDX_BIT(MSC_TINTMSK_REG_OFFSET, 21U), /*!< transmitted good frames interrupt mask */ + /* ENET_DMA_INTEN register */ + ENET_DMA_INT_TIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 0U), /*!< transmit interrupt enable */ + ENET_DMA_INT_TPSIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 1U), /*!< transmit process stopped interrupt enable */ + ENET_DMA_INT_TBUIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 2U), /*!< transmit buffer unavailable interrupt enable */ + ENET_DMA_INT_TJTIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 3U), /*!< transmit jabber timeout interrupt enable */ + ENET_DMA_INT_ROIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 4U), /*!< receive overflow interrupt enable */ + ENET_DMA_INT_TUIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 5U), /*!< transmit underflow interrupt enable */ + ENET_DMA_INT_RIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 6U), /*!< receive interrupt enable */ + ENET_DMA_INT_RBUIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 7U), /*!< receive buffer unavailable interrupt enable */ + ENET_DMA_INT_RPSIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 8U), /*!< receive process stopped interrupt enable */ + ENET_DMA_INT_RWTIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 9U), /*!< receive watchdog timeout interrupt enable */ + ENET_DMA_INT_ETIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 10U), /*!< early transmit interrupt enable */ + ENET_DMA_INT_FBEIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 13U), /*!< fatal bus error interrupt enable */ + ENET_DMA_INT_ERIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 14U), /*!< early receive interrupt enable */ + ENET_DMA_INT_AIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 15U), /*!< abnormal interrupt summary enable */ + ENET_DMA_INT_NIE = ENET_REGIDX_BIT(DMA_INTEN_REG_OFFSET, 16U), /*!< normal interrupt summary enable */ +}enet_int_enum; + +/* ENET interrupt flag get */ +typedef enum +{ + /* ENET_MAC_INTF register */ + ENET_MAC_INT_FLAG_WUM = ENET_REGIDX_BIT(MAC_INTF_REG_OFFSET, 3U), /*!< WUM status flag */ + ENET_MAC_INT_FLAG_MSC = ENET_REGIDX_BIT(MAC_INTF_REG_OFFSET, 4U), /*!< MSC status flag */ + ENET_MAC_INT_FLAG_MSCR = ENET_REGIDX_BIT(MAC_INTF_REG_OFFSET, 5U), /*!< MSC receive status flag */ + ENET_MAC_INT_FLAG_MSCT = ENET_REGIDX_BIT(MAC_INTF_REG_OFFSET, 6U), /*!< MSC transmit status flag */ + ENET_MAC_INT_FLAG_TMST = ENET_REGIDX_BIT(MAC_INTF_REG_OFFSET, 9U), /*!< timestamp trigger status flag */ + /* ENET_MSC_RINTF register */ + ENET_MSC_INT_FLAG_RFCE = ENET_REGIDX_BIT(MSC_RINTF_REG_OFFSET, 5U), /*!< received frames CRC error flag */ + ENET_MSC_INT_FLAG_RFAE = ENET_REGIDX_BIT(MSC_RINTF_REG_OFFSET, 6U), /*!< received frames alignment error flag */ + ENET_MSC_INT_FLAG_RGUF = ENET_REGIDX_BIT(MSC_RINTF_REG_OFFSET, 17U), /*!< received good unicast frames flag */ + /* ENET_MSC_TINTF register */ + ENET_MSC_INT_FLAG_TGFSC = ENET_REGIDX_BIT(MSC_TINTF_REG_OFFSET, 14U), /*!< transmitted good frames single collision flag */ + ENET_MSC_INT_FLAG_TGFMSC = ENET_REGIDX_BIT(MSC_TINTF_REG_OFFSET, 15U), /*!< transmitted good frames more single collision flag */ + ENET_MSC_INT_FLAG_TGF = ENET_REGIDX_BIT(MSC_TINTF_REG_OFFSET, 21U), /*!< transmitted good frames flag */ + /* ENET_DMA_STAT register */ + ENET_DMA_INT_FLAG_TS = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 0U), /*!< transmit status flag */ + ENET_DMA_INT_FLAG_TPS = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 1U), /*!< transmit process stopped status flag */ + ENET_DMA_INT_FLAG_TBU = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 2U), /*!< transmit buffer unavailable status flag */ + ENET_DMA_INT_FLAG_TJT = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 3U), /*!< transmit jabber timeout status flag */ + ENET_DMA_INT_FLAG_RO = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 4U), /*!< receive overflow status flag */ + ENET_DMA_INT_FLAG_TU = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 5U), /*!< transmit underflow status flag */ + ENET_DMA_INT_FLAG_RS = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 6U), /*!< receive status flag */ + ENET_DMA_INT_FLAG_RBU = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 7U), /*!< receive buffer unavailable status flag */ + ENET_DMA_INT_FLAG_RPS = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 8U), /*!< receive process stopped status flag */ + ENET_DMA_INT_FLAG_RWT = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 9U), /*!< receive watchdog timeout status flag */ + ENET_DMA_INT_FLAG_ET = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 10U), /*!< early transmit status flag */ + ENET_DMA_INT_FLAG_FBE = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 13U), /*!< fatal bus error status flag */ + ENET_DMA_INT_FLAG_ER = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 14U), /*!< early receive status flag */ + ENET_DMA_INT_FLAG_AI = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 15U), /*!< abnormal interrupt summary flag */ + ENET_DMA_INT_FLAG_NI = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 16U), /*!< normal interrupt summary flag */ + ENET_DMA_INT_FLAG_MSC = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 27U), /*!< MSC status flag */ + ENET_DMA_INT_FLAG_WUM = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 28U), /*!< WUM status flag */ + ENET_DMA_INT_FLAG_TST = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 29U), /*!< timestamp trigger status flag */ +}enet_int_flag_enum; + +/* ENET interrupt flag clear */ +typedef enum +{ + /* ENET_DMA_STAT register */ + ENET_DMA_INT_FLAG_TS_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 0U), /*!< transmit status flag */ + ENET_DMA_INT_FLAG_TPS_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 1U), /*!< transmit process stopped status flag */ + ENET_DMA_INT_FLAG_TBU_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 2U), /*!< transmit buffer unavailable status flag */ + ENET_DMA_INT_FLAG_TJT_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 3U), /*!< transmit jabber timeout status flag */ + ENET_DMA_INT_FLAG_RO_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 4U), /*!< receive overflow status flag */ + ENET_DMA_INT_FLAG_TU_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 5U), /*!< transmit underflow status flag */ + ENET_DMA_INT_FLAG_RS_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 6U), /*!< receive status flag */ + ENET_DMA_INT_FLAG_RBU_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 7U), /*!< receive buffer unavailable status flag */ + ENET_DMA_INT_FLAG_RPS_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 8U), /*!< receive process stopped status flag */ + ENET_DMA_INT_FLAG_RWT_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 9U), /*!< receive watchdog timeout status flag */ + ENET_DMA_INT_FLAG_ET_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 10U), /*!< early transmit status flag */ + ENET_DMA_INT_FLAG_FBE_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 13U), /*!< fatal bus error status flag */ + ENET_DMA_INT_FLAG_ER_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 14U), /*!< early receive status flag */ + ENET_DMA_INT_FLAG_AI_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 15U), /*!< abnormal interrupt summary flag */ + ENET_DMA_INT_FLAG_NI_CLR = ENET_REGIDX_BIT(DMA_STAT_REG_OFFSET, 16U), /*!< normal interrupt summary flag */ +}enet_int_flag_clear_enum; + +/* current RX/TX descriptor/buffer/descriptor table address get */ +typedef enum +{ + ENET_RX_DESC_TABLE = DMA_RDTADDR_REG_OFFSET, /*!< RX descriptor table */ + ENET_RX_CURRENT_DESC = DMA_CRDADDR_REG_OFFSET, /*!< current RX descriptor */ + ENET_RX_CURRENT_BUFFER = DMA_CRBADDR_REG_OFFSET, /*!< current RX buffer */ + ENET_TX_DESC_TABLE = DMA_TDTADDR_REG_OFFSET, /*!< TX descriptor table */ + ENET_TX_CURRENT_DESC = DMA_CTDADDR_REG_OFFSET, /*!< current TX descriptor */ + ENET_TX_CURRENT_BUFFER = DMA_CTBADDR_REG_OFFSET /*!< current TX buffer */ +}enet_desc_reg_enum; + +/* MAC statistics counter get */ +typedef enum +{ + ENET_MSC_TX_SCCNT = MSC_SCCNT_REG_OFFSET, /*!< MSC transmitted good frames after a single collision counter */ + ENET_MSC_TX_MSCCNT = MSC_MSCCNT_REG_OFFSET, /*!< MSC transmitted good frames after more than a single collision counter */ + ENET_MSC_TX_TGFCNT = MSC_TGFCNT_REG_OFFSET, /*!< MSC transmitted good frames counter */ + ENET_MSC_RX_RFCECNT = MSC_RFCECNT_REG_OFFSET, /*!< MSC received frames with CRC error counter */ + ENET_MSC_RX_RFAECNT = MSC_RFAECNT_REG_OFFSET, /*!< MSC received frames with alignment error counter */ + ENET_MSC_RX_RGUFCNT = MSC_RGUFCNT_REG_OFFSET /*!< MSC received good unicast frames counter */ +}enet_msc_counter_enum; + +/* function option, used for ENET initialization */ +typedef enum +{ + FORWARD_OPTION = BIT(0), /*!< configure the frame forward related parameters */ + DMABUS_OPTION = BIT(1), /*!< configure the DMA bus mode related parameters */ + DMA_MAXBURST_OPTION = BIT(2), /*!< configure the DMA max burst related parameters */ + DMA_ARBITRATION_OPTION = BIT(3), /*!< configure the DMA arbitration related parameters */ + STORE_OPTION = BIT(4), /*!< configure the store forward mode related parameters */ + DMA_OPTION = BIT(5), /*!< configure the DMA control related parameters */ + VLAN_OPTION = BIT(6), /*!< configure the VLAN tag related parameters */ + FLOWCTL_OPTION = BIT(7), /*!< configure the flow control related parameters */ + HASHH_OPTION = BIT(8), /*!< configure the hash list high 32-bit related parameters */ + HASHL_OPTION = BIT(9), /*!< configure the hash list low 32-bit related parameters */ + FILTER_OPTION = BIT(10), /*!< configure the frame filter control related parameters */ + HALFDUPLEX_OPTION = BIT(11), /*!< configure the halfduplex related parameters */ + TIMER_OPTION = BIT(12), /*!< configure the frame timer related parameters */ + INTERFRAMEGAP_OPTION = BIT(13), /*!< configure the inter frame gap related parameters */ +}enet_option_enum; + +/* phy mode and mac loopback configurations */ +typedef enum +{ + ENET_AUTO_NEGOTIATION = 0x01u, /*!< PHY auto negotiation */ + ENET_100M_FULLDUPLEX = (ENET_MAC_CFG_SPD | ENET_MAC_CFG_DPM), /*!< 100Mbit/s, full-duplex */ + ENET_100M_HALFDUPLEX = ENET_MAC_CFG_SPD , /*!< 100Mbit/s, half-duplex */ + ENET_10M_FULLDUPLEX = ENET_MAC_CFG_DPM, /*!< 10Mbit/s, full-duplex */ + ENET_10M_HALFDUPLEX = (uint32_t)0x00000000U, /*!< 10Mbit/s, half-duplex */ + ENET_LOOPBACKMODE = (ENET_MAC_CFG_LBM | ENET_MAC_CFG_DPM) /*!< MAC in loopback mode at the MII */ +}enet_mediamode_enum; + +/* IP frame checksum function */ +typedef enum +{ + ENET_NO_AUTOCHECKSUM = (uint32_t)0x00000000U, /*!< disable IP frame checksum function */ + ENET_AUTOCHECKSUM_DROP_FAILFRAMES = ENET_MAC_CFG_IPFCO, /*!< enable IP frame checksum function */ + ENET_AUTOCHECKSUM_ACCEPT_FAILFRAMES = (ENET_MAC_CFG_IPFCO|ENET_DMA_CTL_DTCERFD) /*!< enable IP frame checksum function, and the received frame + with only payload error but no other errors will not be dropped */ +}enet_chksumconf_enum; + +/* received frame filter function */ +typedef enum +{ + ENET_PROMISCUOUS_MODE = ENET_MAC_FRMF_PM, /*!< promiscuous mode enabled */ + ENET_RECEIVEALL = (int32_t)ENET_MAC_FRMF_FAR, /*!< all received frame are forwarded to application */ + ENET_BROADCAST_FRAMES_PASS = (uint32_t)0x00000000U, /*!< the address filters pass all received broadcast frames */ + ENET_BROADCAST_FRAMES_DROP = ENET_MAC_FRMF_BFRMD /*!< the address filters filter all incoming broadcast frames */ +}enet_frmrecept_enum; + +/* register group value get */ +typedef enum +{ + ALL_MAC_REG = 0, /*!< MAC register group */ + ALL_MSC_REG = 22, /*!< MSC register group */ + ALL_PTP_REG = 33, /*!< PTP register group */ + ALL_DMA_REG = 44, /*!< DMA register group */ +}enet_registers_type_enum; + +/* dma direction select */ +typedef enum +{ + ENET_DMA_TX = ENET_DMA_STAT_TP, /*!< DMA transmit direction */ + ENET_DMA_RX = ENET_DMA_STAT_RP /*!< DMA receive direction */ +}enet_dmadirection_enum; + +/* PHY operation direction select */ +typedef enum +{ + ENET_PHY_READ = (uint32_t)0x00000000, /*!< read PHY */ + ENET_PHY_WRITE = ENET_MAC_PHY_CTL_PW /*!< write PHY */ +}enet_phydirection_enum; + +/* register operation direction select */ +typedef enum +{ + ENET_REG_READ, /*!< read register */ + ENET_REG_WRITE /*!< write register */ +}enet_regdirection_enum; + +/* ENET MAC addresses */ +typedef enum +{ + ENET_MAC_ADDRESS0 = ((uint32_t)0x00000000), /*!< MAC address0 */ + ENET_MAC_ADDRESS1 = ((uint32_t)0x00000008), /*!< MAC address1 */ + ENET_MAC_ADDRESS2 = ((uint32_t)0x00000010), /*!< MAC address2 */ + ENET_MAC_ADDRESS3 = ((uint32_t)0x00000018) /*!< MAC address3 */ +}enet_macaddress_enum; + +/* descriptor information */ +typedef enum +{ + TXDESC_COLLISION_COUNT, /*!< the number of collisions occurred before the frame was transmitted */ + TXDESC_BUFFER_1_ADDR, /*!< transmit frame buffer 1 address */ + RXDESC_FRAME_LENGTH, /*!< the byte length of the received frame that was transferred to the buffer */ + RXDESC_BUFFER_1_SIZE, /*!< receive buffer 1 size */ + RXDESC_BUFFER_2_SIZE, /*!< receive buffer 2 size */ + RXDESC_BUFFER_1_ADDR /*!< receive frame buffer 1 address */ +}enet_descstate_enum; + +/* MSC counters preset mode */ +typedef enum +{ + ENET_MSC_PRESET_NONE = 0U, /*!< do not preset MSC counter */ + ENET_MSC_PRESET_HALF = ENET_MSC_CTL_PMC, /*!< preset all MSC counters to almost-half(0x7FFF FFF0) value */ + ENET_MSC_PRESET_FULL = ENET_MSC_CTL_PMC | ENET_MSC_CTL_AFHPM /*!< preset all MSC counters to almost-full(0xFFFF FFF0) value */ +}enet_msc_preset_enum; + +/* structure for initialization of the ENET */ +typedef struct +{ + uint32_t option_enable; /*!< select which function to configure */ + uint32_t forward_frame; /*!< frame forward related parameters */ + uint32_t dmabus_mode; /*!< DMA bus mode related parameters */ + uint32_t dma_maxburst; /*!< DMA max burst related parameters */ + uint32_t dma_arbitration; /*!< DMA Tx and Rx arbitration related parameters */ + uint32_t store_forward_mode; /*!< store forward mode related parameters */ + uint32_t dma_function; /*!< DMA control related parameters */ + uint32_t vlan_config; /*!< VLAN tag related parameters */ + uint32_t flow_control; /*!< flow control related parameters */ + uint32_t hashtable_high; /*!< hash list high 32-bit related parameters */ + uint32_t hashtable_low; /*!< hash list low 32-bit related parameters */ + uint32_t framesfilter_mode; /*!< frame filter control related parameters */ + uint32_t halfduplex_param; /*!< halfduplex related parameters */ + uint32_t timer_config; /*!< frame timer related parameters */ + uint32_t interframegap; /*!< inter frame gap related parameters */ +}enet_initpara_struct; + +/* structure for ENET DMA desciptors */ +typedef struct +{ + uint32_t status; /*!< status */ + uint32_t control_buffer_size; /*!< control and buffer1, buffer2 lengths */ + uint32_t buffer1_addr; /*!< buffer1 address pointer/timestamp low */ + uint32_t buffer2_next_desc_addr; /*!< buffer2 or next descriptor address pointer/timestamp high */ + +#ifdef SELECT_DESCRIPTORS_ENHANCED_MODE + uint32_t extended_status; /*!< extended status */ + uint32_t reserved; /*!< reserved */ + uint32_t timestamp_low; /*!< timestamp low */ + uint32_t timestamp_high; /*!< timestamp high */ +#endif /* SELECT_DESCRIPTORS_ENHANCED_MODE */ + +} enet_descriptors_struct; + +/* structure of PTP system time */ +typedef struct +{ + uint32_t second; /*!< second of system time */ + uint32_t nanosecond; /*!< nanosecond of system time */ + uint32_t sign; /*!< sign of system time */ +}enet_ptp_systime_struct; + +/* mac_cfg register value */ +#define MAC_CFG_BOL(regval) (BITS(5,6) & ((uint32_t)(regval) << 5)) /*!< write value to ENET_MAC_CFG_BOL bit field */ +#define ENET_BACKOFFLIMIT_10 MAC_CFG_BOL(0) /*!< min (n, 10) */ +#define ENET_BACKOFFLIMIT_8 MAC_CFG_BOL(1) /*!< min (n, 8) */ +#define ENET_BACKOFFLIMIT_4 MAC_CFG_BOL(2) /*!< min (n, 4) */ +#define ENET_BACKOFFLIMIT_1 MAC_CFG_BOL(3) /*!< min (n, 1) */ + +#define MAC_CFG_IGBS(regval) (BITS(17,19) & ((uint32_t)(regval) << 17)) /*!< write value to ENET_MAC_CFG_IGBS bit field */ +#define ENET_INTERFRAMEGAP_96BIT MAC_CFG_IGBS(0) /*!< minimum 96 bit times */ +#define ENET_INTERFRAMEGAP_88BIT MAC_CFG_IGBS(1) /*!< minimum 88 bit times */ +#define ENET_INTERFRAMEGAP_80BIT MAC_CFG_IGBS(2) /*!< minimum 80 bit times */ +#define ENET_INTERFRAMEGAP_72BIT MAC_CFG_IGBS(3) /*!< minimum 72 bit times */ +#define ENET_INTERFRAMEGAP_64BIT MAC_CFG_IGBS(4) /*!< minimum 64 bit times */ +#define ENET_INTERFRAMEGAP_56BIT MAC_CFG_IGBS(5) /*!< minimum 56 bit times */ +#define ENET_INTERFRAMEGAP_48BIT MAC_CFG_IGBS(6) /*!< minimum 48 bit times */ +#define ENET_INTERFRAMEGAP_40BIT MAC_CFG_IGBS(7) /*!< minimum 40 bit times */ + +#define ENET_TYPEFRAME_CRC_DROP_ENABLE ENET_MAC_CFG_TFCD /*!< FCS field(last 4 bytes) of frame will be dropped before forwarding */ +#define ENET_TYPEFRAME_CRC_DROP_DISABLE ((uint32_t)0x00000000U) /*!< FCS field(last 4 bytes) of frame will not be dropped before forwarding */ +#define ENET_TYPEFRAME_CRC_DROP ENET_MAC_CFG_TFCD /*!< the function that FCS field(last 4 bytes) of frame will be dropped before forwarding */ + +#define ENET_WATCHDOG_ENABLE ((uint32_t)0x00000000U) /*!< the MAC allows no more than 2048 bytes of the frame being received */ +#define ENET_WATCHDOG_DISABLE ENET_MAC_CFG_WDD /*!< the MAC disables the watchdog timer on the receiver, and can receive frames of up to 16384 bytes */ + +#define ENET_JABBER_ENABLE ((uint32_t)0x00000000U) /*!< the maximum transmission byte is 2048 */ +#define ENET_JABBER_DISABLE ENET_MAC_CFG_JBD /*!< the maximum transmission byte can be 16384 */ + +#define ENET_CARRIERSENSE_ENABLE ((uint32_t)0x00000000U) /*!< the MAC transmitter generates carrier sense error and aborts the transmission */ +#define ENET_CARRIERSENSE_DISABLE ENET_MAC_CFG_CSD /*!< the MAC transmitter ignores the MII CRS signal during frame transmission in half-duplex mode */ + +#define ENET_SPEEDMODE_10M ((uint32_t)0x00000000U) /*!< 10 Mbit/s */ +#define ENET_SPEEDMODE_100M ENET_MAC_CFG_SPD /*!< 100 Mbit/s */ + +#define ENET_RECEIVEOWN_ENABLE ((uint32_t)0x00000000U) /*!< the MAC receives all packets that are given by the PHY while transmitting */ +#define ENET_RECEIVEOWN_DISABLE ENET_MAC_CFG_ROD /*!< the MAC disables the reception of frames in half-duplex mode */ + +#define ENET_LOOPBACKMODE_ENABLE ENET_MAC_CFG_LBM /*!< the MAC operates in loopback mode at the MII */ +#define ENET_LOOPBACKMODE_DISABLE ((uint32_t)0x00000000U) /*!< the MAC operates in normal mode */ + +#define ENET_MODE_FULLDUPLEX ENET_MAC_CFG_DPM /*!< full-duplex mode enable */ +#define ENET_MODE_HALFDUPLEX ((uint32_t)0x00000000U) /*!< half-duplex mode enable */ + +#define ENET_CHECKSUMOFFLOAD_ENABLE ENET_MAC_CFG_IPFCO /*!< IP frame checksum offload function enabled for received IP frame */ +#define ENET_CHECKSUMOFFLOAD_DISABLE ((uint32_t)0x00000000U) /*!< the checksum offload function in the receiver is disabled */ + +#define ENET_RETRYTRANSMISSION_ENABLE ((uint32_t)0x00000000U) /*!< the MAC attempts retries up to 16 times based on the settings of BOL*/ +#define ENET_RETRYTRANSMISSION_DISABLE ENET_MAC_CFG_RTD /*!< the MAC attempts only 1 transmission */ + +#define ENET_AUTO_PADCRC_DROP_ENABLE ENET_MAC_CFG_APCD /*!< the MAC strips the Pad/FCS field on received frames */ +#define ENET_AUTO_PADCRC_DROP_DISABLE ((uint32_t)0x00000000U) /*!< the MAC forwards all received frames without modify it */ +#define ENET_AUTO_PADCRC_DROP ENET_MAC_CFG_APCD /*!< the function of the MAC strips the Pad/FCS field on received frames */ + +#define ENET_DEFERRALCHECK_ENABLE ENET_MAC_CFG_DFC /*!< the deferral check function is enabled in the MAC */ +#define ENET_DEFERRALCHECK_DISABLE ((uint32_t)0x00000000U) /*!< the deferral check function is disabled */ + +/* mac_frmf register value */ +#define MAC_FRMF_PCFRM(regval) (BITS(6,7) & ((uint32_t)(regval) << 6)) /*!< write value to ENET_MAC_FRMF_PCFRM bit field */ +#define ENET_PCFRM_PREVENT_ALL MAC_FRMF_PCFRM(0) /*!< MAC prevents all control frames from reaching the application */ +#define ENET_PCFRM_PREVENT_PAUSEFRAME MAC_FRMF_PCFRM(1) /*!< MAC only forwards all other control frames except pause control frame */ +#define ENET_PCFRM_FORWARD_ALL MAC_FRMF_PCFRM(2) /*!< MAC forwards all control frames to application even if they fail the address filter */ +#define ENET_PCFRM_FORWARD_FILTERED MAC_FRMF_PCFRM(3) /*!< MAC forwards control frames that only pass the address filter */ + +#define ENET_RX_FILTER_DISABLE ENET_MAC_FRMF_FAR /*!< all received frame are forwarded to application */ +#define ENET_RX_FILTER_ENABLE ((uint32_t)0x00000000U) /*!< only the frame passed the filter can be forwarded to application */ + +#define ENET_SRC_FILTER_NORMAL_ENABLE ENET_MAC_FRMF_SAFLT /*!< filter source address */ +#define ENET_SRC_FILTER_INVERSE_ENABLE (ENET_MAC_FRMF_SAFLT | ENET_MAC_FRMF_SAIFLT) /*!< inverse source address filtering result */ +#define ENET_SRC_FILTER_DISABLE ((uint32_t)0x00000000U) /*!< source address function in filter disable */ +#define ENET_SRC_FILTER ENET_MAC_FRMF_SAFLT /*!< filter source address function */ +#define ENET_SRC_FILTER_INVERSE ENET_MAC_FRMF_SAIFLT /*!< inverse source address filtering result function */ + +#define ENET_BROADCASTFRAMES_ENABLE ((uint32_t)0x00000000U) /*!< the address filters pass all received broadcast frames */ +#define ENET_BROADCASTFRAMES_DISABLE ENET_MAC_FRMF_BFRMD /*!< the address filters filter all incoming broadcast frames */ + +#define ENET_DEST_FILTER_INVERSE_ENABLE ENET_MAC_FRMF_DAIFLT /*!< inverse DA filtering result */ +#define ENET_DEST_FILTER_INVERSE_DISABLE ((uint32_t)0x00000000U) /*!< not inverse DA filtering result */ +#define ENET_DEST_FILTER_INVERSE ENET_MAC_FRMF_DAIFLT /*!< inverse DA filtering result function */ + +#define ENET_PROMISCUOUS_ENABLE ENET_MAC_FRMF_PM /*!< promiscuous mode enabled */ +#define ENET_PROMISCUOUS_DISABLE ((uint32_t)0x00000000U) /*!< promiscuous mode disabled */ + +#define ENET_MULTICAST_FILTER_HASH_OR_PERFECT (ENET_MAC_FRMF_HMF | ENET_MAC_FRMF_HPFLT) /*!< pass multicast frames that match either the perfect or the hash filtering */ +#define ENET_MULTICAST_FILTER_HASH ENET_MAC_FRMF_HMF /*!< pass multicast frames that match the hash filtering */ +#define ENET_MULTICAST_FILTER_PERFECT ((uint32_t)0x00000000U) /*!< pass multicast frames that match the perfect filtering */ +#define ENET_MULTICAST_FILTER_NONE ENET_MAC_FRMF_MFD /*!< all multicast frames are passed */ +#define ENET_MULTICAST_FILTER_PASS ENET_MAC_FRMF_MFD /*!< pass all multicast frames function */ +#define ENET_MULTICAST_FILTER_HASH_MODE ENET_MAC_FRMF_HMF /*!< HASH multicast filter function */ +#define ENET_FILTER_MODE_EITHER ENET_MAC_FRMF_HPFLT /*!< HASH or perfect filter function */ + +#define ENET_UNICAST_FILTER_EITHER (ENET_MAC_FRMF_HUF | ENET_MAC_FRMF_HPFLT) /*!< pass unicast frames that match either the perfect or the hash filtering */ +#define ENET_UNICAST_FILTER_HASH ENET_MAC_FRMF_HUF /*!< pass unicast frames that match the hash filtering */ +#define ENET_UNICAST_FILTER_PERFECT ((uint32_t)0x00000000U) /*!< pass unicast frames that match the perfect filtering */ +#define ENET_UNICAST_FILTER_HASH_MODE ENET_MAC_FRMF_HUF /*!< HASH unicast filter function */ + +/* mac_phy_ctl register value */ +#define MAC_PHY_CTL_CLR(regval) (BITS(2,4) & ((uint32_t)(regval) << 2)) /*!< write value to ENET_MAC_PHY_CTL_CLR bit field */ +#define ENET_MDC_HCLK_DIV42 MAC_PHY_CTL_CLR(0) /*!< HCLK:60-100 MHz; MDC clock= HCLK/42 */ +#define ENET_MDC_HCLK_DIV62 MAC_PHY_CTL_CLR(1) /*!< HCLK:100-120 MHz; MDC clock= HCLK/62 */ +#define ENET_MDC_HCLK_DIV16 MAC_PHY_CTL_CLR(2) /*!< HCLK:20-35 MHz; MDC clock= HCLK/16 */ +#define ENET_MDC_HCLK_DIV26 MAC_PHY_CTL_CLR(3) /*!< HCLK:35-60 MHz; MDC clock= HCLK/26 */ + +#define MAC_PHY_CTL_PR(regval) (BITS(6,10) & ((uint32_t)(regval) << 6)) /*!< write value to ENET_MAC_PHY_CTL_PR bit field */ + +#define MAC_PHY_CTL_PA(regval) (BITS(11,15) & ((uint32_t)(regval) << 11)) /*!< write value to ENET_MAC_PHY_CTL_PA bit field */ + +/* mac_phy_data register value */ +#define MAC_PHY_DATA_PD(regval) (BITS(0,15) & ((uint32_t)(regval) << 0)) /*!< write value to ENET_MAC_PHY_DATA_PD bit field */ + +/* mac_fctl register value */ +#define MAC_FCTL_PLTS(regval) (BITS(4,5) & ((uint32_t)(regval) << 4)) /*!< write value to ENET_MAC_FCTL_PLTS bit field */ +#define ENET_PAUSETIME_MINUS4 MAC_FCTL_PLTS(0) /*!< pause time minus 4 slot times */ +#define ENET_PAUSETIME_MINUS28 MAC_FCTL_PLTS(1) /*!< pause time minus 28 slot times */ +#define ENET_PAUSETIME_MINUS144 MAC_FCTL_PLTS(2) /*!< pause time minus 144 slot times */ +#define ENET_PAUSETIME_MINUS256 MAC_FCTL_PLTS(3) /*!< pause time minus 256 slot times */ + +#define ENET_ZERO_QUANTA_PAUSE_ENABLE ((uint32_t)0x00000000U) /*!< enable the automatic zero-quanta generation function */ +#define ENET_ZERO_QUANTA_PAUSE_DISABLE ENET_MAC_FCTL_DZQP /*!< disable the automatic zero-quanta generation function */ +#define ENET_ZERO_QUANTA_PAUSE ENET_MAC_FCTL_DZQP /*!< the automatic zero-quanta generation function */ + +#define ENET_MAC0_AND_UNIQUE_ADDRESS_PAUSEDETECT ENET_MAC_FCTL_UPFDT /*!< besides the unique multicast address, MAC also use the MAC0 address to detect pause frame */ +#define ENET_UNIQUE_PAUSEDETECT ((uint32_t)0x00000000U) /*!< only the unique multicast address for pause frame which is specified in IEEE802.3 can be detected */ + +#define ENET_RX_FLOWCONTROL_ENABLE ENET_MAC_FCTL_RFCEN /*!< enable decoding function for the received pause frame and process it */ +#define ENET_RX_FLOWCONTROL_DISABLE ((uint32_t)0x00000000U) /*!< decode function for pause frame is disabled */ +#define ENET_RX_FLOWCONTROL ENET_MAC_FCTL_RFCEN /*!< decoding function for the received pause frame and process it */ + +#define ENET_TX_FLOWCONTROL_ENABLE ENET_MAC_FCTL_TFCEN /*!< enable the flow control operation in the MAC */ +#define ENET_TX_FLOWCONTROL_DISABLE ((uint32_t)0x00000000U) /*!< disable the flow control operation in the MAC */ +#define ENET_TX_FLOWCONTROL ENET_MAC_FCTL_TFCEN /*!< the flow control operation in the MAC */ + +#define ENET_BACK_PRESSURE_ENABLE ENET_MAC_FCTL_FLCBBKPA /*!< enable the back pressure operation in the MAC */ +#define ENET_BACK_PRESSURE_DISABLE ((uint32_t)0x00000000U) /*!< disable the back pressure operation in the MAC */ +#define ENET_BACK_PRESSURE ENET_MAC_FCTL_FLCBBKPA /*!< the back pressure operation in the MAC */ + +#define MAC_FCTL_PTM(regval) (BITS(16,31) & ((uint32_t)(regval) << 16)) /*!< write value to ENET_MAC_FCTL_PTM bit field */ +/* mac_vlt register value */ +#define MAC_VLT_VLTI(regval) (BITS(0,15) & ((uint32_t)(regval) << 0)) /*!< write value to ENET_MAC_VLT_VLTI bit field */ + +#define ENET_VLANTAGCOMPARISON_12BIT ENET_MAC_VLT_VLTC /*!< only low 12 bits of the VLAN tag are used for comparison */ +#define ENET_VLANTAGCOMPARISON_16BIT ((uint32_t)0x00000000U) /*!< all 16 bits of the VLAN tag are used for comparison */ + +/* mac_wum register value */ +#define ENET_WUM_FLAG_WUFFRPR ENET_MAC_WUM_WUFFRPR /*!< wakeup frame filter register poniter reset */ +#define ENET_WUM_FLAG_WUFR ENET_MAC_WUM_WUFR /*!< wakeup frame received */ +#define ENET_WUM_FLAG_MPKR ENET_MAC_WUM_MPKR /*!< magic packet received */ +#define ENET_WUM_POWER_DOWN ENET_MAC_WUM_PWD /*!< power down mode */ +#define ENET_WUM_MAGIC_PACKET_FRAME ENET_MAC_WUM_MPEN /*!< enable a wakeup event due to magic packet reception */ +#define ENET_WUM_WAKE_UP_FRAME ENET_MAC_WUM_WFEN /*!< enable a wakeup event due to wakeup frame reception */ +#define ENET_WUM_GLOBAL_UNICAST ENET_MAC_WUM_GU /*!< any received unicast frame passed filter is considered to be a wakeup frame */ + +/* mac_dbg register value */ +#define ENET_MAC_RECEIVER_NOT_IDLE ENET_MAC_DBG_MRNI /*!< MAC receiver is not in idle state */ +#define ENET_RX_ASYNCHRONOUS_FIFO_STATE ENET_MAC_DBG_RXAFS /*!< Rx asynchronous FIFO status */ +#define ENET_RXFIFO_WRITING ENET_MAC_DBG_RXFW /*!< RxFIFO is doing write operation */ +#define ENET_RXFIFO_READ_STATUS ENET_MAC_DBG_RXFRS /*!< RxFIFO read operation status */ +#define ENET_RXFIFO_STATE ENET_MAC_DBG_RXFS /*!< RxFIFO state */ +#define ENET_MAC_TRANSMITTER_NOT_IDLE ENET_MAC_DBG_MTNI /*!< MAC transmitter is not in idle state */ +#define ENET_MAC_TRANSMITTER_STATUS ENET_MAC_DBG_SOMT /*!< status of MAC transmitter */ +#define ENET_PAUSE_CONDITION_STATUS ENET_MAC_DBG_PCS /*!< pause condition status */ +#define ENET_TXFIFO_READ_STATUS ENET_MAC_DBG_TXFRS /*!< TxFIFO read operation status */ +#define ENET_TXFIFO_WRITING ENET_MAC_DBG_TXFW /*!< TxFIFO is doing write operation */ +#define ENET_TXFIFO_NOT_EMPTY ENET_MAC_DBG_TXFNE /*!< TxFIFO is not empty */ +#define ENET_TXFIFO_FULL ENET_MAC_DBG_TXFF /*!< TxFIFO is full */ + +#define GET_MAC_DBG_RXAFS(regval) GET_BITS((regval),1,2) /*!< get value of ENET_MAC_DBG_RXAFS bit field */ + +#define GET_MAC_DBG_RXFRS(regval) GET_BITS((regval),5,6) /*!< get value of ENET_MAC_DBG_RXFRS bit field */ + +#define GET_MAC_DBG_RXFS(regval) GET_BITS((regval),8,9) /*!< get value of ENET_MAC_DBG_RXFS bit field */ + +#define GET_MAC_DBG_SOMT(regval) GET_BITS((regval),17,18) /*!< get value of ENET_MAC_DBG_SOMT bit field */ + +#define GET_MAC_DBG_TXFRS(regval) GET_BITS((regval),20,21) /*!< get value of ENET_MAC_DBG_TXFRS bit field */ + +/* mac_addr0h register value */ +#define MAC_ADDR0H_ADDR0H(regval) (BITS(0,15) & ((uint32_t)(regval) << 0)) /*!< write value to ENET_MAC_ADDR0H_ADDR0H bit field */ + +/* mac_addrxh register value, x = 1,2,3 */ +#define MAC_ADDR123H_ADDR123H(regval) (BITS(0,15) & ((uint32_t)(regval) << 0)) /*!< write value to ENET_MAC_ADDRxH_ADDRxH(x=1,2,3) bit field */ + +#define ENET_ADDRESS_MASK_BYTE0 BIT(24) /*!< low register bits [7:0] */ +#define ENET_ADDRESS_MASK_BYTE1 BIT(25) /*!< low register bits [15:8] */ +#define ENET_ADDRESS_MASK_BYTE2 BIT(26) /*!< low register bits [23:16] */ +#define ENET_ADDRESS_MASK_BYTE3 BIT(27) /*!< low register bits [31:24] */ +#define ENET_ADDRESS_MASK_BYTE4 BIT(28) /*!< high register bits [7:0] */ +#define ENET_ADDRESS_MASK_BYTE5 BIT(29) /*!< high register bits [15:8] */ + +#define ENET_ADDRESS_FILTER_SA BIT(30) /*!< use MAC address[47:0] is to compare with the SA fields of the received frame */ +#define ENET_ADDRESS_FILTER_DA ((uint32_t)0x00000000) /*!< use MAC address[47:0] is to compare with the DA fields of the received frame */ + +/* mac_fcth register value */ +#define MAC_FCTH_RFA(regval) ((BITS(0,2) & ((uint32_t)(regval) << 0)) << 8) /*!< write value to ENET_MAC_FCTH_RFA bit field */ +#define ENET_ACTIVE_THRESHOLD_256BYTES MAC_FCTH_RFA(0) /*!< threshold level is 256 bytes */ +#define ENET_ACTIVE_THRESHOLD_512BYTES MAC_FCTH_RFA(1) /*!< threshold level is 512 bytes */ +#define ENET_ACTIVE_THRESHOLD_768BYTES MAC_FCTH_RFA(2) /*!< threshold level is 768 bytes */ +#define ENET_ACTIVE_THRESHOLD_1024BYTES MAC_FCTH_RFA(3) /*!< threshold level is 1024 bytes */ +#define ENET_ACTIVE_THRESHOLD_1280BYTES MAC_FCTH_RFA(4) /*!< threshold level is 1280 bytes */ +#define ENET_ACTIVE_THRESHOLD_1536BYTES MAC_FCTH_RFA(5) /*!< threshold level is 1536 bytes */ +#define ENET_ACTIVE_THRESHOLD_1792BYTES MAC_FCTH_RFA(6) /*!< threshold level is 1792 bytes */ + +#define MAC_FCTH_RFD(regval) ((BITS(4,6) & ((uint32_t)(regval) << 4)) << 8) /*!< write value to ENET_MAC_FCTH_RFD bit field */ +#define ENET_DEACTIVE_THRESHOLD_256BYTES MAC_FCTH_RFD(0) /*!< threshold level is 256 bytes */ +#define ENET_DEACTIVE_THRESHOLD_512BYTES MAC_FCTH_RFD(1) /*!< threshold level is 512 bytes */ +#define ENET_DEACTIVE_THRESHOLD_768BYTES MAC_FCTH_RFD(2) /*!< threshold level is 768 bytes */ +#define ENET_DEACTIVE_THRESHOLD_1024BYTES MAC_FCTH_RFD(3) /*!< threshold level is 1024 bytes */ +#define ENET_DEACTIVE_THRESHOLD_1280BYTES MAC_FCTH_RFD(4) /*!< threshold level is 1280 bytes */ +#define ENET_DEACTIVE_THRESHOLD_1536BYTES MAC_FCTH_RFD(5) /*!< threshold level is 1536 bytes */ +#define ENET_DEACTIVE_THRESHOLD_1792BYTES MAC_FCTH_RFD(6) /*!< threshold level is 1792 bytes */ + +/* msc_ctl register value */ +#define ENET_MSC_COUNTER_STOP_ROLLOVER ENET_MSC_CTL_CTSR /*!< counter stop rollover */ +#define ENET_MSC_RESET_ON_READ ENET_MSC_CTL_RTOR /*!< reset on read */ +#define ENET_MSC_COUNTERS_FREEZE ENET_MSC_CTL_MCFZ /*!< MSC counter freeze */ + +/* ptp_tsctl register value */ +#define PTP_TSCTL_CKNT(regval) (BITS(16,17) & ((uint32_t)(regval) << 16)) /*!< write value to ENET_PTP_TSCTL_CKNT bit field */ + +#define ENET_RXTX_TIMESTAMP ENET_PTP_TSCTL_TMSEN /*!< enable timestamp function for transmit and receive frames */ +#define ENET_PTP_TIMESTAMP_INT ENET_PTP_TSCTL_TMSITEN /*!< timestamp interrupt trigger enable */ +#define ENET_ALL_RX_TIMESTAMP ENET_PTP_TSCTL_ARFSEN /*!< all received frames are taken snapshot */ +#define ENET_NONTYPE_FRAME_SNAPSHOT ENET_PTP_TSCTL_ESEN /*!< take snapshot when received non type frame */ +#define ENET_IPV6_FRAME_SNAPSHOT ENET_PTP_TSCTL_IP6SEN /*!< take snapshot for IPv6 frame */ +#define ENET_IPV4_FRAME_SNAPSHOT ENET_PTP_TSCTL_IP4SEN /*!< take snapshot for IPv4 frame */ +#define ENET_PTP_FRAME_USE_MACADDRESS_FILTER ENET_PTP_TSCTL_MAFEN /*!< enable MAC address1-3 to filter the PTP frame */ + +/* ptp_ssinc register value */ +#define PTP_SSINC_STMSSI(regval) (BITS(0,7) & ((uint32_t)(regval) << 0)) /*!< write value to ENET_PTP_SSINC_STMSSI bit field */ + +/* ptp_tsl register value */ +#define GET_PTP_TSL_STMSS(regval) GET_BITS((uint32_t)(regval),0,30) /*!< get value of ENET_PTP_TSL_STMSS bit field */ + +#define ENET_PTP_TIME_POSITIVE ((uint32_t)0x00000000) /*!< time value is positive */ +#define ENET_PTP_TIME_NEGATIVE ENET_PTP_TSL_STS /*!< time value is negative */ + +#define GET_PTP_TSL_STS(regval) (((regval) & BIT(31)) >> (31U)) /*!< get value of ENET_PTP_TSL_STS bit field */ + +/* ptp_tsul register value */ +#define PTP_TSUL_TMSUSS(regval) (BITS(0,30) & ((uint32_t)(regval) << 0)) /*!< write value to ENET_PTP_TSUL_TMSUSS bit field */ + +#define ENET_PTP_ADD_TO_TIME ((uint32_t)0x00000000) /*!< timestamp update value is added to system time */ +#define ENET_PTP_SUBSTRACT_FROM_TIME ENET_PTP_TSUL_TMSUPNS /*!< timestamp update value is subtracted from system time */ + +/* ptp_ppsctl register value */ +#define PTP_PPSCTL_PPSOFC(regval) (BITS(0,3) & ((uint32_t)(regval) << 0)) /*!< write value to ENET_PTP_PPSCTL_PPSOFC bit field */ +#define ENET_PPSOFC_1HZ PTP_PPSCTL_PPSOFC(0) /*!< PPS output 1Hz frequency */ +#define ENET_PPSOFC_2HZ PTP_PPSCTL_PPSOFC(1) /*!< PPS output 2Hz frequency */ +#define ENET_PPSOFC_4HZ PTP_PPSCTL_PPSOFC(2) /*!< PPS output 4Hz frequency */ +#define ENET_PPSOFC_8HZ PTP_PPSCTL_PPSOFC(3) /*!< PPS output 8Hz frequency */ +#define ENET_PPSOFC_16HZ PTP_PPSCTL_PPSOFC(4) /*!< PPS output 16Hz frequency */ +#define ENET_PPSOFC_32HZ PTP_PPSCTL_PPSOFC(5) /*!< PPS output 32Hz frequency */ +#define ENET_PPSOFC_64HZ PTP_PPSCTL_PPSOFC(6) /*!< PPS output 64Hz frequency */ +#define ENET_PPSOFC_128HZ PTP_PPSCTL_PPSOFC(7) /*!< PPS output 128Hz frequency */ +#define ENET_PPSOFC_256HZ PTP_PPSCTL_PPSOFC(8) /*!< PPS output 256Hz frequency */ +#define ENET_PPSOFC_512HZ PTP_PPSCTL_PPSOFC(9) /*!< PPS output 512Hz frequency */ +#define ENET_PPSOFC_1024HZ PTP_PPSCTL_PPSOFC(10) /*!< PPS output 1024Hz frequency */ +#define ENET_PPSOFC_2048HZ PTP_PPSCTL_PPSOFC(11) /*!< PPS output 2048Hz frequency */ +#define ENET_PPSOFC_4096HZ PTP_PPSCTL_PPSOFC(12) /*!< PPS output 4096Hz frequency */ +#define ENET_PPSOFC_8192HZ PTP_PPSCTL_PPSOFC(13) /*!< PPS output 8192Hz frequency */ +#define ENET_PPSOFC_16384HZ PTP_PPSCTL_PPSOFC(14) /*!< PPS output 16384Hz frequency */ +#define ENET_PPSOFC_32768HZ PTP_PPSCTL_PPSOFC(15) /*!< PPS output 32768Hz frequency */ + +/* dma_bctl register value */ +#define DMA_BCTL_DPSL(regval) (BITS(2,6) & ((uint32_t)(regval) << 2)) /*!< write value to ENET_DMA_BCTL_DPSL bit field */ +#define GET_DMA_BCTL_DPSL(regval) GET_BITS((regval),2,6) /*!< get value of ENET_DMA_BCTL_DPSL bit field */ + +#define ENET_ENHANCED_DESCRIPTOR ENET_DMA_BCTL_DFM /*!< enhanced mode descriptor */ +#define ENET_NORMAL_DESCRIPTOR ((uint32_t)0x00000000) /*!< normal mode descriptor */ + +#define DMA_BCTL_PGBL(regval) (BITS(8,13) & ((uint32_t)(regval) << 8)) /*!< write value to ENET_DMA_BCTL_PGBL bit field */ +#define ENET_PGBL_1BEAT DMA_BCTL_PGBL(1) /*!< maximum number of beats is 1 */ +#define ENET_PGBL_2BEAT DMA_BCTL_PGBL(2) /*!< maximum number of beats is 2 */ +#define ENET_PGBL_4BEAT DMA_BCTL_PGBL(4) /*!< maximum number of beats is 4 */ +#define ENET_PGBL_8BEAT DMA_BCTL_PGBL(8) /*!< maximum number of beats is 8 */ +#define ENET_PGBL_16BEAT DMA_BCTL_PGBL(16) /*!< maximum number of beats is 16 */ +#define ENET_PGBL_32BEAT DMA_BCTL_PGBL(32) /*!< maximum number of beats is 32 */ +#define ENET_PGBL_4xPGBL_4BEAT (DMA_BCTL_PGBL(1)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats is 4 */ +#define ENET_PGBL_4xPGBL_8BEAT (DMA_BCTL_PGBL(2)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats is 8 */ +#define ENET_PGBL_4xPGBL_16BEAT (DMA_BCTL_PGBL(4)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats is 16 */ +#define ENET_PGBL_4xPGBL_32BEAT (DMA_BCTL_PGBL(8)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats is 32 */ +#define ENET_PGBL_4xPGBL_64BEAT (DMA_BCTL_PGBL(16)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats is 64 */ +#define ENET_PGBL_4xPGBL_128BEAT (DMA_BCTL_PGBL(32)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats is 128 */ + +#define DMA_BCTL_RTPR(regval) (BITS(14,15) & ((uint32_t)(regval) << 14)) /*!< write value to ENET_DMA_BCTL_RTPR bit field */ +#define ENET_ARBITRATION_RXTX_1_1 DMA_BCTL_RTPR(0) /*!< receive and transmit priority ratio is 1:1*/ +#define ENET_ARBITRATION_RXTX_2_1 DMA_BCTL_RTPR(1) /*!< receive and transmit priority ratio is 2:1*/ +#define ENET_ARBITRATION_RXTX_3_1 DMA_BCTL_RTPR(2) /*!< receive and transmit priority ratio is 3:1 */ +#define ENET_ARBITRATION_RXTX_4_1 DMA_BCTL_RTPR(3) /*!< receive and transmit priority ratio is 4:1 */ +#define ENET_ARBITRATION_RXPRIORTX ENET_DMA_BCTL_DAB /*!< RxDMA has higher priority than TxDMA */ + +#define ENET_FIXED_BURST_ENABLE ENET_DMA_BCTL_FB /*!< AHB can only use SINGLE/INCR4/INCR8/INCR16 during start of normal burst transfers */ +#define ENET_FIXED_BURST_DISABLE ((uint32_t)0x00000000) /*!< AHB can use SINGLE/INCR burst transfer operations */ + +#define DMA_BCTL_RXDP(regval) (BITS(17,22) & ((uint32_t)(regval) << 17)) /*!< write value to ENET_DMA_BCTL_RXDP bit field */ +#define ENET_RXDP_1BEAT DMA_BCTL_RXDP(1) /*!< maximum number of beats 1 */ +#define ENET_RXDP_2BEAT DMA_BCTL_RXDP(2) /*!< maximum number of beats 2 */ +#define ENET_RXDP_4BEAT DMA_BCTL_RXDP(4) /*!< maximum number of beats 4 */ +#define ENET_RXDP_8BEAT DMA_BCTL_RXDP(8) /*!< maximum number of beats 8 */ +#define ENET_RXDP_16BEAT DMA_BCTL_RXDP(16) /*!< maximum number of beats 16 */ +#define ENET_RXDP_32BEAT DMA_BCTL_RXDP(32) /*!< maximum number of beats 32 */ +#define ENET_RXDP_4xPGBL_4BEAT (DMA_BCTL_RXDP(1)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats 4 */ +#define ENET_RXDP_4xPGBL_8BEAT (DMA_BCTL_RXDP(2)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats 8 */ +#define ENET_RXDP_4xPGBL_16BEAT (DMA_BCTL_RXDP(4)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats 16 */ +#define ENET_RXDP_4xPGBL_32BEAT (DMA_BCTL_RXDP(8)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats 32 */ +#define ENET_RXDP_4xPGBL_64BEAT (DMA_BCTL_RXDP(16)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats 64 */ +#define ENET_RXDP_4xPGBL_128BEAT (DMA_BCTL_RXDP(32)|ENET_DMA_BCTL_FPBL) /*!< maximum number of beats 128 */ + +#define ENET_RXTX_DIFFERENT_PGBL ENET_DMA_BCTL_UIP /*!< RxDMA uses the RXDP[5:0], while TxDMA uses the PGBL[5:0] */ +#define ENET_RXTX_SAME_PGBL ((uint32_t)0x00000000) /*!< RxDMA/TxDMA uses PGBL[5:0] */ + +#define ENET_ADDRESS_ALIGN_ENABLE ENET_DMA_BCTL_AA /*!< enabled address-aligned */ +#define ENET_ADDRESS_ALIGN_DISABLE ((uint32_t)0x00000000) /*!< disable address-aligned */ + +#define ENET_MIXED_BURST_ENABLE ENET_DMA_BCTL_MB /*!< AHB master interface transfer burst length greater than 16 with INCR */ +#define ENET_MIXED_BURST_DISABLE ((uint32_t)0x00000000) /*!< AHB master interface only transfer fixed burst length with 16 and below */ + +/* dma_stat register value */ +#define GET_DMA_STAT_RP(regval) GET_BITS((uint32_t)(regval),17,19) /*!< get value of ENET_DMA_STAT_RP bit field */ +#define ENET_RX_STATE_STOPPED ((uint32_t)0x00000000) /*!< reset or stop rx command issued */ +#define ENET_RX_STATE_FETCHING BIT(17) /*!< fetching the Rx descriptor */ +#define ENET_RX_STATE_WAITING (BIT(17)|BIT(18)) /*!< waiting for receive packet */ +#define ENET_RX_STATE_SUSPENDED BIT(19) /*!< Rx descriptor unavailable */ +#define ENET_RX_STATE_CLOSING (BIT(17)|BIT(19)) /*!< closing receive descriptor */ +#define ENET_RX_STATE_QUEUING ENET_DMA_STAT_RP /*!< transferring the receive packet data from recevie buffer to host memory */ + +#define GET_DMA_STAT_TP(regval) GET_BITS((uint32_t)(regval),20,22) /*!< get value of ENET_DMA_STAT_TP bit field */ +#define ENET_TX_STATE_STOPPED ((uint32_t)0x00000000) /*!< reset or stop Tx Command issued */ +#define ENET_TX_STATE_FETCHING BIT(20) /*!< fetching the Tx descriptor */ +#define ENET_TX_STATE_WAITING BIT(21) /*!< waiting for status */ +#define ENET_TX_STATE_READING (BIT(20)|BIT(21)) /*!< reading the data from host memory buffer and queuing it to transmit buffer */ +#define ENET_TX_STATE_SUSPENDED (BIT(21)|BIT(22)) /*!< Tx descriptor unavailabe or transmit buffer underflow */ +#define ENET_TX_STATE_CLOSING ENET_DMA_STAT_TP /*!< closing Tx descriptor */ + +#define GET_DMA_STAT_EB(regval) GET_BITS((uint32_t)(regval),23,25) /*!< get value of ENET_DMA_STAT_EB bit field */ +#define ENET_ERROR_TXDATA_TRANSFER BIT(23) /*!< error during data transfer by TxDMA or RxDMA */ +#define ENET_ERROR_READ_TRANSFER BIT(24) /*!< error during write transfer or read transfer */ +#define ENET_ERROR_DESC_ACCESS BIT(25) /*!< error during descriptor or buffer access */ + +/* dma_ctl register value */ +#define DMA_CTL_RTHC(regval) (BITS(3,4) & ((uint32_t)(regval) << 3)) /*!< write value to ENET_DMA_CTL_RTHC bit field */ +#define ENET_RX_THRESHOLD_64BYTES DMA_CTL_RTHC(0) /*!< threshold level is 64 Bytes */ +#define ENET_RX_THRESHOLD_32BYTES DMA_CTL_RTHC(1) /*!< threshold level is 32 Bytes */ +#define ENET_RX_THRESHOLD_96BYTES DMA_CTL_RTHC(2) /*!< threshold level is 96 Bytes */ +#define ENET_RX_THRESHOLD_128BYTES DMA_CTL_RTHC(3) /*!< threshold level is 128 Bytes */ + +#define DMA_CTL_TTHC(regval) (BITS(14,16) & ((uint32_t)(regval) << 14)) /*!< write value to ENET_DMA_CTL_TTHC bit field */ +#define ENET_TX_THRESHOLD_64BYTES DMA_CTL_TTHC(0) /*!< threshold level is 64 Bytes */ +#define ENET_TX_THRESHOLD_128BYTES DMA_CTL_TTHC(1) /*!< threshold level is 128 Bytes */ +#define ENET_TX_THRESHOLD_192BYTES DMA_CTL_TTHC(2) /*!< threshold level is 192 Bytes */ +#define ENET_TX_THRESHOLD_256BYTES DMA_CTL_TTHC(3) /*!< threshold level is 256 Bytes */ +#define ENET_TX_THRESHOLD_40BYTES DMA_CTL_TTHC(4) /*!< threshold level is 40 Bytes */ +#define ENET_TX_THRESHOLD_32BYTES DMA_CTL_TTHC(5) /*!< threshold level is 32 Bytes */ +#define ENET_TX_THRESHOLD_24BYTES DMA_CTL_TTHC(6) /*!< threshold level is 24 Bytes */ +#define ENET_TX_THRESHOLD_16BYTES DMA_CTL_TTHC(7) /*!< threshold level is 16 Bytes */ + +#define ENET_TCPIP_CKSUMERROR_ACCEPT ENET_DMA_CTL_DTCERFD /*!< Rx frame with only payload error but no other errors will not be dropped */ +#define ENET_TCPIP_CKSUMERROR_DROP ((uint32_t)0x00000000) /*!< all error frames will be dropped when FERF = 0 */ + +#define ENET_RX_MODE_STOREFORWARD ENET_DMA_CTL_RSFD /*!< RxFIFO operates in store-and-forward mode */ +#define ENET_RX_MODE_CUTTHROUGH ((uint32_t)0x00000000) /*!< RxFIFO operates in cut-through mode */ + +#define ENET_FLUSH_RXFRAME_ENABLE ((uint32_t)0x00000000) /*!< RxDMA flushes all frames */ +#define ENET_FLUSH_RXFRAME_DISABLE ENET_DMA_CTL_DAFRF /*!< RxDMA does not flush any frames */ +#define ENET_NO_FLUSH_RXFRAME ENET_DMA_CTL_DAFRF /*!< RxDMA does not flush frames function */ + +#define ENET_TX_MODE_STOREFORWARD ENET_DMA_CTL_TSFD /*!< TxFIFO operates in store-and-forward mode */ +#define ENET_TX_MODE_CUTTHROUGH ((uint32_t)0x00000000) /*!< TxFIFO operates in cut-through mode */ + +#define ENET_FORWARD_ERRFRAMES_ENABLE (ENET_DMA_CTL_FERF << 2) /*!< all frame received with error except runt error are forwarded to memory */ +#define ENET_FORWARD_ERRFRAMES_DISABLE ((uint32_t)0x00000000) /*!< RxFIFO drop error frame */ +#define ENET_FORWARD_ERRFRAMES (ENET_DMA_CTL_FERF << 2) /*!< the function that all frame received with error except runt error are forwarded to memory */ + +#define ENET_FORWARD_UNDERSZ_GOODFRAMES_ENABLE (ENET_DMA_CTL_FUF << 2) /*!< forward undersized good frames */ +#define ENET_FORWARD_UNDERSZ_GOODFRAMES_DISABLE ((uint32_t)0x00000000) /*!< RxFIFO drops all frames whose length is less than 64 bytes */ +#define ENET_FORWARD_UNDERSZ_GOODFRAMES (ENET_DMA_CTL_FUF << 2) /*!< the function that forwarding undersized good frames */ + +#define ENET_SECONDFRAME_OPT_ENABLE ENET_DMA_CTL_OSF /*!< TxDMA controller operate on second frame mode enable*/ +#define ENET_SECONDFRAME_OPT_DISABLE ((uint32_t)0x00000000) /*!< TxDMA controller operate on second frame mode disable */ +#define ENET_SECONDFRAME_OPT ENET_DMA_CTL_OSF /*!< TxDMA controller operate on second frame function */ + +/* dma_mfbocnt register value */ +#define GET_DMA_MFBOCNT_MSFC(regval) GET_BITS((regval),0,15) /*!< get value of ENET_DMA_MFBOCNT_MSFC bit field */ + +#define GET_DMA_MFBOCNT_MSFA(regval) GET_BITS((regval),17,27) /*!< get value of ENET_DMA_MFBOCNT_MSFA bit field */ + +/* dma_rswdc register value */ +#define DMA_RSWDC_WDCFRS(regval) (BITS(0,7) & ((uint32_t)(regval) << 0)) /*!< write value to ENET_DMA_RSWDC_WDCFRS bit field */ + +/* dma tx descriptor tdes0 register value */ +#define TDES0_CONT(regval) (BITS(3,6) & ((uint32_t)(regval) << 3)) /*!< write value to ENET DMA TDES0 CONT bit field */ +#define GET_TDES0_COCNT(regval) GET_BITS((regval),3,6) /*!< get value of ENET DMA TDES0 CONT bit field */ + +#define TDES0_CM(regval) (BITS(22,23) & ((uint32_t)(regval) << 22)) /*!< write value to ENET DMA TDES0 CM bit field */ +#define ENET_CHECKSUM_DISABLE TDES0_CM(0) /*!< checksum insertion disabled */ +#define ENET_CHECKSUM_IPV4HEADER TDES0_CM(1) /*!< only IP header checksum calculation and insertion are enabled */ +#define ENET_CHECKSUM_TCPUDPICMP_SEGMENT TDES0_CM(2) /*!< TCP/UDP/ICMP checksum insertion calculated but pseudo-header */ +#define ENET_CHECKSUM_TCPUDPICMP_FULL TDES0_CM(3) /*!< TCP/UDP/ICMP checksum insertion fully calculated */ + +/* dma tx descriptor tdes1 register value */ +#define TDES1_TB1S(regval) (BITS(0,12) & ((uint32_t)(regval) << 0)) /*!< write value to ENET DMA TDES1 TB1S bit field */ + +#define TDES1_TB2S(regval) (BITS(16,28) & ((uint32_t)(regval) << 16)) /*!< write value to ENET DMA TDES1 TB2S bit field */ + +/* dma rx descriptor rdes0 register value */ +#define RDES0_FRML(regval) (BITS(16,29) & ((uint32_t)(regval) << 16)) /*!< write value to ENET DMA RDES0 FRML bit field */ +#define GET_RDES0_FRML(regval) GET_BITS((regval),16,29) /*!< get value of ENET DMA RDES0 FRML bit field */ + +/* dma rx descriptor rdes1 register value */ +#define ENET_RECEIVE_COMPLETE_INT_ENABLE ((uint32_t)0x00000000U) /*!< RS bit immediately set after Rx completed */ +#define ENET_RECEIVE_COMPLETE_INT_DISABLE ENET_RDES1_DINTC /*!< RS bit not immediately set after Rx completed */ + +#define GET_RDES1_RB1S(regval) GET_BITS((regval),0,12) /*!< get value of ENET DMA RDES1 RB1S bit field */ + +#define GET_RDES1_RB2S(regval) GET_BITS((regval),16,28) /*!< get value of ENET DMA RDES1 RB2S bit field */ + +/* dma rx descriptor rdes4 register value */ +#define RDES4_IPPLDT(regval) (BITS(0,2) & ((uint32_t)(regval) << 0)) /*!< write value to ENET DMA RDES4 IPPLDT bit field */ +#define GET_RDES4_IPPLDT(regval) GET_BITS((regval),0,2) /*!< get value of ENET DMA RDES4 IPPLDT bit field */ + +#define RDES4_PTPMT(regval) (BITS(8,11) & ((uint32_t)(regval) << 8)) /*!< write value to ENET DMA RDES4 PTPMT bit field */ +#define GET_RDES4_PTPMT(regval) GET_BITS((regval),8,11) /*!< get value of ENET DMA RDES4 PTPMT bit field */ + +/* ENET register mask value */ +#define MAC_CFG_MASK ((uint32_t)0xFD30810FU) /*!< ENET_MAC_CFG register mask */ +#define MAC_FCTL_MASK ((uint32_t)0x0000FF41U) /*!< ENET_MAC_FCTL register mask */ +#define DMA_CTL_MASK ((uint32_t)0xF8DE3F23U) /*!< ENET_DMA_CTL register mask */ +#define DMA_BCTL_MASK ((uint32_t)0xF800007DU) /*!< ENET_DMA_BCTL register mask */ +#define ENET_MSC_PRESET_MASK (~(ENET_MSC_CTL_PMC | ENET_MSC_CTL_AFHPM)) /*!< ENET_MSC_CTL preset mask */ + +#ifdef SELECT_DESCRIPTORS_ENHANCED_MODE +#define ETH_DMATXDESC_SIZE 0x20U /*!< TxDMA enhanced descriptor size */ +#define ETH_DMARXDESC_SIZE 0x20U /*!< RxDMA enhanced descriptor size */ +#else +#define ETH_DMATXDESC_SIZE 0x10U /*!< TxDMA descriptor size */ +#define ETH_DMARXDESC_SIZE 0x10U /*!< RxDMA descriptor size */ +#endif /* SELECT_DESCRIPTORS_ENHANCED_MODE */ + + +typedef enum{ + ENET_CKNT_ORDINARY = PTP_TSCTL_CKNT(0), /*!< type of ordinary clock node type for timestamp */ + ENET_CKNT_BOUNDARY = PTP_TSCTL_CKNT(1), /*!< type of boundary clock node type for timestamp */ + ENET_CKNT_END_TO_END = PTP_TSCTL_CKNT(2), /*!< type of end-to-end transparent clock node type for timestamp */ + ENET_CKNT_PEER_TO_PEER = PTP_TSCTL_CKNT(3), /*!< type of peer-to-peer transparent clock node type for timestamp */ + ENET_PTP_SYSTIME_INIT = ENET_PTP_TSCTL_TMSSTI, /*!< timestamp initialize */ + ENET_PTP_SYSTIME_UPDATE = ENET_PTP_TSCTL_TMSSTU, /*!< timestamp update */ + ENET_PTP_ADDEND_UPDATE = ENET_PTP_TSCTL_TMSARU, /*!< addend register update */ + ENET_PTP_FINEMODE = (int32_t)(ENET_PTP_TSCTL_TMSFCU| BIT(31)), /*!< the system timestamp uses the fine method for updating */ + ENET_PTP_COARSEMODE = ENET_PTP_TSCTL_TMSFCU, /*!< the system timestamp uses the coarse method for updating */ + ENET_SUBSECOND_DIGITAL_ROLLOVER = (int32_t)(ENET_PTP_TSCTL_SCROM | BIT(31)), /*!< digital rollover mode */ + ENET_SUBSECOND_BINARY_ROLLOVER = ENET_PTP_TSCTL_SCROM, /*!< binary rollover mode */ + ENET_SNOOPING_PTP_VERSION_2 = (int32_t)(ENET_PTP_TSCTL_PFSV| BIT(31)), /*!< version 2 */ + ENET_SNOOPING_PTP_VERSION_1 = ENET_PTP_TSCTL_PFSV, /*!< version 1 */ + ENET_EVENT_TYPE_MESSAGES_SNAPSHOT = (int32_t)(ENET_PTP_TSCTL_ETMSEN| BIT(31)), /*!< only event type messages are taken snapshot */ + ENET_ALL_TYPE_MESSAGES_SNAPSHOT = ENET_PTP_TSCTL_ETMSEN, /*!< all type messages are taken snapshot except announce, management and signaling message */ + ENET_MASTER_NODE_MESSAGE_SNAPSHOT = (int32_t)(ENET_PTP_TSCTL_MNMSEN| BIT(31)), /*!< snapshot is only take for master node message */ + ENET_SLAVE_NODE_MESSAGE_SNAPSHOT = ENET_PTP_TSCTL_MNMSEN, /*!< snapshot is only taken for slave node message */ +}enet_ptp_function_enum; + + +/* ENET remote wake-up frame register length */ +#define ETH_WAKEUP_REGISTER_LENGTH 8U /*!< remote wake-up frame register length */ + +/* ENET frame size */ +#define ENET_MAX_FRAME_SIZE 1524U /*!< header + frame_extra + payload + CRC */ + +/* ENET delay timeout */ +#define ENET_DELAY_TO ((uint32_t)0x0004FFFFU) /*!< ENET delay timeout */ +#define ENET_RESET_TO ((uint32_t)0x000004FFU) /*!< ENET reset timeout */ + + + +/* function declarations */ +/* main function */ +/* deinitialize the ENET, and reset structure parameters for ENET initialization */ +void enet_deinit(void); +/* configure the parameters which are usually less cared for initialization */ +void enet_initpara_config(enet_option_enum option, uint32_t para); +/* initialize ENET peripheral with generally concerned parameters and the less cared parameters */ +ErrStatus enet_init(enet_mediamode_enum mediamode, enet_chksumconf_enum checksum, enet_frmrecept_enum recept); +/* reset all core internal registers located in CLK_TX and CLK_RX */ +ErrStatus enet_software_reset(void); +/* check receive frame valid and return frame size */ +uint32_t enet_rxframe_size_get(void); +/* initialize the dma tx/rx descriptors's parameters in chain mode */ +void enet_descriptors_chain_init(enet_dmadirection_enum direction); +/* initialize the dma tx/rx descriptors's parameters in ring mode */ +void enet_descriptors_ring_init(enet_dmadirection_enum direction); +/* handle current received frame data to application buffer */ +ErrStatus enet_frame_receive(uint8_t *buffer, uint32_t bufsize); +/* handle current received frame but without data copy to application buffer */ +#define ENET_NOCOPY_FRAME_RECEIVE() enet_frame_receive(NULL, 0U) +/* handle application buffer data to transmit it */ +ErrStatus enet_frame_transmit(uint8_t *buffer, uint32_t length); +/* handle current transmit frame but without data copy from application buffer */ +#define ENET_NOCOPY_FRAME_TRANSMIT(len) enet_frame_transmit(NULL, (len)) +/* configure the transmit IP frame checksum offload calculation and insertion */ +ErrStatus enet_transmit_checksum_config(enet_descriptors_struct *desc, uint32_t checksum); +/* ENET Tx and Rx function enable (include MAC and DMA module) */ +void enet_enable(void); +/* ENET Tx and Rx function disable (include MAC and DMA module) */ +void enet_disable(void); +/* configure MAC address */ +void enet_mac_address_set(enet_macaddress_enum mac_addr, uint8_t paddr[]); +/* get MAC address */ +ErrStatus enet_mac_address_get(enet_macaddress_enum mac_addr, uint8_t paddr[], uint8_t bufsize); + +/* get the ENET MAC/MSC/PTP/DMA status flag */ +FlagStatus enet_flag_get(enet_flag_enum enet_flag); +/* clear the ENET DMA status flag */ +void enet_flag_clear(enet_flag_clear_enum enet_flag); +/* enable ENET MAC/MSC/DMA interrupt */ +void enet_interrupt_enable(enet_int_enum enet_int); +/* disable ENET MAC/MSC/DMA interrupt */ +void enet_interrupt_disable(enet_int_enum enet_int); +/* get ENET MAC/MSC/DMA interrupt flag */ +FlagStatus enet_interrupt_flag_get(enet_int_flag_enum int_flag); +/* clear ENET DMA interrupt flag */ +void enet_interrupt_flag_clear(enet_int_flag_clear_enum int_flag_clear); + +/* MAC function */ +/* ENET Tx function enable (include MAC and DMA module) */ +void enet_tx_enable(void); +/* ENET Tx function disable (include MAC and DMA module) */ +void enet_tx_disable(void); +/* ENET Rx function enable (include MAC and DMA module) */ +void enet_rx_enable(void); +/* ENET Rx function disable (include MAC and DMA module) */ +void enet_rx_disable(void); +/* put registers value into the application buffer */ +void enet_registers_get(enet_registers_type_enum type, uint32_t *preg, uint32_t num); +/* get the enet debug status from the debug register */ +uint32_t enet_debug_status_get(uint32_t mac_debug); +/* enable the MAC address filter */ +void enet_address_filter_enable(enet_macaddress_enum mac_addr); +/* disable the MAC address filter */ +void enet_address_filter_disable(enet_macaddress_enum mac_addr); +/* configure the MAC address filter */ +void enet_address_filter_config(enet_macaddress_enum mac_addr, uint32_t addr_mask, uint32_t filter_type); +/* PHY interface configuration (configure SMI clock and reset PHY chip) */ +ErrStatus enet_phy_config(void); +/* write to/read from a PHY register */ +ErrStatus enet_phy_write_read(enet_phydirection_enum direction, uint16_t phy_address, uint16_t phy_reg, uint16_t *pvalue); +/* enable the loopback function of phy chip */ +ErrStatus enet_phyloopback_enable(void); +/* disable the loopback function of phy chip */ +ErrStatus enet_phyloopback_disable(void); +/* enable ENET forward feature */ +void enet_forward_feature_enable(uint32_t feature); +/* disable ENET forward feature */ +void enet_forward_feature_disable(uint32_t feature); +/* enable ENET fliter feature */ +void enet_fliter_feature_enable(uint32_t feature); +/* disable ENET fliter feature */ +void enet_fliter_feature_disable(uint32_t feature); + +/* flow control function */ +/* generate the pause frame, ENET will send pause frame after enable transmit flow control */ +ErrStatus enet_pauseframe_generate(void); +/* configure the pause frame detect type */ +void enet_pauseframe_detect_config(uint32_t detect); +/* configure the pause frame parameters */ +void enet_pauseframe_config(uint32_t pausetime, uint32_t pause_threshold); +/* configure the threshold of the flow control(deactive and active threshold) */ +void enet_flowcontrol_threshold_config(uint32_t deactive, uint32_t active); +/* enable ENET flow control feature */ +void enet_flowcontrol_feature_enable(uint32_t feature); +/* disable ENET flow control feature */ +void enet_flowcontrol_feature_disable(uint32_t feature); + +/* DMA function */ +/* get the dma transmit/receive process state */ +uint32_t enet_dmaprocess_state_get(enet_dmadirection_enum direction); +/* poll the dma transmission/reception enable */ +void enet_dmaprocess_resume(enet_dmadirection_enum direction); +/* check and recover the Rx process */ +void enet_rxprocess_check_recovery(void); +/* flush the ENET transmit fifo, and wait until the flush operation completes */ +ErrStatus enet_txfifo_flush(void); +/* get the transmit/receive address of current descriptor, or current buffer, or descriptor table */ +uint32_t enet_current_desc_address_get(enet_desc_reg_enum addr_get); +/* get the Tx or Rx descriptor information */ +uint32_t enet_desc_information_get(enet_descriptors_struct *desc, enet_descstate_enum info_get); +/* get the number of missed frames during receiving */ +void enet_missed_frame_counter_get(uint32_t *rxfifo_drop, uint32_t *rxdma_drop); + +/* descriptor function */ +/* get the bit flag of ENET dma descriptor */ +FlagStatus enet_desc_flag_get(enet_descriptors_struct *desc, uint32_t desc_flag); +/* set the bit flag of ENET dma tx descriptor */ +void enet_desc_flag_set(enet_descriptors_struct *desc, uint32_t desc_flag); +/* clear the bit flag of ENET dma tx descriptor */ +void enet_desc_flag_clear(enet_descriptors_struct *desc, uint32_t desc_flag); +/* when receiving the completed, set RS bit in ENET_DMA_STAT register will immediately set */ +void enet_rx_desc_immediate_receive_complete_interrupt(enet_descriptors_struct *desc); +/* when receiving the completed, set RS bit in ENET_DMA_STAT register will is set after a configurable delay time */ +void enet_rx_desc_delay_receive_complete_interrupt(enet_descriptors_struct *desc, uint32_t delay_time); +/* drop current receive frame */ +void enet_rxframe_drop(void); +/* enable DMA feature */ +void enet_dma_feature_enable(uint32_t feature); +/* disable DMA feature */ +void enet_dma_feature_disable(uint32_t feature); + + +/* special enhanced mode function */ +#ifdef SELECT_DESCRIPTORS_ENHANCED_MODE +/* get the bit of extended status flag in ENET DMA descriptor */ +uint32_t enet_rx_desc_enhanced_status_get(enet_descriptors_struct *desc, uint32_t desc_status); +/* configure descriptor to work in enhanced mode */ +void enet_desc_select_enhanced_mode(void); +/* initialize the dma Tx/Rx descriptors's parameters in enhanced chain mode with ptp function */ +void enet_ptp_enhanced_descriptors_chain_init(enet_dmadirection_enum direction); +/* initialize the dma Tx/Rx descriptors's parameters in enhanced ring mode with ptp function */ +void enet_ptp_enhanced_descriptors_ring_init(enet_dmadirection_enum direction); +/* receive a packet data with timestamp values to application buffer, when the DMA is in enhanced mode */ +ErrStatus enet_ptpframe_receive_enhanced_mode(uint8_t *buffer, uint32_t bufsize, uint32_t timestamp[]); +/* handle current received frame but without data copy to application buffer in PTP enhanced mode */ +#define ENET_NOCOPY_PTPFRAME_RECEIVE_ENHANCED_MODE(ptr) enet_ptpframe_receive_enhanced_mode(NULL, 0U, (ptr)) +/* send data with timestamp values in application buffer as a transmit packet, when the DMA is in enhanced mode */ +ErrStatus enet_ptpframe_transmit_enhanced_mode(uint8_t *buffer, uint32_t length, uint32_t timestamp[]); +/* handle current transmit frame but without data copy from application buffer in PTP enhanced mode */ +#define ENET_NOCOPY_PTPFRAME_TRANSMIT_ENHANCED_MODE(len, ptr) enet_ptpframe_transmit_enhanced_mode(NULL, (len), (ptr)) + +#else + +/* configure descriptor to work in normal mode */ +void enet_desc_select_normal_mode(void); +/* initialize the dma Tx/Rx descriptors's parameters in normal chain mode with ptp function */ +void enet_ptp_normal_descriptors_chain_init(enet_dmadirection_enum direction, enet_descriptors_struct *desc_ptptab); +/* initialize the dma Tx/Rx descriptors's parameters in normal ring mode with ptp function */ +void enet_ptp_normal_descriptors_ring_init(enet_dmadirection_enum direction, enet_descriptors_struct *desc_ptptab); +/* receive a packet data with timestamp values to application buffer, when the DMA is in normal mode */ +ErrStatus enet_ptpframe_receive_normal_mode(uint8_t *buffer, uint32_t bufsize, uint32_t timestamp[]); +/* handle current received frame but without data copy to application buffer in PTP normal mode */ +#define ENET_NOCOPY_PTPFRAME_RECEIVE_NORMAL_MODE(ptr) enet_ptpframe_receive_normal_mode(NULL, 0U, (ptr)) +/* send data with timestamp values in application buffer as a transmit packet, when the DMA is in normal mode */ +ErrStatus enet_ptpframe_transmit_normal_mode(uint8_t *buffer, uint32_t length, uint32_t timestamp[]); +/* handle current transmit frame but without data copy from application buffer in PTP normal mode */ +#define ENET_NOCOPY_PTPFRAME_TRANSMIT_NORMAL_MODE(len, ptr) enet_ptpframe_transmit_normal_mode(NULL, (len), (ptr)) + +#endif /* SELECT_DESCRIPTORS_ENHANCED_MODE */ + +/* WUM function */ +/* wakeup frame filter register pointer reset */ +void enet_wum_filter_register_pointer_reset(void); +/* set the remote wakeup frame registers */ +void enet_wum_filter_config(uint32_t pdata[]); +/* enable wakeup management features */ +void enet_wum_feature_enable(uint32_t feature); +/* disable wakeup management features */ +void enet_wum_feature_disable(uint32_t feature); + +/* MSC function */ +/* reset the MAC statistics counters */ +void enet_msc_counters_reset(void); +/* enable the MAC statistics counter features */ +void enet_msc_feature_enable(uint32_t feature); +/* disable the MAC statistics counter features */ +void enet_msc_feature_disable(uint32_t feature); +/* configure MAC statistics counters preset mode */ +void enet_msc_counters_preset_config(enet_msc_preset_enum mode); +/* get MAC statistics counter */ +uint32_t enet_msc_counters_get(enet_msc_counter_enum counter); + +/* PTP function */ +/* change subsecond to nanosecond */ +uint32_t enet_ptp_subsecond_2_nanosecond(uint32_t subsecond); +/* change nanosecond to subsecond */ +uint32_t enet_ptp_nanosecond_2_subsecond(uint32_t nanosecond); +/* enable the PTP features */ +void enet_ptp_feature_enable(uint32_t feature); +/* disable the PTP features */ +void enet_ptp_feature_disable(uint32_t feature); +/* configure the PTP timestamp function */ +ErrStatus enet_ptp_timestamp_function_config(enet_ptp_function_enum func); +/* configure the PTP system time subsecond increment value */ +void enet_ptp_subsecond_increment_config(uint32_t subsecond); +/* adjusting the PTP clock frequency only in fine update mode */ +void enet_ptp_timestamp_addend_config(uint32_t add); +/* initializing or adding/subtracting to second of the PTP system time */ +void enet_ptp_timestamp_update_config(uint32_t sign, uint32_t second, uint32_t subsecond); +/* configure the PTP expected target time */ +void enet_ptp_expected_time_config(uint32_t second, uint32_t nanosecond); +/* get the PTP current system time */ +void enet_ptp_system_time_get(enet_ptp_systime_struct *systime_struct); +/* configure the PPS output frequency */ +void enet_ptp_pps_output_frequency_config(uint32_t freq); +/* configure and start PTP timestamp counter */ +void enet_ptp_start(int32_t updatemethod, uint32_t init_sec, uint32_t init_subsec, uint32_t carry_cfg, uint32_t accuracy_cfg); +/* adjust frequency in fine method by configure addend register */ +void enet_ptp_finecorrection_adjfreq(int32_t carry_cfg); +/* update system time in coarse method */ +void enet_ptp_coarsecorrection_systime_update(enet_ptp_systime_struct *systime_struct); +/* set system time in fine method */ +void enet_ptp_finecorrection_settime(enet_ptp_systime_struct * systime_struct); +/* get the ptp flag status */ +FlagStatus enet_ptp_flag_get(uint32_t flag); + +/* internal function */ +/* reset the ENET initpara struct, call it before using enet_initpara_config() */ +void enet_initpara_reset(void); +#ifdef USE_DELAY +/* user can provide more timing precise _ENET_DELAY_ function */ +#define _ENET_DELAY_ delay_ms +#else +/* default _ENET_DELAY_ function with less precise timing */ +#define _ENET_DELAY_ enet_delay +#endif + +#endif /* GD32F30X_ENET_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_exmc.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_exmc.h new file mode 100644 index 0000000000..feb2fb3530 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_exmc.h @@ -0,0 +1,446 @@ +/*! + \file gd32f30x_exmc.h + \brief definitions for the EXMC + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_EXMC_H +#define GD32F30X_EXMC_H + +#include "gd32f30x.h" + +/* EXMC definitions */ +#define EXMC (EXMC_BASE) /*!< EXMC register base address */ + +/* registers definitions */ +/* NOR/PSRAM */ +#define EXMC_SNCTL0 REG32(EXMC + 0x00U) /*!< EXMC SRAM/NOR flash control register0 */ +#define EXMC_SNTCFG0 REG32(EXMC + 0x04U) /*!< EXMC SRAM/NOR flash timing configuration register0 */ +#define EXMC_SNWTCFG0 REG32(EXMC + 0x104U) /*!< EXMC SRAM/NOR flash write timing configuration register0 */ + +#define EXMC_SNCTL1 REG32(EXMC + 0x08U) /*!< EXMC SRAM/NOR flash control register1 */ +#define EXMC_SNTCFG1 REG32(EXMC + 0x0CU) /*!< EXMC SRAM/NOR flash timing configuration register1 */ +#define EXMC_SNWTCFG1 REG32(EXMC + 0x10CU) /*!< EXMC SRAM/NOR flash write timing configuration register1 */ + +#define EXMC_SNCTL2 REG32(EXMC + 0x10U) /*!< EXMC SRAM/NOR flash control register2 */ +#define EXMC_SNTCFG2 REG32(EXMC + 0x14U) /*!< EXMC SRAM/NOR flash timing configuration register2 */ +#define EXMC_SNWTCFG2 REG32(EXMC + 0x114U) /*!< EXMC SRAM/NOR flash write timing configuration register2 */ + +#define EXMC_SNCTL3 REG32(EXMC + 0x18U) /*!< EXMC SRAM/NOR flash control register3 */ +#define EXMC_SNTCFG3 REG32(EXMC + 0x1CU) /*!< EXMC SRAM/NOR flash timing configuration register3 */ +#define EXMC_SNWTCFG3 REG32(EXMC + 0x11CU) /*!< EXMC SRAM/NOR flash write timing configuration register3 */ + +/* NAND/PC card */ +#define EXMC_NPCTL1 REG32(EXMC + 0x60U) /*!< EXMC NAND/PC card control register1 */ +#define EXMC_NPINTEN1 REG32(EXMC + 0x64U) /*!< EXMC NAND/PC card interrupt enable register1 */ +#define EXMC_NPCTCFG1 REG32(EXMC + 0x68U) /*!< EXMC NAND/PC card common space timing configuration register1 */ +#define EXMC_NPATCFG1 REG32(EXMC + 0x6CU) /*!< EXMC NAND/PC card attribute space timing configuration register1 */ +#define EXMC_NECC1 REG32(EXMC + 0x74U) /*!< EXMC NAND ECC register1 */ + +#define EXMC_NPCTL2 REG32(EXMC + 0x80U) /*!< EXMC NAND/PC card control register2 */ +#define EXMC_NPINTEN2 REG32(EXMC + 0x84U) /*!< EXMC NAND/PC card interrupt enable register2 */ +#define EXMC_NPCTCFG2 REG32(EXMC + 0x88U) /*!< EXMC NAND/PC card common space timing configuration register2 */ +#define EXMC_NPATCFG2 REG32(EXMC + 0x8CU) /*!< EXMC NAND/PC card attribute space timing configuration register2 */ +#define EXMC_NECC2 REG32(EXMC + 0x94U) /*!< EXMC NAND ECC register2 */ + +#define EXMC_NPCTL3 REG32(EXMC + 0xA0U) /*!< EXMC NAND/PC card control register3 */ +#define EXMC_NPINTEN3 REG32(EXMC + 0xA4U) /*!< EXMC NAND/PC card interrupt enable register3 */ +#define EXMC_NPCTCFG3 REG32(EXMC + 0xA8U) /*!< EXMC NAND/PC card common space timing configuration register3 */ +#define EXMC_NPATCFG3 REG32(EXMC + 0xACU) /*!< EXMC NAND/PC card attribute space timing configuration register3 */ +#define EXMC_PIOTCFG3 REG32(EXMC + 0xB0U) /*!< EXMC PC card I/O space timing configuration register */ + +/* bits definitions */ +/* EXMC_SNCTLx,x=0..3 */ +#define EXMC_SNCTL_NRBKEN BIT(0) /*!< NOR bank enable */ +#define EXMC_SNCTL_NRMUX BIT(1) /*!< NOR bank memory address/data multiplexing enable */ +#define EXMC_SNCTL_NRTP BITS(2,3) /*!< NOR bank memory type */ +#define EXMC_SNCTL_NRW BITS(4,5) /*!< NOR bank memory data bus width */ +#define EXMC_SNCTL_NREN BIT(6) /*!< NOR flash access enable */ +#define EXMC_SNCTL_SBRSTEN BIT(8) /*!< synchronous burst enable */ +#define EXMC_SNCTL_NRWTPOL BIT(9) /*!< NWAIT signal polarity */ +#define EXMC_SNCTL_WRAPEN BIT(10) /*!< wrapped burst mode enable */ +#define EXMC_SNCTL_NRWTCFG BIT(11) /*!< NWAIT signal configuration, only work in synchronous mode */ +#define EXMC_SNCTL_WREN BIT(12) /*!< write enable */ +#define EXMC_SNCTL_NRWTEN BIT(13) /*!< NWAIT signal enable */ +#define EXMC_SNCTL_EXMODEN BIT(14) /*!< extended mode enable */ +#define EXMC_SNCTL_ASYNCWAIT BIT(15) /*!< asynchronous wait enable */ +#define EXMC_SNCTL_CPS BITS(16,18) /*!< CRAM page size */ +#define EXMC_SNCTL_SYNCWR BIT(19) /*!< synchronous write config */ + +/* EXMC_SNTCFGx,x=0..3 */ +#define EXMC_SNTCFG_ASET BITS(0,3) /*!< asynchronous address setup time */ +#define EXMC_SNTCFG_AHLD BITS(4,7) /*!< asynchronous address hold time */ +#define EXMC_SNTCFG_DSET BITS(8,15) /*!< asynchronous data setup time */ +#define EXMC_SNTCFG_BUSLAT BITS(16,19) /*!< bus latency */ +#define EXMC_SNTCFG_CKDIV BITS(20,23) /*!< synchronous clock divide ratio */ +#define EXMC_SNTCFG_DLAT BITS(24,27) /*!< synchronous data latency for NOR flash */ +#define EXMC_SNTCFG_ASYNCMOD BITS(28,29) /*!< asynchronous access mode */ + +/* EXMC_SNWTCFGx,x=0..3 */ +#define EXMC_SNWTCFG_WASET BITS(0,3) /*!< asynchronous address setup time */ +#define EXMC_SNWTCFG_WAHLD BITS(4,7) /*!< asynchronous address hold time */ +#define EXMC_SNWTCFG_WDSET BITS(8,15) /*!< asynchronous data setup time */ +#define EXMC_SNWTCFG_WBUSLAT BITS(16,19) /*!< bus latency */ +#define EXMC_SNWTCFG_WASYNCMOD BITS(28,29) /*!< asynchronous access mode */ + +/* EXMC_NPCTLx,x=1..3 */ +#define EXMC_NPCTL_NDWTEN BIT(1) /*!< wait feature enable */ +#define EXMC_NPCTL_NDBKEN BIT(2) /*!< NAND bank enable */ +#define EXMC_NPCTL_NDTP BIT(3) /*!< NAND bank memory type */ +#define EXMC_NPCTL_NDW BITS(4,5) /*!< NAND bank memory data bus width */ +#define EXMC_NPCTL_ECCEN BIT(6) /*!< ECC enable */ +#define EXMC_NPCTL_CTR BITS(9,12) /*!< CLE to RE delay */ +#define EXMC_NPCTL_ATR BITS(13,16) /*!< ALE to RE delay */ +#define EXMC_NPCTL_ECCSZ BITS(17,19) /*!< ECC size */ + +/* EXMC_NPINTENx,x=1..3 */ +#define EXMC_NPINTEN_INTRS BIT(0) /*!< interrupt rising edge status */ +#define EXMC_NPINTEN_INTHS BIT(1) /*!< interrupt high-level status */ +#define EXMC_NPINTEN_INTFS BIT(2) /*!< interrupt falling edge status */ +#define EXMC_NPINTEN_INTREN BIT(3) /*!< interrupt rising edge detection enable */ +#define EXMC_NPINTEN_INTHEN BIT(4) /*!< interrupt high-level detection enable */ +#define EXMC_NPINTEN_INTFEN BIT(5) /*!< interrupt falling edge detection enable */ +#define EXMC_NPINTEN_FFEPT BIT(6) /*!< FIFO empty flag */ + +/* EXMC_NPCTCFGx,x=1..3 */ +#define EXMC_NPCTCFG_COMSET BITS(0,7) /*!< common memory setup time */ +#define EXMC_NPCTCFG_COMWAIT BITS(8,15) /*!< common memory wait time */ +#define EXMC_NPCTCFG_COMHLD BITS(16,23) /*!< common memory hold time */ +#define EXMC_NPCTCFG_COMHIZ BITS(24,31) /*!< common memory data bus HiZ time */ + +/* EXMC_NPATCFGx,x=1..3 */ +#define EXMC_NPATCFG_ATTSET BITS(0,7) /*!< attribute memory setup time */ +#define EXMC_NPATCFG_ATTWAIT BITS(8,15) /*!< attribute memory wait time */ +#define EXMC_NPATCFG_ATTHLD BITS(16,23) /*!< attribute memory hold time */ +#define EXMC_NPATCFG_ATTHIZ BITS(24,31) /*!< attribute memory data bus HiZ time */ + +/* EXMC_PIOTCFG3 */ +#define EXMC_PIOTCFG3_IOSET BITS(0,7) /*!< IO space setup time */ +#define EXMC_PIOTCFG3_IOWAIT BITS(8,15) /*!< IO space wait time */ +#define EXMC_PIOTCFG3_IOHLD BITS(16,23) /*!< IO space hold time */ +#define EXMC_PIOTCFG3_IOHIZ BITS(24,31) /*!< IO space data bus HiZ time */ + +/* EXMC_NECCx,x=1,2 */ +#define EXMC_NECC_ECC BITS(0,31) /*!< ECC result */ + +/* constants definitions */ +/* EXMC NOR/SRAM timing initialize struct */ +typedef struct +{ + uint32_t asyn_access_mode; /*!< asynchronous access mode */ + uint32_t syn_data_latency; /*!< configure the data latency */ + uint32_t syn_clk_division; /*!< configure the clock divide ratio */ + uint32_t bus_latency; /*!< configure the bus latency */ + uint32_t asyn_data_setuptime; /*!< configure the data setup time,asynchronous access mode valid */ + uint32_t asyn_address_holdtime; /*!< configure the address hold time,asynchronous access mode valid */ + uint32_t asyn_address_setuptime; /*!< configure the data setup time,asynchronous access mode valid */ +}exmc_norsram_timing_parameter_struct; + +/* EXMC NOR/SRAM initialize struct */ +typedef struct +{ + uint32_t norsram_region; /*!< select the region of EXMC NOR/SRAM bank */ + uint32_t write_mode; /*!< the write mode, synchronous mode or asynchronous mode */ + uint32_t extended_mode; /*!< enable or disable the extended mode */ + uint32_t asyn_wait; /*!< enable or disable the asynchronous wait function */ + uint32_t nwait_signal; /*!< enable or disable the NWAIT signal while in synchronous bust mode */ + uint32_t memory_write; /*!< enable or disable the write operation */ + uint32_t nwait_config; /*!< NWAIT signal configuration */ + uint32_t wrap_burst_mode; /*!< enable or disable the wrap burst mode */ + uint32_t nwait_polarity; /*!< specifies the polarity of NWAIT signal from memory */ + uint32_t burst_mode; /*!< enable or disable the burst mode */ + uint32_t databus_width; /*!< specifies the databus width of external memory */ + uint32_t memory_type; /*!< specifies the type of external memory */ + uint32_t address_data_mux; /*!< specifies whether the data bus and address bus are multiplexed */ + exmc_norsram_timing_parameter_struct* read_write_timing; /*!< timing parameters for read and write if the extended mode is not used or the timing + parameters for read if the extended mode is used */ + exmc_norsram_timing_parameter_struct* write_timing; /*!< timing parameters for write when the extended mode is used */ +}exmc_norsram_parameter_struct; + +/* EXMC NAND/PC card timing initialize struct */ +typedef struct +{ + uint32_t databus_hiztime; /*!< configure the dadtabus HiZ time for write operation */ + uint32_t holdtime; /*!< configure the address hold time(or the data hold time for write operation) */ + uint32_t waittime; /*!< configure the minimum wait time */ + uint32_t setuptime; /*!< configure the address setup time */ +}exmc_nand_pccard_timing_parameter_struct; + +/* EXMC NAND initialize struct */ +typedef struct +{ + uint32_t nand_bank; /*!< select the bank of NAND */ + uint32_t ecc_size; /*!< the page size for the ECC calculation */ + uint32_t atr_latency; /*!< configure the latency of ALE low to RB low */ + uint32_t ctr_latency; /*!< configure the latency of CLE low to RB low */ + uint32_t ecc_logic; /*!< enable or disable the ECC calculation logic */ + uint32_t databus_width; /*!< the NAND flash databus width */ + uint32_t wait_feature; /*!< enable or disable the wait feature */ + exmc_nand_pccard_timing_parameter_struct* common_space_timing; /*!< the timing parameters for NAND flash common space */ + exmc_nand_pccard_timing_parameter_struct* attribute_space_timing; /*!< the timing parameters for NAND flash attribute space */ +}exmc_nand_parameter_struct; + +/* EXMC PC card initialize struct */ +typedef struct +{ + uint32_t atr_latency; /*!< configure the latency of ALE low to RB low */ + uint32_t ctr_latency; /*!< configure the latency of CLE low to RB low */ + uint32_t wait_feature; /*!< enable or disable the wait feature */ + exmc_nand_pccard_timing_parameter_struct* common_space_timing; /*!< the timing parameters for PC card common space */ + exmc_nand_pccard_timing_parameter_struct* attribute_space_timing; /*!< the timing parameters for PC card attribute space */ + exmc_nand_pccard_timing_parameter_struct* io_space_timing; /*!< the timing parameters for PC card IO space */ +}exmc_pccard_parameter_struct; + +/* EXMC_register address */ +#define EXMC_SNCTL(region) REG32(EXMC + 0x08U * (region)) /*!< EXMC SRAM/NOR flash control registers, region = 0,1,2,3 */ +#define EXMC_SNTCFG(region) REG32(EXMC + 0x04U + 0x08U * (region)) /*!< EXMC SRAM/NOR flash timing configuration registers, region = 0,1,2,3 */ +#define EXMC_SNWTCFG(region) REG32(EXMC + 0x104U + 0x08U * (region)) /*!< EXMC SRAM/NOR flash write timing configuration registers, region = 0,1,2,3 */ + +#define EXMC_NPCTL(bank) REG32(EXMC + 0x40U + 0x20U * (bank)) /*!< EXMC NAND/PC card control registers, bank = 1,2,3 */ +#define EXMC_NPINTEN(bank) REG32(EXMC + 0x44U + 0x20U * (bank)) /*!< EXMC NAND/PC card interrupt enable registers, bank = 1,2,3 */ +#define EXMC_NPCTCFG(bank) REG32(EXMC + 0x48U + 0x20U * (bank)) /*!< EXMC NAND/PC card common space timing configuration registers, bank = 1,2,3 */ +#define EXMC_NPATCFG(bank) REG32(EXMC + 0x4CU + 0x20U * (bank)) /*!< EXMC NAND/PC card attribute space timing configuration registers, bank = 1,2,3 */ +#define EXMC_NECC(bank) REG32(EXMC + 0x54U + 0x20U * (bank)) /*!< EXMC NAND ECC registers, bank = 1,2 */ + +/* CRAM page size */ +#define SNCTL_CPS(regval) (BITS(16,18) & ((uint32_t)(regval) << 16)) +#define EXMC_CRAM_AUTO_SPLIT SNCTL_CPS(0) /*!< automatic burst split on page boundary crossing */ +#define EXMC_CRAM_PAGE_SIZE_128_BYTES SNCTL_CPS(1) /*!< page size is 128 bytes */ +#define EXMC_CRAM_PAGE_SIZE_256_BYTES SNCTL_CPS(2) /*!< page size is 256 bytes */ +#define EXMC_CRAM_PAGE_SIZE_512_BYTES SNCTL_CPS(3) /*!< page size is 512 bytes */ +#define EXMC_CRAM_PAGE_SIZE_1024_BYTES SNCTL_CPS(4) /*!< page size is 1024 bytes */ + +/* NOR bank memory data bus width */ +#define SNCTL_NRW(regval) (BITS(4,5) & ((uint32_t)(regval) << 4)) +#define EXMC_NOR_DATABUS_WIDTH_8B SNCTL_NRW(0) /*!< NOR data width is 8 bits */ +#define EXMC_NOR_DATABUS_WIDTH_16B SNCTL_NRW(1) /*!< NOR data width is 16 bits */ + +/* NOR bank memory type */ +#define SNCTL_NRTP(regval) (BITS(2,3) & ((uint32_t)(regval) << 2)) +#define EXMC_MEMORY_TYPE_SRAM SNCTL_NRTP(0) /*!< SRAM,ROM */ +#define EXMC_MEMORY_TYPE_PSRAM SNCTL_NRTP(1) /*!< PSRAM,CRAM */ +#define EXMC_MEMORY_TYPE_NOR SNCTL_NRTP(2) /*!< NOR flash */ + +/* asynchronous access mode */ +#define SNTCFG_ASYNCMOD(regval) (BITS(28,29) & ((uint32_t)(regval) << 28)) +#define EXMC_ACCESS_MODE_A SNTCFG_ASYNCMOD(0) /*!< mode A access */ +#define EXMC_ACCESS_MODE_B SNTCFG_ASYNCMOD(1) /*!< mode B access */ +#define EXMC_ACCESS_MODE_C SNTCFG_ASYNCMOD(2) /*!< mode C access */ +#define EXMC_ACCESS_MODE_D SNTCFG_ASYNCMOD(3) /*!< mode D access */ + +/* data latency for NOR flash */ +#define SNTCFG_DLAT(regval) (BITS(24,27) & ((uint32_t)(regval) << 24)) +#define EXMC_DATALAT_2_CLK SNTCFG_DLAT(0) /*!< data latency of first burst access is 2 EXMC_CLK */ +#define EXMC_DATALAT_3_CLK SNTCFG_DLAT(1) /*!< data latency of first burst access is 3 EXMC_CLK */ +#define EXMC_DATALAT_4_CLK SNTCFG_DLAT(2) /*!< data latency of first burst access is 4 EXMC_CLK */ +#define EXMC_DATALAT_5_CLK SNTCFG_DLAT(3) /*!< data latency of first burst access is 5 EXMC_CLK */ +#define EXMC_DATALAT_6_CLK SNTCFG_DLAT(4) /*!< data latency of first burst access is 6 EXMC_CLK */ +#define EXMC_DATALAT_7_CLK SNTCFG_DLAT(5) /*!< data latency of first burst access is 7 EXMC_CLK */ +#define EXMC_DATALAT_8_CLK SNTCFG_DLAT(6) /*!< data latency of first burst access is 8 EXMC_CLK */ +#define EXMC_DATALAT_9_CLK SNTCFG_DLAT(7) /*!< data latency of first burst access is 9 EXMC_CLK */ +#define EXMC_DATALAT_10_CLK SNTCFG_DLAT(8) /*!< data latency of first burst access is 10 EXMC_CLK */ +#define EXMC_DATALAT_11_CLK SNTCFG_DLAT(9) /*!< data latency of first burst access is 11 EXMC_CLK */ +#define EXMC_DATALAT_12_CLK SNTCFG_DLAT(10) /*!< data latency of first burst access is 12 EXMC_CLK */ +#define EXMC_DATALAT_13_CLK SNTCFG_DLAT(11) /*!< data latency of first burst access is 13 EXMC_CLK */ +#define EXMC_DATALAT_14_CLK SNTCFG_DLAT(12) /*!< data latency of first burst access is 14 EXMC_CLK */ +#define EXMC_DATALAT_15_CLK SNTCFG_DLAT(13) /*!< data latency of first burst access is 15 EXMC_CLK */ +#define EXMC_DATALAT_16_CLK SNTCFG_DLAT(14) /*!< data latency of first burst access is 16 EXMC_CLK */ +#define EXMC_DATALAT_17_CLK SNTCFG_DLAT(15) /*!< data latency of first burst access is 17 EXMC_CLK */ + +/* synchronous clock divide ratio */ +#define SNTCFG_CKDIV(regval) (BITS(20,23) & ((uint32_t)(regval) << 20)) +#define EXMC_SYN_CLOCK_RATIO_DISABLE SNTCFG_CKDIV(0) /*!< EXMC_CLK disable */ +#define EXMC_SYN_CLOCK_RATIO_2_CLK SNTCFG_CKDIV(1) /*!< EXMC_CLK = HCLK/2 */ +#define EXMC_SYN_CLOCK_RATIO_3_CLK SNTCFG_CKDIV(2) /*!< EXMC_CLK = HCLK/3 */ +#define EXMC_SYN_CLOCK_RATIO_4_CLK SNTCFG_CKDIV(3) /*!< EXMC_CLK = HCLK/4 */ +#define EXMC_SYN_CLOCK_RATIO_5_CLK SNTCFG_CKDIV(4) /*!< EXMC_CLK = HCLK/5 */ +#define EXMC_SYN_CLOCK_RATIO_6_CLK SNTCFG_CKDIV(5) /*!< EXMC_CLK = HCLK/6 */ +#define EXMC_SYN_CLOCK_RATIO_7_CLK SNTCFG_CKDIV(6) /*!< EXMC_CLK = HCLK/7 */ +#define EXMC_SYN_CLOCK_RATIO_8_CLK SNTCFG_CKDIV(7) /*!< EXMC_CLK = HCLK/8 */ +#define EXMC_SYN_CLOCK_RATIO_9_CLK SNTCFG_CKDIV(8) /*!< EXMC_CLK = HCLK/9 */ +#define EXMC_SYN_CLOCK_RATIO_10_CLK SNTCFG_CKDIV(9) /*!< EXMC_CLK = HCLK/10 */ +#define EXMC_SYN_CLOCK_RATIO_11_CLK SNTCFG_CKDIV(10) /*!< EXMC_CLK = HCLK/11 */ +#define EXMC_SYN_CLOCK_RATIO_12_CLK SNTCFG_CKDIV(11) /*!< EXMC_CLK = HCLK/12 */ +#define EXMC_SYN_CLOCK_RATIO_13_CLK SNTCFG_CKDIV(12) /*!< EXMC_CLK = HCLK/13 */ +#define EXMC_SYN_CLOCK_RATIO_14_CLK SNTCFG_CKDIV(13) /*!< EXMC_CLK = HCLK/14 */ +#define EXMC_SYN_CLOCK_RATIO_15_CLK SNTCFG_CKDIV(14) /*!< EXMC_CLK = HCLK/15 */ +#define EXMC_SYN_CLOCK_RATIO_16_CLK SNTCFG_CKDIV(15) /*!< EXMC_CLK = HCLK/16 */ + +/* ECC size */ +#define NPCTL_ECCSZ(regval) (BITS(17,19) & ((uint32_t)(regval) << 17)) +#define EXMC_ECC_SIZE_256BYTES NPCTL_ECCSZ(0) /* ECC size is 256 bytes */ +#define EXMC_ECC_SIZE_512BYTES NPCTL_ECCSZ(1) /* ECC size is 512 bytes */ +#define EXMC_ECC_SIZE_1024BYTES NPCTL_ECCSZ(2) /* ECC size is 1024 bytes */ +#define EXMC_ECC_SIZE_2048BYTES NPCTL_ECCSZ(3) /* ECC size is 2048 bytes */ +#define EXMC_ECC_SIZE_4096BYTES NPCTL_ECCSZ(4) /* ECC size is 4096 bytes */ +#define EXMC_ECC_SIZE_8192BYTES NPCTL_ECCSZ(5) /* ECC size is 8192 bytes */ + +/* ALE to RE delay */ +#define NPCTL_ATR(regval) (BITS(13,16) & ((uint32_t)(regval) << 13)) +#define EXMC_ALE_RE_DELAY_1_HCLK NPCTL_ATR(0) /* ALE to RE delay = 1*HCLK */ +#define EXMC_ALE_RE_DELAY_2_HCLK NPCTL_ATR(1) /* ALE to RE delay = 2*HCLK */ +#define EXMC_ALE_RE_DELAY_3_HCLK NPCTL_ATR(2) /* ALE to RE delay = 3*HCLK */ +#define EXMC_ALE_RE_DELAY_4_HCLK NPCTL_ATR(3) /* ALE to RE delay = 4*HCLK */ +#define EXMC_ALE_RE_DELAY_5_HCLK NPCTL_ATR(4) /* ALE to RE delay = 5*HCLK */ +#define EXMC_ALE_RE_DELAY_6_HCLK NPCTL_ATR(5) /* ALE to RE delay = 6*HCLK */ +#define EXMC_ALE_RE_DELAY_7_HCLK NPCTL_ATR(6) /* ALE to RE delay = 7*HCLK */ +#define EXMC_ALE_RE_DELAY_8_HCLK NPCTL_ATR(7) /* ALE to RE delay = 8*HCLK */ +#define EXMC_ALE_RE_DELAY_9_HCLK NPCTL_ATR(8) /* ALE to RE delay = 9*HCLK */ +#define EXMC_ALE_RE_DELAY_10_HCLK NPCTL_ATR(9) /* ALE to RE delay = 10*HCLK */ +#define EXMC_ALE_RE_DELAY_11_HCLK NPCTL_ATR(10) /* ALE to RE delay = 11*HCLK */ +#define EXMC_ALE_RE_DELAY_12_HCLK NPCTL_ATR(11) /* ALE to RE delay = 12*HCLK */ +#define EXMC_ALE_RE_DELAY_13_HCLK NPCTL_ATR(12) /* ALE to RE delay = 13*HCLK */ +#define EXMC_ALE_RE_DELAY_14_HCLK NPCTL_ATR(13) /* ALE to RE delay = 14*HCLK */ +#define EXMC_ALE_RE_DELAY_15_HCLK NPCTL_ATR(14) /* ALE to RE delay = 15*HCLK */ +#define EXMC_ALE_RE_DELAY_16_HCLK NPCTL_ATR(15) /* ALE to RE delay = 16*HCLK */ + +/* CLE to RE delay */ +#define NPCTL_CTR(regval) (BITS(9,12) & ((uint32_t)(regval) << 9)) +#define EXMC_CLE_RE_DELAY_1_HCLK NPCTL_CTR(0) /* CLE to RE delay = 1*HCLK */ +#define EXMC_CLE_RE_DELAY_2_HCLK NPCTL_CTR(1) /* CLE to RE delay = 2*HCLK */ +#define EXMC_CLE_RE_DELAY_3_HCLK NPCTL_CTR(2) /* CLE to RE delay = 3*HCLK */ +#define EXMC_CLE_RE_DELAY_4_HCLK NPCTL_CTR(3) /* CLE to RE delay = 4*HCLK */ +#define EXMC_CLE_RE_DELAY_5_HCLK NPCTL_CTR(4) /* CLE to RE delay = 5*HCLK */ +#define EXMC_CLE_RE_DELAY_6_HCLK NPCTL_CTR(5) /* CLE to RE delay = 6*HCLK */ +#define EXMC_CLE_RE_DELAY_7_HCLK NPCTL_CTR(6) /* CLE to RE delay = 7*HCLK */ +#define EXMC_CLE_RE_DELAY_8_HCLK NPCTL_CTR(7) /* CLE to RE delay = 8*HCLK */ +#define EXMC_CLE_RE_DELAY_9_HCLK NPCTL_CTR(8) /* CLE to RE delay = 9*HCLK */ +#define EXMC_CLE_RE_DELAY_10_HCLK NPCTL_CTR(9) /* CLE to RE delay = 10*HCLK */ +#define EXMC_CLE_RE_DELAY_11_HCLK NPCTL_CTR(10) /* CLE to RE delay = 11*HCLK */ +#define EXMC_CLE_RE_DELAY_12_HCLK NPCTL_CTR(11) /* CLE to RE delay = 12*HCLK */ +#define EXMC_CLE_RE_DELAY_13_HCLK NPCTL_CTR(12) /* CLE to RE delay = 13*HCLK */ +#define EXMC_CLE_RE_DELAY_14_HCLK NPCTL_CTR(13) /* CLE to RE delay = 14*HCLK */ +#define EXMC_CLE_RE_DELAY_15_HCLK NPCTL_CTR(14) /* CLE to RE delay = 15*HCLK */ +#define EXMC_CLE_RE_DELAY_16_HCLK NPCTL_CTR(15) /* CLE to RE delay = 16*HCLK */ + +/* NAND bank memory data bus width */ +#define NPCTL_NDW(regval) (BITS(4,5) & ((uint32_t)(regval) << 4)) +#define EXMC_NAND_DATABUS_WIDTH_8B NPCTL_NDW(0) /*!< NAND data width is 8 bits */ +#define EXMC_NAND_DATABUS_WIDTH_16B NPCTL_NDW(1) /*!< NAND data width is 16 bits */ + +/* EXMC NOR/SRAM bank region definition */ +#define EXMC_BANK0_NORSRAM_REGION0 ((uint32_t)0x00000000U) /*!< bank0 NOR/SRAM region0 */ +#define EXMC_BANK0_NORSRAM_REGION1 ((uint32_t)0x00000001U) /*!< bank0 NOR/SRAM region1 */ +#define EXMC_BANK0_NORSRAM_REGION2 ((uint32_t)0x00000002U) /*!< bank0 NOR/SRAM region2 */ +#define EXMC_BANK0_NORSRAM_REGION3 ((uint32_t)0x00000003U) /*!< bank0 NOR/SRAM region3 */ + +/* EXMC NOR/SRAM write mode */ +#define EXMC_ASYN_WRITE ((uint32_t)0x00000000U) /*!< asynchronous write mode */ +#define EXMC_SYN_WRITE EXMC_SNCTL_SYNCWR /*!< synchronous write mode */ + +/* EXMC NWAIT signal configuration */ +#define EXMC_NWAIT_CONFIG_BEFORE ((uint32_t)0x00000000U) /*!< NWAIT signal is active one data cycle before wait state */ +#define EXMC_NWAIT_CONFIG_DURING EXMC_SNCTL_NRWTCFG /*!< NWAIT signal is active during wait state */ + +/* EXMC NWAIT signal polarity configuration */ +#define EXMC_NWAIT_POLARITY_LOW ((uint32_t)0x00000000U) /*!< low level is active of NWAIT */ +#define EXMC_NWAIT_POLARITY_HIGH EXMC_SNCTL_NRWTPOL /*!< high level is active of NWAIT */ + +/* EXMC NAND/PC card bank definition */ +#define EXMC_BANK1_NAND ((uint32_t)0x00000001U) /*!< bank1 NAND flash */ +#define EXMC_BANK2_NAND ((uint32_t)0x00000002U) /*!< bank2 NAND flash */ +#define EXMC_BANK3_PCCARD ((uint32_t)0x00000003U) /*!< bank3 PC card */ + +/* EXMC flag bits */ +#define EXMC_NAND_PCCARD_FLAG_RISE EXMC_NPINTEN_INTRS /*!< interrupt rising edge status */ +#define EXMC_NAND_PCCARD_FLAG_LEVEL EXMC_NPINTEN_INTHS /*!< interrupt high-level status */ +#define EXMC_NAND_PCCARD_FLAG_FALL EXMC_NPINTEN_INTFS /*!< interrupt falling edge status */ +#define EXMC_NAND_PCCARD_FLAG_FIFOE EXMC_NPINTEN_FFEPT /*!< FIFO empty flag */ + +/* EXMC interrupt flag bits */ +#define EXMC_NAND_PCCARD_INT_FLAG_RISE EXMC_NPINTEN_INTREN /*!< rising edge interrupt and flag */ +#define EXMC_NAND_PCCARD_INT_FLAG_LEVEL EXMC_NPINTEN_INTHEN /*!< high-level interrupt and flag */ +#define EXMC_NAND_PCCARD_INT_FLAG_FALL EXMC_NPINTEN_INTFEN /*!< falling edge interrupt and flag */ + +/* function declarations */ +/* initialization functions */ +/* NOR/SRAM */ +/* deinitialize EXMC NOR/SRAM region */ +void exmc_norsram_deinit(uint32_t exmc_norsram_region); +/* initialize exmc_norsram_parameter_struct with the default values */ +void exmc_norsram_struct_para_init(exmc_norsram_parameter_struct* exmc_norsram_init_struct); +/* initialize EXMC NOR/SRAM region */ +void exmc_norsram_init(exmc_norsram_parameter_struct* exmc_norsram_init_struct); +/* enable EXMC NOR/SRAM region */ +void exmc_norsram_enable(uint32_t exmc_norsram_region); +/* disable EXMC NOR/SRAM region */ +void exmc_norsram_disable(uint32_t exmc_norsram_region); +/* NAND */ +/* deinitialize EXMC NAND bank */ +void exmc_nand_deinit(uint32_t exmc_nand_bank); +/* initialize exmc_norsram_parameter_struct with the default values */ +void exmc_nand_struct_para_init(exmc_nand_parameter_struct* exmc_nand_init_struct); +/* initialize EXMC NAND bank */ +void exmc_nand_init(exmc_nand_parameter_struct* exmc_nand_init_struct); +/* enable EXMC NAND bank */ +void exmc_nand_enable(uint32_t exmc_nand_bank); +/* disable EXMC NAND bank */ +void exmc_nand_disable(uint32_t exmc_nand_bank); +/* PC card */ +/* deinitialize EXMC PC card bank */ +void exmc_pccard_deinit(void); +/* initialize exmc_pccard_parameter_struct parameter with the default values */ +void exmc_pccard_struct_para_init(exmc_pccard_parameter_struct* exmc_pccard_init_struct); +/* initialize EXMC PC card bank */ +void exmc_pccard_init(exmc_pccard_parameter_struct* exmc_pccard_init_struct); +/* enable EXMC PC card bank */ +void exmc_pccard_enable(void); +/* disable EXMC PC card bank */ +void exmc_pccard_disable(void); + +/* function configuration */ +/* NOR/SRAM */ +/* configure CRAM page size */ +void exmc_norsram_page_size_config(uint32_t exmc_norsram_region, uint32_t page_size); +/* NAND */ +/* enable or disable the EXMC NAND ECC function */ +void exmc_nand_ecc_config(uint32_t exmc_nand_bank, ControlStatus newvalue); +/* get the EXMC ECC value */ +uint32_t exmc_ecc_get(uint32_t exmc_nand_bank); + +/* interrupt & flag functions */ +/* enable EXMC interrupt */ +void exmc_interrupt_enable(uint32_t exmc_bank,uint32_t interrupt); +/* disable EXMC interrupt */ +void exmc_interrupt_disable(uint32_t exmc_bank,uint32_t interrupt); +/* get EXMC flag status */ +FlagStatus exmc_flag_get(uint32_t exmc_bank,uint32_t flag); +/* clear EXMC flag status */ +void exmc_flag_clear(uint32_t exmc_bank,uint32_t flag); +/* get EXMC interrupt flag */ +FlagStatus exmc_interrupt_flag_get(uint32_t exmc_bank,uint32_t interrupt); +/* clear EXMC interrupt flag */ +void exmc_interrupt_flag_clear(uint32_t exmc_bank,uint32_t interrupt); + +#endif /* GD32F30X_EXMC_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_exti.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_exti.h new file mode 100644 index 0000000000..9ce7be88ce --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_exti.h @@ -0,0 +1,255 @@ +/*! + \file gd32f30x_exti.h + \brief definitions for the EXTI + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_EXTI_H +#define GD32F30X_EXTI_H + +#include "gd32f30x.h" + +/* EXTI definitions */ +#define EXTI EXTI_BASE + +/* registers definitions */ +#define EXTI_INTEN REG32(EXTI + 0x00U) /*!< interrupt enable register */ +#define EXTI_EVEN REG32(EXTI + 0x04U) /*!< event enable register */ +#define EXTI_RTEN REG32(EXTI + 0x08U) /*!< rising edge trigger enable register */ +#define EXTI_FTEN REG32(EXTI + 0x0CU) /*!< falling trigger enable register */ +#define EXTI_SWIEV REG32(EXTI + 0x10U) /*!< software interrupt event register */ +#define EXTI_PD REG32(EXTI + 0x14U) /*!< pending register */ + +/* bits definitions */ +/* EXTI_INTEN */ +#define EXTI_INTEN_INTEN0 BIT(0) /*!< interrupt from line 0 */ +#define EXTI_INTEN_INTEN1 BIT(1) /*!< interrupt from line 1 */ +#define EXTI_INTEN_INTEN2 BIT(2) /*!< interrupt from line 2 */ +#define EXTI_INTEN_INTEN3 BIT(3) /*!< interrupt from line 3 */ +#define EXTI_INTEN_INTEN4 BIT(4) /*!< interrupt from line 4 */ +#define EXTI_INTEN_INTEN5 BIT(5) /*!< interrupt from line 5 */ +#define EXTI_INTEN_INTEN6 BIT(6) /*!< interrupt from line 6 */ +#define EXTI_INTEN_INTEN7 BIT(7) /*!< interrupt from line 7 */ +#define EXTI_INTEN_INTEN8 BIT(8) /*!< interrupt from line 8 */ +#define EXTI_INTEN_INTEN9 BIT(9) /*!< interrupt from line 9 */ +#define EXTI_INTEN_INTEN10 BIT(10) /*!< interrupt from line 10 */ +#define EXTI_INTEN_INTEN11 BIT(11) /*!< interrupt from line 11 */ +#define EXTI_INTEN_INTEN12 BIT(12) /*!< interrupt from line 12 */ +#define EXTI_INTEN_INTEN13 BIT(13) /*!< interrupt from line 13 */ +#define EXTI_INTEN_INTEN14 BIT(14) /*!< interrupt from line 14 */ +#define EXTI_INTEN_INTEN15 BIT(15) /*!< interrupt from line 15 */ +#define EXTI_INTEN_INTEN16 BIT(16) /*!< interrupt from line 16 */ +#define EXTI_INTEN_INTEN17 BIT(17) /*!< interrupt from line 17 */ +#define EXTI_INTEN_INTEN18 BIT(18) /*!< interrupt from line 18 */ +#define EXTI_INTEN_INTEN19 BIT(19) /*!< interrupt from line 19 */ + +/* EXTI_EVEN */ +#define EXTI_EVEN_EVEN0 BIT(0) /*!< event from line 0 */ +#define EXTI_EVEN_EVEN1 BIT(1) /*!< event from line 1 */ +#define EXTI_EVEN_EVEN2 BIT(2) /*!< event from line 2 */ +#define EXTI_EVEN_EVEN3 BIT(3) /*!< event from line 3 */ +#define EXTI_EVEN_EVEN4 BIT(4) /*!< event from line 4 */ +#define EXTI_EVEN_EVEN5 BIT(5) /*!< event from line 5 */ +#define EXTI_EVEN_EVEN6 BIT(6) /*!< event from line 6 */ +#define EXTI_EVEN_EVEN7 BIT(7) /*!< event from line 7 */ +#define EXTI_EVEN_EVEN8 BIT(8) /*!< event from line 8 */ +#define EXTI_EVEN_EVEN9 BIT(9) /*!< event from line 9 */ +#define EXTI_EVEN_EVEN10 BIT(10) /*!< event from line 10 */ +#define EXTI_EVEN_EVEN11 BIT(11) /*!< event from line 11 */ +#define EXTI_EVEN_EVEN12 BIT(12) /*!< event from line 12 */ +#define EXTI_EVEN_EVEN13 BIT(13) /*!< event from line 13 */ +#define EXTI_EVEN_EVEN14 BIT(14) /*!< event from line 14 */ +#define EXTI_EVEN_EVEN15 BIT(15) /*!< event from line 15 */ +#define EXTI_EVEN_EVEN16 BIT(16) /*!< event from line 16 */ +#define EXTI_EVEN_EVEN17 BIT(17) /*!< event from line 17 */ +#define EXTI_EVEN_EVEN18 BIT(18) /*!< event from line 18 */ +#define EXTI_EVEN_EVEN19 BIT(19) /*!< event from line 19 */ + +/* EXTI_RTEN */ +#define EXTI_RTEN_RTEN0 BIT(0) /*!< rising edge from line 0 */ +#define EXTI_RTEN_RTEN1 BIT(1) /*!< rising edge from line 1 */ +#define EXTI_RTEN_RTEN2 BIT(2) /*!< rising edge from line 2 */ +#define EXTI_RTEN_RTEN3 BIT(3) /*!< rising edge from line 3 */ +#define EXTI_RTEN_RTEN4 BIT(4) /*!< rising edge from line 4 */ +#define EXTI_RTEN_RTEN5 BIT(5) /*!< rising edge from line 5 */ +#define EXTI_RTEN_RTEN6 BIT(6) /*!< rising edge from line 6 */ +#define EXTI_RTEN_RTEN7 BIT(7) /*!< rising edge from line 7 */ +#define EXTI_RTEN_RTEN8 BIT(8) /*!< rising edge from line 8 */ +#define EXTI_RTEN_RTEN9 BIT(9) /*!< rising edge from line 9 */ +#define EXTI_RTEN_RTEN10 BIT(10) /*!< rising edge from line 10 */ +#define EXTI_RTEN_RTEN11 BIT(11) /*!< rising edge from line 11 */ +#define EXTI_RTEN_RTEN12 BIT(12) /*!< rising edge from line 12 */ +#define EXTI_RTEN_RTEN13 BIT(13) /*!< rising edge from line 13 */ +#define EXTI_RTEN_RTEN14 BIT(14) /*!< rising edge from line 14 */ +#define EXTI_RTEN_RTEN15 BIT(15) /*!< rising edge from line 15 */ +#define EXTI_RTEN_RTEN16 BIT(16) /*!< rising edge from line 16 */ +#define EXTI_RTEN_RTEN17 BIT(17) /*!< rising edge from line 17 */ +#define EXTI_RTEN_RTEN18 BIT(18) /*!< rising edge from line 18 */ +#define EXTI_RTEN_RTEN19 BIT(19) /*!< rising edge from line 19 */ + +/* EXTI_FTEN */ +#define EXTI_FTEN_FTEN0 BIT(0) /*!< falling edge from line 0 */ +#define EXTI_FTEN_FTEN1 BIT(1) /*!< falling edge from line 1 */ +#define EXTI_FTEN_FTEN2 BIT(2) /*!< falling edge from line 2 */ +#define EXTI_FTEN_FTEN3 BIT(3) /*!< falling edge from line 3 */ +#define EXTI_FTEN_FTEN4 BIT(4) /*!< falling edge from line 4 */ +#define EXTI_FTEN_FTEN5 BIT(5) /*!< falling edge from line 5 */ +#define EXTI_FTEN_FTEN6 BIT(6) /*!< falling edge from line 6 */ +#define EXTI_FTEN_FTEN7 BIT(7) /*!< falling edge from line 7 */ +#define EXTI_FTEN_FTEN8 BIT(8) /*!< falling edge from line 8 */ +#define EXTI_FTEN_FTEN9 BIT(9) /*!< falling edge from line 9 */ +#define EXTI_FTEN_FTEN10 BIT(10) /*!< falling edge from line 10 */ +#define EXTI_FTEN_FTEN11 BIT(11) /*!< falling edge from line 11 */ +#define EXTI_FTEN_FTEN12 BIT(12) /*!< falling edge from line 12 */ +#define EXTI_FTEN_FTEN13 BIT(13) /*!< falling edge from line 13 */ +#define EXTI_FTEN_FTEN14 BIT(14) /*!< falling edge from line 14 */ +#define EXTI_FTEN_FTEN15 BIT(15) /*!< falling edge from line 15 */ +#define EXTI_FTEN_FTEN16 BIT(16) /*!< falling edge from line 16 */ +#define EXTI_FTEN_FTEN17 BIT(17) /*!< falling edge from line 17 */ +#define EXTI_FTEN_FTEN18 BIT(18) /*!< falling edge from line 18 */ +#define EXTI_FTEN_FTEN19 BIT(19) /*!< falling edge from line 19 */ + +/* EXTI_SWIEV */ +#define EXTI_SWIEV_SWIEV0 BIT(0) /*!< software interrupt/event request from line 0 */ +#define EXTI_SWIEV_SWIEV1 BIT(1) /*!< software interrupt/event request from line 1 */ +#define EXTI_SWIEV_SWIEV2 BIT(2) /*!< software interrupt/event request from line 2 */ +#define EXTI_SWIEV_SWIEV3 BIT(3) /*!< software interrupt/event request from line 3 */ +#define EXTI_SWIEV_SWIEV4 BIT(4) /*!< software interrupt/event request from line 4 */ +#define EXTI_SWIEV_SWIEV5 BIT(5) /*!< software interrupt/event request from line 5 */ +#define EXTI_SWIEV_SWIEV6 BIT(6) /*!< software interrupt/event request from line 6 */ +#define EXTI_SWIEV_SWIEV7 BIT(7) /*!< software interrupt/event request from line 7 */ +#define EXTI_SWIEV_SWIEV8 BIT(8) /*!< software interrupt/event request from line 8 */ +#define EXTI_SWIEV_SWIEV9 BIT(9) /*!< software interrupt/event request from line 9 */ +#define EXTI_SWIEV_SWIEV10 BIT(10) /*!< software interrupt/event request from line 10 */ +#define EXTI_SWIEV_SWIEV11 BIT(11) /*!< software interrupt/event request from line 11 */ +#define EXTI_SWIEV_SWIEV12 BIT(12) /*!< software interrupt/event request from line 12 */ +#define EXTI_SWIEV_SWIEV13 BIT(13) /*!< software interrupt/event request from line 13 */ +#define EXTI_SWIEV_SWIEV14 BIT(14) /*!< software interrupt/event request from line 14 */ +#define EXTI_SWIEV_SWIEV15 BIT(15) /*!< software interrupt/event request from line 15 */ +#define EXTI_SWIEV_SWIEV16 BIT(16) /*!< software interrupt/event request from line 16 */ +#define EXTI_SWIEV_SWIEV17 BIT(17) /*!< software interrupt/event request from line 17 */ +#define EXTI_SWIEV_SWIEV18 BIT(18) /*!< software interrupt/event request from line 18 */ +#define EXTI_SWIEV_SWIEV19 BIT(19) /*!< software interrupt/event request from line 19 */ + +/* EXTI_PD */ +#define EXTI_PD_PD0 BIT(0) /*!< interrupt/event pending status from line 0 */ +#define EXTI_PD_PD1 BIT(1) /*!< interrupt/event pending status from line 1 */ +#define EXTI_PD_PD2 BIT(2) /*!< interrupt/event pending status from line 2 */ +#define EXTI_PD_PD3 BIT(3) /*!< interrupt/event pending status from line 3 */ +#define EXTI_PD_PD4 BIT(4) /*!< interrupt/event pending status from line 4 */ +#define EXTI_PD_PD5 BIT(5) /*!< interrupt/event pending status from line 5 */ +#define EXTI_PD_PD6 BIT(6) /*!< interrupt/event pending status from line 6 */ +#define EXTI_PD_PD7 BIT(7) /*!< interrupt/event pending status from line 7 */ +#define EXTI_PD_PD8 BIT(8) /*!< interrupt/event pending status from line 8 */ +#define EXTI_PD_PD9 BIT(9) /*!< interrupt/event pending status from line 9 */ +#define EXTI_PD_PD10 BIT(10) /*!< interrupt/event pending status from line 10 */ +#define EXTI_PD_PD11 BIT(11) /*!< interrupt/event pending status from line 11 */ +#define EXTI_PD_PD12 BIT(12) /*!< interrupt/event pending status from line 12 */ +#define EXTI_PD_PD13 BIT(13) /*!< interrupt/event pending status from line 13 */ +#define EXTI_PD_PD14 BIT(14) /*!< interrupt/event pending status from line 14 */ +#define EXTI_PD_PD15 BIT(15) /*!< interrupt/event pending status from line 15 */ +#define EXTI_PD_PD16 BIT(16) /*!< interrupt/event pending status from line 16 */ +#define EXTI_PD_PD17 BIT(17) /*!< interrupt/event pending status from line 17 */ +#define EXTI_PD_PD18 BIT(18) /*!< interrupt/event pending status from line 18 */ +#define EXTI_PD_PD19 BIT(19) /*!< interrupt/event pending status from line 19 */ + +/* constants definitions */ +/* EXTI line number */ +typedef enum +{ + EXTI_0 = BIT(0), /*!< EXTI line 0 */ + EXTI_1 = BIT(1), /*!< EXTI line 1 */ + EXTI_2 = BIT(2), /*!< EXTI line 2 */ + EXTI_3 = BIT(3), /*!< EXTI line 3 */ + EXTI_4 = BIT(4), /*!< EXTI line 4 */ + EXTI_5 = BIT(5), /*!< EXTI line 5 */ + EXTI_6 = BIT(6), /*!< EXTI line 6 */ + EXTI_7 = BIT(7), /*!< EXTI line 7 */ + EXTI_8 = BIT(8), /*!< EXTI line 8 */ + EXTI_9 = BIT(9), /*!< EXTI line 9 */ + EXTI_10 = BIT(10), /*!< EXTI line 10 */ + EXTI_11 = BIT(11), /*!< EXTI line 11 */ + EXTI_12 = BIT(12), /*!< EXTI line 12 */ + EXTI_13 = BIT(13), /*!< EXTI line 13 */ + EXTI_14 = BIT(14), /*!< EXTI line 14 */ + EXTI_15 = BIT(15), /*!< EXTI line 15 */ + EXTI_16 = BIT(16), /*!< EXTI line 16 */ + EXTI_17 = BIT(17), /*!< EXTI line 17 */ + EXTI_18 = BIT(18), /*!< EXTI line 18 */ + EXTI_19 = BIT(19), /*!< EXTI line 19 */ +}exti_line_enum; + +/* external interrupt and event */ +typedef enum +{ + EXTI_INTERRUPT = 0, /*!< EXTI interrupt mode */ + EXTI_EVENT /*!< EXTI event mode */ +}exti_mode_enum; + +/* interrupt trigger mode */ +typedef enum +{ + EXTI_TRIG_RISING = 0, /*!< EXTI rising edge trigger */ + EXTI_TRIG_FALLING, /*!< EXTI falling edge trigger */ + EXTI_TRIG_BOTH /*!< EXTI rising and falling edge trigger */ +}exti_trig_type_enum; + +/* function declarations */ +/* deinitialize the EXTI */ +void exti_deinit(void); +/* enable the configuration of EXTI initialize */ +void exti_init(exti_line_enum linex, exti_mode_enum mode, exti_trig_type_enum trig_type); +/* enable the interrupts from EXTI line x */ +void exti_interrupt_enable(exti_line_enum linex); +/* enable the events from EXTI line x */ +void exti_event_enable(exti_line_enum linex); +/* disable the interrupts from EXTI line x */ +void exti_interrupt_disable(exti_line_enum linex); +/* disable the events from EXTI line x */ +void exti_event_disable(exti_line_enum linex); + +/* get EXTI lines pending flag */ +FlagStatus exti_flag_get(exti_line_enum linex); +/* clear EXTI lines pending flag */ +void exti_flag_clear(exti_line_enum linex); +/* get EXTI lines flag when the interrupt flag is set */ +FlagStatus exti_interrupt_flag_get(exti_line_enum linex); +/* clear EXTI lines pending flag */ +void exti_interrupt_flag_clear(exti_line_enum linex); +/* enable the EXTI software interrupt event */ +void exti_software_interrupt_enable(exti_line_enum linex); +/* disable the EXTI software interrupt event */ +void exti_software_interrupt_disable(exti_line_enum linex); + +#endif /* GD32F30X_EXTI_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_fmc.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_fmc.h new file mode 100644 index 0000000000..ec728d8ee4 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_fmc.h @@ -0,0 +1,375 @@ +/*! + \file gd32f30x_fmc.h + \brief definitions for the FMC + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + + +#ifndef GD32F30X_FMC_H +#define GD32F30X_FMC_H + +#include "gd32f30x.h" + +/* FMC and option byte definition */ +#define FMC FMC_BASE /*!< FMC register base address */ +#define OB OB_BASE /*!< option bytes base address */ + +/* registers definitions */ +#define FMC_WS REG32((FMC) + 0x00U) /*!< FMC wait state register */ +#define FMC_KEY0 REG32((FMC) + 0x04U) /*!< FMC unlock key register 0 */ +#define FMC_OBKEY REG32((FMC) + 0x08U) /*!< FMC option bytes unlock key register */ +#define FMC_STAT0 REG32((FMC) + 0x0CU) /*!< FMC status register 0 */ +#define FMC_CTL0 REG32((FMC) + 0x10U) /*!< FMC control register 0 */ +#define FMC_ADDR0 REG32((FMC) + 0x14U) /*!< FMC address register 0 */ +#define FMC_OBSTAT REG32((FMC) + 0x1CU) /*!< FMC option bytes status register */ +#define FMC_WP REG32((FMC) + 0x20U) /*!< FMC erase/program protection register */ +#define FMC_KEY1 REG32((FMC) + 0x44U) /*!< FMC unlock key register 1 */ +#define FMC_STAT1 REG32((FMC) + 0x4CU) /*!< FMC status register 1 */ +#define FMC_CTL1 REG32((FMC) + 0x50U) /*!< FMC control register 1 */ +#define FMC_ADDR1 REG32((FMC) + 0x54U) /*!< FMC address register 1 */ +#define FMC_WSEN REG32((FMC) + 0xFCU) /*!< FMC wait state enable register */ +#define FMC_PID REG32((FMC) + 0x100U) /*!< FMC product ID register */ + +#define OB_SPC REG16((OB) + 0x00U) /*!< option byte security protection value */ +#define OB_USER REG16((OB) + 0x02U) /*!< option byte user value*/ +#define OB_DATA1 REG16((OB) + 0x04U) /*!< option byte data1 value*/ +#define OB_DATA2 REG16((OB) + 0x06U) /*!< option byte data2 value*/ +#define OB_WP0 REG16((OB) + 0x08U) /*!< option byte write protection 0 */ +#define OB_WP1 REG16((OB) + 0x0AU) /*!< option byte write protection 1 */ +#define OB_WP2 REG16((OB) + 0x0CU) /*!< option byte write protection 2 */ +#define OB_WP3 REG16((OB) + 0x0EU) /*!< option byte write protection 3 */ + +/* bits definitions */ +/* FMC_WS */ +#define FMC_WS_WSCNT BITS(0,2) /*!< wait state counter */ + +/* FMC_KEY0 */ +#define FMC_KEY0_KEY BITS(0,31) /*!< FMC_CTL0 unlock key bits */ + +/* FMC_OBKEY */ +#define FMC_OBKEY_OBKEY BITS(0,31) /*!< option bytes unlock key bits */ + +/* FMC_STAT0 */ +#define FMC_STAT0_BUSY BIT(0) /*!< flash busy flag bit */ +#define FMC_STAT0_PGERR BIT(2) /*!< flash program error flag bit */ +#define FMC_STAT0_WPERR BIT(4) /*!< erase/program protection error flag bit */ +#define FMC_STAT0_ENDF BIT(5) /*!< end of operation flag bit */ + +/* FMC_CTL0 */ +#define FMC_CTL0_PG BIT(0) /*!< main flash program for bank0 command bit */ +#define FMC_CTL0_PER BIT(1) /*!< main flash page erase for bank0 command bit */ +#define FMC_CTL0_MER BIT(2) /*!< main flash mass erase for bank0 command bit */ +#define FMC_CTL0_OBPG BIT(4) /*!< option bytes program command bit */ +#define FMC_CTL0_OBER BIT(5) /*!< option bytes erase command bit */ +#define FMC_CTL0_START BIT(6) /*!< send erase command to FMC bit */ +#define FMC_CTL0_LK BIT(7) /*!< FMC_CTL0 lock bit */ +#define FMC_CTL0_OBWEN BIT(9) /*!< option bytes erase/program enable bit */ +#define FMC_CTL0_ERRIE BIT(10) /*!< error interrupt enable bit */ +#define FMC_CTL0_ENDIE BIT(12) /*!< end of operation interrupt enable bit */ + +/* FMC_ADDR0 */ +#define FMC_ADDR0_ADDR BITS(0,31) /*!< Flash erase/program command address bits */ + +/* FMC_OBSTAT */ +#define FMC_OBSTAT_OBERR BIT(0) /*!< option bytes read error bit. */ +#define FMC_OBSTAT_SPC BIT(1) /*!< option bytes security protection code */ +#define FMC_OBSTAT_USER BITS(2,9) /*!< store USER of option bytes block after system reset */ +#define FMC_OBSTAT_DATA BITS(10,25) /*!< store DATA of option bytes block after system reset. */ + +/* FMC_WP */ +#define FMC_WP_WP BITS(0,31) /*!< store WP of option bytes block after system reset */ + +/* FMC_KEY1 */ +#define FMC_KEY1_KEY BITS(0,31) /*!< FMC_CTL1 unlock key bits */ + +/* FMC_STAT1 */ +#define FMC_STAT1_BUSY BIT(0) /*!< flash busy flag bit */ +#define FMC_STAT1_PGERR BIT(2) /*!< flash program error flag bit */ +#define FMC_STAT1_WPERR BIT(4) /*!< erase/program protection error flag bit */ +#define FMC_STAT1_ENDF BIT(5) /*!< end of operation flag bit */ + +/* FMC_CTL1 */ +#define FMC_CTL1_PG BIT(0) /*!< main flash program for bank1 command bit */ +#define FMC_CTL1_PER BIT(1) /*!< main flash page erase for bank1 command bit */ +#define FMC_CTL1_MER BIT(2) /*!< main flash mass erase for bank1 command bit */ +#define FMC_CTL1_START BIT(6) /*!< send erase command to FMC bit */ +#define FMC_CTL1_LK BIT(7) /*!< FMC_CTL1 lock bit */ +#define FMC_CTL1_ERRIE BIT(10) /*!< error interrupt enable bit */ +#define FMC_CTL1_ENDIE BIT(12) /*!< end of operation interrupt enable bit */ + +/* FMC_ADDR1 */ +#define FMC_ADDR1_ADDR BITS(0,31) /*!< Flash erase/program command address bits */ + +/* FMC_WSEN */ +#define FMC_WSEN_WSEN BIT(0) /*!< FMC wait state enable bit */ +#define FMC_WSEN_BPEN BIT(1) /*!< FMC bit program enable bit */ + +/* FMC_PID */ +#define FMC_PID_PID BITS(0,31) /*!< product ID bits */ + +/* constants definitions */ +/* define the FMC bit position and its register index offset */ +#define FMC_REGIDX_BIT(regidx, bitpos) (((uint32_t)(regidx) << 6) | (uint32_t)(bitpos)) +#define FMC_REG_VAL(offset) (REG32(FMC + ((uint32_t)(offset) >> 6))) +#define FMC_BIT_POS(val) ((uint32_t)(val) & 0x1FU) +#define FMC_REGIDX_BITS(regidx, bitpos0, bitpos1) (((uint32_t)(regidx) << 12) | ((uint32_t)(bitpos0) << 6) | (uint32_t)(bitpos1)) +#define FMC_REG_VALS(offset) (REG32(FMC + ((uint32_t)(offset) >> 12))) +#define FMC_BIT_POS0(val) (((uint32_t)(val) >> 6) & 0x1FU) +#define FMC_BIT_POS1(val) ((uint32_t)(val) & 0x1FU) +#define FMC_REG_OFFSET_GET(flag) ((uint32_t)(flag) >> 12) + +/* configuration register */ +#define FMC_STAT0_REG_OFFSET 0x0CU /*!< status register 0 offset */ +#define FMC_CTL0_REG_OFFSET 0x10U /*!< control register 0 offset */ +#define FMC_STAT1_REG_OFFSET 0x4CU /*!< status register 1 offset */ +#define FMC_CTL1_REG_OFFSET 0x50U /*!< control register 1 offset */ +#define FMC_OBSTAT_REG_OFFSET 0x1CU /*!< option byte status register offset */ + +/* fmc state */ +typedef enum +{ + FMC_READY, /*!< the operation has been completed */ + FMC_BUSY, /*!< the operation is in progress */ + FMC_PGERR, /*!< program error */ + FMC_WPERR, /*!< erase/program protection error */ + FMC_TOERR, /*!< timeout error */ +}fmc_state_enum; + +/* FMC interrupt enable */ +typedef enum +{ + FMC_INT_BANK0_END = FMC_REGIDX_BIT(FMC_CTL0_REG_OFFSET, 12U), /*!< enable FMC end of program interrupt */ + FMC_INT_BANK0_ERR = FMC_REGIDX_BIT(FMC_CTL0_REG_OFFSET, 10U), /*!< enable FMC error interrupt */ + FMC_INT_BANK1_END = FMC_REGIDX_BIT(FMC_CTL1_REG_OFFSET, 12U), /*!< enable FMC bank1 end of program interrupt */ + FMC_INT_BANK1_ERR = FMC_REGIDX_BIT(FMC_CTL1_REG_OFFSET, 10U), /*!< enable FMC bank1 error interrupt */ +}fmc_int_enum; + +/* FMC flags */ +typedef enum +{ + FMC_FLAG_BANK0_BUSY = FMC_REGIDX_BIT(FMC_STAT0_REG_OFFSET, 0U), /*!< FMC bank0 busy flag */ + FMC_FLAG_BANK0_PGERR = FMC_REGIDX_BIT(FMC_STAT0_REG_OFFSET, 2U), /*!< FMC bank0 operation error flag bit */ + FMC_FLAG_BANK0_WPERR = FMC_REGIDX_BIT(FMC_STAT0_REG_OFFSET, 4U), /*!< FMC bank0 erase/program protection error flag bit */ + FMC_FLAG_BANK0_END = FMC_REGIDX_BIT(FMC_STAT0_REG_OFFSET, 5U), /*!< FMC bank0 end of operation flag bit */ + FMC_FLAG_OBERR = FMC_REGIDX_BIT(FMC_OBSTAT_REG_OFFSET, 0U), /*!< FMC option bytes read error flag */ + FMC_FLAG_BANK1_BUSY = FMC_REGIDX_BIT(FMC_STAT1_REG_OFFSET, 0U), /*!< FMC bank1 busy flag */ + FMC_FLAG_BANK1_PGERR = FMC_REGIDX_BIT(FMC_STAT1_REG_OFFSET, 2U), /*!< FMC bank1 operation error flag bit */ + FMC_FLAG_BANK1_WPERR = FMC_REGIDX_BIT(FMC_STAT1_REG_OFFSET, 4U), /*!< FMC bank1 erase/program protection error flag bit */ + FMC_FLAG_BANK1_END = FMC_REGIDX_BIT(FMC_STAT1_REG_OFFSET, 5U), /*!< FMC bank1 end of operation flag bit */ +}fmc_flag_enum; + +/* FMC interrupt flags */ +typedef enum +{ + FMC_INT_FLAG_BANK0_PGERR = FMC_REGIDX_BITS(FMC_STAT0_REG_OFFSET, 2U, 10U), /*!< FMC bank0 operation error interrupt flag bit */ + FMC_INT_FLAG_BANK0_WPERR = FMC_REGIDX_BITS(FMC_STAT0_REG_OFFSET, 4U, 10U), /*!< FMC bank0 erase/program protection error interrupt flag bit */ + FMC_INT_FLAG_BANK0_END = FMC_REGIDX_BITS(FMC_STAT0_REG_OFFSET, 5U, 12U), /*!< FMC bank0 end of operation interrupt flag bit */ + FMC_INT_FLAG_BANK1_PGERR = FMC_REGIDX_BITS(FMC_STAT1_REG_OFFSET, 2U, 10U), /*!< FMC bank1 operation error interrupt flag bit */ + FMC_INT_FLAG_BANK1_WPERR = FMC_REGIDX_BITS(FMC_STAT1_REG_OFFSET, 4U, 10U), /*!< FMC bank1 erase/program protection error interrupt flag bit */ + FMC_INT_FLAG_BANK1_END = FMC_REGIDX_BITS(FMC_STAT1_REG_OFFSET, 5U, 12U), /*!< FMC bank1 end of operation interrupt flag bit */ +}fmc_interrupt_flag_enum; + +/* unlock key */ +#define UNLOCK_KEY0 ((uint32_t)0x45670123U) /*!< unlock key 0 */ +#define UNLOCK_KEY1 ((uint32_t)0xCDEF89ABU) /*!< unlock key 1 */ + +/* FMC wait state counter */ +#define WS_WSCNT(regval) (BITS(0,2) & ((uint32_t)(regval))) +#define WS_WSCNT_0 WS_WSCNT(0) /*!< FMC 0 wait */ +#define WS_WSCNT_1 WS_WSCNT(1) /*!< FMC 1 wait */ +#define WS_WSCNT_2 WS_WSCNT(2) /*!< FMC 2 wait */ + +/* option bytes software/hardware free watch dog timer */ +#define OB_FWDGT_SW ((uint8_t)0x01U) /*!< software free watchdog */ +#define OB_FWDGT_HW ((uint8_t)0x00U) /*!< hardware free watchdog */ + +/* option bytes reset or not entering deep sleep mode */ +#define OB_DEEPSLEEP_NRST ((uint8_t)0x02U) /*!< no reset when entering deepsleep mode */ +#define OB_DEEPSLEEP_RST ((uint8_t)0x00U) /*!< generate a reset instead of entering deepsleep mode */ + +/* option bytes reset or not entering standby mode */ +#define OB_STDBY_NRST ((uint8_t)0x04U) /*!< no reset when entering deepsleep mode */ +#define OB_STDBY_RST ((uint8_t)0x00U) /*!< generate a reset instead of entering standby mode */ + +/* option bytes boot bank value */ +#define OB_BOOT_B0 ((uint8_t)0x08U) /*!< boot from bank0 */ +#define OB_BOOT_B1 ((uint8_t)0x00U) /*!< boot from bank1 */ + +#define OB_USER_MASK ((uint8_t)0xF0U) /*!< MASK value */ + +/* read protect configure */ +#define FMC_NSPC ((uint8_t)0xA5U) /*!< no security protection */ +#define FMC_USPC ((uint8_t)0xBBU) /*!< under security protection */ + +/* OB_SPC */ +#define OB_SPC_SPC ((uint32_t)0x000000FFU) /*!< option byte security protection value */ +#define OB_SPC_SPC_N ((uint32_t)0x0000FF00U) /*!< option byte security protection complement value */ + +/* OB_USER */ +#define OB_USER_USER ((uint32_t)0x00FF0000U) /*!< user option value */ +#define OB_USER_USER_N ((uint32_t)0xFF000000U) /*!< user option complement value */ + +/* OB_WP0 */ +#define OB_WP0_WP0 ((uint32_t)0x000000FFU) /*!< FMC write protection option value */ + +/* OB_WP1 */ +#define OB_WP1_WP1 ((uint32_t)0x0000FF00U) /*!< FMC write protection option complement value */ + +/* OB_WP2 */ +#define OB_WP2_WP2 ((uint32_t)0x00FF0000U) /*!< FMC write protection option value */ + +/* OB_WP3 */ +#define OB_WP3_WP3 ((uint32_t)0xFF000000U) /*!< FMC write protection option complement value */ + +/* option bytes write protection */ +#define OB_WP_0 ((uint32_t)0x00000001U) /*!< erase/program protection of sector 0 */ +#define OB_WP_1 ((uint32_t)0x00000002U) /*!< erase/program protection of sector 1 */ +#define OB_WP_2 ((uint32_t)0x00000004U) /*!< erase/program protection of sector 2 */ +#define OB_WP_3 ((uint32_t)0x00000008U) /*!< erase/program protection of sector 3 */ +#define OB_WP_4 ((uint32_t)0x00000010U) /*!< erase/program protection of sector 4 */ +#define OB_WP_5 ((uint32_t)0x00000020U) /*!< erase/program protection of sector 5 */ +#define OB_WP_6 ((uint32_t)0x00000040U) /*!< erase/program protection of sector 6 */ +#define OB_WP_7 ((uint32_t)0x00000080U) /*!< erase/program protection of sector 7 */ +#define OB_WP_8 ((uint32_t)0x00000100U) /*!< erase/program protection of sector 8 */ +#define OB_WP_9 ((uint32_t)0x00000200U) /*!< erase/program protection of sector 9 */ +#define OB_WP_10 ((uint32_t)0x00000400U) /*!< erase/program protection of sector 10 */ +#define OB_WP_11 ((uint32_t)0x00000800U) /*!< erase/program protection of sector 11 */ +#define OB_WP_12 ((uint32_t)0x00001000U) /*!< erase/program protection of sector 12 */ +#define OB_WP_13 ((uint32_t)0x00002000U) /*!< erase/program protection of sector 13 */ +#define OB_WP_14 ((uint32_t)0x00004000U) /*!< erase/program protection of sector 14 */ +#define OB_WP_15 ((uint32_t)0x00008000U) /*!< erase/program protection of sector 15 */ +#define OB_WP_16 ((uint32_t)0x00010000U) /*!< erase/program protection of sector 16 */ +#define OB_WP_17 ((uint32_t)0x00020000U) /*!< erase/program protection of sector 17 */ +#define OB_WP_18 ((uint32_t)0x00040000U) /*!< erase/program protection of sector 18 */ +#define OB_WP_19 ((uint32_t)0x00080000U) /*!< erase/program protection of sector 19 */ +#define OB_WP_20 ((uint32_t)0x00100000U) /*!< erase/program protection of sector 20 */ +#define OB_WP_21 ((uint32_t)0x00200000U) /*!< erase/program protection of sector 21 */ +#define OB_WP_22 ((uint32_t)0x00400000U) /*!< erase/program protection of sector 22 */ +#define OB_WP_23 ((uint32_t)0x00800000U) /*!< erase/program protection of sector 23 */ +#define OB_WP_24 ((uint32_t)0x01000000U) /*!< erase/program protection of sector 24 */ +#define OB_WP_25 ((uint32_t)0x02000000U) /*!< erase/program protection of sector 25 */ +#define OB_WP_26 ((uint32_t)0x04000000U) /*!< erase/program protection of sector 26 */ +#define OB_WP_27 ((uint32_t)0x08000000U) /*!< erase/program protection of sector 27 */ +#define OB_WP_28 ((uint32_t)0x10000000U) /*!< erase/program protection of sector 28 */ +#define OB_WP_29 ((uint32_t)0x20000000U) /*!< erase/program protection of sector 29 */ +#define OB_WP_30 ((uint32_t)0x40000000U) /*!< erase/program protection of sector 30 */ +#define OB_WP_31 ((uint32_t)0x80000000U) /*!< erase/program protection of sector 31 */ +#define OB_WP_ALL ((uint32_t)0xFFFFFFFFU) /*!< erase/program protection of all sectors */ + +/* FMC timeout */ +#define FMC_TIMEOUT_COUNT ((uint32_t)0x0FFF0000U) /*!< FMC timeout count value */ + +/* FMC BANK address */ +#define FMC_BANK0_END_ADDRESS ((uint32_t)0x0807FFFFU) /*!< FMC bank0 end address */ +#define FMC_BANK0_SIZE ((uint32_t)0x00000200U) /*!< FMC bank0 size */ +#define FMC_SIZE (*(uint16_t *)0x1FFFF7E0U) /*!< FMC size */ + +/* function declarations */ +/* FMC main memory programming functions */ +/* set the FMC wait state counter */ +void fmc_wscnt_set(uint32_t wscnt); +/* unlock the main FMC operation */ +void fmc_unlock(void); +/* unlock the FMC bank0 operation */ +void fmc_bank0_unlock(void); +/* unlock the FMC bank1 operation */ +void fmc_bank1_unlock(void); +/* lock the main FMC operation */ +void fmc_lock(void); +/* lock the bank0 FMC operation */ +void fmc_bank0_lock(void); +/* lock the bank1 FMC operation */ +void fmc_bank1_lock(void); +/* FMC erase page */ +fmc_state_enum fmc_page_erase(uint32_t page_address); +/* FMC erase whole chip */ +fmc_state_enum fmc_mass_erase(void); +/* FMC erase whole bank0 */ +fmc_state_enum fmc_bank0_erase(void); +/* FMC erase whole bank1 */ +fmc_state_enum fmc_bank1_erase(void); +/* FMC program a word at the corresponding address */ +fmc_state_enum fmc_word_program(uint32_t address, uint32_t data); +/* FMC program a half word at the corresponding address */ +fmc_state_enum fmc_halfword_program(uint32_t address, uint16_t data); +/* FMC reprogram a word at the corresponding address without erasing */ +fmc_state_enum fmc_word_reprogram(uint32_t address, uint32_t data); + +/* FMC option bytes programming functions */ +/* unlock the option byte operation */ +void ob_unlock(void); +/* lock the option byte operation */ +void ob_lock(void); +/* erase the option byte */ +fmc_state_enum ob_erase(void); +/* enable write protect */ +fmc_state_enum ob_write_protection_enable(uint32_t ob_wp); +/* configure the option byte security protection */ +fmc_state_enum ob_security_protection_config(uint8_t ob_spc); +/* write the FMC option byte */ +fmc_state_enum ob_user_write(uint8_t ob_fwdgt, uint8_t ob_deepsleep, uint8_t ob_stdby, uint8_t ob_boot); +/* program option bytes data */ +fmc_state_enum ob_data_program(uint32_t address, uint8_t data); +/* get the FMC option byte user */ +uint8_t ob_user_get(void); +/* get OB_DATA in register FMC_OBSTAT */ +uint16_t ob_data_get(void); +/* get the FMC option byte write protection */ +uint32_t ob_write_protection_get(void); +/* get option byte security protection code value */ +FlagStatus ob_spc_get(void); + +/* FMC interrupts and flags management functions */ +/* enable FMC interrupt */ +void fmc_interrupt_enable(uint32_t interrupt); +/* disable FMC interrupt */ +void fmc_interrupt_disable(uint32_t interrupt); +/* check flag is set or not */ +FlagStatus fmc_flag_get(uint32_t flag); +/* clear the FMC flag */ +void fmc_flag_clear(uint32_t flag); +/* get FMC interrupt flag state */ +FlagStatus fmc_interrupt_flag_get(fmc_interrupt_flag_enum flag); +/* clear FMC interrupt flag state */ +void fmc_interrupt_flag_clear(fmc_interrupt_flag_enum flag); +/* return the FMC bank0 state */ +fmc_state_enum fmc_bank0_state_get(void); +/* return the FMC bank1 state */ +fmc_state_enum fmc_bank1_state_get(void); +/* check FMC bank0 ready or not */ +fmc_state_enum fmc_bank0_ready_wait(uint32_t timeout); +/* check FMC bank1 ready or not */ +fmc_state_enum fmc_bank1_ready_wait(uint32_t timeout); + +#endif /* GD32F30X_FMC_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_fwdgt.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_fwdgt.h new file mode 100644 index 0000000000..e0761a0d32 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_fwdgt.h @@ -0,0 +1,114 @@ +/*! + \file gd32f30x_fwdgt.h + \brief definitions for the FWDGT + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_FWDGT_H +#define GD32F30X_FWDGT_H + +#include "gd32f30x.h" + +/* FWDGT definitions */ +#define FWDGT FWDGT_BASE /*!< FWDGT base address */ + +/* registers definitions */ +#define FWDGT_CTL REG32((FWDGT) + 0x00U) /*!< FWDGT control register */ +#define FWDGT_PSC REG32((FWDGT) + 0x04U) /*!< FWDGT prescaler register */ +#define FWDGT_RLD REG32((FWDGT) + 0x08U) /*!< FWDGT reload register */ +#define FWDGT_STAT REG32((FWDGT) + 0x0CU) /*!< FWDGT status register */ + +/* bits definitions */ +/* FWDGT_CTL */ +#define FWDGT_CTL_CMD BITS(0,15) /*!< FWDGT command value */ + +/* FWDGT_PSC */ +#define FWDGT_PSC_PSC BITS(0,2) /*!< FWDGT prescaler divider value */ + +/* FWDGT_RLD */ +#define FWDGT_RLD_RLD BITS(0,11) /*!< FWDGT counter reload value */ + +/* FWDGT_STAT */ +#define FWDGT_STAT_PUD BIT(0) /*!< FWDGT prescaler divider value update */ +#define FWDGT_STAT_RUD BIT(1) /*!< FWDGT counter reload value update */ + +/* constants definitions */ +/* psc register value */ +#define PSC_PSC(regval) (BITS(0,2) & ((uint32_t)(regval) << 0)) +#define FWDGT_PSC_DIV4 ((uint8_t)PSC_PSC(0)) /*!< FWDGT prescaler set to 4 */ +#define FWDGT_PSC_DIV8 ((uint8_t)PSC_PSC(1)) /*!< FWDGT prescaler set to 8 */ +#define FWDGT_PSC_DIV16 ((uint8_t)PSC_PSC(2)) /*!< FWDGT prescaler set to 16 */ +#define FWDGT_PSC_DIV32 ((uint8_t)PSC_PSC(3)) /*!< FWDGT prescaler set to 32 */ +#define FWDGT_PSC_DIV64 ((uint8_t)PSC_PSC(4)) /*!< FWDGT prescaler set to 64 */ +#define FWDGT_PSC_DIV128 ((uint8_t)PSC_PSC(5)) /*!< FWDGT prescaler set to 128 */ +#define FWDGT_PSC_DIV256 ((uint8_t)PSC_PSC(6)) /*!< FWDGT prescaler set to 256 */ + +/* control value */ +#define FWDGT_WRITEACCESS_ENABLE ((uint16_t)0x5555U) /*!< FWDGT_CTL bits write access enable value */ +#define FWDGT_WRITEACCESS_DISABLE ((uint16_t)0x0000U) /*!< FWDGT_CTL bits write access disable value */ +#define FWDGT_KEY_RELOAD ((uint16_t)0xAAAAU) /*!< FWDGT_CTL bits fwdgt counter reload value */ +#define FWDGT_KEY_ENABLE ((uint16_t)0xCCCCU) /*!< FWDGT_CTL bits fwdgt counter enable value */ + +/* FWDGT timeout value */ +#define FWDGT_PSC_TIMEOUT ((uint32_t)0x000FFFFFU) /*!< FWDGT_PSC register write operation state flag timeout */ +#define FWDGT_RLD_TIMEOUT ((uint32_t)0x000FFFFFU) /*!< FWDGT_RLD register write operation state flag timeout */ + +/* FWDGT flag definitions */ +#define FWDGT_FLAG_PUD FWDGT_STAT_PUD /*!< FWDGT prescaler divider value update flag */ +#define FWDGT_FLAG_RUD FWDGT_STAT_RUD /*!< FWDGT counter reload value update flag */ + +/* write value to FWDGT_RLD_RLD bit field */ +#define RLD_RLD(regval) (BITS(0,11) & ((uint32_t)(regval) << 0)) + +/* function declarations */ +/* enable write access to FWDGT_PSC and FWDGT_RLD */ +void fwdgt_write_enable(void); +/* disable write access to FWDGT_PSC and FWDGT_RLD */ +void fwdgt_write_disable(void); +/* start the free watchdog timer counter */ +void fwdgt_enable(void); + +/* configure the free watchdog timer counter prescaler value */ +ErrStatus fwdgt_prescaler_value_config(uint16_t prescaler_value); +/* configure the free watchdog timer counter reload value */ +ErrStatus fwdgt_reload_value_config(uint16_t reload_value); +/* reload the counter of FWDGT */ +void fwdgt_counter_reload(void); +/* configure counter reload value, and prescaler divider value */ +ErrStatus fwdgt_config(uint16_t reload_value, uint8_t prescaler_div); + +/* get flag state of FWDGT */ +FlagStatus fwdgt_flag_get(uint16_t flag); + +#endif /* GD32F30X_FWDGT_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_gpio.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_gpio.h new file mode 100644 index 0000000000..b0b5b68300 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_gpio.h @@ -0,0 +1,537 @@ +/*! + \file gd32f30x_gpio.h + \brief definitions for the GPIO + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_GPIO_H +#define GD32F30X_GPIO_H + +#include "gd32f30x.h" + +/* GPIOx(x=A,B,C,D,E,F,G) definitions */ +#define GPIOA (GPIO_BASE + 0x00000000U) +#define GPIOB (GPIO_BASE + 0x00000400U) +#define GPIOC (GPIO_BASE + 0x00000800U) +#define GPIOD (GPIO_BASE + 0x00000C00U) +#define GPIOE (GPIO_BASE + 0x00001000U) +#define GPIOF (GPIO_BASE + 0x00001400U) +#define GPIOG (GPIO_BASE + 0x00001800U) + +/* AFIO definitions */ +#define AFIO AFIO_BASE + +/* registers definitions */ +/* GPIO registers definitions */ +#define GPIO_CTL0(gpiox) REG32((gpiox) + 0x00U) /*!< GPIO port control register 0 */ +#define GPIO_CTL1(gpiox) REG32((gpiox) + 0x04U) /*!< GPIO port control register 1 */ +#define GPIO_ISTAT(gpiox) REG32((gpiox) + 0x08U) /*!< GPIO port input status register */ +#define GPIO_OCTL(gpiox) REG32((gpiox) + 0x0CU) /*!< GPIO port output control register */ +#define GPIO_BOP(gpiox) REG32((gpiox) + 0x10U) /*!< GPIO port bit operation register */ +#define GPIO_BC(gpiox) REG32((gpiox) + 0x14U) /*!< GPIO bit clear register */ +#define GPIO_LOCK(gpiox) REG32((gpiox) + 0x18U) /*!< GPIO port configuration lock register */ +#define GPIOx_SPD(gpiox) REG32((gpiox) + 0x3CU) /*!< GPIO port bit speed register */ + +/* AFIO registers definitions */ +#define AFIO_EC REG32(AFIO + 0x00U) /*!< AFIO event control register */ +#define AFIO_PCF0 REG32(AFIO + 0x04U) /*!< AFIO port configuration register 0 */ +#define AFIO_EXTISS0 REG32(AFIO + 0x08U) /*!< AFIO port EXTI sources selection register 0 */ +#define AFIO_EXTISS1 REG32(AFIO + 0x0CU) /*!< AFIO port EXTI sources selection register 1 */ +#define AFIO_EXTISS2 REG32(AFIO + 0x10U) /*!< AFIO port EXTI sources selection register 2 */ +#define AFIO_EXTISS3 REG32(AFIO + 0x14U) /*!< AFIO port EXTI sources selection register 3 */ +#define AFIO_PCF1 REG32(AFIO + 0x1CU) /*!< AFIO port configuration register 1 */ +#define AFIO_CPSCTL REG32(AFIO + 0x20U) /*!< IO compensation control register */ + +/* bits definitions */ +/* GPIO_CTL0 */ +#define GPIO_CTL0_MD0 BITS(0,1) /*!< port 0 mode bits */ +#define GPIO_CTL0_CTL0 BITS(2,3) /*!< pin 0 configuration bits */ +#define GPIO_CTL0_MD1 BITS(4,5) /*!< port 1 mode bits */ +#define GPIO_CTL0_CTL1 BITS(6,7) /*!< pin 1 configuration bits */ +#define GPIO_CTL0_MD2 BITS(8,9) /*!< port 2 mode bits */ +#define GPIO_CTL0_CTL2 BITS(10,11) /*!< pin 2 configuration bits */ +#define GPIO_CTL0_MD3 BITS(12,13) /*!< port 3 mode bits */ +#define GPIO_CTL0_CTL3 BITS(14,15) /*!< pin 3 configuration bits */ +#define GPIO_CTL0_MD4 BITS(16,17) /*!< port 4 mode bits */ +#define GPIO_CTL0_CTL4 BITS(18,19) /*!< pin 4 configuration bits */ +#define GPIO_CTL0_MD5 BITS(20,21) /*!< port 5 mode bits */ +#define GPIO_CTL0_CTL5 BITS(22,23) /*!< pin 5 configuration bits */ +#define GPIO_CTL0_MD6 BITS(24,25) /*!< port 6 mode bits */ +#define GPIO_CTL0_CTL6 BITS(26,27) /*!< pin 6 configuration bits */ +#define GPIO_CTL0_MD7 BITS(28,29) /*!< port 7 mode bits */ +#define GPIO_CTL0_CTL7 BITS(30,31) /*!< pin 7 configuration bits */ + +/* GPIO_CTL1 */ +#define GPIO_CTL1_MD8 BITS(0,1) /*!< port 8 mode bits */ +#define GPIO_CTL1_CTL8 BITS(2,3) /*!< pin 8 configuration bits */ +#define GPIO_CTL1_MD9 BITS(4,5) /*!< port 9 mode bits */ +#define GPIO_CTL1_CTL9 BITS(6,7) /*!< pin 9 configuration bits */ +#define GPIO_CTL1_MD10 BITS(8,9) /*!< port 10 mode bits */ +#define GPIO_CTL1_CTL10 BITS(10,11) /*!< pin 10 configuration bits */ +#define GPIO_CTL1_MD11 BITS(12,13) /*!< port 11 mode bits */ +#define GPIO_CTL1_CTL11 BITS(14,15) /*!< pin 11 configuration bits */ +#define GPIO_CTL1_MD12 BITS(16,17) /*!< port 12 mode bits */ +#define GPIO_CTL1_CTL12 BITS(18,19) /*!< pin 12 configuration bits */ +#define GPIO_CTL1_MD13 BITS(20,21) /*!< port 13 mode bits */ +#define GPIO_CTL1_CTL13 BITS(22,23) /*!< pin 13 configuration bits */ +#define GPIO_CTL1_MD14 BITS(24,25) /*!< port 14 mode bits */ +#define GPIO_CTL1_CTL14 BITS(26,27) /*!< pin 14 configuration bits */ +#define GPIO_CTL1_MD15 BITS(28,29) /*!< port 15 mode bits */ +#define GPIO_CTL1_CTL15 BITS(30,31) /*!< pin 15 configuration bits */ + +/* GPIO_ISTAT */ +#define GPIO_ISTAT_ISTAT0 BIT(0) /*!< pin 0 input status */ +#define GPIO_ISTAT_ISTAT1 BIT(1) /*!< pin 1 input status */ +#define GPIO_ISTAT_ISTAT2 BIT(2) /*!< pin 2 input status */ +#define GPIO_ISTAT_ISTAT3 BIT(3) /*!< pin 3 input status */ +#define GPIO_ISTAT_ISTAT4 BIT(4) /*!< pin 4 input status */ +#define GPIO_ISTAT_ISTAT5 BIT(5) /*!< pin 5 input status */ +#define GPIO_ISTAT_ISTAT6 BIT(6) /*!< pin 6 input status */ +#define GPIO_ISTAT_ISTAT7 BIT(7) /*!< pin 7 input status */ +#define GPIO_ISTAT_ISTAT8 BIT(8) /*!< pin 8 input status */ +#define GPIO_ISTAT_ISTAT9 BIT(9) /*!< pin 9 input status */ +#define GPIO_ISTAT_ISTAT10 BIT(10) /*!< pin 10 input status */ +#define GPIO_ISTAT_ISTAT11 BIT(11) /*!< pin 11 input status */ +#define GPIO_ISTAT_ISTAT12 BIT(12) /*!< pin 12 input status */ +#define GPIO_ISTAT_ISTAT13 BIT(13) /*!< pin 13 input status */ +#define GPIO_ISTAT_ISTAT14 BIT(14) /*!< pin 14 input status */ +#define GPIO_ISTAT_ISTAT15 BIT(15) /*!< pin 15 input status */ + +/* GPIO_OCTL */ +#define GPIO_OCTL_OCTL0 BIT(0) /*!< pin 0 output bit */ +#define GPIO_OCTL_OCTL1 BIT(1) /*!< pin 1 output bit */ +#define GPIO_OCTL_OCTL2 BIT(2) /*!< pin 2 output bit */ +#define GPIO_OCTL_OCTL3 BIT(3) /*!< pin 3 output bit */ +#define GPIO_OCTL_OCTL4 BIT(4) /*!< pin 4 output bit */ +#define GPIO_OCTL_OCTL5 BIT(5) /*!< pin 5 output bit */ +#define GPIO_OCTL_OCTL6 BIT(6) /*!< pin 6 output bit */ +#define GPIO_OCTL_OCTL7 BIT(7) /*!< pin 7 output bit */ +#define GPIO_OCTL_OCTL8 BIT(8) /*!< pin 8 output bit */ +#define GPIO_OCTL_OCTL9 BIT(9) /*!< pin 9 output bit */ +#define GPIO_OCTL_OCTL10 BIT(10) /*!< pin 10 output bit */ +#define GPIO_OCTL_OCTL11 BIT(11) /*!< pin 11 output bit */ +#define GPIO_OCTL_OCTL12 BIT(12) /*!< pin 12 output bit */ +#define GPIO_OCTL_OCTL13 BIT(13) /*!< pin 13 output bit */ +#define GPIO_OCTL_OCTL14 BIT(14) /*!< pin 14 output bit */ +#define GPIO_OCTL_OCTL15 BIT(15) /*!< pin 15 output bit */ + +/* GPIO_BOP */ +#define GPIO_BOP_BOP0 BIT(0) /*!< pin 0 set bit */ +#define GPIO_BOP_BOP1 BIT(1) /*!< pin 1 set bit */ +#define GPIO_BOP_BOP2 BIT(2) /*!< pin 2 set bit */ +#define GPIO_BOP_BOP3 BIT(3) /*!< pin 3 set bit */ +#define GPIO_BOP_BOP4 BIT(4) /*!< pin 4 set bit */ +#define GPIO_BOP_BOP5 BIT(5) /*!< pin 5 set bit */ +#define GPIO_BOP_BOP6 BIT(6) /*!< pin 6 set bit */ +#define GPIO_BOP_BOP7 BIT(7) /*!< pin 7 set bit */ +#define GPIO_BOP_BOP8 BIT(8) /*!< pin 8 set bit */ +#define GPIO_BOP_BOP9 BIT(9) /*!< pin 9 set bit */ +#define GPIO_BOP_BOP10 BIT(10) /*!< pin 10 set bit */ +#define GPIO_BOP_BOP11 BIT(11) /*!< pin 11 set bit */ +#define GPIO_BOP_BOP12 BIT(12) /*!< pin 12 set bit */ +#define GPIO_BOP_BOP13 BIT(13) /*!< pin 13 set bit */ +#define GPIO_BOP_BOP14 BIT(14) /*!< pin 14 set bit */ +#define GPIO_BOP_BOP15 BIT(15) /*!< pin 15 set bit */ +#define GPIO_BOP_CR0 BIT(16) /*!< pin 0 clear bit */ +#define GPIO_BOP_CR1 BIT(17) /*!< pin 1 clear bit */ +#define GPIO_BOP_CR2 BIT(18) /*!< pin 2 clear bit */ +#define GPIO_BOP_CR3 BIT(19) /*!< pin 3 clear bit */ +#define GPIO_BOP_CR4 BIT(20) /*!< pin 4 clear bit */ +#define GPIO_BOP_CR5 BIT(21) /*!< pin 5 clear bit */ +#define GPIO_BOP_CR6 BIT(22) /*!< pin 6 clear bit */ +#define GPIO_BOP_CR7 BIT(23) /*!< pin 7 clear bit */ +#define GPIO_BOP_CR8 BIT(24) /*!< pin 8 clear bit */ +#define GPIO_BOP_CR9 BIT(25) /*!< pin 9 clear bit */ +#define GPIO_BOP_CR10 BIT(26) /*!< pin 10 clear bit */ +#define GPIO_BOP_CR11 BIT(27) /*!< pin 11 clear bit */ +#define GPIO_BOP_CR12 BIT(28) /*!< pin 12 clear bit */ +#define GPIO_BOP_CR13 BIT(29) /*!< pin 13 clear bit */ +#define GPIO_BOP_CR14 BIT(30) /*!< pin 14 clear bit */ +#define GPIO_BOP_CR15 BIT(31) /*!< pin 15 clear bit */ + +/* GPIO_BC */ +#define GPIO_BC_CR0 BIT(0) /*!< pin 0 clear bit */ +#define GPIO_BC_CR1 BIT(1) /*!< pin 1 clear bit */ +#define GPIO_BC_CR2 BIT(2) /*!< pin 2 clear bit */ +#define GPIO_BC_CR3 BIT(3) /*!< pin 3 clear bit */ +#define GPIO_BC_CR4 BIT(4) /*!< pin 4 clear bit */ +#define GPIO_BC_CR5 BIT(5) /*!< pin 5 clear bit */ +#define GPIO_BC_CR6 BIT(6) /*!< pin 6 clear bit */ +#define GPIO_BC_CR7 BIT(7) /*!< pin 7 clear bit */ +#define GPIO_BC_CR8 BIT(8) /*!< pin 8 clear bit */ +#define GPIO_BC_CR9 BIT(9) /*!< pin 9 clear bit */ +#define GPIO_BC_CR10 BIT(10) /*!< pin 10 clear bit */ +#define GPIO_BC_CR11 BIT(11) /*!< pin 11 clear bit */ +#define GPIO_BC_CR12 BIT(12) /*!< pin 12 clear bit */ +#define GPIO_BC_CR13 BIT(13) /*!< pin 13 clear bit */ +#define GPIO_BC_CR14 BIT(14) /*!< pin 14 clear bit */ +#define GPIO_BC_CR15 BIT(15) /*!< pin 15 clear bit */ + +/* GPIO_LOCK */ +#define GPIO_LOCK_LK0 BIT(0) /*!< pin 0 lock bit */ +#define GPIO_LOCK_LK1 BIT(1) /*!< pin 1 lock bit */ +#define GPIO_LOCK_LK2 BIT(2) /*!< pin 2 lock bit */ +#define GPIO_LOCK_LK3 BIT(3) /*!< pin 3 lock bit */ +#define GPIO_LOCK_LK4 BIT(4) /*!< pin 4 lock bit */ +#define GPIO_LOCK_LK5 BIT(5) /*!< pin 5 lock bit */ +#define GPIO_LOCK_LK6 BIT(6) /*!< pin 6 lock bit */ +#define GPIO_LOCK_LK7 BIT(7) /*!< pin 7 lock bit */ +#define GPIO_LOCK_LK8 BIT(8) /*!< pin 8 lock bit */ +#define GPIO_LOCK_LK9 BIT(9) /*!< pin 9 lock bit */ +#define GPIO_LOCK_LK10 BIT(10) /*!< pin 10 lock bit */ +#define GPIO_LOCK_LK11 BIT(11) /*!< pin 11 lock bit */ +#define GPIO_LOCK_LK12 BIT(12) /*!< pin 12 lock bit */ +#define GPIO_LOCK_LK13 BIT(13) /*!< pin 13 lock bit */ +#define GPIO_LOCK_LK14 BIT(14) /*!< pin 14 lock bit */ +#define GPIO_LOCK_LK15 BIT(15) /*!< pin 15 lock bit */ +#define GPIO_LOCK_LKK BIT(16) /*!< pin sequence lock key */ + +/* GPIO_SPD */ +#define GPIO_SPD_SPD0 BIT(0) /*!< pin 0 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD1 BIT(1) /*!< pin 1 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD2 BIT(2) /*!< pin 2 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD3 BIT(3) /*!< pin 3 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD4 BIT(4) /*!< pin 4 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD5 BIT(5) /*!< pin 5 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD6 BIT(6) /*!< pin 6 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD7 BIT(7) /*!< pin 7 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD8 BIT(8) /*!< pin 8 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD9 BIT(9) /*!< pin 9 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD10 BIT(10) /*!< pin 10 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD11 BIT(11) /*!< pin 11 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD12 BIT(12) /*!< pin 12 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD13 BIT(13) /*!< pin 13 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD14 BIT(14) /*!< pin 14 set very high output speed when MDx is 0b11 */ +#define GPIO_SPD_SPD15 BIT(15) /*!< pin 15 set very high output speed when MDx is 0b11 */ + +/* AFIO_EC */ +#define AFIO_EC_PIN BITS(0,3) /*!< event output pin selection */ +#define AFIO_EC_PORT BITS(4,6) /*!< event output port selection */ +#define AFIO_EC_EOE BIT(7) /*!< event output enable */ + +/* AFIO_PCF0 */ +#ifdef GD32F30X_CL +/* memory map and bit definitions for GD32F30X_CL devices */ +#define AFIO_PCF0_SPI0_REMAP BIT(0) /*!< SPI0 remapping */ +#define AFIO_PCF0_I2C0_REMAP BIT(1) /*!< I2C0 remapping */ +#define AFIO_PCF0_USART0_REMAP BIT(2) /*!< USART0 remapping */ +#define AFIO_PCF0_USART1_REMAP BIT(3) /*!< USART1 remapping */ +#define AFIO_PCF0_USART2_REMAP BITS(4,5) /*!< USART2 remapping */ +#define AFIO_PCF0_TIMER0_REMAP BITS(6,7) /*!< TIMER0 remapping */ +#define AFIO_PCF0_TIMER1_REMAP BITS(8,9) /*!< TIMER1 remapping */ +#define AFIO_PCF0_TIMER2_REMAP BITS(10,11) /*!< TIMER2 remapping */ +#define AFIO_PCF0_TIMER3_REMAP BIT(12) /*!< TIMER3 remapping */ +#define AFIO_PCF0_CAN0_REMAP BITS(13,14) /*!< CAN0 remapping */ +#define AFIO_PCF0_PD01_REMAP BIT(15) /*!< port D0/port D1 mapping on OSC_IN/OSC_OUT */ +#define AFIO_PCF0_TIMER4CH3_IREMAP BIT(16) /*!< TIMER4 channel3 internal remapping */ +#define AFIO_PCF0_ENET_REMAP BIT(21) /*!< ethernet MAC I/O remapping */ +#define AFIO_PCF0_CAN1_REMAP BIT(22) /*!< CAN1 remapping */ +#define AFIO_PCF0_ENET_PHY_SEL BIT(23) /*!< ethernet MII or RMII PHY selection */ +#define AFIO_PCF0_SWJ_CFG BITS(24,26) /*!< serial wire JTAG configuration */ +#define AFIO_PCF0_SPI2_REMAP BIT(28) /*!< SPI2/I2S2 remapping */ +#define AFIO_PCF0_TIMER1ITR0_REMAP BIT(29) /*!< TIMER1 internal trigger 0 remapping */ +#define AFIO_PCF0_TIMER1ITI0_REMAP BIT(29) /*!< TIMER1 internal trigger 0 remapping */ +#define AFIO_PCF0_PTP_PPS_REMAP BIT(30) /*!< ethernet PTP PPS remapping */ + +#else +/* memory map and bit definitions for GD32F30X_HD devices and GD32F30X_XD devices */ +#define AFIO_PCF0_SPI0_REMAP BIT(0) /*!< SPI0 remapping */ +#define AFIO_PCF0_I2C0_REMAP BIT(1) /*!< I2C0 remapping */ +#define AFIO_PCF0_USART0_REMAP BIT(2) /*!< USART0 remapping */ +#define AFIO_PCF0_USART1_REMAP BIT(3) /*!< USART1 remapping */ +#define AFIO_PCF0_USART2_REMAP BITS(4,5) /*!< USART2 remapping */ +#define AFIO_PCF0_TIMER0_REMAP BITS(6,7) /*!< TIMER0 remapping */ +#define AFIO_PCF0_TIMER1_REMAP BITS(8,9) /*!< TIMER1 remapping */ +#define AFIO_PCF0_TIMER2_REMAP BITS(10,11) /*!< TIMER2 remapping */ +#define AFIO_PCF0_TIMER3_REMAP BIT(12) /*!< TIMER3 remapping */ +#define AFIO_PCF0_CAN_REMAP BITS(13,14) /*!< CAN remapping */ +#define AFIO_PCF0_PD01_REMAP BIT(15) /*!< port D0/port D1 mapping on OSC_IN/OSC_OUT */ +#define AFIO_PCF0_TIMER4CH3_IREMAP BIT(16) /*!< TIMER4 channel3 internal remapping */ +#define AFIO_PCF0_ADC0_ETRGINS_REMAP BIT(17) /*!< ADC 0 external trigger inserted conversion remapping */ +#define AFIO_PCF0_ADC0_ETRGREG_REMAP BIT(18) /*!< ADC 0 external trigger regular conversion remapping */ +#define AFIO_PCF0_ADC1_ETRGINS_REMAP BIT(19) /*!< ADC 1 external trigger inserted conversion remapping */ +#define AFIO_PCF0_ADC1_ETRGREG_REMAP BIT(20) /*!< ADC 1 external trigger regular conversion remapping */ +#define AFIO_PCF0_SWJ_CFG BITS(24,26) /*!< serial wire JTAG configuration */ +#define AFIO_PCF0_SPI2_REMAP BIT(28) /*!< SPI2/I2S2 remapping */ +#endif /* GD32F30X_CL */ + +/* AFIO_EXTISS0 */ +#define AFIO_EXTI0_SS BITS(0,3) /*!< EXTI 0 sources selection */ +#define AFIO_EXTI1_SS BITS(4,7) /*!< EXTI 1 sources selection */ +#define AFIO_EXTI2_SS BITS(8,11) /*!< EXTI 2 sources selection */ +#define AFIO_EXTI3_SS BITS(12,15) /*!< EXTI 3 sources selection */ + +/* AFIO_EXTISS1 */ +#define AFIO_EXTI4_SS BITS(0,3) /*!< EXTI 4 sources selection */ +#define AFIO_EXTI5_SS BITS(4,7) /*!< EXTI 5 sources selection */ +#define AFIO_EXTI6_SS BITS(8,11) /*!< EXTI 6 sources selection */ +#define AFIO_EXTI7_SS BITS(12,15) /*!< EXTI 7 sources selection */ + +/* AFIO_EXTISS2 */ +#define AFIO_EXTI8_SS BITS(0,3) /*!< EXTI 8 sources selection */ +#define AFIO_EXTI9_SS BITS(4,7) /*!< EXTI 9 sources selection */ +#define AFIO_EXTI10_SS BITS(8,11) /*!< EXTI 10 sources selection */ +#define AFIO_EXTI11_SS BITS(12,15) /*!< EXTI 11 sources selection */ + +/* AFIO_EXTISS3 */ +#define AFIO_EXTI12_SS BITS(0,3) /*!< EXTI 12 sources selection */ +#define AFIO_EXTI13_SS BITS(4,7) /*!< EXTI 13 sources selection */ +#define AFIO_EXTI14_SS BITS(8,11) /*!< EXTI 14 sources selection */ +#define AFIO_EXTI15_SS BITS(12,15) /*!< EXTI 15 sources selection */ + +/* AFIO_PCF1 */ +#define AFIO_PCF1_TIMER8_REMAP BIT(5) /*!< TIMER8 remapping */ +#define AFIO_PCF1_TIMER9_REMAP BIT(6) /*!< TIMER9 remapping */ +#define AFIO_PCF1_TIMER10_REMAP BIT(7) /*!< TIMER10 remapping */ +#define AFIO_PCF1_TIMER12_REMAP BIT(8) /*!< TIMER12 remapping */ +#define AFIO_PCF1_TIMER13_REMAP BIT(9) /*!< TIMER13 remapping */ +#define AFIO_PCF1_EXMC_NADV BIT(10) /*!< EXMC_NADV connect/disconnect */ +#define AFIO_PCF1_CTC_REMAP BITS(11,12) /*!< CTC remapping */ + +/* AFIO_CPSCTL */ +#define AFIO_CPSCTL_CPS_EN BIT(0) /*!< I/O compensation cell enable */ +#define AFIO_CPSCTL_CPS_RDY BIT(8) /*!< I/O compensation cell is ready or not */ + +/* constants definitions */ +typedef FlagStatus bit_status; + +/* GPIO mode values set */ +#define GPIO_MODE_SET(n, mode) ((uint32_t)((uint32_t)(mode) << (4U * (n)))) +#define GPIO_MODE_MASK(n) (0xFU << (4U * (n))) + +/* GPIO mode definitions */ +#define GPIO_MODE_AIN ((uint8_t)0x00U) /*!< analog input mode */ +#define GPIO_MODE_IN_FLOATING ((uint8_t)0x04U) /*!< floating input mode */ +#define GPIO_MODE_IPD ((uint8_t)0x28U) /*!< pull-down input mode */ +#define GPIO_MODE_IPU ((uint8_t)0x48U) /*!< pull-up input mode */ +#define GPIO_MODE_OUT_OD ((uint8_t)0x14U) /*!< GPIO output with open-drain */ +#define GPIO_MODE_OUT_PP ((uint8_t)0x10U) /*!< GPIO output with push-pull */ +#define GPIO_MODE_AF_OD ((uint8_t)0x1CU) /*!< AFIO output with open-drain */ +#define GPIO_MODE_AF_PP ((uint8_t)0x18U) /*!< AFIO output with push-pull */ + +/* GPIO output max speed value */ +#define GPIO_OSPEED_10MHZ ((uint8_t)0x01U) /*!< output max speed 10MHz */ +#define GPIO_OSPEED_2MHZ ((uint8_t)0x02U) /*!< output max speed 2MHz */ +#define GPIO_OSPEED_50MHZ ((uint8_t)0x03U) /*!< output max speed 50MHz */ +#define GPIO_OSPEED_MAX ((uint8_t)0x04U) /*!< GPIO very high output speed, max speed more than 50MHz */ + +/* GPIO event output port definitions */ +#define GPIO_EVENT_PORT_GPIOA ((uint8_t)0x00U) /*!< event output port A */ +#define GPIO_EVENT_PORT_GPIOB ((uint8_t)0x01U) /*!< event output port B */ +#define GPIO_EVENT_PORT_GPIOC ((uint8_t)0x02U) /*!< event output port C */ +#define GPIO_EVENT_PORT_GPIOD ((uint8_t)0x03U) /*!< event output port D */ +#define GPIO_EVENT_PORT_GPIOE ((uint8_t)0x04U) /*!< event output port E */ + +/* GPIO output port source definitions */ +#define GPIO_PORT_SOURCE_GPIOA ((uint8_t)0x00U) /*!< output port source A */ +#define GPIO_PORT_SOURCE_GPIOB ((uint8_t)0x01U) /*!< output port source B */ +#define GPIO_PORT_SOURCE_GPIOC ((uint8_t)0x02U) /*!< output port source C */ +#define GPIO_PORT_SOURCE_GPIOD ((uint8_t)0x03U) /*!< output port source D */ +#define GPIO_PORT_SOURCE_GPIOE ((uint8_t)0x04U) /*!< output port source E */ +#define GPIO_PORT_SOURCE_GPIOF ((uint8_t)0x05U) /*!< output port source F */ +#define GPIO_PORT_SOURCE_GPIOG ((uint8_t)0x06U) /*!< output port source G */ + +/* GPIO event output pin definitions */ +#define GPIO_EVENT_PIN_0 ((uint8_t)0x00U) /*!< GPIO event pin 0 */ +#define GPIO_EVENT_PIN_1 ((uint8_t)0x01U) /*!< GPIO event pin 1 */ +#define GPIO_EVENT_PIN_2 ((uint8_t)0x02U) /*!< GPIO event pin 2 */ +#define GPIO_EVENT_PIN_3 ((uint8_t)0x03U) /*!< GPIO event pin 3 */ +#define GPIO_EVENT_PIN_4 ((uint8_t)0x04U) /*!< GPIO event pin 4 */ +#define GPIO_EVENT_PIN_5 ((uint8_t)0x05U) /*!< GPIO event pin 5 */ +#define GPIO_EVENT_PIN_6 ((uint8_t)0x06U) /*!< GPIO event pin 6 */ +#define GPIO_EVENT_PIN_7 ((uint8_t)0x07U) /*!< GPIO event pin 7 */ +#define GPIO_EVENT_PIN_8 ((uint8_t)0x08U) /*!< GPIO event pin 8 */ +#define GPIO_EVENT_PIN_9 ((uint8_t)0x09U) /*!< GPIO event pin 9 */ +#define GPIO_EVENT_PIN_10 ((uint8_t)0x0AU) /*!< GPIO event pin 10 */ +#define GPIO_EVENT_PIN_11 ((uint8_t)0x0BU) /*!< GPIO event pin 11 */ +#define GPIO_EVENT_PIN_12 ((uint8_t)0x0CU) /*!< GPIO event pin 12 */ +#define GPIO_EVENT_PIN_13 ((uint8_t)0x0DU) /*!< GPIO event pin 13 */ +#define GPIO_EVENT_PIN_14 ((uint8_t)0x0EU) /*!< GPIO event pin 14 */ +#define GPIO_EVENT_PIN_15 ((uint8_t)0x0FU) /*!< GPIO event pin 15 */ + +/* GPIO output pin source definitions */ +#define GPIO_PIN_SOURCE_0 ((uint8_t)0x00U) /*!< GPIO pin source 0 */ +#define GPIO_PIN_SOURCE_1 ((uint8_t)0x01U) /*!< GPIO pin source 1 */ +#define GPIO_PIN_SOURCE_2 ((uint8_t)0x02U) /*!< GPIO pin source 2 */ +#define GPIO_PIN_SOURCE_3 ((uint8_t)0x03U) /*!< GPIO pin source 3 */ +#define GPIO_PIN_SOURCE_4 ((uint8_t)0x04U) /*!< GPIO pin source 4 */ +#define GPIO_PIN_SOURCE_5 ((uint8_t)0x05U) /*!< GPIO pin source 5 */ +#define GPIO_PIN_SOURCE_6 ((uint8_t)0x06U) /*!< GPIO pin source 6 */ +#define GPIO_PIN_SOURCE_7 ((uint8_t)0x07U) /*!< GPIO pin source 7 */ +#define GPIO_PIN_SOURCE_8 ((uint8_t)0x08U) /*!< GPIO pin source 8 */ +#define GPIO_PIN_SOURCE_9 ((uint8_t)0x09U) /*!< GPIO pin source 9 */ +#define GPIO_PIN_SOURCE_10 ((uint8_t)0x0AU) /*!< GPIO pin source 10 */ +#define GPIO_PIN_SOURCE_11 ((uint8_t)0x0BU) /*!< GPIO pin source 11 */ +#define GPIO_PIN_SOURCE_12 ((uint8_t)0x0CU) /*!< GPIO pin source 12 */ +#define GPIO_PIN_SOURCE_13 ((uint8_t)0x0DU) /*!< GPIO pin source 13 */ +#define GPIO_PIN_SOURCE_14 ((uint8_t)0x0EU) /*!< GPIO pin source 14 */ +#define GPIO_PIN_SOURCE_15 ((uint8_t)0x0FU) /*!< GPIO pin source 15 */ + +/* GPIO pin definitions */ +#define GPIO_PIN_0 BIT(0) /*!< GPIO pin 0 */ +#define GPIO_PIN_1 BIT(1) /*!< GPIO pin 1 */ +#define GPIO_PIN_2 BIT(2) /*!< GPIO pin 2 */ +#define GPIO_PIN_3 BIT(3) /*!< GPIO pin 3 */ +#define GPIO_PIN_4 BIT(4) /*!< GPIO pin 4 */ +#define GPIO_PIN_5 BIT(5) /*!< GPIO pin 5 */ +#define GPIO_PIN_6 BIT(6) /*!< GPIO pin 6 */ +#define GPIO_PIN_7 BIT(7) /*!< GPIO pin 7 */ +#define GPIO_PIN_8 BIT(8) /*!< GPIO pin 8 */ +#define GPIO_PIN_9 BIT(9) /*!< GPIO pin 9 */ +#define GPIO_PIN_10 BIT(10) /*!< GPIO pin 10 */ +#define GPIO_PIN_11 BIT(11) /*!< GPIO pin 11 */ +#define GPIO_PIN_12 BIT(12) /*!< GPIO pin 12 */ +#define GPIO_PIN_13 BIT(13) /*!< GPIO pin 13 */ +#define GPIO_PIN_14 BIT(14) /*!< GPIO pin 14 */ +#define GPIO_PIN_15 BIT(15) /*!< GPIO pin 15 */ +#define GPIO_PIN_ALL BITS(0,15) /*!< GPIO pin all */ + +/* AFIO remap mask */ +#define PCF0_USART2_REMAP(regval) (BITS(4,5) & ((uint32_t)(regval) << 4)) /*!< USART2 remapping */ +#define PCF0_TIMER0_REMAP(regval) (BITS(6,7) & ((uint32_t)(regval) << 6)) /*!< TIMER0 remapping */ +#define PCF0_TIMER1_REMAP(regval) (BITS(8,9) & ((uint32_t)(regval) << 8)) /*!< TIMER1 remapping */ +#define PCF0_TIMER2_REMAP(regval) (BITS(10,11) & ((uint32_t)(regval) << 10)) /*!< TIMER2 remapping */ +#define PCF0_CAN_REMAP(regval) (BITS(13,14) & ((uint32_t)(regval) << 13)) /*!< CAN remapping */ +#define PCF0_SWJ_CFG(regval) (BITS(24,26) & ((uint32_t)(regval) << 24)) /*!< serial wire JTAG configuration */ +#define PCF1_CTC_REMAP(regval) (BITS(11,12) & ((uint32_t)(regval) << 11)) /*!< CTC remapping */ + +/* GPIO remap definitions */ +#define GPIO_SPI0_REMAP AFIO_PCF0_SPI0_REMAP /*!< SPI0 remapping */ +#define GPIO_I2C0_REMAP AFIO_PCF0_I2C0_REMAP /*!< I2C0 remapping */ +#define GPIO_USART0_REMAP AFIO_PCF0_USART0_REMAP /*!< USART0 remapping */ +#define GPIO_USART1_REMAP AFIO_PCF0_USART1_REMAP /*!< USART1 remapping */ +#define GPIO_USART2_PARTIAL_REMAP ((uint32_t)0x00140000U | PCF0_USART2_REMAP(1)) /*!< USART2 partial remapping */ +#define GPIO_USART2_FULL_REMAP ((uint32_t)0x00140000U | PCF0_USART2_REMAP(3)) /*!< USART2 full remapping */ +#define GPIO_TIMER0_PARTIAL_REMAP ((uint32_t)0x00160000U | PCF0_TIMER0_REMAP(1)) /*!< TIMER0 partial remapping */ +#define GPIO_TIMER0_FULL_REMAP ((uint32_t)0x00160000U | PCF0_TIMER0_REMAP(3)) /*!< TIMER0 full remapping */ +#define GPIO_TIMER1_PARTIAL_REMAP0 ((uint32_t)0x00180000U | PCF0_TIMER1_REMAP(1)) /*!< TIMER1 partial remapping */ +#define GPIO_TIMER1_PARTIAL_REMAP1 ((uint32_t)0x00180000U | PCF0_TIMER1_REMAP(2)) /*!< TIMER1 partial remapping */ +#define GPIO_TIMER1_FULL_REMAP ((uint32_t)0x00180000U | PCF0_TIMER1_REMAP(3)) /*!< TIMER1 full remapping */ +#define GPIO_TIMER2_PARTIAL_REMAP ((uint32_t)0x001A0000U | PCF0_TIMER2_REMAP(2)) /*!< TIMER2 partial remapping */ +#define GPIO_TIMER2_FULL_REMAP ((uint32_t)0x001A0000U | PCF0_TIMER2_REMAP(3)) /*!< TIMER2 full remapping */ +#define GPIO_TIMER3_REMAP AFIO_PCF0_TIMER3_REMAP /*!< TIMER3 remapping */ +#define GPIO_PD01_REMAP AFIO_PCF0_PD01_REMAP /*!< PD01 remapping */ +#define GPIO_TIMER4CH3_IREMAP ((uint32_t)0x00200000U | (AFIO_PCF0_TIMER4CH3_IREMAP >> 16)) /*!< TIMER4 channel3 internal remapping */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define GPIO_CAN_PARTIAL_REMAP ((uint32_t)0x001D0000U | PCF0_CAN_REMAP(2)) /*!< CAN partial remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) */ +#define GPIO_CAN_FULL_REMAP ((uint32_t)0x001D0000U | PCF0_CAN_REMAP(3)) /*!< CAN full remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) */ +#endif /* GD32F30X_HD||GD32F30X_XD */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define GPIO_ADC0_ETRGINS_REMAP ((uint32_t)0x00200000U | (AFIO_PCF0_ADC0_ETRGINS_REMAP >> 16)) /*!< ADC0 external trigger inserted conversion remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) */ +#define GPIO_ADC0_ETRGREG_REMAP ((uint32_t)0x00200000U | (AFIO_PCF0_ADC0_ETRGREG_REMAP >> 16)) /*!< ADC0 external trigger regular conversion remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) */ +#define GPIO_ADC1_ETRGINS_REMAP ((uint32_t)0x00200000U | (AFIO_PCF0_ADC1_ETRGINS_REMAP >> 16)) /*!< ADC1 external trigger inserted conversion remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) */ +#define GPIO_ADC1_ETRGREG_REMAP ((uint32_t)0x00200000U | (AFIO_PCF0_ADC1_ETRGREG_REMAP >> 16)) /*!< ADC1 external trigger regular conversion remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) */ +#endif /* GD32F30X_HD||GD32F30X_XD */ +#define GPIO_SWJ_NONJTRST_REMAP ((uint32_t)0x00300000U | (PCF0_SWJ_CFG(1) >> 16)) /*!< full SWJ(JTAG-DP + SW-DP),but without NJTRST */ +#define GPIO_SWJ_SWDPENABLE_REMAP ((uint32_t)0x00300000U | (PCF0_SWJ_CFG(2) >> 16)) /*!< JTAG-DP disabled and SW-DP enabled */ +#define GPIO_SWJ_DISABLE_REMAP ((uint32_t)0x00300000U | (PCF0_SWJ_CFG(4) >> 16)) /*!< JTAG-DP disabled and SW-DP disabled */ +#define GPIO_SPI2_REMAP ((uint32_t)0x00200000U | (AFIO_PCF0_SPI2_REMAP >> 16)) /*!< SPI2 remapping*/ +#ifdef GD32F30X_CL +#define GPIO_CAN0_PARTIAL_REMAP ((uint32_t)0x001D0000U | PCF0_CAN_REMAP(2)) /*!< CAN0 partial remapping(only for GD32F30X_CL devices) */ +#define GPIO_CAN0_FULL_REMAP ((uint32_t)0x001D0000U | PCF0_CAN_REMAP(3)) /*!< CAN0 full remapping(only for GD32F30X_CL devices) */ +#define GPIO_ENET_REMAP ((uint32_t)0x00200000U | (AFIO_PCF0_ENET_REMAP >> 16)) /*!< ENET remapping(only for GD32F30X_CL devices) */ +#define GPIO_CAN1_REMAP ((uint32_t)0x00200000U | (AFIO_PCF0_CAN1_REMAP >> 16)) /*!< CAN1 remapping(only for GD32F30X_CL devices) */ +#define GPIO_TIMER1ITR0_REMAP ((uint32_t)0x00200000U | (AFIO_PCF0_TIMER1ITR0_REMAP >> 16)) /*!< TIMER1 internal trigger 0 remapping(only for GD32F30X_CL devices) */ +#define GPIO_PTP_PPS_REMAP ((uint32_t)0x00200000U | (AFIO_PCF0_PTP_PPS_REMAP >> 16)) /*!< ethernet PTP PPS remapping(only for GD32F30X_CL devices) */ +#endif /* GD32F30X_CL */ +#define GPIO_TIMER8_REMAP ((uint32_t)0x80000000U | AFIO_PCF1_TIMER8_REMAP) /*!< TIMER8 remapping */ +#define GPIO_TIMER9_REMAP ((uint32_t)0x80000000U | AFIO_PCF1_TIMER9_REMAP) /*!< TIMER9 remapping */ +#define GPIO_TIMER10_REMAP ((uint32_t)0x80000000U | AFIO_PCF1_TIMER10_REMAP) /*!< TIMER10 remapping */ +#define GPIO_TIMER12_REMAP ((uint32_t)0x80000000U | AFIO_PCF1_TIMER12_REMAP) /*!< TIMER12 remapping */ +#define GPIO_TIMER13_REMAP ((uint32_t)0x80000000U | AFIO_PCF1_TIMER13_REMAP) /*!< TIMER13 remapping */ +#define GPIO_EXMC_NADV_REMAP ((uint32_t)0x80000000U | AFIO_PCF1_EXMC_NADV) /*!< EXMC_NADV connect/disconnect */ +#define GPIO_CTC_REMAP0 ((uint32_t)0x801B0000U | PCF1_CTC_REMAP(1)) /*!< CTC remapping(PD15) */ +#define GPIO_CTC_REMAP1 ((uint32_t)0x801B0000U | PCF1_CTC_REMAP(2)) /*!< CTC remapping(PF0) */ + +#ifdef GD32F30X_CL +/* ethernet MII or RMII PHY selection */ +#define GPIO_ENET_PHY_MII ((uint32_t)0x00000000U) /*!< configure ethernet MAC for connection with an MII PHY */ +#define GPIO_ENET_PHY_RMII AFIO_PCF0_ENET_PHY_SEL /*!< configure ethernet MAC for connection with an RMII PHY */ +#endif /* GD32F30X_CL */ + +/* I/O compensation cell enable/disable */ +#define GPIO_COMPENSATION_ENABLE AFIO_CPSCTL_CPS_EN /*!< I/O compensation cell is enable */ +#define GPIO_COMPENSATION_DISABLE ((uint32_t)0x00000000U) /*!< I/O compensation cell is disable */ + +/* function declarations */ +/* reset GPIO port */ +void gpio_deinit(uint32_t gpio_periph); +/* reset alternate function I/O(AFIO) */ +void gpio_afio_deinit(void); +/* GPIO parameter initialization */ +void gpio_init(uint32_t gpio_periph, uint32_t mode, uint32_t speed, uint32_t pin); + +/* set GPIO pin bit */ +void gpio_bit_set(uint32_t gpio_periph, uint32_t pin); +/* reset GPIO pin bit */ +void gpio_bit_reset(uint32_t gpio_periph, uint32_t pin); +/* write data to the specified GPIO pin */ +void gpio_bit_write(uint32_t gpio_periph, uint32_t pin, bit_status bit_value); +/* write data to the specified GPIO port */ +void gpio_port_write(uint32_t gpio_periph, uint16_t data); + +/* get GPIO pin input status */ +FlagStatus gpio_input_bit_get(uint32_t gpio_periph, uint32_t pin); +/* get GPIO port input status */ +uint16_t gpio_input_port_get(uint32_t gpio_periph); +/* get GPIO pin output status */ +FlagStatus gpio_output_bit_get(uint32_t gpio_periph, uint32_t pin); +/* get GPIO port output status */ +uint16_t gpio_output_port_get(uint32_t gpio_periph); +/* configure GPIO pin remap */ +void gpio_pin_remap_config(uint32_t remap, ControlStatus newvalue); + +#ifdef GD32F30X_CL +/* select ethernet MII or RMII PHY */ +void gpio_ethernet_phy_select(uint32_t enet_sel); +#endif /* GD32F30X_CL */ + +/* select GPIO pin exti sources */ +void gpio_exti_source_select(uint8_t output_port, uint8_t output_pin); + +/* configure GPIO pin event output */ +void gpio_event_output_config(uint8_t output_port, uint8_t output_pin); +/* enable GPIO pin event output */ +void gpio_event_output_enable(void); +/* disable GPIO pin event output */ +void gpio_event_output_disable(void); + +/* lock GPIO pin bit */ +void gpio_pin_lock(uint32_t gpio_periph, uint32_t pin); +/* configure the I/O compensation cell */ +void gpio_compensation_config(uint32_t compensation); +/* check the I/O compensation cell is ready or not */ +FlagStatus gpio_compensation_flag_get(void); + +#endif /* GD32F30X_GPIO_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_i2c.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_i2c.h new file mode 100644 index 0000000000..ad7fa0f7cc --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_i2c.h @@ -0,0 +1,357 @@ +/*! + \file gd32f30x_i2c.h + \brief definitions for the I2C + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2019-04-16, V2.0.1, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_I2C_H +#define GD32F30X_I2C_H + +#include "gd32f30x.h" + +/* I2Cx(x=0,1) definitions */ +#define I2C0 I2C_BASE /*!< I2C0 base address */ +#define I2C1 (I2C_BASE + 0x00000400U) /*!< I2C1 base address */ + +/* registers definitions */ +#define I2C_CTL0(i2cx) REG32((i2cx) + 0x00000000U) /*!< I2C control register 0 */ +#define I2C_CTL1(i2cx) REG32((i2cx) + 0x00000004U) /*!< I2C control register 1 */ +#define I2C_SADDR0(i2cx) REG32((i2cx) + 0x00000008U) /*!< I2C slave address register 0*/ +#define I2C_SADDR1(i2cx) REG32((i2cx) + 0x0000000CU) /*!< I2C slave address register */ +#define I2C_DATA(i2cx) REG32((i2cx) + 0x00000010U) /*!< I2C transfer buffer register */ +#define I2C_STAT0(i2cx) REG32((i2cx) + 0x00000014U) /*!< I2C transfer status register 0 */ +#define I2C_STAT1(i2cx) REG32((i2cx) + 0x00000018U) /*!< I2C transfer status register */ +#define I2C_CKCFG(i2cx) REG32((i2cx) + 0x0000001CU) /*!< I2C clock configure register */ +#define I2C_RT(i2cx) REG32((i2cx) + 0x00000020U) /*!< I2C rise time register */ +#define I2C_FMPCFG(i2cx) REG32((i2cx) + 0x00000090U) /*!< I2C fast-mode-plus configure register */ + +/* bits definitions */ +/* I2Cx_CTL0 */ +#define I2C_CTL0_I2CEN BIT(0) /*!< peripheral enable */ +#define I2C_CTL0_SMBEN BIT(1) /*!< SMBus mode */ +#define I2C_CTL0_SMBSEL BIT(3) /*!< SMBus type */ +#define I2C_CTL0_ARPEN BIT(4) /*!< ARP enable */ +#define I2C_CTL0_PECEN BIT(5) /*!< PEC enable */ +#define I2C_CTL0_GCEN BIT(6) /*!< general call enable */ +#define I2C_CTL0_SS BIT(7) /*!< clock stretching disable (slave mode) */ +#define I2C_CTL0_START BIT(8) /*!< start generation */ +#define I2C_CTL0_STOP BIT(9) /*!< stop generation */ +#define I2C_CTL0_ACKEN BIT(10) /*!< acknowledge enable */ +#define I2C_CTL0_POAP BIT(11) /*!< acknowledge/PEC position (for data reception) */ +#define I2C_CTL0_PECTRANS BIT(12) /*!< packet error checking */ +#define I2C_CTL0_SALT BIT(13) /*!< SMBus alert */ +#define I2C_CTL0_SRESET BIT(15) /*!< software reset */ + +/* I2Cx_CTL1 */ +#define I2C_CTL1_I2CCLK BITS(0,6) /*!< I2CCLK[6:0] bits (peripheral clock frequency) */ +#define I2C_CTL1_ERRIE BIT(8) /*!< error interrupt inable */ +#define I2C_CTL1_EVIE BIT(9) /*!< event interrupt enable */ +#define I2C_CTL1_BUFIE BIT(10) /*!< buffer interrupt enable */ +#define I2C_CTL1_DMAON BIT(11) /*!< DMA requests enable */ +#define I2C_CTL1_DMALST BIT(12) /*!< DMA last transfer */ + +/* I2Cx_SADDR0 */ +#define I2C_SADDR0_ADDRESS0 BIT(0) /*!< bit 0 of a 10-bit address */ +#define I2C_SADDR0_ADDRESS BITS(1,7) /*!< 7-bit address or bits 7:1 of a 10-bit address */ +#define I2C_SADDR0_ADDRESS_H BITS(8,9) /*!< highest two bits of a 10-bit address */ +#define I2C_SADDR0_ADDFORMAT BIT(15) /*!< address mode for the I2C slave */ + +/* I2Cx_SADDR1 */ +#define I2C_SADDR1_DUADEN BIT(0) /*!< aual-address mode switch */ +#define I2C_SADDR1_ADDRESS2 BITS(1,7) /*!< second I2C address for the slave in dual-address mode */ + +/* I2Cx_DATA */ +#define I2C_DATA_TRB BITS(0,7) /*!< 8-bit data register */ + +/* I2Cx_STAT0 */ +#define I2C_STAT0_SBSEND BIT(0) /*!< start bit (master mode) */ +#define I2C_STAT0_ADDSEND BIT(1) /*!< address sent (master mode)/matched (slave mode) */ +#define I2C_STAT0_BTC BIT(2) /*!< byte transfer finished */ +#define I2C_STAT0_ADD10SEND BIT(3) /*!< 10-bit header sent (master mode) */ +#define I2C_STAT0_STPDET BIT(4) /*!< stop detection (slave mode) */ +#define I2C_STAT0_RBNE BIT(6) /*!< data register not empty (receivers) */ +#define I2C_STAT0_TBE BIT(7) /*!< data register empty (transmitters) */ +#define I2C_STAT0_BERR BIT(8) /*!< bus error */ +#define I2C_STAT0_LOSTARB BIT(9) /*!< arbitration lost (master mode) */ +#define I2C_STAT0_AERR BIT(10) /*!< acknowledge failure */ +#define I2C_STAT0_OUERR BIT(11) /*!< overrun/underrun */ +#define I2C_STAT0_PECERR BIT(12) /*!< PEC error in reception */ +#define I2C_STAT0_SMBTO BIT(14) /*!< timeout signal in SMBus mode */ +#define I2C_STAT0_SMBALT BIT(15) /*!< SMBus alert status */ + +/* I2Cx_STAT1 */ +#define I2C_STAT1_MASTER BIT(0) /*!< master/slave */ +#define I2C_STAT1_I2CBSY BIT(1) /*!< bus busy */ +#define I2C_STAT1_TR BIT(2) /*!< transmitter/receiver */ +#define I2C_STAT1_RXGC BIT(4) /*!< general call address (slave mode) */ +#define I2C_STAT1_DEFSMB BIT(5) /*!< SMBus device default address (slave mode) */ +#define I2C_STAT1_HSTSMB BIT(6) /*!< SMBus host header (slave mode) */ +#define I2C_STAT1_DUMODF BIT(7) /*!< dual flag (slave mode) */ +#define I2C_STAT1_PECV BITS(8,15) /*!< packet error checking value */ + +/* I2Cx_CKCFG */ +#define I2C_CKCFG_CLKC BITS(0,11) /*!< clock control register in fast/standard mode or fast mode plus(master mode) */ +#define I2C_CKCFG_DTCY BIT(14) /*!< duty cycle of fast mode or fast mode plus */ +#define I2C_CKCFG_FAST BIT(15) /*!< I2C speed selection in master mode */ + +/* I2Cx_RT */ +#define I2C_RT_RISETIME BITS(0,6) /*!< maximum rise time in fast/standard mode or fast mode plus(master mode) */ + +/* I2Cx_FMPCFG */ +#define I2C_FMPCFG_FMPEN BIT(0) /*!< fast mode plus enable bit */ + +/* constants definitions */ +/* define the I2C bit position and its register index offset */ +#define I2C_REGIDX_BIT(regidx, bitpos) (((uint32_t)(regidx) << 6) | (uint32_t)(bitpos)) +#define I2C_REG_VAL(i2cx, offset) (REG32((i2cx) + (((uint32_t)(offset) & 0xFFFFU) >> 6))) +#define I2C_BIT_POS(val) ((uint32_t)(val) & 0x1FU) +#define I2C_REGIDX_BIT2(regidx, bitpos, regidx2, bitpos2) (((uint32_t)(regidx2) << 22) | (uint32_t)((bitpos2) << 16)\ + | (((uint32_t)(regidx) << 6) | (uint32_t)(bitpos))) +#define I2C_REG_VAL2(i2cx, offset) (REG32((i2cx) + ((uint32_t)(offset) >> 22))) +#define I2C_BIT_POS2(val) (((uint32_t)(val) & 0x1F0000U) >> 16) + +/* register offset */ +#define I2C_CTL1_REG_OFFSET 0x04U /*!< CTL1 register offset */ +#define I2C_STAT0_REG_OFFSET 0x14U /*!< STAT0 register offset */ +#define I2C_STAT1_REG_OFFSET 0x18U /*!< STAT1 register offset */ + +/* I2C flags */ +typedef enum +{ + /* flags in STAT0 register */ + I2C_FLAG_SBSEND = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 0U), /*!< start condition sent out in master mode */ + I2C_FLAG_ADDSEND = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 1U), /*!< address is sent in master mode or received and matches in slave mode */ + I2C_FLAG_BTC = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 2U), /*!< byte transmission finishes */ + I2C_FLAG_ADD10SEND = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 3U), /*!< header of 10-bit address is sent in master mode */ + I2C_FLAG_STPDET = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 4U), /*!< stop condition detected in slave mode */ + I2C_FLAG_RBNE = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 6U), /*!< I2C_DATA is not Empty during receiving */ + I2C_FLAG_TBE = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 7U), /*!< I2C_DATA is empty during transmitting */ + I2C_FLAG_BERR = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 8U), /*!< a bus error occurs indication a unexpected start or stop condition on I2C bus */ + I2C_FLAG_LOSTARB = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 9U), /*!< arbitration lost in master mode */ + I2C_FLAG_AERR = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 10U), /*!< acknowledge error */ + I2C_FLAG_OUERR = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 11U), /*!< over-run or under-run situation occurs in slave mode */ + I2C_FLAG_PECERR = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 12U), /*!< PEC error when receiving data */ + I2C_FLAG_SMBTO = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 14U), /*!< timeout signal in SMBus mode */ + I2C_FLAG_SMBALT = I2C_REGIDX_BIT(I2C_STAT0_REG_OFFSET, 15U), /*!< SMBus alert status */ + /* flags in STAT1 register */ + I2C_FLAG_MASTER = I2C_REGIDX_BIT(I2C_STAT1_REG_OFFSET, 0U), /*!< a flag indicating whether I2C block is in master or slave mode */ + I2C_FLAG_I2CBSY = I2C_REGIDX_BIT(I2C_STAT1_REG_OFFSET, 1U), /*!< busy flag */ + I2C_FLAG_TRS = I2C_REGIDX_BIT(I2C_STAT1_REG_OFFSET, 2U), /*!< whether the I2C is a transmitter or a receiver */ + I2C_FLAG_RXGC = I2C_REGIDX_BIT(I2C_STAT1_REG_OFFSET, 4U), /*!< general call address (00h) received */ + I2C_FLAG_DEFSMB = I2C_REGIDX_BIT(I2C_STAT1_REG_OFFSET, 5U), /*!< default address of SMBus device */ + I2C_FLAG_HSTSMB = I2C_REGIDX_BIT(I2C_STAT1_REG_OFFSET, 6U), /*!< SMBus host header detected in slave mode */ + I2C_FLAG_DUMOD = I2C_REGIDX_BIT(I2C_STAT1_REG_OFFSET, 7U) /*!< dual flag in slave mode indicating which address is matched in dual-address mode */ +}i2c_flag_enum; + +/* I2C interrupt flags */ +typedef enum +{ + /* interrupt flags in CTL1 register */ + I2C_INT_FLAG_SBSEND = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 9U, I2C_STAT0_REG_OFFSET, 0U), /*!< start condition sent out in master mode interrupt flag */ + I2C_INT_FLAG_ADDSEND = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 9U, I2C_STAT0_REG_OFFSET, 1U), /*!< address is sent in master mode or received and matches in slave mode interrupt flag */ + I2C_INT_FLAG_BTC = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 9U, I2C_STAT0_REG_OFFSET, 2U), /*!< byte transmission finishes */ + I2C_INT_FLAG_ADD10SEND = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 9U, I2C_STAT0_REG_OFFSET, 3U), /*!< header of 10-bit address is sent in master mode interrupt flag */ + I2C_INT_FLAG_STPDET = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 9U, I2C_STAT0_REG_OFFSET, 4U), /*!< stop condition detected in slave mode interrupt flag */ + I2C_INT_FLAG_RBNE = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 9U, I2C_STAT0_REG_OFFSET, 6U), /*!< I2C_DATA is not Empty during receiving interrupt flag */ + I2C_INT_FLAG_TBE = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 9U, I2C_STAT0_REG_OFFSET, 7U), /*!< I2C_DATA is empty during transmitting interrupt flag */ + I2C_INT_FLAG_BERR = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 8U, I2C_STAT0_REG_OFFSET, 8U), /*!< a bus error occurs indication a unexpected start or stop condition on I2C bus interrupt flag */ + I2C_INT_FLAG_LOSTARB = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 8U, I2C_STAT0_REG_OFFSET, 9U), /*!< arbitration lost in master mode interrupt flag */ + I2C_INT_FLAG_AERR = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 8U, I2C_STAT0_REG_OFFSET, 10U), /*!< acknowledge error interrupt flag */ + I2C_INT_FLAG_OUERR = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 8U, I2C_STAT0_REG_OFFSET, 11U), /*!< over-run or under-run situation occurs in slave mode interrupt flag */ + I2C_INT_FLAG_PECERR = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 8U, I2C_STAT0_REG_OFFSET, 12U), /*!< PEC error when receiving data interrupt flag */ + I2C_INT_FLAG_SMBTO = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 8U, I2C_STAT0_REG_OFFSET, 14U), /*!< timeout signal in SMBus mode interrupt flag */ + I2C_INT_FLAG_SMBALT = I2C_REGIDX_BIT2(I2C_CTL1_REG_OFFSET, 8U, I2C_STAT0_REG_OFFSET, 15U), /*!< SMBus Alert status interrupt flag */ +}i2c_interrupt_flag_enum; + +/* I2C interrupt enable or disable */ +typedef enum +{ + /* interrupt in CTL1 register */ + I2C_INT_ERR = I2C_REGIDX_BIT(I2C_CTL1_REG_OFFSET, 8U), /*!< error interrupt enable */ + I2C_INT_EV = I2C_REGIDX_BIT(I2C_CTL1_REG_OFFSET, 9U), /*!< event interrupt enable */ + I2C_INT_BUF = I2C_REGIDX_BIT(I2C_CTL1_REG_OFFSET, 10U), /*!< buffer interrupt enable */ +}i2c_interrupt_enum; + +/* SMBus/I2C mode switch and SMBus type selection */ +#define I2C_I2CMODE_ENABLE ((uint32_t)0x00000000U) /*!< I2C mode */ +#define I2C_SMBUSMODE_ENABLE I2C_CTL0_SMBEN /*!< SMBus mode */ + +/* SMBus/I2C mode switch and SMBus type selection */ +#define I2C_SMBUS_DEVICE ((uint32_t)0x00000000U) /*!< SMBus mode device type */ +#define I2C_SMBUS_HOST I2C_CTL0_SMBSEL /*!< SMBus mode host type */ + +/* I2C transfer direction */ +#define I2C_RECEIVER ((uint32_t)0x00000001U) /*!< receiver */ +#define I2C_TRANSMITTER ((uint32_t)0xFFFFFFFEU) /*!< transmitter */ + +/* whether or not to send an ACK */ +#define I2C_ACK_DISABLE ((uint32_t)0x00000000U) /*!< ACK will be not sent */ +#define I2C_ACK_ENABLE I2C_CTL0_ACKEN /*!< ACK will be sent */ + +/* I2C POAP position*/ +#define I2C_ACKPOS_CURRENT ((uint32_t)0x00000000U) /*!< ACKEN bit decides whether or not to send ACK or not for the current byte */ +#define I2C_ACKPOS_NEXT I2C_CTL0_POAP /*!< ACKEN bit decides whether or not to send ACK for the next byte */ + +/* I2C dual-address mode switch */ +#define I2C_DUADEN_DISABLE ((uint32_t)0x00000000U) /*!< dual-address mode disabled */ +#define I2C_DUADEN_ENABLE ((uint32_t)0x00000001U) /*!< dual-address mode enabled */ + +/* whether or not to stretch SCL low */ +#define I2C_SCLSTRETCH_ENABLE ((uint32_t)0x00000000U) /*!< SCL stretching is enabled */ +#define I2C_SCLSTRETCH_DISABLE I2C_CTL0_SS /*!< SCL stretching is disabled */ + +/* whether or not to response to a general call */ +#define I2C_GCEN_ENABLE I2C_CTL0_GCEN /*!< slave will response to a general call */ +#define I2C_GCEN_DISABLE ((uint32_t)0x00000000U) /*!< slave will not response to a general call */ + +/* software reset I2C */ +#define I2C_SRESET_SET I2C_CTL0_SRESET /*!< I2C is under reset */ +#define I2C_SRESET_RESET ((uint32_t)0x00000000U) /*!< I2C is not under reset */ + +/* I2C DMA mode configure */ +/* DMA mode switch */ +#define I2C_DMA_ON I2C_CTL1_DMAON /*!< DMA mode enabled */ +#define I2C_DMA_OFF ((uint32_t)0x00000000U) /*!< DMA mode disabled */ + +/* flag indicating DMA last transfer */ +#define I2C_DMALST_ON I2C_CTL1_DMALST /*!< next DMA EOT is the last transfer */ +#define I2C_DMALST_OFF ((uint32_t)0x00000000U) /*!< next DMA EOT is not the last transfer */ + +/* I2C PEC configure */ +/* PEC enable */ +#define I2C_PEC_ENABLE I2C_CTL0_PECEN /*!< PEC calculation on */ +#define I2C_PEC_DISABLE ((uint32_t)0x00000000U) /*!< PEC calculation off */ + +/* PEC transfer */ +#define I2C_PECTRANS_ENABLE I2C_CTL0_PECTRANS /*!< transfer PEC */ +#define I2C_PECTRANS_DISABLE ((uint32_t)0x00000000U) /*!< not transfer PEC value */ + +/* I2C SMBus configure */ +/* issue or not alert through SMBA pin */ +#define I2C_SALTSEND_ENABLE I2C_CTL0_SALT /*!< issue alert through SMBA pin */ +#define I2C_SALTSEND_DISABLE ((uint32_t)0x00000000U) /*!< not issue alert through SMBA */ + +/* ARP protocol in SMBus switch */ +#define I2C_ARP_ENABLE I2C_CTL0_ARPEN /*!< ARP enable */ +#define I2C_ARP_DISABLE ((uint32_t)0x00000000U) /*!< ARP disable */ + +/* fast mode plus enable */ +#define I2C_FAST_MODE_PLUS_ENABLE I2C_FMPCFG_FMPEN /*!< fast mode plus enable */ +#define I2C_FAST_MODE_PLUS_DISABLE ((uint32_t)0x00000000U) /*!< fast mode plus disable */ + +/* transmit I2C data */ +#define DATA_TRANS(regval) (BITS(0,7) & ((uint32_t)(regval) << 0)) + +/* receive I2C data */ +#define DATA_RECV(regval) GET_BITS((uint32_t)(regval), 0, 7) + +/* I2C duty cycle in fast mode or fast mode plus */ +#define I2C_DTCY_2 ((uint32_t)0x00000000U) /*!< in I2C fast mode or fast mode plus Tlow/Thigh = 2 */ +#define I2C_DTCY_16_9 I2C_CKCFG_DTCY /*!< in I2C fast mode or fast mode plus Tlow/Thigh = 16/9 */ + +/* address mode for the I2C slave */ +#define I2C_ADDFORMAT_7BITS ((uint32_t)0x00000000U) /*!< address:7 bits */ +#define I2C_ADDFORMAT_10BITS I2C_SADDR0_ADDFORMAT /*!< address:10 bits */ + +/* function declarations */ +/* initialization functions */ +/* reset I2C */ +void i2c_deinit(uint32_t i2c_periph); +/* configure I2C clock */ +void i2c_clock_config(uint32_t i2c_periph, uint32_t clkspeed, uint32_t dutycyc); +/* configure I2C address */ +void i2c_mode_addr_config(uint32_t i2c_periph, uint32_t mode, uint32_t addformat, uint32_t addr); + +/* application function declarations */ +/* select SMBus type */ +void i2c_smbus_type_config(uint32_t i2c_periph, uint32_t type); +/* whether or not to send an ACK */ +void i2c_ack_config(uint32_t i2c_periph, uint32_t ack); +/* configure I2C POAP position */ +void i2c_ackpos_config(uint32_t i2c_periph, uint32_t pos); +/* master sends slave address */ +void i2c_master_addressing(uint32_t i2c_periph, uint32_t addr, uint32_t trandirection); +/* enable dual-address mode */ +void i2c_dualaddr_enable(uint32_t i2c_periph, uint32_t dualaddr); +/* disable dual-address mode */ +void i2c_dualaddr_disable(uint32_t i2c_periph); +/* enable I2C */ +void i2c_enable(uint32_t i2c_periph); +/* disable I2C */ +void i2c_disable(uint32_t i2c_periph); +/* generate a START condition on I2C bus */ +void i2c_start_on_bus(uint32_t i2c_periph); +/* generate a STOP condition on I2C bus */ +void i2c_stop_on_bus(uint32_t i2c_periph); +/* I2C transmit data function */ +void i2c_data_transmit(uint32_t i2c_periph, uint8_t data); +/* I2C receive data function */ +uint8_t i2c_data_receive(uint32_t i2c_periph); +/* configure I2C DMA mode */ +void i2c_dma_config(uint32_t i2c_periph, uint32_t dmastate); +/* configure whether next DMA EOT is DMA last transfer or not */ +void i2c_dma_last_transfer_config(uint32_t i2c_periph, uint32_t dmalast); +/* whether to stretch SCL low when data is not ready in slave mode */ +void i2c_stretch_scl_low_config(uint32_t i2c_periph, uint32_t stretchpara); +/* whether or not to response to a general call */ +void i2c_slave_response_to_gcall_config(uint32_t i2c_periph, uint32_t gcallpara); +/* configure software reset of I2C */ +void i2c_software_reset_config(uint32_t i2c_periph, uint32_t sreset); +/* configure I2C PEC calculation */ +void i2c_pec_config(uint32_t i2c_periph, uint32_t pecstate); +/* configure whether to transfer PEC value */ +void i2c_pec_transfer_config(uint32_t i2c_periph, uint32_t pecpara); +/* get packet error checking value */ +uint8_t i2c_pec_value_get(uint32_t i2c_periph); +/* configure I2C alert through SMBA pin */ +void i2c_smbus_alert_config(uint32_t i2c_periph, uint32_t smbuspara); +/* configure I2C ARP protocol in SMBus */ +void i2c_smbus_arp_config(uint32_t i2c_periph, uint32_t arpstate); + +/* interrupt & flag functions */ +/* get I2C flag status */ +FlagStatus i2c_flag_get(uint32_t i2c_periph, i2c_flag_enum flag); +/* clear I2C flag status */ +void i2c_flag_clear(uint32_t i2c_periph, i2c_flag_enum flag); +/* enable I2C interrupt */ +void i2c_interrupt_enable(uint32_t i2c_periph, i2c_interrupt_enum interrupt); +/* disable I2C interrupt */ +void i2c_interrupt_disable(uint32_t i2c_periph, i2c_interrupt_enum interrupt); +/* get I2C interrupt flag status */ +FlagStatus i2c_interrupt_flag_get(uint32_t i2c_periph, i2c_interrupt_flag_enum int_flag); +/* clear I2C interrupt flag status */ +void i2c_interrupt_flag_clear(uint32_t i2c_periph, i2c_interrupt_flag_enum int_flag); + +#endif /* GD32F30X_I2C_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_misc.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_misc.h new file mode 100644 index 0000000000..3b58b3067b --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_misc.h @@ -0,0 +1,94 @@ +/*! + \file gd32f30x_misc.h + \brief definitions for the MISC + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_MISC_H +#define GD32F30X_MISC_H + +#include "gd32f30x.h" + +/* constants definitions */ +/* set the RAM and FLASH base address */ +#define NVIC_VECTTAB_RAM ((uint32_t)0x20000000) /*!< RAM base address */ +#define NVIC_VECTTAB_FLASH ((uint32_t)0x08000000) /*!< Flash base address */ + +/* set the NVIC vector table offset mask */ +#define NVIC_VECTTAB_OFFSET_MASK ((uint32_t)0x1FFFFF80) + +/* the register key mask, if you want to do the write operation, you should write 0x5FA to VECTKEY bits */ +#define NVIC_AIRCR_VECTKEY_MASK ((uint32_t)0x05FA0000) + +/* priority group - define the pre-emption priority and the subpriority */ +#define NVIC_PRIGROUP_PRE0_SUB4 ((uint32_t)0x700) /*!< 0 bits for pre-emption priority 4 bits for subpriority */ +#define NVIC_PRIGROUP_PRE1_SUB3 ((uint32_t)0x600) /*!< 1 bits for pre-emption priority 3 bits for subpriority */ +#define NVIC_PRIGROUP_PRE2_SUB2 ((uint32_t)0x500) /*!< 2 bits for pre-emption priority 2 bits for subpriority */ +#define NVIC_PRIGROUP_PRE3_SUB1 ((uint32_t)0x400) /*!< 3 bits for pre-emption priority 1 bits for subpriority */ +#define NVIC_PRIGROUP_PRE4_SUB0 ((uint32_t)0x300) /*!< 4 bits for pre-emption priority 0 bits for subpriority */ + +/* choose the method to enter or exit the lowpower mode */ +#define SCB_SCR_SLEEPONEXIT ((uint8_t)0x02) /*!< choose the the system whether enter low power mode by exiting from ISR */ +#define SCB_SCR_SLEEPDEEP ((uint8_t)0x04) /*!< choose the the system enter the DEEPSLEEP mode or SLEEP mode */ +#define SCB_SCR_SEVONPEND ((uint8_t)0x10) /*!< choose the interrupt source that can wake up the lowpower mode */ + +#define SCB_LPM_SLEEP_EXIT_ISR SCB_SCR_SLEEPONEXIT +#define SCB_LPM_DEEPSLEEP SCB_SCR_SLEEPDEEP +#define SCB_LPM_WAKE_BY_ALL_INT SCB_SCR_SEVONPEND + +/* choose the systick clock source */ +#define SYSTICK_CLKSOURCE_HCLK_DIV8 ((uint32_t)0xFFFFFFFBU) /*!< systick clock source is from HCLK/8 */ +#define SYSTICK_CLKSOURCE_HCLK ((uint32_t)0x00000004U) /*!< systick clock source is from HCLK */ + +/* function declarations */ +/* set the priority group */ +void nvic_priority_group_set(uint32_t nvic_prigroup); + +/* enable NVIC request */ +void nvic_irq_enable(uint8_t nvic_irq, uint8_t nvic_irq_pre_priority, uint8_t nvic_irq_sub_priority); +/* disable NVIC request */ +void nvic_irq_disable(uint8_t nvic_irq); + +/* set the NVIC vector table base address */ +void nvic_vector_table_set(uint32_t nvic_vict_tab, uint32_t offset); + +/* set the state of the low power mode */ +void system_lowpower_set(uint8_t lowpower_mode); +/* reset the state of the low power mode */ +void system_lowpower_reset(uint8_t lowpower_mode); + +/* set the systick clock source */ +void systick_clksource_set(uint32_t systick_clksource); + +#endif /* GD32F30X_MISC_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_pmu.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_pmu.h new file mode 100644 index 0000000000..73a1a4072d --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_pmu.h @@ -0,0 +1,192 @@ +/*! + \file gd32f30x_pmu.h + \brief definitions for the PMU + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + + +#ifndef GD32F30X_PMU_H +#define GD32F30X_PMU_H + +#include "gd32f30x.h" + +/* PMU definitions */ +#define PMU PMU_BASE /*!< PMU base address */ + +/* registers definitions */ +#define PMU_CTL REG32((PMU) + 0x00000000U) /*!< PMU control register */ +#define PMU_CS REG32((PMU) + 0x00000004U) /*!< PMU control and status register */ + +/* bits definitions */ +/* PMU_CTL */ +#define PMU_CTL_LDOLP BIT(0) /*!< LDO low power mode */ +#define PMU_CTL_STBMOD BIT(1) /*!< standby mode */ +#define PMU_CTL_WURST BIT(2) /*!< wakeup flag reset */ +#define PMU_CTL_STBRST BIT(3) /*!< standby flag reset */ +#define PMU_CTL_LVDEN BIT(4) /*!< low voltage detector enable */ +#define PMU_CTL_LVDT BITS(5,7) /*!< low voltage detector threshold */ +#define PMU_CTL_BKPWEN BIT(8) /*!< backup domain write enable */ +#define PMU_CTL_LDLP BIT(10) /*!< low-driver mode when use low power LDO */ +#define PMU_CTL_LDNP BIT(11) /*!< low-driver mode when use normal power LDO */ +#define PMU_CTL_LDOVS BITS(14,15) /*!< LDO output voltage select */ +#define PMU_CTL_HDEN BIT(16) /*!< high-driver mode enable */ +#define PMU_CTL_HDS BIT(17) /*!< high-driver mode switch */ +#define PMU_CTL_LDEN BITS(18,19) /*!< low-driver mode enable in deep-sleep mode */ + +/* PMU_CS */ +#define PMU_CS_WUF BIT(0) /*!< wakeup flag */ +#define PMU_CS_STBF BIT(1) /*!< standby flag */ +#define PMU_CS_LVDF BIT(2) /*!< low voltage detector status flag */ +#define PMU_CS_WUPEN BIT(8) /*!< wakeup pin enable */ +#define PMU_CS_LDOVSRF BIT(14) /*!< LDO voltage select ready flag */ +#define PMU_CS_HDRF BIT(16) /*!< high-driver ready flag */ +#define PMU_CS_HDSRF BIT(17) /*!< high-driver switch ready flag */ +#define PMU_CS_LDRF BITS(18,19) /*!< Low-driver mode ready flag */ + +/* constants definitions */ +/* PMU ldo definitions */ +#define PMU_LDO_NORMAL ((uint32_t)0x00000000U) /*!< LDO normal work when PMU enter deepsleep mode */ +#define PMU_LDO_LOWPOWER PMU_CTL_LDOLP /*!< LDO work in low power status when PMU enter deepsleep mode */ + +/* PMU low voltage detector threshold definitions */ +#define CTL_LVDT(regval) (BITS(5,7)&((uint32_t)(regval)<<5)) +#define PMU_LVDT_0 CTL_LVDT(0) /*!< voltage threshold is 2.1V */ +#define PMU_LVDT_1 CTL_LVDT(1) /*!< voltage threshold is 2.3V */ +#define PMU_LVDT_2 CTL_LVDT(2) /*!< voltage threshold is 2.4V */ +#define PMU_LVDT_3 CTL_LVDT(3) /*!< voltage threshold is 2.6V */ +#define PMU_LVDT_4 CTL_LVDT(4) /*!< voltage threshold is 2.7V */ +#define PMU_LVDT_5 CTL_LVDT(5) /*!< voltage threshold is 2.9V */ +#define PMU_LVDT_6 CTL_LVDT(6) /*!< voltage threshold is 3.0V */ +#define PMU_LVDT_7 CTL_LVDT(7) /*!< voltage threshold is 3.1V */ + +/* PMU low-driver mode when use low power LDO */ +#define CTL_LDLP(regval) (BIT(10)&((uint32_t)(regval)<<10)) +#define PMU_NORMALDR_LOWPWR CTL_LDLP(0) /*!< normal driver when use low power LDO */ +#define PMU_LOWDR_LOWPWR CTL_LDLP(1) /*!< low-driver mode enabled when LDEN is 11 and use low power LDO */ + +/* PMU low-driver mode when use normal power LDO */ +#define CTL_LDNP(regval) (BIT(11)&((uint32_t)(regval)<<11)) +#define PMU_NORMALDR_NORMALPWR CTL_LDNP(0) /*!< normal driver when use normal power LDO */ +#define PMU_LOWDR_NORMALPWR CTL_LDNP(1) /*!< low-driver mode enabled when LDEN is 11 and use normal power LDO */ + +/* PMU LDO output voltage select definitions */ +#define CTL_LDOVS(regval) (BITS(14,15)&((uint32_t)(regval)<<14)) +#define PMU_LDOVS_LOW CTL_LDOVS(1) /*!< LDO output voltage low mode */ +#define PMU_LDOVS_MID CTL_LDOVS(2) /*!< LDO output voltage mid mode */ +#define PMU_LDOVS_HIGH CTL_LDOVS(3) /*!< LDO output voltage high mode */ + +/* PMU high-driver mode switch */ +#define CTL_HDS(regval) (BIT(17)&((uint32_t)(regval)<<17)) +#define PMU_HIGHDR_SWITCH_NONE CTL_HDS(0) /*!< no high-driver mode switch */ +#define PMU_HIGHDR_SWITCH_EN CTL_HDS(1) /*!< high-driver mode switch */ + +/* low-driver mode in deep-sleep mode */ +#define PMU_LOWDRIVER_DISABLE ((uint32_t)0x00000000U) /*!< low-driver mode disable in deep-sleep mode */ +#define PMU_LOWDRIVER_ENABLE PMU_CTL_LDEN /*!< low-driver mode enable in deep-sleep mode */ + +/* PMU low power mode ready flag definitions */ +#define CS_LDRF(regval) (BITS(18,19)&((uint32_t)(regval)<<18)) +#define PMU_LDRF_NORMAL CS_LDRF(0) /*!< normal driver in deep-sleep mode */ +#define PMU_LDRF_LOWDRIVER CS_LDRF(3) /*!< low-driver mode in deep-sleep mode */ + +/* PMU flag definitions */ +#define PMU_FLAG_WAKEUP PMU_CS_WUF /*!< wakeup flag status */ +#define PMU_FLAG_STANDBY PMU_CS_STBF /*!< standby flag status */ +#define PMU_FLAG_LVD PMU_CS_LVDF /*!< lvd flag status */ +#define PMU_FLAG_LDOVSRF PMU_CS_LDOVSRF /*!< LDO voltage select ready flag */ +#define PMU_FLAG_HDRF PMU_CS_HDRF /*!< high-driver ready flag */ +#define PMU_FLAG_HDSRF PMU_CS_HDSRF /*!< high-driver switch ready flag */ +#define PMU_FLAG_LDRF PMU_CS_LDRF /*!< low-driver mode ready flag */ + +/* PMU flag reset definitions */ +#define PMU_FLAG_RESET_WAKEUP ((uint8_t)0x00U) /*!< wakeup flag reset */ +#define PMU_FLAG_RESET_STANDBY ((uint8_t)0x01U) /*!< standby flag reset */ + +/* PMU command constants definitions */ +#define WFI_CMD ((uint8_t)0x00U) /*!< use WFI command */ +#define WFE_CMD ((uint8_t)0x01U) /*!< use WFE command */ + +/* function declarations */ +/* reset PMU registers */ +void pmu_deinit(void); + +/* LVD functions */ +/* select low voltage detector threshold */ +void pmu_lvd_select(uint32_t lvdt_n); +/* select LDO output voltage */ +void pmu_ldo_output_select(uint32_t ldo_output); +/* disable PMU lvd */ +void pmu_lvd_disable(void); + +/* functions of low-driver mode and high-driver mode in deep-sleep mode */ +/* switch high-driver mode */ +void pmu_highdriver_switch_select(uint32_t highdr_switch); +/* enable high-driver mode */ +void pmu_highdriver_mode_enable(void); +/* disable high-driver mode */ +void pmu_highdriver_mode_disable(void); +/* enable low-driver mode in deep-sleep mode */ +void pmu_lowdriver_mode_enable(void); +/* disable low-driver mode in deep-sleep mode */ +void pmu_lowdriver_mode_disable(void); +/* in deep-sleep mode, driver mode when use low power LDO */ +void pmu_lowpower_driver_config(uint32_t mode); +/* in deep-sleep mode, driver mode when use normal power LDO */ +void pmu_normalpower_driver_config(uint32_t mode); + +/* set PMU mode */ +/* PMU work in sleep mode */ +void pmu_to_sleepmode(uint8_t sleepmodecmd); +/* PMU work in deepsleep mode */ +void pmu_to_deepsleepmode(uint32_t ldo, uint32_t lowdrive, uint8_t deepsleepmodecmd); +/* PMU work in standby mode */ +void pmu_to_standbymode(void); +/* enable PMU wakeup pin */ +void pmu_wakeup_pin_enable(void); +/* disable PMU wakeup pin */ +void pmu_wakeup_pin_disable(void); + +/* backup related functions */ +/* enable backup domain write */ +void pmu_backup_write_enable(void); +/* disable backup domain write */ +void pmu_backup_write_disable(void); + +/* flag functions */ +/* get flag state */ +FlagStatus pmu_flag_get(uint32_t flag); +/* clear flag bit */ +void pmu_flag_clear(uint32_t flag); + +#endif /* GD32F30X_PMU_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_rcu.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_rcu.h new file mode 100644 index 0000000000..2df44c6e7a --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_rcu.h @@ -0,0 +1,1070 @@ +/*! + \file gd32f30x_rcu.h + \brief definitions for the RCU + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_RCU_H +#define GD32F30X_RCU_H + +#include "gd32f30x.h" + +/* RCU definitions */ +#define RCU RCU_BASE + +/* registers definitions */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define RCU_CTL REG32(RCU + 0x00U) /*!< control register */ +#define RCU_CFG0 REG32(RCU + 0x04U) /*!< clock configuration register 0 */ +#define RCU_INT REG32(RCU + 0x08U) /*!< clock interrupt register */ +#define RCU_APB2RST REG32(RCU + 0x0CU) /*!< APB2 reset register */ +#define RCU_APB1RST REG32(RCU + 0x10U) /*!< APB1 reset register */ +#define RCU_AHBEN REG32(RCU + 0x14U) /*!< AHB enable register */ +#define RCU_APB2EN REG32(RCU + 0x18U) /*!< APB2 enable register */ +#define RCU_APB1EN REG32(RCU + 0x1CU) /*!< APB1 enable register */ +#define RCU_BDCTL REG32(RCU + 0x20U) /*!< backup domain control register */ +#define RCU_RSTSCK REG32(RCU + 0x24U) /*!< reset source / clock register */ +#define RCU_CFG1 REG32(RCU + 0x2CU) /*!< clock configuration register 1 */ +#define RCU_DSV REG32(RCU + 0x34U) /*!< deep-sleep mode voltage register */ +#define RCU_ADDCTL REG32(RCU + 0xC0U) /*!< Additional clock control register */ +#define RCU_ADDINT REG32(RCU + 0xCCU) /*!< Additional clock interrupt register */ +#define RCU_ADDAPB1RST REG32(RCU + 0xE0U) /*!< APB1 additional reset register */ +#define RCU_ADDAPB1EN REG32(RCU + 0xE4U) /*!< APB1 additional enable register */ +#elif defined(GD32F30X_CL) +#define RCU_CTL REG32(RCU + 0x00U) /*!< control register */ +#define RCU_CFG0 REG32(RCU + 0x04U) /*!< clock configuration register 0 */ +#define RCU_INT REG32(RCU + 0x08U) /*!< clock interrupt register */ +#define RCU_APB2RST REG32(RCU + 0x0CU) /*!< APB2 reset register */ +#define RCU_APB1RST REG32(RCU + 0x10U) /*!< APB1 reset register */ +#define RCU_AHBEN REG32(RCU + 0x14U) /*!< AHB1 enable register */ +#define RCU_APB2EN REG32(RCU + 0x18U) /*!< APB2 enable register */ +#define RCU_APB1EN REG32(RCU + 0x1CU) /*!< APB1 enable register */ +#define RCU_BDCTL REG32(RCU + 0x20U) /*!< backup domain control register */ +#define RCU_RSTSCK REG32(RCU + 0x24U) /*!< reset source / clock register */ +#define RCU_AHBRST REG32(RCU + 0x28U) /*!< AHB reset register */ +#define RCU_CFG1 REG32(RCU + 0x2CU) /*!< clock configuration register 1 */ +#define RCU_DSV REG32(RCU + 0x34U) /*!< deep-sleep mode voltage register */ +#define RCU_ADDCTL REG32(RCU + 0xC0U) /*!< Additional clock control register */ +#define RCU_ADDINT REG32(RCU + 0xCCU) /*!< Additional clock interrupt register */ +#define RCU_ADDAPB1RST REG32(RCU + 0xE0U) /*!< APB1 additional reset register */ +#define RCU_ADDAPB1EN REG32(RCU + 0xE4U) /*!< APB1 additional enable register */ +#endif /* GD32F30X_HD and GD32F30X_XD */ + +/* bits definitions */ +/* RCU_CTL */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define RCU_CTL_IRC8MEN BIT(0) /*!< internal high speed oscillator enable */ +#define RCU_CTL_IRC8MSTB BIT(1) /*!< IRC8M high speed internal oscillator stabilization flag */ +#define RCU_CTL_IRC8MADJ BITS(3,7) /*!< high speed internal oscillator clock trim adjust value */ +#define RCU_CTL_IRC8MCALIB BITS(8,15) /*!< high speed internal oscillator calibration value register */ +#define RCU_CTL_HXTALEN BIT(16) /*!< external high speed oscillator enable */ +#define RCU_CTL_HXTALSTB BIT(17) /*!< external crystal oscillator clock stabilization flag */ +#define RCU_CTL_HXTALBPS BIT(18) /*!< external crystal oscillator clock bypass mode enable */ +#define RCU_CTL_CKMEN BIT(19) /*!< HXTAL clock monitor enable */ +#define RCU_CTL_PLLEN BIT(24) /*!< PLL enable */ +#define RCU_CTL_PLLSTB BIT(25) /*!< PLL clock stabilization flag */ +#elif defined(GD32F30X_CL) +#define RCU_CTL_IRC8MEN BIT(0) /*!< internal high speed oscillator enable */ +#define RCU_CTL_IRC8MSTB BIT(1) /*!< IRC8M high speed internal oscillator stabilization flag */ +#define RCU_CTL_IRC8MADJ BITS(3,7) /*!< high speed internal oscillator clock trim adjust value */ +#define RCU_CTL_IRC8MCALIB BITS(8,15) /*!< high speed internal oscillator calibration value register */ +#define RCU_CTL_HXTALEN BIT(16) /*!< external high speed oscillator enable */ +#define RCU_CTL_HXTALSTB BIT(17) /*!< external crystal oscillator clock stabilization flag */ +#define RCU_CTL_HXTALBPS BIT(18) /*!< external crystal oscillator clock bypass mode enable */ +#define RCU_CTL_CKMEN BIT(19) /*!< HXTAL clock monitor enable */ +#define RCU_CTL_PLLEN BIT(24) /*!< PLL enable */ +#define RCU_CTL_PLLSTB BIT(25) /*!< PLL clock stabilization flag */ +#define RCU_CTL_PLL1EN BIT(26) /*!< PLL1 enable */ +#define RCU_CTL_PLL1STB BIT(27) /*!< PLL1 clock stabilization flag */ +#define RCU_CTL_PLL2EN BIT(28) /*!< PLL2 enable */ +#define RCU_CTL_PLL2STB BIT(29) /*!< PLL2 clock stabilization flag */ +#endif /* GD32F30X_HD and GD32F30X_XD */ + +/* RCU_CFG0 */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define RCU_CFG0_SCS BITS(0,1) /*!< system clock switch */ +#define RCU_CFG0_SCSS BITS(2,3) /*!< system clock switch status */ +#define RCU_CFG0_AHBPSC BITS(4,7) /*!< AHB prescaler selection */ +#define RCU_CFG0_APB1PSC BITS(8,10) /*!< APB1 prescaler selection */ +#define RCU_CFG0_APB2PSC BITS(11,13) /*!< APB2 prescaler selection */ +#define RCU_CFG0_ADCPSC BITS(14,15) /*!< ADC prescaler selection */ +#define RCU_CFG0_PLLSEL BIT(16) /*!< PLL clock source selection */ +#define RCU_CFG0_PREDV0 BIT(17) /*!< PREDV0 division factor */ +#define RCU_CFG0_PLLMF BITS(18,21) /*!< PLL clock multiplication factor */ +#define RCU_CFG0_USBDPSC BITS(22,23) /*!< USBD clock prescaler selection */ +#define RCU_CFG0_CKOUT0SEL BITS(24,26) /*!< CKOUT0 clock source selection */ +#define RCU_CFG0_PLLMF_4 BIT(27) /*!< bit 4 of PLLMF */ +#define RCU_CFG0_ADCPSC_2 BIT(28) /*!< bit 2 of ADCPSC */ +#define RCU_CFG0_PLLMF_5 BIT(30) /*!< bit 5 of PLLMF */ +#define RCU_CFG0_USBDPSC_2 BIT(31) /*!< bit 2 of USBDPSC */ +#elif defined(GD32F30X_CL) +#define RCU_CFG0_SCS BITS(0,1) /*!< system clock switch */ +#define RCU_CFG0_SCSS BITS(2,3) /*!< system clock switch status */ +#define RCU_CFG0_AHBPSC BITS(4,7) /*!< AHB prescaler selection */ +#define RCU_CFG0_APB1PSC BITS(8,10) /*!< APB1 prescaler selection */ +#define RCU_CFG0_APB2PSC BITS(11,13) /*!< APB2 prescaler selection */ +#define RCU_CFG0_ADCPSC BITS(14,15) /*!< ADC prescaler selection */ +#define RCU_CFG0_PLLSEL BIT(16) /*!< PLL clock source selection */ +#define RCU_CFG0_PREDV0_LSB BIT(17) /*!< the LSB of PREDV0 division factor */ +#define RCU_CFG0_PLLMF BITS(18,21) /*!< PLL clock multiplication factor */ +#define RCU_CFG0_USBFSPSC BITS(22,23) /*!< USBFS clock prescaler selection */ +#define RCU_CFG0_CKOUT0SEL BITS(24,27) /*!< CKOUT0 clock source selection */ +#define RCU_CFG0_ADCPSC_2 BIT(28) /*!< bit 2 of ADCPSC */ +#define RCU_CFG0_PLLMF_4 BIT(29) /*!< bit 4 of PLLMF */ +#define RCU_CFG0_PLLMF_5 BIT(30) /*!< bit 5 of PLLMF */ +#define RCU_CFG0_USBFSPSC_2 BIT(31) /*!< bit 2 of USBFSPSC */ +#endif /* GD32F30X_HD and GD32F30X_XD */ + +/* RCU_INT */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define RCU_INT_IRC40KSTBIF BIT(0) /*!< IRC40K stabilization interrupt flag */ +#define RCU_INT_LXTALSTBIF BIT(1) /*!< LXTAL stabilization interrupt flag */ +#define RCU_INT_IRC8MSTBIF BIT(2) /*!< IRC8M stabilization interrupt flag */ +#define RCU_INT_HXTALSTBIF BIT(3) /*!< HXTAL stabilization interrupt flag */ +#define RCU_INT_PLLSTBIF BIT(4) /*!< PLL stabilization interrupt flag */ +#define RCU_INT_CKMIF BIT(7) /*!< HXTAL clock stuck interrupt flag */ +#define RCU_INT_IRC40KSTBIE BIT(8) /*!< IRC40K stabilization interrupt enable */ +#define RCU_INT_LXTALSTBIE BIT(9) /*!< LXTAL stabilization interrupt enable */ +#define RCU_INT_IRC8MSTBIE BIT(10) /*!< IRC8M stabilization interrupt enable */ +#define RCU_INT_HXTALSTBIE BIT(11) /*!< HXTAL stabilization interrupt enable */ +#define RCU_INT_PLLSTBIE BIT(12) /*!< PLL stabilization interrupt enable */ +#define RCU_INT_IRC40KSTBIC BIT(16) /*!< IRC40K Stabilization interrupt clear */ +#define RCU_INT_LXTALSTBIC BIT(17) /*!< LXTAL Stabilization interrupt clear */ +#define RCU_INT_IRC8MSTBIC BIT(18) /*!< IRC8M Stabilization interrupt clear */ +#define RCU_INT_HXTALSTBIC BIT(19) /*!< HXTAL Stabilization interrupt clear */ +#define RCU_INT_PLLSTBIC BIT(20) /*!< PLL stabilization interrupt clear */ +#define RCU_INT_CKMIC BIT(23) /*!< HXTAL clock stuck interrupt clear */ +#elif defined(GD32F30X_CL) +#define RCU_INT_IRC40KSTBIF BIT(0) /*!< IRC40K stabilization interrupt flag */ +#define RCU_INT_LXTALSTBIF BIT(1) /*!< LXTAL stabilization interrupt flag */ +#define RCU_INT_IRC8MSTBIF BIT(2) /*!< IRC8M stabilization interrupt flag */ +#define RCU_INT_HXTALSTBIF BIT(3) /*!< HXTAL stabilization interrupt flag */ +#define RCU_INT_PLLSTBIF BIT(4) /*!< PLL stabilization interrupt flag */ +#define RCU_INT_PLL1STBIF BIT(5) /*!< PLL1 stabilization interrupt flag */ +#define RCU_INT_PLL2STBIF BIT(6) /*!< PLL2 stabilization interrupt flag */ +#define RCU_INT_CKMIF BIT(7) /*!< HXTAL clock stuck interrupt flag */ +#define RCU_INT_IRC40KSTBIE BIT(8) /*!< IRC40K stabilization interrupt enable */ +#define RCU_INT_LXTALSTBIE BIT(9) /*!< LXTAL stabilization interrupt enable */ +#define RCU_INT_IRC8MSTBIE BIT(10) /*!< IRC8M stabilization interrupt enable */ +#define RCU_INT_HXTALSTBIE BIT(11) /*!< HXTAL stabilization interrupt enable */ +#define RCU_INT_PLLSTBIE BIT(12) /*!< PLL stabilization interrupt enable */ +#define RCU_INT_PLL1STBIE BIT(13) /*!< PLL1 stabilization interrupt enable */ +#define RCU_INT_PLL2STBIE BIT(14) /*!< PLL2 stabilization interrupt enable */ +#define RCU_INT_IRC40KSTBIC BIT(16) /*!< IRC40K stabilization interrupt clear */ +#define RCU_INT_LXTALSTBIC BIT(17) /*!< LXTAL stabilization interrupt clear */ +#define RCU_INT_IRC8MSTBIC BIT(18) /*!< IRC8M stabilization interrupt clear */ +#define RCU_INT_HXTALSTBIC BIT(19) /*!< HXTAL stabilization interrupt clear */ +#define RCU_INT_PLLSTBIC BIT(20) /*!< PLL stabilization interrupt clear */ +#define RCU_INT_PLL1STBIC BIT(21) /*!< PLL1 stabilization interrupt clear */ +#define RCU_INT_PLL2STBIC BIT(22) /*!< PLL2 stabilization interrupt clear */ +#define RCU_INT_CKMIC BIT(23) /*!< HXTAL clock stuck interrupt clear */ +#endif /* GD32F30X_HD and GD32F30X_XD */ + +/* RCU_APB2RST */ +#define RCU_APB2RST_AFRST BIT(0) /*!< alternate function I/O reset */ +#define RCU_APB2RST_PARST BIT(2) /*!< GPIO port A reset */ +#define RCU_APB2RST_PBRST BIT(3) /*!< GPIO port B reset */ +#define RCU_APB2RST_PCRST BIT(4) /*!< GPIO port C reset */ +#define RCU_APB2RST_PDRST BIT(5) /*!< GPIO port D reset */ +#define RCU_APB2RST_PERST BIT(6) /*!< GPIO port E reset */ +#define RCU_APB2RST_PFRST BIT(7) /*!< GPIO port F reset */ +#define RCU_APB2RST_PGRST BIT(8) /*!< GPIO port G reset */ +#define RCU_APB2RST_ADC0RST BIT(9) /*!< ADC0 reset */ +#define RCU_APB2RST_ADC1RST BIT(10) /*!< ADC1 reset */ +#define RCU_APB2RST_TIMER0RST BIT(11) /*!< TIMER0 reset */ +#define RCU_APB2RST_SPI0RST BIT(12) /*!< SPI0 reset */ +#define RCU_APB2RST_TIMER7RST BIT(13) /*!< TIMER7 reset */ +#define RCU_APB2RST_USART0RST BIT(14) /*!< USART0 reset */ +#ifndef GD32F30X_CL +#define RCU_APB2RST_ADC2RST BIT(15) /*!< ADC2 reset */ +#endif /* GD32F30X_CL */ +#ifndef GD32F30X_HD +#define RCU_APB2RST_TIMER8RST BIT(19) /*!< TIMER8 reset */ +#define RCU_APB2RST_TIMER9RST BIT(20) /*!< TIMER9 reset */ +#define RCU_APB2RST_TIMER10RST BIT(21) /*!< TIMER10 reset */ +#endif /* GD32F30X_HD */ + +/* RCU_APB1RST */ +#define RCU_APB1RST_TIMER1RST BIT(0) /*!< TIMER1 reset */ +#define RCU_APB1RST_TIMER2RST BIT(1) /*!< TIMER2 reset */ +#define RCU_APB1RST_TIMER3RST BIT(2) /*!< TIMER3 reset */ +#define RCU_APB1RST_TIMER4RST BIT(3) /*!< TIMER4 reset */ +#define RCU_APB1RST_TIMER5RST BIT(4) /*!< TIMER5 reset */ +#define RCU_APB1RST_TIMER6RST BIT(5) /*!< TIMER6 reset */ +#ifndef GD32F30X_HD +#define RCU_APB1RST_TIMER11RST BIT(6) /*!< TIMER11 reset */ +#define RCU_APB1RST_TIMER12RST BIT(7) /*!< TIMER12 reset */ +#define RCU_APB1RST_TIMER13RST BIT(8) /*!< TIMER13 reset */ +#endif /* GD32F30X_HD */ +#define RCU_APB1RST_WWDGTRST BIT(11) /*!< WWDGT reset */ +#define RCU_APB1RST_SPI1RST BIT(14) /*!< SPI1 reset */ +#define RCU_APB1RST_SPI2RST BIT(15) /*!< SPI2 reset */ +#define RCU_APB1RST_USART1RST BIT(17) /*!< USART1 reset */ +#define RCU_APB1RST_USART2RST BIT(18) /*!< USART2 reset */ +#define RCU_APB1RST_UART3RST BIT(19) /*!< UART3 reset */ +#define RCU_APB1RST_UART4RST BIT(20) /*!< UART4 reset */ +#define RCU_APB1RST_I2C0RST BIT(21) /*!< I2C0 reset */ +#define RCU_APB1RST_I2C1RST BIT(22) /*!< I2C1 reset */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define RCU_APB1RST_USBDRST BIT(23) /*!< USBD reset */ +#endif /* GD32F30X_HD and GD32F30X_XD */ +#define RCU_APB1RST_CAN0RST BIT(25) /*!< CAN0 reset */ +#ifdef GD32F30X_CL +#define RCU_APB1RST_CAN1RST BIT(26) /*!< CAN1 reset */ +#endif /* GD32F30X_CL */ +#define RCU_APB1RST_BKPIRST BIT(27) /*!< backup interface reset */ +#define RCU_APB1RST_PMURST BIT(28) /*!< PMU reset */ +#define RCU_APB1RST_DACRST BIT(29) /*!< DAC reset */ + +/* RCU_AHBEN */ +#define RCU_AHBEN_DMA0EN BIT(0) /*!< DMA0 clock enable */ +#define RCU_AHBEN_DMA1EN BIT(1) /*!< DMA1 clock enable */ +#define RCU_AHBEN_SRAMSPEN BIT(2) /*!< SRAM clock enable when sleep mode */ +#define RCU_AHBEN_FMCSPEN BIT(4) /*!< FMC clock enable when sleep mode */ +#define RCU_AHBEN_CRCEN BIT(6) /*!< CRC clock enable */ +#define RCU_AHBEN_EXMCEN BIT(8) /*!< EXMC clock enable */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define RCU_AHBEN_SDIOEN BIT(10) /*!< SDIO clock enable */ +#elif defined(GD32F30X_CL) +#define RCU_AHBEN_USBFSEN BIT(12) /*!< USBFS clock enable */ +#define RCU_AHBEN_ENETEN BIT(14) /*!< ENET clock enable */ +#define RCU_AHBEN_ENETTXEN BIT(15) /*!< Ethernet TX clock enable */ +#define RCU_AHBEN_ENETRXEN BIT(16) /*!< Ethernet RX clock enable */ +#endif /* GD32F30X_HD and GD32F30X_XD */ + +/* RCU_APB2EN */ +#define RCU_APB2EN_AFEN BIT(0) /*!< alternate function IO clock enable */ +#define RCU_APB2EN_PAEN BIT(2) /*!< GPIO port A clock enable */ +#define RCU_APB2EN_PBEN BIT(3) /*!< GPIO port B clock enable */ +#define RCU_APB2EN_PCEN BIT(4) /*!< GPIO port C clock enable */ +#define RCU_APB2EN_PDEN BIT(5) /*!< GPIO port D clock enable */ +#define RCU_APB2EN_PEEN BIT(6) /*!< GPIO port E clock enable */ +#define RCU_APB2EN_PFEN BIT(7) /*!< GPIO port F clock enable */ +#define RCU_APB2EN_PGEN BIT(8) /*!< GPIO port G clock enable */ +#define RCU_APB2EN_ADC0EN BIT(9) /*!< ADC0 clock enable */ +#define RCU_APB2EN_ADC1EN BIT(10) /*!< ADC1 clock enable */ +#define RCU_APB2EN_TIMER0EN BIT(11) /*!< TIMER0 clock enable */ +#define RCU_APB2EN_SPI0EN BIT(12) /*!< SPI0 clock enable */ +#define RCU_APB2EN_TIMER7EN BIT(13) /*!< TIMER7 clock enable */ +#define RCU_APB2EN_USART0EN BIT(14) /*!< USART0 clock enable */ +#ifndef GD32F30X_CL +#define RCU_APB2EN_ADC2EN BIT(15) /*!< ADC2 clock enable */ +#endif /* GD32F30X_CL */ +#ifndef GD32F30X_HD +#define RCU_APB2EN_TIMER8EN BIT(19) /*!< TIMER8 clock enable */ +#define RCU_APB2EN_TIMER9EN BIT(20) /*!< TIMER9 clock enable */ +#define RCU_APB2EN_TIMER10EN BIT(21) /*!< TIMER10 clock enable */ +#endif /* GD32F30X_HD */ + +/* RCU_APB1EN */ +#define RCU_APB1EN_TIMER1EN BIT(0) /*!< TIMER1 clock enable */ +#define RCU_APB1EN_TIMER2EN BIT(1) /*!< TIMER2 clock enable */ +#define RCU_APB1EN_TIMER3EN BIT(2) /*!< TIMER3 clock enable */ +#define RCU_APB1EN_TIMER4EN BIT(3) /*!< TIMER4 clock enable */ +#define RCU_APB1EN_TIMER5EN BIT(4) /*!< TIMER5 clock enable */ +#define RCU_APB1EN_TIMER6EN BIT(5) /*!< TIMER6 clock enable */ +#ifndef GD32F30X_HD +#define RCU_APB1EN_TIMER11EN BIT(6) /*!< TIMER11 clock enable */ +#define RCU_APB1EN_TIMER12EN BIT(7) /*!< TIMER12 clock enable */ +#define RCU_APB1EN_TIMER13EN BIT(8) /*!< TIMER13 clock enable */ +#endif /* GD32F30X_HD */ +#define RCU_APB1EN_WWDGTEN BIT(11) /*!< WWDGT clock enable */ +#define RCU_APB1EN_SPI1EN BIT(14) /*!< SPI1 clock enable */ +#define RCU_APB1EN_SPI2EN BIT(15) /*!< SPI2 clock enable */ +#define RCU_APB1EN_USART1EN BIT(17) /*!< USART1 clock enable */ +#define RCU_APB1EN_USART2EN BIT(18) /*!< USART2 clock enable */ +#define RCU_APB1EN_UART3EN BIT(19) /*!< UART3 clock enable */ +#define RCU_APB1EN_UART4EN BIT(20) /*!< UART4 clock enable */ +#define RCU_APB1EN_I2C0EN BIT(21) /*!< I2C0 clock enable */ +#define RCU_APB1EN_I2C1EN BIT(22) /*!< I2C1 clock enable */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define RCU_APB1EN_USBDEN BIT(23) /*!< USBD clock enable */ +#endif /* GD32F30X_HD and GD32F30X_XD */ +#define RCU_APB1EN_CAN0EN BIT(25) /*!< CAN0 clock enable */ +#ifdef GD32F30X_CL +#define RCU_APB1EN_CAN1EN BIT(26) /*!< CAN1 clock enable */ +#endif /* GD32F30X_CL */ +#define RCU_APB1EN_BKPIEN BIT(27) /*!< backup interface clock enable */ +#define RCU_APB1EN_PMUEN BIT(28) /*!< PMU clock enable */ +#define RCU_APB1EN_DACEN BIT(29) /*!< DAC clock enable */ + +/* RCU_BDCTL */ +#define RCU_BDCTL_LXTALEN BIT(0) /*!< LXTAL enable */ +#define RCU_BDCTL_LXTALSTB BIT(1) /*!< low speed crystal oscillator stabilization flag */ +#define RCU_BDCTL_LXTALBPS BIT(2) /*!< LXTAL bypass mode enable */ +#define RCU_BDCTL_LXTALDRI BITS(3,4) /*!< LXTAL drive capability */ +#define RCU_BDCTL_RTCSRC BITS(8,9) /*!< RTC clock entry selection */ +#define RCU_BDCTL_RTCEN BIT(15) /*!< RTC clock enable */ +#define RCU_BDCTL_BKPRST BIT(16) /*!< backup domain reset */ + +/* RCU_RSTSCK */ +#define RCU_RSTSCK_IRC40KEN BIT(0) /*!< IRC40K enable */ +#define RCU_RSTSCK_IRC40KSTB BIT(1) /*!< IRC40K stabilization flag */ +#define RCU_RSTSCK_RSTFC BIT(24) /*!< reset flag clear */ +#define RCU_RSTSCK_EPRSTF BIT(26) /*!< external pin reset flag */ +#define RCU_RSTSCK_PORRSTF BIT(27) /*!< power reset flag */ +#define RCU_RSTSCK_SWRSTF BIT(28) /*!< software reset flag */ +#define RCU_RSTSCK_FWDGTRSTF BIT(29) /*!< free watchdog timer reset flag */ +#define RCU_RSTSCK_WWDGTRSTF BIT(30) /*!< window watchdog timer reset flag */ +#define RCU_RSTSCK_LPRSTF BIT(31) /*!< low-power reset flag */ + +#ifdef GD32F30X_CL +/* RCU_AHBRST */ +#define RCU_AHBRST_USBFSRST BIT(12) /*!< USBFS reset */ +#define RCU_AHBRST_ENETRST BIT(14) /*!< ENET reset */ +#endif /* GD32F30X_CL */ + +/* RCU_CFG1 */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define RCU_CFG1_ADCPSC_3 BIT(29) /*!< bit 4 of ADCPSC */ +#define RCU_CFG1_PLLPRESEL BIT(30) /*!< PLL clock source selection */ +#elif defined(GD32F30X_CL) +#define RCU_CFG1_PREDV0 BITS(0,3) /*!< PREDV0 division factor */ +#define RCU_CFG1_PREDV1 BITS(4,7) /*!< PREDV1 division factor */ +#define RCU_CFG1_PLL1MF BITS(8,11) /*!< PLL1 clock multiplication factor */ +#define RCU_CFG1_PLL2MF BITS(12,15) /*!< PLL2 clock multiplication factor */ +#define RCU_CFG1_PREDV0SEL BIT(16) /*!< PREDV0 input clock source selection */ +#define RCU_CFG1_I2S1SEL BIT(17) /*!< I2S1 clock source selection */ +#define RCU_CFG1_I2S2SEL BIT(18) /*!< I2S2 clock source selection */ +#define RCU_CFG1_ADCPSC_3 BIT(29) /*!< bit 4 of ADCPSC */ +#define RCU_CFG1_PLLPRESEL BIT(30) /*!< PLL clock source selection */ +#define RCU_CFG1_PLL2MF_4 BIT(31) /*!< bit 5 of PLL2MF */ +#endif /* GD32F30X_HD and GD32F30X_XD */ + +/* RCU_DSV */ +#define RCU_DSV_DSLPVS BITS(0,2) /*!< deep-sleep mode voltage select */ + +/* RCU_ADDCTL */ +#define RCU_ADDCTL_CK48MSEL BIT(0) /*!< 48MHz clock selection */ +#define RCU_ADDCTL_IRC48MEN BIT(16) /*!< internal 48MHz RC oscillator enable */ +#define RCU_ADDCTL_IRC48MSTB BIT(17) /*!< internal 48MHz RC oscillator clock stabilization flag */ +#define RCU_ADDCTL_IRC48MCAL BITS(24,31) /*!< internal 48MHz RC oscillator calibration value register */ + +/* RCU_ADDINT */ +#define RCU_ADDINT_IRC48MSTBIF BIT(6) /*!< IRC48M stabilization interrupt flag */ +#define RCU_ADDINT_IRC48MSTBIE BIT(14) /*!< internal 48 MHz RC oscillator stabilization interrupt enable */ +#define RCU_ADDINT_IRC48MSTBIC BIT(22) /*!< internal 48 MHz RC oscillator stabilization interrupt clear */ + +/* RCU_ADDAPB1RST */ +#define RCU_ADDAPB1RST_CTCRST BIT(27) /*!< CTC reset */ + +/* RCU_ADDAPB1EN */ +#define RCU_ADDAPB1EN_CTCEN BIT(27) /*!< CTC clock enable */ + + +/* constants definitions */ +/* define the peripheral clock enable bit position and its register index offset */ +#define RCU_REGIDX_BIT(regidx, bitpos) (((uint32_t)(regidx) << 6) | (uint32_t)(bitpos)) +#define RCU_REG_VAL(periph) (REG32(RCU + ((uint32_t)(periph) >> 6))) +#define RCU_BIT_POS(val) ((uint32_t)(val) & 0x1FU) + +/* register offset */ +/* peripherals enable */ +#define AHBEN_REG_OFFSET 0x14U /*!< AHB enable register offset */ +#define APB1EN_REG_OFFSET 0x1CU /*!< APB1 enable register offset */ +#define APB2EN_REG_OFFSET 0x18U /*!< APB2 enable register offset */ +#define ADD_APB1EN_REG_OFFSET 0xE4U /*!< APB1 additional enable register offset */ + +/* peripherals reset */ +#define AHBRST_REG_OFFSET 0x28U /*!< AHB reset register offset */ +#define APB1RST_REG_OFFSET 0x10U /*!< APB1 reset register offset */ +#define APB2RST_REG_OFFSET 0x0CU /*!< APB2 reset register offset */ +#define ADD_APB1RST_REG_OFFSET 0xE0U /*!< APB1 additional reset register offset */ +#define RSTSCK_REG_OFFSET 0x24U /*!< reset source/clock register offset */ + +/* clock control */ +#define CTL_REG_OFFSET 0x00U /*!< control register offset */ +#define BDCTL_REG_OFFSET 0x20U /*!< backup domain control register offset */ +#define ADDCTL_REG_OFFSET 0xC0U /*!< additional clock control register offset */ + +/* clock stabilization and stuck interrupt */ +#define INT_REG_OFFSET 0x08U /*!< clock interrupt register offset */ +#define ADDINT_REG_OFFSET 0xCCU /*!< additional clock interrupt register offset */ + +/* configuration register */ +#define CFG0_REG_OFFSET 0x04U /*!< clock configuration register 0 offset */ +#define CFG1_REG_OFFSET 0x2CU /*!< clock configuration register 1 offset */ + +/* peripheral clock enable */ +typedef enum +{ + /* AHB peripherals */ + RCU_DMA0 = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 0U), /*!< DMA0 clock */ + RCU_DMA1 = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 1U), /*!< DMA1 clock */ + RCU_CRC = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 6U), /*!< CRC clock */ + RCU_EXMC = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 8U), /*!< EXMC clock */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + RCU_SDIO = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 10U), /*!< SDIO clock */ +#elif defined(GD32F30X_CL) + RCU_USBFS = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 12U), /*!< USBFS clock */ + RCU_ENET = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 14U), /*!< ENET clock */ + RCU_ENETTX = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 15U), /*!< ENETTX clock */ + RCU_ENETRX = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 16U), /*!< ENETRX clock */ +#endif /* GD32F30X_HD and GD32F30X_XD */ + + /* APB1 peripherals */ + RCU_TIMER1 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 0U), /*!< TIMER1 clock */ + RCU_TIMER2 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 1U), /*!< TIMER2 clock */ + RCU_TIMER3 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 2U), /*!< TIMER3 clock */ + RCU_TIMER4 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 3U), /*!< TIMER4 clock */ + RCU_TIMER5 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 4U), /*!< TIMER5 clock */ + RCU_TIMER6 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 5U), /*!< TIMER6 clock */ +#ifndef GD32F30X_HD + RCU_TIMER11 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 6U), /*!< TIMER11 clock */ + RCU_TIMER12 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 7U), /*!< TIMER12 clock */ + RCU_TIMER13 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 8U), /*!< TIMER13 clock */ +#endif /* GD32F30X_HD */ + RCU_WWDGT = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 11U), /*!< WWDGT clock */ + RCU_SPI1 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 14U), /*!< SPI1 clock */ + RCU_SPI2 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 15U), /*!< SPI2 clock */ + RCU_USART1 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 17U), /*!< USART1 clock */ + RCU_USART2 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 18U), /*!< USART2 clock */ + RCU_UART3 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 19U), /*!< UART3 clock */ + RCU_UART4 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 20U), /*!< UART4 clock */ + RCU_I2C0 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 21U), /*!< I2C0 clock */ + RCU_I2C1 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 22U), /*!< I2C1 clock */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + RCU_USBD = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 23U), /*!< USBD clock */ +#endif /* GD32F30X_HD and GD32F30X_XD */ + RCU_CAN0 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 25U), /*!< CAN0 clock */ +#ifdef GD32F30X_CL + RCU_CAN1 = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 26U), /*!< CAN1 clock */ +#endif /* GD32F30X_CL */ + RCU_BKPI = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 27U), /*!< BKPI clock */ + RCU_PMU = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 28U), /*!< PMU clock */ + RCU_DAC = RCU_REGIDX_BIT(APB1EN_REG_OFFSET, 29U), /*!< DAC clock */ + RCU_RTC = RCU_REGIDX_BIT(BDCTL_REG_OFFSET, 15U), /*!< RTC clock */ + RCU_CTC = RCU_REGIDX_BIT(ADD_APB1EN_REG_OFFSET, 27U), /*!< CTC clock */ + + /* APB2 peripherals */ + RCU_AF = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 0U), /*!< alternate function clock */ + RCU_GPIOA = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 2U), /*!< GPIOA clock */ + RCU_GPIOB = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 3U), /*!< GPIOB clock */ + RCU_GPIOC = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 4U), /*!< GPIOC clock */ + RCU_GPIOD = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 5U), /*!< GPIOD clock */ + RCU_GPIOE = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 6U), /*!< GPIOE clock */ + RCU_GPIOF = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 7U), /*!< GPIOF clock */ + RCU_GPIOG = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 8U), /*!< GPIOG clock */ + RCU_ADC0 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 9U), /*!< ADC0 clock */ + RCU_ADC1 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 10U), /*!< ADC1 clock */ + RCU_TIMER0 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 11U), /*!< TIMER0 clock */ + RCU_SPI0 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 12U), /*!< SPI0 clock */ + RCU_TIMER7 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 13U), /*!< TIMER7 clock */ + RCU_USART0 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 14U), /*!< USART0 clock */ +#ifndef GD32F30X_CL + RCU_ADC2 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 15U), /*!< ADC2 clock */ +#endif /* GD32F30X_CL */ +#ifndef GD32F30X_HD + RCU_TIMER8 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 19U), /*!< TIMER8 clock */ + RCU_TIMER9 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 20U), /*!< TIMER9 clock */ + RCU_TIMER10 = RCU_REGIDX_BIT(APB2EN_REG_OFFSET, 21U), /*!< TIMER10 clock */ +#endif /* GD32F30X_HD */ +}rcu_periph_enum; + +/* peripheral clock enable when sleep mode*/ +typedef enum +{ + /* AHB peripherals */ + RCU_SRAM_SLP = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 2U), /*!< SRAM clock */ + RCU_FMC_SLP = RCU_REGIDX_BIT(AHBEN_REG_OFFSET, 4U), /*!< FMC clock */ +}rcu_periph_sleep_enum; + +/* peripherals reset */ +typedef enum +{ + /* AHB peripherals */ +#ifdef GD32F30X_CL + RCU_USBFSRST = RCU_REGIDX_BIT(AHBRST_REG_OFFSET, 12U), /*!< USBFS clock reset */ + RCU_ENETRST = RCU_REGIDX_BIT(AHBRST_REG_OFFSET, 14U), /*!< ENET clock reset */ +#endif /* GD32F30X_CL */ + + /* APB1 peripherals */ + RCU_TIMER1RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 0U), /*!< TIMER1 clock reset */ + RCU_TIMER2RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 1U), /*!< TIMER2 clock reset */ + RCU_TIMER3RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 2U), /*!< TIMER3 clock reset */ + RCU_TIMER4RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 3U), /*!< TIMER4 clock reset */ + RCU_TIMER5RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 4U), /*!< TIMER5 clock reset */ + RCU_TIMER6RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 5U), /*!< TIMER6 clock reset */ +#ifndef GD32F30X_HD + RCU_TIMER11RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 6U), /*!< TIMER11 clock reset */ + RCU_TIMER12RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 7U), /*!< TIMER12 clock reset */ + RCU_TIMER13RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 8U), /*!< TIMER13 clock reset */ +#endif /* GD32F30X_HD */ + RCU_WWDGTRST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 11U), /*!< WWDGT clock reset */ + RCU_SPI1RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 14U), /*!< SPI1 clock reset */ + RCU_SPI2RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 15U), /*!< SPI2 clock reset */ + RCU_USART1RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 17U), /*!< USART1 clock reset */ + RCU_USART2RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 18U), /*!< USART2 clock reset */ + RCU_UART3RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 19U), /*!< UART3 clock reset */ + RCU_UART4RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 20U), /*!< UART4 clock reset */ + RCU_I2C0RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 21U), /*!< I2C0 clock reset */ + RCU_I2C1RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 22U), /*!< I2C1 clock reset */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + RCU_USBDRST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 23U), /*!< USBD clock reset */ +#endif /* GD32F30X_HD and GD32F30X_XD */ + RCU_CAN0RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 25U), /*!< CAN0 clock reset */ +#ifdef GD32F30X_CL + RCU_CAN1RST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 26U), /*!< CAN1 clock reset */ +#endif /* GD32F30X_CL */ + RCU_BKPIRST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 27U), /*!< BKPI clock reset */ + RCU_PMURST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 28U), /*!< PMU clock reset */ + RCU_DACRST = RCU_REGIDX_BIT(APB1RST_REG_OFFSET, 29U), /*!< DAC clock reset */ + RCU_CTCRST = RCU_REGIDX_BIT(ADD_APB1RST_REG_OFFSET, 27U), /*!< RTC clock reset */ + + /* APB2 peripherals */ + RCU_AFRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 0U), /*!< alternate function clock reset */ + RCU_GPIOARST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 2U), /*!< GPIOA clock reset */ + RCU_GPIOBRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 3U), /*!< GPIOB clock reset */ + RCU_GPIOCRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 4U), /*!< GPIOC clock reset */ + RCU_GPIODRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 5U), /*!< GPIOD clock reset */ + RCU_GPIOERST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 6U), /*!< GPIOE clock reset */ + RCU_GPIOFRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 7U), /*!< GPIOF clock reset */ + RCU_GPIOGRST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 8U), /*!< GPIOG clock reset */ + RCU_ADC0RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 9U), /*!< ADC0 clock reset */ + RCU_ADC1RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 10U), /*!< ADC1 clock reset */ + RCU_TIMER0RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 11U), /*!< TIMER0 clock reset */ + RCU_SPI0RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 12U), /*!< SPI0 clock reset */ + RCU_TIMER7RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 13U), /*!< TIMER7 clock reset */ + RCU_USART0RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 14U), /*!< USART0 clock reset */ +#ifndef GD32F30X_CL + RCU_ADC2RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 15U), /*!< ADC2 clock reset */ +#endif /* GD32F30X_CL */ +#ifndef GD32F30X_HD + RCU_TIMER8RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 19U), /*!< TIMER8 clock reset */ + RCU_TIMER9RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 20U), /*!< TIMER9 clock reset */ + RCU_TIMER10RST = RCU_REGIDX_BIT(APB2RST_REG_OFFSET, 21U), /*!< TIMER10 clock reset */ +#endif /* GD32F30X_HD */ +}rcu_periph_reset_enum; + +/* clock stabilization and peripheral reset flags */ +typedef enum +{ + /* clock stabilization flags */ + RCU_FLAG_IRC8MSTB = RCU_REGIDX_BIT(CTL_REG_OFFSET, 1U), /*!< IRC8M stabilization flags */ + RCU_FLAG_HXTALSTB = RCU_REGIDX_BIT(CTL_REG_OFFSET, 17U), /*!< HXTAL stabilization flags */ + RCU_FLAG_PLLSTB = RCU_REGIDX_BIT(CTL_REG_OFFSET, 25U), /*!< PLL stabilization flags */ +#ifdef GD32F30X_CL + RCU_FLAG_PLL1STB = RCU_REGIDX_BIT(CTL_REG_OFFSET, 27U), /*!< PLL1 stabilization flags */ + RCU_FLAG_PLL2STB = RCU_REGIDX_BIT(CTL_REG_OFFSET, 29U), /*!< PLL2 stabilization flags */ +#endif /* GD32F30X_CL */ + RCU_FLAG_LXTALSTB = RCU_REGIDX_BIT(BDCTL_REG_OFFSET, 1U), /*!< LXTAL stabilization flags */ + RCU_FLAG_IRC40KSTB = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 1U), /*!< IRC40K stabilization flags */ + RCU_FLAG_IRC48MSTB = RCU_REGIDX_BIT(ADDCTL_REG_OFFSET, 17U), /*!< IRC48M stabilization flags */ + /* reset source flags */ + RCU_FLAG_EPRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 26U), /*!< external PIN reset flags */ + RCU_FLAG_PORRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 27U), /*!< power reset flags */ + RCU_FLAG_SWRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 28U), /*!< software reset flags */ + RCU_FLAG_FWDGTRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 29U), /*!< FWDGT reset flags */ + RCU_FLAG_WWDGTRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 30U), /*!< WWDGT reset flags */ + RCU_FLAG_LPRST = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 31U), /*!< low-power reset flags */ +}rcu_flag_enum; + +/* clock stabilization and ckm interrupt flags */ +typedef enum +{ + RCU_INT_FLAG_IRC40KSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 0U), /*!< IRC40K stabilization interrupt flag */ + RCU_INT_FLAG_LXTALSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 1U), /*!< LXTAL stabilization interrupt flag */ + RCU_INT_FLAG_IRC8MSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 2U), /*!< IRC8M stabilization interrupt flag */ + RCU_INT_FLAG_HXTALSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 3U), /*!< HXTAL stabilization interrupt flag */ + RCU_INT_FLAG_PLLSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 4U), /*!< PLL stabilization interrupt flag */ +#ifdef GD32F30X_CL + RCU_INT_FLAG_PLL1STB = RCU_REGIDX_BIT(INT_REG_OFFSET, 5U), /*!< PLL1 stabilization interrupt flag */ + RCU_INT_FLAG_PLL2STB = RCU_REGIDX_BIT(INT_REG_OFFSET, 6U), /*!< PLL2 stabilization interrupt flag */ +#endif /* GD32F30X_CL */ + RCU_INT_FLAG_CKM = RCU_REGIDX_BIT(INT_REG_OFFSET, 7U), /*!< HXTAL clock stuck interrupt flag */ + RCU_INT_FLAG_IRC48MSTB = RCU_REGIDX_BIT(ADDINT_REG_OFFSET, 6U), /*!< IRC48M stabilization interrupt flag */ +}rcu_int_flag_enum; + +/* clock stabilization and stuck interrupt flags clear */ +typedef enum +{ + RCU_INT_FLAG_IRC40KSTB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 16U), /*!< IRC40K stabilization interrupt flags clear */ + RCU_INT_FLAG_LXTALSTB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 17U), /*!< LXTAL stabilization interrupt flags clear */ + RCU_INT_FLAG_IRC8MSTB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 18U), /*!< IRC8M stabilization interrupt flags clear */ + RCU_INT_FLAG_HXTALSTB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 19U), /*!< HXTAL stabilization interrupt flags clear */ + RCU_INT_FLAG_PLLSTB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 20U), /*!< PLL stabilization interrupt flags clear */ +#ifdef GD32F30X_CL + RCU_INT_FLAG_PLL1STB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 21U), /*!< PLL1 stabilization interrupt flags clear */ + RCU_INT_FLAG_PLL2STB_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 22U), /*!< PLL2 stabilization interrupt flags clear */ +#endif /* GD32F30X_CL */ + RCU_INT_FLAG_CKM_CLR = RCU_REGIDX_BIT(INT_REG_OFFSET, 23U), /*!< CKM interrupt flags clear */ + RCU_INT_FLAG_IRC48MSTB_CLR = RCU_REGIDX_BIT(ADDINT_REG_OFFSET, 22U), /*!< internal 48 MHz RC oscillator stabilization interrupt clear */ +}rcu_int_flag_clear_enum; + +/* clock stabilization interrupt enable or disable */ +typedef enum +{ + RCU_INT_IRC40KSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 8U), /*!< IRC40K stabilization interrupt */ + RCU_INT_LXTALSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 9U), /*!< LXTAL stabilization interrupt */ + RCU_INT_IRC8MSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 10U), /*!< IRC8M stabilization interrupt */ + RCU_INT_HXTALSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 11U), /*!< HXTAL stabilization interrupt */ + RCU_INT_PLLSTB = RCU_REGIDX_BIT(INT_REG_OFFSET, 12U), /*!< PLL stabilization interrupt */ +#ifdef GD32F30X_CL + RCU_INT_PLL1STB = RCU_REGIDX_BIT(INT_REG_OFFSET, 13U), /*!< PLL1 stabilization interrupt */ + RCU_INT_PLL2STB = RCU_REGIDX_BIT(INT_REG_OFFSET, 14U), /*!< PLL2 stabilization interrupt */ +#endif /* GD32F30X_CL */ + RCU_INT_IRC48MSTB = RCU_REGIDX_BIT(ADDINT_REG_OFFSET, 14U), /*!< internal 48 MHz RC oscillator stabilization interrupt */ +}rcu_int_enum; + +/* oscillator types */ +typedef enum +{ + RCU_HXTAL = RCU_REGIDX_BIT(CTL_REG_OFFSET, 16U), /*!< HXTAL */ + RCU_LXTAL = RCU_REGIDX_BIT(BDCTL_REG_OFFSET, 0U), /*!< LXTAL */ + RCU_IRC8M = RCU_REGIDX_BIT(CTL_REG_OFFSET, 0U), /*!< IRC8M */ + RCU_IRC48M = RCU_REGIDX_BIT(ADDCTL_REG_OFFSET, 16U), /*!< IRC48M */ + RCU_IRC40K = RCU_REGIDX_BIT(RSTSCK_REG_OFFSET, 0U), /*!< IRC40K */ + RCU_PLL_CK = RCU_REGIDX_BIT(CTL_REG_OFFSET, 24U), /*!< PLL */ +#ifdef GD32F30X_CL + RCU_PLL1_CK = RCU_REGIDX_BIT(CTL_REG_OFFSET, 26U), /*!< PLL1 */ + RCU_PLL2_CK = RCU_REGIDX_BIT(CTL_REG_OFFSET, 28U), /*!< PLL2 */ +#endif /* GD32F30X_CL */ +}rcu_osci_type_enum; + +/* rcu clock frequency */ +typedef enum +{ + CK_SYS = 0, /*!< system clock */ + CK_AHB, /*!< AHB clock */ + CK_APB1, /*!< APB1 clock */ + CK_APB2, /*!< APB2 clock */ +}rcu_clock_freq_enum; + +/* RCU_CFG0 register bit define */ +/* system clock source select */ +#define CFG0_SCS(regval) (BITS(0,1) & ((uint32_t)(regval) << 0)) +#define RCU_CKSYSSRC_IRC8M CFG0_SCS(0) /*!< system clock source select IRC8M */ +#define RCU_CKSYSSRC_HXTAL CFG0_SCS(1) /*!< system clock source select HXTAL */ +#define RCU_CKSYSSRC_PLL CFG0_SCS(2) /*!< system clock source select PLL */ + +/* system clock source select status */ +#define CFG0_SCSS(regval) (BITS(2,3) & ((uint32_t)(regval) << 2)) +#define RCU_SCSS_IRC8M CFG0_SCSS(0) /*!< system clock source select IRC8M */ +#define RCU_SCSS_HXTAL CFG0_SCSS(1) /*!< system clock source select HXTAL */ +#define RCU_SCSS_PLL CFG0_SCSS(2) /*!< system clock source select PLLP */ + +/* AHB prescaler selection */ +#define CFG0_AHBPSC(regval) (BITS(4,7) & ((uint32_t)(regval) << 4)) +#define RCU_AHB_CKSYS_DIV1 CFG0_AHBPSC(0) /*!< AHB prescaler select CK_SYS */ +#define RCU_AHB_CKSYS_DIV2 CFG0_AHBPSC(8) /*!< AHB prescaler select CK_SYS/2 */ +#define RCU_AHB_CKSYS_DIV4 CFG0_AHBPSC(9) /*!< AHB prescaler select CK_SYS/4 */ +#define RCU_AHB_CKSYS_DIV8 CFG0_AHBPSC(10) /*!< AHB prescaler select CK_SYS/8 */ +#define RCU_AHB_CKSYS_DIV16 CFG0_AHBPSC(11) /*!< AHB prescaler select CK_SYS/16 */ +#define RCU_AHB_CKSYS_DIV64 CFG0_AHBPSC(12) /*!< AHB prescaler select CK_SYS/64 */ +#define RCU_AHB_CKSYS_DIV128 CFG0_AHBPSC(13) /*!< AHB prescaler select CK_SYS/128 */ +#define RCU_AHB_CKSYS_DIV256 CFG0_AHBPSC(14) /*!< AHB prescaler select CK_SYS/256 */ +#define RCU_AHB_CKSYS_DIV512 CFG0_AHBPSC(15) /*!< AHB prescaler select CK_SYS/512 */ + +/* APB1 prescaler selection */ +#define CFG0_APB1PSC(regval) (BITS(8,10) & ((uint32_t)(regval) << 8)) +#define RCU_APB1_CKAHB_DIV1 CFG0_APB1PSC(0) /*!< APB1 prescaler select CK_AHB */ +#define RCU_APB1_CKAHB_DIV2 CFG0_APB1PSC(4) /*!< APB1 prescaler select CK_AHB/2 */ +#define RCU_APB1_CKAHB_DIV4 CFG0_APB1PSC(5) /*!< APB1 prescaler select CK_AHB/4 */ +#define RCU_APB1_CKAHB_DIV8 CFG0_APB1PSC(6) /*!< APB1 prescaler select CK_AHB/8 */ +#define RCU_APB1_CKAHB_DIV16 CFG0_APB1PSC(7) /*!< APB1 prescaler select CK_AHB/16 */ + +/* APB2 prescaler selection */ +#define CFG0_APB2PSC(regval) (BITS(11,13) & ((uint32_t)(regval) << 11)) +#define RCU_APB2_CKAHB_DIV1 CFG0_APB2PSC(0) /*!< APB2 prescaler select CK_AHB */ +#define RCU_APB2_CKAHB_DIV2 CFG0_APB2PSC(4) /*!< APB2 prescaler select CK_AHB/2 */ +#define RCU_APB2_CKAHB_DIV4 CFG0_APB2PSC(5) /*!< APB2 prescaler select CK_AHB/4 */ +#define RCU_APB2_CKAHB_DIV8 CFG0_APB2PSC(6) /*!< APB2 prescaler select CK_AHB/8 */ +#define RCU_APB2_CKAHB_DIV16 CFG0_APB2PSC(7) /*!< APB2 prescaler select CK_AHB/16 */ + +/* ADC prescaler select */ +#define RCU_CKADC_CKAPB2_DIV2 ((uint32_t)0x00000000U) /*!< ADC prescaler select CK_APB2/2 */ +#define RCU_CKADC_CKAPB2_DIV4 ((uint32_t)0x00000001U) /*!< ADC prescaler select CK_APB2/4 */ +#define RCU_CKADC_CKAPB2_DIV6 ((uint32_t)0x00000002U) /*!< ADC prescaler select CK_APB2/6 */ +#define RCU_CKADC_CKAPB2_DIV8 ((uint32_t)0x00000003U) /*!< ADC prescaler select CK_APB2/8 */ +#define RCU_CKADC_CKAPB2_DIV12 ((uint32_t)0x00000005U) /*!< ADC prescaler select CK_APB2/12 */ +#define RCU_CKADC_CKAPB2_DIV16 ((uint32_t)0x00000007U) /*!< ADC prescaler select CK_APB2/16 */ +#define RCU_CKADC_CKAHB_DIV5 ((uint32_t)0x00000008U) /*!< ADC prescaler select CK_AHB/5 */ +#define RCU_CKADC_CKAHB_DIV6 ((uint32_t)0x00000009U) /*!< ADC prescaler select CK_AHB/6 */ +#define RCU_CKADC_CKAHB_DIV10 ((uint32_t)0x0000000AU) /*!< ADC prescaler select CK_AHB/10 */ +#define RCU_CKADC_CKAHB_DIV20 ((uint32_t)0x0000000BU) /*!< ADC prescaler select CK_AHB/20 */ + +/* PLL clock source selection */ +#define RCU_PLLSRC_IRC8M_DIV2 ((uint32_t)0x00000000U) /*!< IRC8M/2 clock selected as source clock of PLL */ +#define RCU_PLLSRC_HXTAL_IRC48M RCU_CFG0_PLLSEL /*!< HXTAL or IRC48M selected as source clock of PLL */ + +/* PLL clock multiplication factor */ +#define PLLMF_4 RCU_CFG0_PLLMF_4 /* bit 4 of PLLMF */ +#define PLLMF_5 RCU_CFG0_PLLMF_5 /* bit 5 of PLLMF */ +#define PLLMF_4_5 (PLLMF_4 | PLLMF_5) /* bit 4 and 5 of PLLMF */ + +#define CFG0_PLLMF(regval) (BITS(18,21) & ((uint32_t)(regval) << 18)) +#define RCU_PLL_MUL2 CFG0_PLLMF(0) /*!< PLL source clock multiply by 2 */ +#define RCU_PLL_MUL3 CFG0_PLLMF(1) /*!< PLL source clock multiply by 3 */ +#define RCU_PLL_MUL4 CFG0_PLLMF(2) /*!< PLL source clock multiply by 4 */ +#define RCU_PLL_MUL5 CFG0_PLLMF(3) /*!< PLL source clock multiply by 5 */ +#define RCU_PLL_MUL6 CFG0_PLLMF(4) /*!< PLL source clock multiply by 6 */ +#define RCU_PLL_MUL7 CFG0_PLLMF(5) /*!< PLL source clock multiply by 7 */ +#define RCU_PLL_MUL8 CFG0_PLLMF(6) /*!< PLL source clock multiply by 8 */ +#define RCU_PLL_MUL9 CFG0_PLLMF(7) /*!< PLL source clock multiply by 9 */ +#define RCU_PLL_MUL10 CFG0_PLLMF(8) /*!< PLL source clock multiply by 10 */ +#define RCU_PLL_MUL11 CFG0_PLLMF(9) /*!< PLL source clock multiply by 11 */ +#define RCU_PLL_MUL12 CFG0_PLLMF(10) /*!< PLL source clock multiply by 12 */ +#define RCU_PLL_MUL13 CFG0_PLLMF(11) /*!< PLL source clock multiply by 13 */ +#define RCU_PLL_MUL14 CFG0_PLLMF(12) /*!< PLL source clock multiply by 14 */ +#if(defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define RCU_PLL_MUL15 CFG0_PLLMF(13) /*!< PLL source clock multiply by 15 */ +#elif defined(GD32F30X_CL) +#define RCU_PLL_MUL6_5 CFG0_PLLMF(13) /*!< PLL source clock multiply by 6.5 */ +#endif /* GD32F30X_HD and GD32F30X_XD */ +#define RCU_PLL_MUL16 CFG0_PLLMF(14) /*!< PLL source clock multiply by 16 */ +#define RCU_PLL_MUL17 (PLLMF_4 | CFG0_PLLMF(0)) /*!< PLL source clock multiply by 17 */ +#define RCU_PLL_MUL18 (PLLMF_4 | CFG0_PLLMF(1)) /*!< PLL source clock multiply by 18 */ +#define RCU_PLL_MUL19 (PLLMF_4 | CFG0_PLLMF(2)) /*!< PLL source clock multiply by 19 */ +#define RCU_PLL_MUL20 (PLLMF_4 | CFG0_PLLMF(3)) /*!< PLL source clock multiply by 20 */ +#define RCU_PLL_MUL21 (PLLMF_4 | CFG0_PLLMF(4)) /*!< PLL source clock multiply by 21 */ +#define RCU_PLL_MUL22 (PLLMF_4 | CFG0_PLLMF(5)) /*!< PLL source clock multiply by 22 */ +#define RCU_PLL_MUL23 (PLLMF_4 | CFG0_PLLMF(6)) /*!< PLL source clock multiply by 23 */ +#define RCU_PLL_MUL24 (PLLMF_4 | CFG0_PLLMF(7)) /*!< PLL source clock multiply by 24 */ +#define RCU_PLL_MUL25 (PLLMF_4 | CFG0_PLLMF(8)) /*!< PLL source clock multiply by 25 */ +#define RCU_PLL_MUL26 (PLLMF_4 | CFG0_PLLMF(9)) /*!< PLL source clock multiply by 26 */ +#define RCU_PLL_MUL27 (PLLMF_4 | CFG0_PLLMF(10)) /*!< PLL source clock multiply by 27 */ +#define RCU_PLL_MUL28 (PLLMF_4 | CFG0_PLLMF(11)) /*!< PLL source clock multiply by 28 */ +#define RCU_PLL_MUL29 (PLLMF_4 | CFG0_PLLMF(12)) /*!< PLL source clock multiply by 29 */ +#define RCU_PLL_MUL30 (PLLMF_4 | CFG0_PLLMF(13)) /*!< PLL source clock multiply by 30 */ +#define RCU_PLL_MUL31 (PLLMF_4 | CFG0_PLLMF(14)) /*!< PLL source clock multiply by 31 */ +#define RCU_PLL_MUL32 (PLLMF_4 | CFG0_PLLMF(15)) /*!< PLL source clock multiply by 32 */ +#define RCU_PLL_MUL33 (PLLMF_5 | CFG0_PLLMF(0)) /*!< PLL source clock multiply by 33 */ +#define RCU_PLL_MUL34 (PLLMF_5 | CFG0_PLLMF(1)) /*!< PLL source clock multiply by 34 */ +#define RCU_PLL_MUL35 (PLLMF_5 | CFG0_PLLMF(2)) /*!< PLL source clock multiply by 35 */ +#define RCU_PLL_MUL36 (PLLMF_5 | CFG0_PLLMF(3)) /*!< PLL source clock multiply by 36 */ +#define RCU_PLL_MUL37 (PLLMF_5 | CFG0_PLLMF(4)) /*!< PLL source clock multiply by 37 */ +#define RCU_PLL_MUL38 (PLLMF_5 | CFG0_PLLMF(5)) /*!< PLL source clock multiply by 38 */ +#define RCU_PLL_MUL39 (PLLMF_5 | CFG0_PLLMF(6)) /*!< PLL source clock multiply by 39 */ +#define RCU_PLL_MUL40 (PLLMF_5 | CFG0_PLLMF(7)) /*!< PLL source clock multiply by 40 */ +#define RCU_PLL_MUL41 (PLLMF_5 | CFG0_PLLMF(8)) /*!< PLL source clock multiply by 41 */ +#define RCU_PLL_MUL42 (PLLMF_5 | CFG0_PLLMF(9)) /*!< PLL source clock multiply by 42 */ +#define RCU_PLL_MUL43 (PLLMF_5 | CFG0_PLLMF(10)) /*!< PLL source clock multiply by 43 */ +#define RCU_PLL_MUL44 (PLLMF_5 | CFG0_PLLMF(11)) /*!< PLL source clock multiply by 44 */ +#define RCU_PLL_MUL45 (PLLMF_5 | CFG0_PLLMF(12)) /*!< PLL source clock multiply by 45 */ +#define RCU_PLL_MUL46 (PLLMF_5 | CFG0_PLLMF(13)) /*!< PLL source clock multiply by 46 */ +#define RCU_PLL_MUL47 (PLLMF_5 | CFG0_PLLMF(14)) /*!< PLL source clock multiply by 47 */ +#define RCU_PLL_MUL48 (PLLMF_5 | CFG0_PLLMF(15)) /*!< PLL source clock multiply by 48 */ +#define RCU_PLL_MUL49 (PLLMF_4_5 | CFG0_PLLMF(0)) /*!< PLL source clock multiply by 49 */ +#define RCU_PLL_MUL50 (PLLMF_4_5 | CFG0_PLLMF(1)) /*!< PLL source clock multiply by 50 */ +#define RCU_PLL_MUL51 (PLLMF_4_5 | CFG0_PLLMF(2)) /*!< PLL source clock multiply by 51 */ +#define RCU_PLL_MUL52 (PLLMF_4_5 | CFG0_PLLMF(3)) /*!< PLL source clock multiply by 52 */ +#define RCU_PLL_MUL53 (PLLMF_4_5 | CFG0_PLLMF(4)) /*!< PLL source clock multiply by 53 */ +#define RCU_PLL_MUL54 (PLLMF_4_5 | CFG0_PLLMF(5)) /*!< PLL source clock multiply by 54 */ +#define RCU_PLL_MUL55 (PLLMF_4_5 | CFG0_PLLMF(6)) /*!< PLL source clock multiply by 55 */ +#define RCU_PLL_MUL56 (PLLMF_4_5 | CFG0_PLLMF(7)) /*!< PLL source clock multiply by 56 */ +#define RCU_PLL_MUL57 (PLLMF_4_5 | CFG0_PLLMF(8)) /*!< PLL source clock multiply by 57 */ +#define RCU_PLL_MUL58 (PLLMF_4_5 | CFG0_PLLMF(9)) /*!< PLL source clock multiply by 58 */ +#define RCU_PLL_MUL59 (PLLMF_4_5 | CFG0_PLLMF(10)) /*!< PLL source clock multiply by 59 */ +#define RCU_PLL_MUL60 (PLLMF_4_5 | CFG0_PLLMF(11)) /*!< PLL source clock multiply by 60 */ +#define RCU_PLL_MUL61 (PLLMF_4_5 | CFG0_PLLMF(12)) /*!< PLL source clock multiply by 61 */ +#define RCU_PLL_MUL62 (PLLMF_4_5 | CFG0_PLLMF(13)) /*!< PLL source clock multiply by 62 */ +#define RCU_PLL_MUL63 (PLLMF_4_5 | CFG0_PLLMF(14)) /*!< PLL source clock multiply by 63 */ + +#if(defined(GD32F30X_HD) || defined(GD32F30X_XD)) +#define USBPSC_2 RCU_CFG0_USBDPSC_2 +#elif defined(GD32F30X_CL) +#define USBPSC_2 RCU_CFG0_USBFSPSC_2 +#endif /* GD32F30X_HD and GD32F30X_XD */ + +/* USBD/USBFS prescaler select */ +#define CFG0_USBPSC(regval) (BITS(22,23) & ((uint32_t)(regval) << 22)) +#define RCU_CKUSB_CKPLL_DIV1_5 CFG0_USBPSC(0) /*!< USBD/USBFS prescaler select CK_PLL/1.5 */ +#define RCU_CKUSB_CKPLL_DIV1 CFG0_USBPSC(1) /*!< USBD/USBFS prescaler select CK_PLL/1 */ +#define RCU_CKUSB_CKPLL_DIV2_5 CFG0_USBPSC(2) /*!< USBD/USBFS prescaler select CK_PLL/2.5 */ +#define RCU_CKUSB_CKPLL_DIV2 CFG0_USBPSC(3) /*!< USBD/USBFS prescaler select CK_PLL/2 */ +#define RCU_CKUSB_CKPLL_DIV3 (USBPSC_2 |CFG0_USBPSC(0)) /*!< USBD/USBFS prescaler select CK_PLL/3 */ +#define RCU_CKUSB_CKPLL_DIV3_5 (USBPSC_2 |CFG0_USBPSC(1)) /*!< USBD/USBFS prescaler select CK_PLL/3.5 */ +#define RCU_CKUSB_CKPLL_DIV4 (USBPSC_2 |CFG0_USBPSC(2)) /*!< USBD/USBFS prescaler select CK_PLL/4 */ + +/* CKOUT0 Clock source selection */ +#define CFG0_CKOUT0SEL(regval) (BITS(24,27) & ((uint32_t)(regval) << 24)) +#define RCU_CKOUT0SRC_NONE CFG0_CKOUT0SEL(0) /*!< no clock selected */ +#define RCU_CKOUT0SRC_CKSYS CFG0_CKOUT0SEL(4) /*!< system clock selected */ +#define RCU_CKOUT0SRC_IRC8M CFG0_CKOUT0SEL(5) /*!< internal 8M RC oscillator clock selected */ +#define RCU_CKOUT0SRC_HXTAL CFG0_CKOUT0SEL(6) /*!< high speed crystal oscillator clock (HXTAL) selected */ +#define RCU_CKOUT0SRC_CKPLL_DIV2 CFG0_CKOUT0SEL(7) /*!< CK_PLL/2 clock selected */ +#ifdef GD32F30X_CL +#define RCU_CKOUT0SRC_CKPLL1 CFG0_CKOUT0SEL(8) /*!< CK_PLL1 clock selected */ +#define RCU_CKOUT0SRC_CKPLL2_DIV2 CFG0_CKOUT0SEL(9) /*!< CK_PLL2/2 clock selected */ +#define RCU_CKOUT0SRC_EXT1 CFG0_CKOUT0SEL(10) /*!< EXT1 selected, to provide the external clock for ENET */ +#define RCU_CKOUT0SRC_CKPLL2 CFG0_CKOUT0SEL(11) /*!< CK_PLL2 clock selected */ +#endif /* GD32F30X_CL */ + +/* LXTAL drive capability */ +#define BDCTL_LXTALDRI(regval) (BITS(3,4) & ((uint32_t)(regval) << 3)) +#define RCU_LXTAL_LOWDRI BDCTL_LXTALDRI(0) /*!< lower driving capability */ +#define RCU_LXTAL_MED_LOWDRI BDCTL_LXTALDRI(1) /*!< medium low driving capability */ +#define RCU_LXTAL_MED_HIGHDRI BDCTL_LXTALDRI(2) /*!< medium high driving capability */ +#define RCU_LXTAL_HIGHDRI BDCTL_LXTALDRI(3) /*!< higher driving capability */ + +/* RTC clock entry selection */ +#define BDCTL_RTCSRC(regval) (BITS(8,9) & ((uint32_t)(regval) << 8)) +#define RCU_RTCSRC_NONE BDCTL_RTCSRC(0) /*!< no clock selected */ +#define RCU_RTCSRC_LXTAL BDCTL_RTCSRC(1) /*!< RTC source clock select LXTAL */ +#define RCU_RTCSRC_IRC40K BDCTL_RTCSRC(2) /*!< RTC source clock select IRC40K */ +#define RCU_RTCSRC_HXTAL_DIV_128 BDCTL_RTCSRC(3) /*!< RTC source clock select HXTAL/128 */ + +/* PREDV0 division factor */ +#define CFG1_PREDV0(regval) (BITS(0,3) & ((uint32_t)(regval) << 0)) +#define RCU_PREDV0_DIV1 CFG1_PREDV0(0) /*!< PREDV0 input source clock not divided */ +#define RCU_PREDV0_DIV2 CFG1_PREDV0(1) /*!< PREDV0 input source clock divided by 2 */ +#define RCU_PREDV0_DIV3 CFG1_PREDV0(2) /*!< PREDV0 input source clock divided by 3 */ +#define RCU_PREDV0_DIV4 CFG1_PREDV0(3) /*!< PREDV0 input source clock divided by 4 */ +#define RCU_PREDV0_DIV5 CFG1_PREDV0(4) /*!< PREDV0 input source clock divided by 5 */ +#define RCU_PREDV0_DIV6 CFG1_PREDV0(5) /*!< PREDV0 input source clock divided by 6 */ +#define RCU_PREDV0_DIV7 CFG1_PREDV0(6) /*!< PREDV0 input source clock divided by 7 */ +#define RCU_PREDV0_DIV8 CFG1_PREDV0(7) /*!< PREDV0 input source clock divided by 8 */ +#define RCU_PREDV0_DIV9 CFG1_PREDV0(8) /*!< PREDV0 input source clock divided by 9 */ +#define RCU_PREDV0_DIV10 CFG1_PREDV0(9) /*!< PREDV0 input source clock divided by 10 */ +#define RCU_PREDV0_DIV11 CFG1_PREDV0(10) /*!< PREDV0 input source clock divided by 11 */ +#define RCU_PREDV0_DIV12 CFG1_PREDV0(11) /*!< PREDV0 input source clock divided by 12 */ +#define RCU_PREDV0_DIV13 CFG1_PREDV0(12) /*!< PREDV0 input source clock divided by 13 */ +#define RCU_PREDV0_DIV14 CFG1_PREDV0(13) /*!< PREDV0 input source clock divided by 14 */ +#define RCU_PREDV0_DIV15 CFG1_PREDV0(14) /*!< PREDV0 input source clock divided by 15 */ +#define RCU_PREDV0_DIV16 CFG1_PREDV0(15) /*!< PREDV0 input source clock divided by 16 */ + +/* PREDV1 division factor */ +#define CFG1_PREDV1(regval) (BITS(4,7) & ((uint32_t)(regval) << 4)) +#define RCU_PREDV1_DIV1 CFG1_PREDV1(0) /*!< PREDV1 input source clock not divided */ +#define RCU_PREDV1_DIV2 CFG1_PREDV1(1) /*!< PREDV1 input source clock divided by 2 */ +#define RCU_PREDV1_DIV3 CFG1_PREDV1(2) /*!< PREDV1 input source clock divided by 3 */ +#define RCU_PREDV1_DIV4 CFG1_PREDV1(3) /*!< PREDV1 input source clock divided by 4 */ +#define RCU_PREDV1_DIV5 CFG1_PREDV1(4) /*!< PREDV1 input source clock divided by 5 */ +#define RCU_PREDV1_DIV6 CFG1_PREDV1(5) /*!< PREDV1 input source clock divided by 6 */ +#define RCU_PREDV1_DIV7 CFG1_PREDV1(6) /*!< PREDV1 input source clock divided by 7 */ +#define RCU_PREDV1_DIV8 CFG1_PREDV1(7) /*!< PREDV1 input source clock divided by 8 */ +#define RCU_PREDV1_DIV9 CFG1_PREDV1(8) /*!< PREDV1 input source clock divided by 9 */ +#define RCU_PREDV1_DIV10 CFG1_PREDV1(9) /*!< PREDV1 input source clock divided by 10 */ +#define RCU_PREDV1_DIV11 CFG1_PREDV1(10) /*!< PREDV1 input source clock divided by 11 */ +#define RCU_PREDV1_DIV12 CFG1_PREDV1(11) /*!< PREDV1 input source clock divided by 12 */ +#define RCU_PREDV1_DIV13 CFG1_PREDV1(12) /*!< PREDV1 input source clock divided by 13 */ +#define RCU_PREDV1_DIV14 CFG1_PREDV1(13) /*!< PREDV1 input source clock divided by 14 */ +#define RCU_PREDV1_DIV15 CFG1_PREDV1(14) /*!< PREDV1 input source clock divided by 15 */ +#define RCU_PREDV1_DIV16 CFG1_PREDV1(15) /*!< PREDV1 input source clock divided by 16 */ + +/* PLL1 clock multiplication factor */ +#define CFG1_PLL1MF(regval) (BITS(8,11) & ((uint32_t)(regval) << 8)) +#define RCU_PLL1_MUL8 CFG1_PLL1MF(6) /*!< PLL1 source clock multiply by 8 */ +#define RCU_PLL1_MUL9 CFG1_PLL1MF(7) /*!< PLL1 source clock multiply by 9 */ +#define RCU_PLL1_MUL10 CFG1_PLL1MF(8) /*!< PLL1 source clock multiply by 10 */ +#define RCU_PLL1_MUL11 CFG1_PLL1MF(9) /*!< PLL1 source clock multiply by 11 */ +#define RCU_PLL1_MUL12 CFG1_PLL1MF(10) /*!< PLL1 source clock multiply by 12 */ +#define RCU_PLL1_MUL13 CFG1_PLL1MF(11) /*!< PLL1 source clock multiply by 13 */ +#define RCU_PLL1_MUL14 CFG1_PLL1MF(12) /*!< PLL1 source clock multiply by 14 */ +#define RCU_PLL1_MUL15 CFG1_PLL1MF(13) /*!< PLL1 source clock multiply by 15 */ +#define RCU_PLL1_MUL16 CFG1_PLL1MF(14) /*!< PLL1 source clock multiply by 16 */ +#define RCU_PLL1_MUL20 CFG1_PLL1MF(15) /*!< PLL1 source clock multiply by 20 */ + +/* PLL2 clock multiplication factor */ +#define PLL2MF_4 RCU_CFG1_PLL2MF_4 /* bit 4 of PLL2MF */ + +#define CFG1_PLL2MF(regval) (BITS(12,15) & ((uint32_t)(regval) << 12)) +#define RCU_PLL2_MUL8 CFG1_PLL2MF(6) /*!< PLL2 source clock multiply by 8 */ +#define RCU_PLL2_MUL9 CFG1_PLL2MF(7) /*!< PLL2 source clock multiply by 9 */ +#define RCU_PLL2_MUL10 CFG1_PLL2MF(8) /*!< PLL2 source clock multiply by 10 */ +#define RCU_PLL2_MUL11 CFG1_PLL2MF(9) /*!< PLL2 source clock multiply by 11 */ +#define RCU_PLL2_MUL12 CFG1_PLL2MF(10) /*!< PLL2 source clock multiply by 12 */ +#define RCU_PLL2_MUL13 CFG1_PLL2MF(11) /*!< PLL2 source clock multiply by 13 */ +#define RCU_PLL2_MUL14 CFG1_PLL2MF(12) /*!< PLL2 source clock multiply by 14 */ +#define RCU_PLL2_MUL15 CFG1_PLL2MF(13) /*!< PLL2 source clock multiply by 15 */ +#define RCU_PLL2_MUL16 CFG1_PLL2MF(14) /*!< PLL2 source clock multiply by 16 */ +#define RCU_PLL2_MUL20 CFG1_PLL2MF(15) /*!< PLL2 source clock multiply by 20 */ +#define RCU_PLL2_MUL18 (PLL2MF_4 | CFG1_PLL2MF(0)) /*!< PLL2 source clock multiply by 18 */ +#define RCU_PLL2_MUL19 (PLL2MF_4 | CFG1_PLL2MF(1)) /*!< PLL2 source clock multiply by 19 */ +#define RCU_PLL2_MUL21 (PLL2MF_4 | CFG1_PLL2MF(3)) /*!< PLL2 source clock multiply by 21 */ +#define RCU_PLL2_MUL22 (PLL2MF_4 | CFG1_PLL2MF(4)) /*!< PLL2 source clock multiply by 22 */ +#define RCU_PLL2_MUL23 (PLL2MF_4 | CFG1_PLL2MF(5)) /*!< PLL2 source clock multiply by 23 */ +#define RCU_PLL2_MUL24 (PLL2MF_4 | CFG1_PLL2MF(6)) /*!< PLL2 source clock multiply by 24 */ +#define RCU_PLL2_MUL25 (PLL2MF_4 | CFG1_PLL2MF(7)) /*!< PLL2 source clock multiply by 25 */ +#define RCU_PLL2_MUL26 (PLL2MF_4 | CFG1_PLL2MF(8)) /*!< PLL2 source clock multiply by 26 */ +#define RCU_PLL2_MUL27 (PLL2MF_4 | CFG1_PLL2MF(9)) /*!< PLL2 source clock multiply by 27 */ +#define RCU_PLL2_MUL28 (PLL2MF_4 | CFG1_PLL2MF(10)) /*!< PLL2 source clock multiply by 28 */ +#define RCU_PLL2_MUL29 (PLL2MF_4 | CFG1_PLL2MF(11)) /*!< PLL2 source clock multiply by 29 */ +#define RCU_PLL2_MUL30 (PLL2MF_4 | CFG1_PLL2MF(12)) /*!< PLL2 source clock multiply by 30 */ +#define RCU_PLL2_MUL31 (PLL2MF_4 | CFG1_PLL2MF(13)) /*!< PLL2 source clock multiply by 31 */ +#define RCU_PLL2_MUL32 (PLL2MF_4 | CFG1_PLL2MF(14)) /*!< PLL2 source clock multiply by 32 */ +#define RCU_PLL2_MUL40 (PLL2MF_4 | CFG1_PLL2MF(15)) /*!< PLL2 source clock multiply by 40 */ + +#ifdef GD32F30X_CL +/* PREDV0 input clock source selection */ +#define RCU_PREDV0SRC_HXTAL_IRC48M ((uint32_t)0x00000000U) /*!< HXTAL or IRC48M selected as PREDV0 input source clock */ +#define RCU_PREDV0SRC_CKPLL1 RCU_CFG1_PREDV0SEL /*!< CK_PLL1 selected as PREDV0 input source clock */ + +/* I2S1 clock source selection */ +#define RCU_I2S1SRC_CKSYS ((uint32_t)0x00000000U) /*!< system clock selected as I2S1 source clock */ +#define RCU_I2S1SRC_CKPLL2_MUL2 RCU_CFG1_I2S1SEL /*!< (CK_PLL2 x 2) selected as I2S1 source clock */ + +/* I2S2 clock source selection */ +#define RCU_I2S2SRC_CKSYS ((uint32_t)0x00000000U) /*!< system clock selected as I2S2 source clock */ +#define RCU_I2S2SRC_CKPLL2_MUL2 RCU_CFG1_I2S2SEL /*!< (CK_PLL2 x 2) selected as I2S2 source clock */ +#endif /* GD32F30X_CL */ + +/* PLL input clock source selection */ +#define RCU_PLLPRESRC_HXTAL ((uint32_t)0x00000000U) /*!< HXTAL selected as PLL source clock */ +#define RCU_PLLPRESRC_IRC48M RCU_CFG1_PLLPRESEL /*!< CK_PLL selected as PREDV0 input source clock */ + +/* deep-sleep mode voltage */ +#define DSV_DSLPVS(regval) (BITS(0,2) & ((uint32_t)(regval) << 0)) +#define RCU_DEEPSLEEP_V_0 DSV_DSLPVS(0) /*!< core voltage is default value in deep-sleep mode */ +#define RCU_DEEPSLEEP_V_1 DSV_DSLPVS(1) /*!< core voltage is (default value-0.1)V in deep-sleep mode(customers are not recommended to use it) */ +#define RCU_DEEPSLEEP_V_2 DSV_DSLPVS(2) /*!< core voltage is (default value-0.2)V in deep-sleep mode(customers are not recommended to use it) */ +#define RCU_DEEPSLEEP_V_3 DSV_DSLPVS(3) /*!< core voltage is (default value-0.3)V in deep-sleep mode(customers are not recommended to use it) */ + +/* 48MHz clock selection */ +#define RCU_CK48MSRC_CKPLL ((uint32_t)0x00000000U) /*!< use CK_PLL clock */ +#define RCU_CK48MSRC_IRC48M RCU_ADDCTL_CK48MSEL /*!< select IRC48M clock */ + +/* function declarations */ +/* peripherals clock configure functions */ +/* deinitialize the RCU */ +void rcu_deinit(void); +/* enable the peripherals clock */ +void rcu_periph_clock_enable(rcu_periph_enum periph); +/* disable the peripherals clock */ +void rcu_periph_clock_disable(rcu_periph_enum periph); +/* enable the peripherals clock when sleep mode */ +void rcu_periph_clock_sleep_enable(rcu_periph_sleep_enum periph); +/* disable the peripherals clock when sleep mode */ +void rcu_periph_clock_sleep_disable(rcu_periph_sleep_enum periph); +/* reset the peripherals */ +void rcu_periph_reset_enable(rcu_periph_reset_enum periph_reset); +/* disable reset the peripheral */ +void rcu_periph_reset_disable(rcu_periph_reset_enum periph_reset); +/* reset the BKP domain */ +void rcu_bkp_reset_enable(void); +/* disable the BKP domain reset */ +void rcu_bkp_reset_disable(void); + +/* system and peripherals clock source, system reset configure functions */ +/* configure the system clock source */ +void rcu_system_clock_source_config(uint32_t ck_sys); +/* get the system clock source */ +uint32_t rcu_system_clock_source_get(void); +/* configure the AHB prescaler selection */ +void rcu_ahb_clock_config(uint32_t ck_ahb); +/* configure the APB1 prescaler selection */ +void rcu_apb1_clock_config(uint32_t ck_apb1); +/* configure the APB2 prescaler selection */ +void rcu_apb2_clock_config(uint32_t ck_apb2); +/* configure the CK_OUT0 clock source and divider */ +void rcu_ckout0_config(uint32_t ckout0_src); +/* configure the PLL clock source selection and PLL multiply factor */ +void rcu_pll_config(uint32_t pll_src, uint32_t pll_mul); +/* configure the PLL clock source preselection */ +void rcu_pllpresel_config(uint32_t pll_presel); +#if(defined(GD32F30X_HD) || defined(GD32F30X_XD)) +/* configure the PREDV0 division factor and clock source */ +void rcu_predv0_config(uint32_t predv0_div); +#elif defined(GD32F30X_CL) +/* configure the PREDV0 division factor and clock source */ +void rcu_predv0_config(uint32_t predv0_source, uint32_t predv0_div); +/* configure the PREDV1 division factor */ +void rcu_predv1_config(uint32_t predv1_div); +/* configure the PLL1 clock */ +void rcu_pll1_config(uint32_t pll_mul); +/* configure the PLL2 clock */ +void rcu_pll2_config(uint32_t pll_mul); +#endif /* GD32F30X_HD and GD32F30X_XD */ + +/* configure the ADC division factor */ +void rcu_adc_clock_config(uint32_t adc_psc); +/* configure the USBD/USBFS prescaler factor */ +void rcu_usbfs_trng_clock_config(uint32_t usb_psc); +/* configure the RTC clock source selection */ +void rcu_rtc_clock_config(uint32_t rtc_clock_source); +#ifdef GD32F30X_CL +/* configure the I2S1 clock source selection */ +void rcu_i2s1_clock_config(uint32_t i2s_clock_source); +/* configure the I2S2 clock source selection */ +void rcu_i2s2_clock_config(uint32_t i2s_clock_source); +#endif /* GD32F30X_CL */ +/* configure the CK48M clock selection */ +void rcu_ck48m_clock_config(uint32_t ck48m_clock_source); + + +/* get the clock stabilization and periphral reset flags */ +FlagStatus rcu_flag_get(rcu_flag_enum flag); +/* clear the reset flag */ +void rcu_all_reset_flag_clear(void); +/* get the clock stabilization interrupt and ckm flags */ +FlagStatus rcu_interrupt_flag_get(rcu_int_flag_enum int_flag); +/* clear the interrupt flags */ +void rcu_interrupt_flag_clear(rcu_int_flag_clear_enum int_flag); +/* enable the stabilization interrupt */ +void rcu_interrupt_enable(rcu_int_enum interrupt); +/* disable the stabilization interrupt */ +void rcu_interrupt_disable(rcu_int_enum interrupt); + +/* LXTAL, IRC8M, PLL and other oscillator configure functions */ +/* configure the LXTAL drive capability */ +void rcu_lxtal_drive_capability_config(uint32_t lxtal_dricap); +/* wait for oscillator stabilization flags is SET or oscillator startup is timeout */ +ErrStatus rcu_osci_stab_wait(rcu_osci_type_enum osci); +/* turn on the oscillator */ +void rcu_osci_on(rcu_osci_type_enum osci); +/* turn off the oscillator */ +void rcu_osci_off(rcu_osci_type_enum osci); +/* enable the oscillator bypass mode, HXTALEN or LXTALEN must be reset before it */ +void rcu_osci_bypass_mode_enable(rcu_osci_type_enum osci); +/* disable the oscillator bypass mode, HXTALEN or LXTALEN must be reset before it */ +void rcu_osci_bypass_mode_disable(rcu_osci_type_enum osci); +/* set the IRC8M adjust value */ +void rcu_irc8m_adjust_value_set(uint32_t irc8m_adjval); + +/* clock monitor configure functions */ +/* enable the HXTAL clock monitor */ +void rcu_hxtal_clock_monitor_enable(void); +/* disable the HXTAL clock monitor */ +void rcu_hxtal_clock_monitor_disable(void); + +/* voltage configure and clock frequency get functions */ +/* set the deep sleep mode voltage */ +void rcu_deepsleep_voltage_set(uint32_t dsvol); +/* get the system clock, bus and peripheral clock frequency */ +uint32_t rcu_clock_freq_get(rcu_clock_freq_enum clock); + +/* flag & interrupt functions */ +/* get the clock stabilization and periphral reset flags */ +FlagStatus rcu_flag_get(rcu_flag_enum flag); +/* clear the reset flag */ +void rcu_all_reset_flag_clear(void); +/* get the clock stabilization interrupt and ckm flags */ +FlagStatus rcu_interrupt_flag_get(rcu_int_flag_enum int_flag); +/* clear the interrupt flags */ +void rcu_interrupt_flag_clear(rcu_int_flag_clear_enum int_flag); +/* enable the stabilization interrupt */ +void rcu_interrupt_enable(rcu_int_enum interrupt); +/* disable the stabilization interrupt */ +void rcu_interrupt_disable(rcu_int_enum interrupt); +#endif /* GD32F30X_RCU_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_rtc.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_rtc.h new file mode 100644 index 0000000000..24aab19067 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_rtc.h @@ -0,0 +1,138 @@ +/*! + \file gd32f30x_rtc.h + \brief definitions for the RTC + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + + +#ifndef GD32F30X_RTC_H +#define GD32F30X_RTC_H + +#include "gd32f30x.h" + +/* RTC definitions */ +#define RTC RTC_BASE + +/* registers definitions */ +#define RTC_INTEN REG32(RTC + 0x00U) /*!< interrupt enable register */ +#define RTC_CTL REG32(RTC + 0x04U) /*!< control register */ +#define RTC_PSCH REG32(RTC + 0x08U) /*!< prescaler high register */ +#define RTC_PSCL REG32(RTC + 0x0CU) /*!< prescaler low register */ +#define RTC_DIVH REG32(RTC + 0x10U) /*!< divider high register */ +#define RTC_DIVL REG32(RTC + 0x14U) /*!< divider low register */ +#define RTC_CNTH REG32(RTC + 0x18U) /*!< counter high register */ +#define RTC_CNTL REG32(RTC + 0x1CU) /*!< counter low register */ +#define RTC_ALRMH REG32(RTC + 0x20U) /*!< alarm high register */ +#define RTC_ALRML REG32(RTC + 0x24U) /*!< alarm low register */ + +/* bits definitions */ +/* RTC_INTEN */ +#define RTC_INTEN_SCIE BIT(0) /*!< second interrupt enable */ +#define RTC_INTEN_ALRMIE BIT(1) /*!< alarm interrupt enable */ +#define RTC_INTEN_OVIE BIT(2) /*!< overflow interrupt enable */ + +/* RTC_CTL */ +#define RTC_CTL_SCIF BIT(0) /*!< second interrupt flag */ +#define RTC_CTL_ALRMIF BIT(1) /*!< alarm interrupt flag */ +#define RTC_CTL_OVIF BIT(2) /*!< overflow interrupt flag */ +#define RTC_CTL_RSYNF BIT(3) /*!< registers synchronized flag */ +#define RTC_CTL_CMF BIT(4) /*!< configuration mode flag */ +#define RTC_CTL_LWOFF BIT(5) /*!< last write operation finished flag */ + +/* RTC_PSC */ +#define RTC_PSCH_PSC BITS(0, 3) /*!< prescaler high value */ +#define RTC_PSCL_PSC BITS(0, 15) /*!< prescaler low value */ + +/* RTC_DIV */ +#define RTC_DIVH_DIV BITS(0, 3) /*!< divider high value */ +#define RTC_DIVL_DIV BITS(0, 15) /*!< divider low value */ + +/* RTC_CNT */ +#define RTC_CNTH_CNT BITS(0, 15) /*!< counter high value */ +#define RTC_CNTL_CNT BITS(0, 15) /*!< counter low value */ + +/* RTC_ALRM */ +#define RTC_ALRMH_ALRM BITS(0, 15) /*!< alarm high value */ +#define RTC_ALRML_ALRM BITS(0, 15) /*!< alarm low value */ + +/* constants definitions */ +#define RTC_HIGH_VALUE 0x000F0000U /*!< RTC high value */ +#define RTC_LOW_VALUE 0x0000FFFFU /*!< RTC low value */ + +/* RTC interrupt enable or disable definitions */ +#define RTC_INT_SECOND RTC_INTEN_SCIE /*!< second interrupt enable */ +#define RTC_INT_ALARM RTC_INTEN_ALRMIE /*!< alarm interrupt enable */ +#define RTC_INT_OVERFLOW RTC_INTEN_OVIE /*!< overflow interrupt enable */ + +/* RTC flag definitions */ +#define RTC_FLAG_SECOND RTC_CTL_SCIF /*!< second interrupt flag */ +#define RTC_FLAG_ALARM RTC_CTL_ALRMIF /*!< alarm interrupt flag */ +#define RTC_FLAG_OVERFLOW RTC_CTL_OVIF /*!< overflow interrupt flag */ +#define RTC_FLAG_RSYN RTC_CTL_RSYNF /*!< registers synchronized flag */ +#define RTC_FLAG_LWOF RTC_CTL_LWOFF /*!< last write operation finished flag */ + +/* function declarations */ +/* enable RTC interrupt */ +void rtc_interrupt_enable(uint32_t interrupt); +/* disable RTC interrupt */ +void rtc_interrupt_disable(uint32_t interrupt); + +/* enter RTC configuration mode */ +void rtc_configuration_mode_enter(void); +/* exit RTC configuration mode */ +void rtc_configuration_mode_exit(void); + +/* wait RTC last write operation finished flag set */ +void rtc_lwoff_wait(void); +/* wait RTC registers synchronized flag set */ +void rtc_register_sync_wait(void); + +/* get RTC counter value */ +uint32_t rtc_counter_get(void); +/* set RTC counter value */ +void rtc_counter_set(uint32_t cnt); + +/* set RTC prescaler value */ +void rtc_prescaler_set(uint32_t psc); +/* set RTC alarm value */ +void rtc_alarm_config(uint32_t alarm); +/* get RTC divider value */ +uint32_t rtc_divider_get(void); + +/* get RTC flag status */ +FlagStatus rtc_flag_get(uint32_t flag); +/* clear RTC flag status */ +void rtc_flag_clear(uint32_t flag); + +#endif /* GD32F30X_RTC_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_sdio.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_sdio.h new file mode 100644 index 0000000000..c2796c5af0 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_sdio.h @@ -0,0 +1,434 @@ +/*! + \file gd32f30x_sdio.h + \brief definitions for the SDIO + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_SDIO_H +#define GD32F30X_SDIO_H + +#include "gd32f30x.h" + +/* SDIO definitions */ +#define SDIO SDIO_BASE + +/* registers definitions */ +#define SDIO_PWRCTL REG32(SDIO + 0x00U) /*!< SDIO power control register */ +#define SDIO_CLKCTL REG32(SDIO + 0x04U) /*!< SDIO clock control register */ +#define SDIO_CMDAGMT REG32(SDIO + 0x08U) /*!< SDIO command argument register */ +#define SDIO_CMDCTL REG32(SDIO + 0x0CU) /*!< SDIO command control register */ +#define SDIO_RSPCMDIDX REG32(SDIO + 0x10U) /*!< SDIO command index response register */ +#define SDIO_RESP0 REG32(SDIO + 0x14U) /*!< SDIO response register 0 */ +#define SDIO_RESP1 REG32(SDIO + 0x18U) /*!< SDIO response register 1 */ +#define SDIO_RESP2 REG32(SDIO + 0x1CU) /*!< SDIO response register 2 */ +#define SDIO_RESP3 REG32(SDIO + 0x20U) /*!< SDIO response register 3 */ +#define SDIO_DATATO REG32(SDIO + 0x24U) /*!< SDIO data timeout register */ +#define SDIO_DATALEN REG32(SDIO + 0x28U) /*!< SDIO data length register */ +#define SDIO_DATACTL REG32(SDIO + 0x2CU) /*!< SDIO data control register */ +#define SDIO_DATACNT REG32(SDIO + 0x30U) /*!< SDIO data counter register */ +#define SDIO_STAT REG32(SDIO + 0x34U) /*!< SDIO status register */ +#define SDIO_INTC REG32(SDIO + 0x38U) /*!< SDIO interrupt clear register */ +#define SDIO_INTEN REG32(SDIO + 0x3CU) /*!< SDIO interrupt enable register */ +#define SDIO_FIFOCNT REG32(SDIO + 0x48U) /*!< SDIO FIFO counter register */ +#define SDIO_FIFO REG32(SDIO + 0x80U) /*!< SDIO FIFO data register */ + +/* bits definitions */ +/* SDIO_PWRCTL */ +#define SDIO_PWRCTL_PWRCTL BITS(0,1) /*!< SDIO power control bits */ + +/* SDIO_CLKCTL */ +#define SDIO_CLKCTL_DIV BITS(0,7) /*!< clock division */ +#define SDIO_CLKCTL_CLKEN BIT(8) /*!< SDIO_CLK clock output enable bit */ +#define SDIO_CLKCTL_CLKPWRSAV BIT(9) /*!< SDIO_CLK clock dynamic switch on/off for power saving */ +#define SDIO_CLKCTL_CLKBYP BIT(10) /*!< clock bypass enable bit */ +#define SDIO_CLKCTL_BUSMODE BITS(11,12) /*!< SDIO card bus mode control bit */ +#define SDIO_CLKCTL_CLKEDGE BIT(13) /*!< SDIO_CLK clock edge selection bit */ +#define SDIO_CLKCTL_HWCLKEN BIT(14) /*!< hardware clock control enable bit */ +#define SDIO_CLKCTL_DIV8 BIT(31) /*!< MSB of clock division */ + +/* SDIO_CMDAGMT */ +#define SDIO_CMDAGMT_CMDAGMT BITS(0,31) /*!< SDIO card command argument */ + +/* SDIO_CMDCTL */ +#define SDIO_CMDCTL_CMDIDX BITS(0,5) /*!< command index */ +#define SDIO_CMDCTL_CMDRESP BITS(6,7) /*!< command response type bits */ +#define SDIO_CMDCTL_INTWAIT BIT(8) /*!< interrupt wait instead of timeout */ +#define SDIO_CMDCTL_WAITDEND BIT(9) /*!< wait for ends of data transfer */ +#define SDIO_CMDCTL_CSMEN BIT(10) /*!< command state machine(CSM) enable bit */ +#define SDIO_CMDCTL_SUSPEND BIT(11) /*!< SD I/O suspend command(SD I/O only) */ +#define SDIO_CMDCTL_ENCMDC BIT(12) /*!< CMD completion signal enabled (CE-ATA only) */ +#define SDIO_CMDCTL_NINTEN BIT(13) /*!< no CE-ATA interrupt (CE-ATA only) */ +#define SDIO_CMDCTL_ATAEN BIT(14) /*!< CE-ATA command enable(CE-ATA only) */ + +/* SDIO_DATATO */ +#define SDIO_DATATO_DATATO BITS(0,31) /*!< data timeout period */ + +/* SDIO_DATALEN */ +#define SDIO_DATALEN_DATALEN BITS(0,24) /*!< data transfer length */ + +/* SDIO_DATACTL */ +#define SDIO_DATACTL_DATAEN BIT(0) /*!< data transfer enabled bit */ +#define SDIO_DATACTL_DATADIR BIT(1) /*!< data transfer direction */ +#define SDIO_DATACTL_TRANSMOD BIT(2) /*!< data transfer mode */ +#define SDIO_DATACTL_DMAEN BIT(3) /*!< DMA enable bit */ +#define SDIO_DATACTL_BLKSZ BITS(4,7) /*!< data block size */ +#define SDIO_DATACTL_RWEN BIT(8) /*!< read wait mode enabled(SD I/O only) */ +#define SDIO_DATACTL_RWSTOP BIT(9) /*!< read wait stop(SD I/O only) */ +#define SDIO_DATACTL_RWTYPE BIT(10) /*!< read wait type(SD I/O only) */ +#define SDIO_DATACTL_IOEN BIT(11) /*!< SD I/O specific function enable(SD I/O only) */ + +/* SDIO_STAT */ +#define SDIO_STAT_CCRCERR BIT(0) /*!< command response received (CRC check failed) */ +#define SDIO_STAT_DTCRCERR BIT(1) /*!< data block sent/received (CRC check failed) */ +#define SDIO_STAT_CMDTMOUT BIT(2) /*!< command response timeout */ +#define SDIO_STAT_DTTMOUT BIT(3) /*!< data timeout */ +#define SDIO_STAT_TXURE BIT(4) /*!< transmit FIFO underrun error occurs */ +#define SDIO_STAT_RXORE BIT(5) /*!< received FIFO overrun error occurs */ +#define SDIO_STAT_CMDRECV BIT(6) /*!< command response received (CRC check passed) */ +#define SDIO_STAT_CMDSEND BIT(7) /*!< command sent (no response required) */ +#define SDIO_STAT_DTEND BIT(8) /*!< data end (data counter, SDIO_DATACNT, is zero) */ +#define SDIO_STAT_STBITE BIT(9) /*!< start bit error in the bus */ +#define SDIO_STAT_DTBLKEND BIT(10) /*!< data block sent/received (CRC check passed) */ +#define SDIO_STAT_CMDRUN BIT(11) /*!< command transmission in progress */ +#define SDIO_STAT_TXRUN BIT(12) /*!< data transmission in progress */ +#define SDIO_STAT_RXRUN BIT(13) /*!< data reception in progress */ +#define SDIO_STAT_TFH BIT(14) /*!< transmit FIFO is half empty: at least 8 words can be written into the FIFO */ +#define SDIO_STAT_RFH BIT(15) /*!< receive FIFO is half full: at least 8 words can be read in the FIFO */ +#define SDIO_STAT_TFF BIT(16) /*!< transmit FIFO is full */ +#define SDIO_STAT_RFF BIT(17) /*!< receive FIFO is full */ +#define SDIO_STAT_TFE BIT(18) /*!< transmit FIFO is empty */ +#define SDIO_STAT_RFE BIT(19) /*!< receive FIFO is empty */ +#define SDIO_STAT_TXDTVAL BIT(20) /*!< data is valid in transmit FIFO */ +#define SDIO_STAT_RXDTVAL BIT(21) /*!< data is valid in receive FIFO */ +#define SDIO_STAT_SDIOINT BIT(22) /*!< SD I/O interrupt received */ +#define SDIO_STAT_ATAEND BIT(23) /*!< CE-ATA command completion signal received (only for CMD61) */ + +/* SDIO_INTC */ +#define SDIO_INTC_CCRCERRC BIT(0) /*!< CCRCERR flag clear bit */ +#define SDIO_INTC_DTCRCERRC BIT(1) /*!< DTCRCERR flag clear bit */ +#define SDIO_INTC_CMDTMOUTC BIT(2) /*!< CMDTMOUT flag clear bit */ +#define SDIO_INTC_DTTMOUTC BIT(3) /*!< DTTMOUT flag clear bit */ +#define SDIO_INTC_TXUREC BIT(4) /*!< TXURE flag clear bit */ +#define SDIO_INTC_RXOREC BIT(5) /*!< RXORE flag clear bit */ +#define SDIO_INTC_CMDRECVC BIT(6) /*!< CMDRECV flag clear bit */ +#define SDIO_INTC_CMDSENDC BIT(7) /*!< CMDSEND flag clear bit */ +#define SDIO_INTC_DTENDC BIT(8) /*!< DTEND flag clear bit */ +#define SDIO_INTC_STBITEC BIT(9) /*!< STBITE flag clear bit */ +#define SDIO_INTC_DTBLKENDC BIT(10) /*!< DTBLKEND flag clear bit */ +#define SDIO_INTC_SDIOINTC BIT(22) /*!< SDIOINT flag clear bit */ +#define SDIO_INTC_ATAENDC BIT(23) /*!< ATAEND flag clear bit */ + +/* SDIO_INTEN */ +#define SDIO_INTEN_CCRCERRIE BIT(0) /*!< command response CRC fail interrupt enable */ +#define SDIO_INTEN_DTCRCERRIE BIT(1) /*!< data CRC fail interrupt enable */ +#define SDIO_INTEN_CMDTMOUTIE BIT(2) /*!< command response timeout interrupt enable */ +#define SDIO_INTEN_DTTMOUTIE BIT(3) /*!< data timeout interrupt enable */ +#define SDIO_INTEN_TXUREIE BIT(4) /*!< transmit FIFO underrun error interrupt enable */ +#define SDIO_INTEN_RXOREIE BIT(5) /*!< received FIFO overrun error interrupt enable */ +#define SDIO_INTEN_CMDRECVIE BIT(6) /*!< command response received interrupt enable */ +#define SDIO_INTEN_CMDSENDIE BIT(7) /*!< command sent interrupt enable */ +#define SDIO_INTEN_DTENDIE BIT(8) /*!< data end interrupt enable */ +#define SDIO_INTEN_STBITEIE BIT(9) /*!< start bit error interrupt enable */ +#define SDIO_INTEN_DTBLKENDIE BIT(10) /*!< data block end interrupt enable */ +#define SDIO_INTEN_CMDRUNIE BIT(11) /*!< command transmission interrupt enable */ +#define SDIO_INTEN_TXRUNIE BIT(12) /*!< data transmission interrupt enable */ +#define SDIO_INTEN_RXRUNIE BIT(13) /*!< data reception interrupt enable */ +#define SDIO_INTEN_TFHIE BIT(14) /*!< transmit FIFO half empty interrupt enable */ +#define SDIO_INTEN_RFHIE BIT(15) /*!< receive FIFO half full interrupt enable */ +#define SDIO_INTEN_TFFIE BIT(16) /*!< transmit FIFO full interrupt enable */ +#define SDIO_INTEN_RFFIE BIT(17) /*!< receive FIFO full interrupt enable */ +#define SDIO_INTEN_TFEIE BIT(18) /*!< transmit FIFO empty interrupt enable */ +#define SDIO_INTEN_RFEIE BIT(19) /*!< receive FIFO empty interrupt enable */ +#define SDIO_INTEN_TXDTVALIE BIT(20) /*!< data valid in transmit FIFO interrupt enable */ +#define SDIO_INTEN_RXDTVALIE BIT(21) /*!< data valid in receive FIFO interrupt enable */ +#define SDIO_INTEN_SDIOINTIE BIT(22) /*!< SD I/O interrupt received interrupt enable */ +#define SDIO_INTEN_ATAENDIE BIT(23) /*!< CE-ATA command completion signal received interrupt enable */ + +/* SDIO_FIFO */ +#define SDIO_FIFO_FIFODT BITS(0,31) /*!< receive FIFO data or transmit FIFO data */ + +/* constants definitions */ +/* SDIO flags */ +#define SDIO_FLAG_CCRCERR BIT(0) /*!< command response received (CRC check failed) flag */ +#define SDIO_FLAG_DTCRCERR BIT(1) /*!< data block sent/received (CRC check failed) flag */ +#define SDIO_FLAG_CMDTMOUT BIT(2) /*!< command response timeout flag */ +#define SDIO_FLAG_DTTMOUT BIT(3) /*!< data timeout flag */ +#define SDIO_FLAG_TXURE BIT(4) /*!< transmit FIFO underrun error occurs flag */ +#define SDIO_FLAG_RXORE BIT(5) /*!< received FIFO overrun error occurs flag */ +#define SDIO_FLAG_CMDRECV BIT(6) /*!< command response received (CRC check passed) flag */ +#define SDIO_FLAG_CMDSEND BIT(7) /*!< command sent (no response required) flag */ +#define SDIO_FLAG_DTEND BIT(8) /*!< data end (data counter, SDIO_DATACNT, is zero) flag */ +#define SDIO_FLAG_STBITE BIT(9) /*!< start bit error in the bus flag */ +#define SDIO_FLAG_DTBLKEND BIT(10) /*!< data block sent/received (CRC check passed) flag */ +#define SDIO_FLAG_CMDRUN BIT(11) /*!< command transmission in progress flag */ +#define SDIO_FLAG_TXRUN BIT(12) /*!< data transmission in progress flag */ +#define SDIO_FLAG_RXRUN BIT(13) /*!< data reception in progress flag */ +#define SDIO_FLAG_TFH BIT(14) /*!< transmit FIFO is half empty flag: at least 8 words can be written into the FIFO */ +#define SDIO_FLAG_RFH BIT(15) /*!< receive FIFO is half full flag: at least 8 words can be read in the FIFO */ +#define SDIO_FLAG_TFF BIT(16) /*!< transmit FIFO is full flag */ +#define SDIO_FLAG_RFF BIT(17) /*!< receive FIFO is full flag */ +#define SDIO_FLAG_TFE BIT(18) /*!< transmit FIFO is empty flag */ +#define SDIO_FLAG_RFE BIT(19) /*!< receive FIFO is empty flag */ +#define SDIO_FLAG_TXDTVAL BIT(20) /*!< data is valid in transmit FIFO flag */ +#define SDIO_FLAG_RXDTVAL BIT(21) /*!< data is valid in receive FIFO flag */ +#define SDIO_FLAG_SDIOINT BIT(22) /*!< SD I/O interrupt received flag */ +#define SDIO_FLAG_ATAEND BIT(23) /*!< CE-ATA command completion signal received (only for CMD61) flag */ + +/* SDIO interrupt enable or disable */ +#define SDIO_INT_CCRCERR BIT(0) /*!< SDIO CCRCERR interrupt */ +#define SDIO_INT_DTCRCERR BIT(1) /*!< SDIO DTCRCERR interrupt */ +#define SDIO_INT_CMDTMOUT BIT(2) /*!< SDIO CMDTMOUT interrupt */ +#define SDIO_INT_DTTMOUT BIT(3) /*!< SDIO DTTMOUT interrupt */ +#define SDIO_INT_TXURE BIT(4) /*!< SDIO TXURE interrupt */ +#define SDIO_INT_RXORE BIT(5) /*!< SDIO RXORE interrupt */ +#define SDIO_INT_CMDRECV BIT(6) /*!< SDIO CMDRECV interrupt */ +#define SDIO_INT_CMDSEND BIT(7) /*!< SDIO CMDSEND interrupt */ +#define SDIO_INT_DTEND BIT(8) /*!< SDIO DTEND interrupt */ +#define SDIO_INT_STBITE BIT(9) /*!< SDIO STBITE interrupt */ +#define SDIO_INT_DTBLKEND BIT(10) /*!< SDIO DTBLKEND interrupt */ +#define SDIO_INT_CMDRUN BIT(11) /*!< SDIO CMDRUN interrupt */ +#define SDIO_INT_TXRUN BIT(12) /*!< SDIO TXRUN interrupt */ +#define SDIO_INT_RXRUN BIT(13) /*!< SDIO RXRUN interrupt */ +#define SDIO_INT_TFH BIT(14) /*!< SDIO TFH interrupt */ +#define SDIO_INT_RFH BIT(15) /*!< SDIO RFH interrupt */ +#define SDIO_INT_TFF BIT(16) /*!< SDIO TFF interrupt */ +#define SDIO_INT_RFF BIT(17) /*!< SDIO RFF interrupt */ +#define SDIO_INT_TFE BIT(18) /*!< SDIO TFE interrupt */ +#define SDIO_INT_RFE BIT(19) /*!< SDIO RFE interrupt */ +#define SDIO_INT_TXDTVAL BIT(20) /*!< SDIO TXDTVAL interrupt */ +#define SDIO_INT_RXDTVAL BIT(21) /*!< SDIO RXDTVAL interrupt */ +#define SDIO_INT_SDIOINT BIT(22) /*!< SDIO SDIOINT interrupt */ +#define SDIO_INT_ATAEND BIT(23) /*!< SDIO ATAEND interrupt */ + +/* SDIO interrupt flags */ +#define SDIO_INT_FLAG_CCRCERR BIT(0) /*!< SDIO CCRCERR interrupt flag */ +#define SDIO_INT_FLAG_DTCRCERR BIT(1) /*!< SDIO DTCRCERR interrupt flag */ +#define SDIO_INT_FLAG_CMDTMOUT BIT(2) /*!< SDIO CMDTMOUT interrupt flag */ +#define SDIO_INT_FLAG_DTTMOUT BIT(3) /*!< SDIO DTTMOUT interrupt flag */ +#define SDIO_INT_FLAG_TXURE BIT(4) /*!< SDIO TXURE interrupt flag */ +#define SDIO_INT_FLAG_RXORE BIT(5) /*!< SDIO RXORE interrupt flag */ +#define SDIO_INT_FLAG_CMDRECV BIT(6) /*!< SDIO CMDRECV interrupt flag */ +#define SDIO_INT_FLAG_CMDSEND BIT(7) /*!< SDIO CMDSEND interrupt flag */ +#define SDIO_INT_FLAG_DTEND BIT(8) /*!< SDIO DTEND interrupt flag */ +#define SDIO_INT_FLAG_STBITE BIT(9) /*!< SDIO STBITE interrupt flag */ +#define SDIO_INT_FLAG_DTBLKEND BIT(10) /*!< SDIO DTBLKEND interrupt flag */ +#define SDIO_INT_FLAG_CMDRUN BIT(11) /*!< SDIO CMDRUN interrupt flag */ +#define SDIO_INT_FLAG_TXRUN BIT(12) /*!< SDIO TXRUN interrupt flag */ +#define SDIO_INT_FLAG_RXRUN BIT(13) /*!< SDIO RXRUN interrupt flag */ +#define SDIO_INT_FLAG_TFH BIT(14) /*!< SDIO TFH interrupt flag */ +#define SDIO_INT_FLAG_RFH BIT(15) /*!< SDIO RFH interrupt flag */ +#define SDIO_INT_FLAG_TFF BIT(16) /*!< SDIO TFF interrupt flag */ +#define SDIO_INT_FLAG_RFF BIT(17) /*!< SDIO RFF interrupt flag */ +#define SDIO_INT_FLAG_TFE BIT(18) /*!< SDIO TFE interrupt flag */ +#define SDIO_INT_FLAG_RFE BIT(19) /*!< SDIO RFE interrupt flag */ +#define SDIO_INT_FLAG_TXDTVAL BIT(20) /*!< SDIO TXDTVAL interrupt flag */ +#define SDIO_INT_FLAG_RXDTVAL BIT(21) /*!< SDIO RXDTVAL interrupt flag */ +#define SDIO_INT_FLAG_SDIOINT BIT(22) /*!< SDIO SDIOINT interrupt flag */ +#define SDIO_INT_FLAG_ATAEND BIT(23) /*!< SDIO ATAEND interrupt flag */ + +/* SDIO power control */ +#define PWRCTL_PWRCTL(regval) (BITS(0,1) & ((uint32_t)(regval) << 0)) +#define SDIO_POWER_OFF PWRCTL_PWRCTL(0) /*!< SDIO power off */ +#define SDIO_POWER_ON PWRCTL_PWRCTL(3) /*!< SDIO power on */ + +/* SDIO card bus mode control */ +#define CLKCTL_BUSMODE(regval) (BITS(11,12) & ((uint32_t)(regval) << 11)) +#define SDIO_BUSMODE_1BIT CLKCTL_BUSMODE(0) /*!< 1-bit SDIO card bus mode */ +#define SDIO_BUSMODE_4BIT CLKCTL_BUSMODE(1) /*!< 4-bit SDIO card bus mode */ +#define SDIO_BUSMODE_8BIT CLKCTL_BUSMODE(2) /*!< 8-bit SDIO card bus mode */ + +/* SDIO_CLK clock edge selection */ +#define SDIO_SDIOCLKEDGE_RISING (uint32_t)0x00000000U /*!< select the rising edge of the SDIOCLK to generate SDIO_CLK */ +#define SDIO_SDIOCLKEDGE_FALLING SDIO_CLKCTL_CLKEDGE /*!< select the falling edge of the SDIOCLK to generate SDIO_CLK */ + +/* clock bypass enable or disable */ +#define SDIO_CLOCKBYPASS_DISABLE (uint32_t)0x00000000U /*!< no bypass */ +#define SDIO_CLOCKBYPASS_ENABLE SDIO_CLKCTL_CLKBYP /*!< clock bypass */ + +/* SDIO_CLK clock dynamic switch on/off for power saving */ +#define SDIO_CLOCKPWRSAVE_DISABLE (uint32_t)0x00000000U /*!< SDIO_CLK clock is always on */ +#define SDIO_CLOCKPWRSAVE_ENABLE SDIO_CLKCTL_CLKPWRSAV /*!< SDIO_CLK closed when bus is idle */ + +/* SDIO command response type */ +#define CMDCTL_CMDRESP(regval) (BITS(6,7) & ((uint32_t)(regval) << 6)) +#define SDIO_RESPONSETYPE_NO CMDCTL_CMDRESP(0) /*!< no response */ +#define SDIO_RESPONSETYPE_SHORT CMDCTL_CMDRESP(1) /*!< short response */ +#define SDIO_RESPONSETYPE_LONG CMDCTL_CMDRESP(3) /*!< long response */ + +/* command state machine wait type */ +#define SDIO_WAITTYPE_NO (uint32_t)0x00000000U /*!< not wait interrupt */ +#define SDIO_WAITTYPE_INTERRUPT SDIO_CMDCTL_INTWAIT /*!< wait interrupt */ +#define SDIO_WAITTYPE_DATAEND SDIO_CMDCTL_WAITDEND /*!< wait the end of data transfer */ + +#define SDIO_RESPONSE0 (uint32_t)0x00000000U /*!< card response[31:0]/card response[127:96] */ +#define SDIO_RESPONSE1 (uint32_t)0x00000001U /*!< card response[95:64] */ +#define SDIO_RESPONSE2 (uint32_t)0x00000002U /*!< card response[63:32] */ +#define SDIO_RESPONSE3 (uint32_t)0x00000003U /*!< card response[31:1], plus bit 0 */ + +/* SDIO data block size */ +#define DATACTL_BLKSZ(regval) (BITS(4,7) & ((uint32_t)(regval) << 4)) +#define SDIO_DATABLOCKSIZE_1BYTE DATACTL_BLKSZ(0) /*!< block size = 1 byte */ +#define SDIO_DATABLOCKSIZE_2BYTES DATACTL_BLKSZ(1) /*!< block size = 2 bytes */ +#define SDIO_DATABLOCKSIZE_4BYTES DATACTL_BLKSZ(2) /*!< block size = 4 bytes */ +#define SDIO_DATABLOCKSIZE_8BYTES DATACTL_BLKSZ(3) /*!< block size = 8 bytes */ +#define SDIO_DATABLOCKSIZE_16BYTES DATACTL_BLKSZ(4) /*!< block size = 16 bytes */ +#define SDIO_DATABLOCKSIZE_32BYTES DATACTL_BLKSZ(5) /*!< block size = 32 bytes */ +#define SDIO_DATABLOCKSIZE_64BYTES DATACTL_BLKSZ(6) /*!< block size = 64 bytes */ +#define SDIO_DATABLOCKSIZE_128BYTES DATACTL_BLKSZ(7) /*!< block size = 128 bytes */ +#define SDIO_DATABLOCKSIZE_256BYTES DATACTL_BLKSZ(8) /*!< block size = 256 bytes */ +#define SDIO_DATABLOCKSIZE_512BYTES DATACTL_BLKSZ(9) /*!< block size = 512 bytes */ +#define SDIO_DATABLOCKSIZE_1024BYTES DATACTL_BLKSZ(10) /*!< block size = 1024 bytes */ +#define SDIO_DATABLOCKSIZE_2048BYTES DATACTL_BLKSZ(11) /*!< block size = 2048 bytes */ +#define SDIO_DATABLOCKSIZE_4096BYTES DATACTL_BLKSZ(12) /*!< block size = 4096 bytes */ +#define SDIO_DATABLOCKSIZE_8192BYTES DATACTL_BLKSZ(13) /*!< block size = 8192 bytes */ +#define SDIO_DATABLOCKSIZE_16384BYTES DATACTL_BLKSZ(14) /*!< block size = 16384 bytes */ + +/* SDIO data transfer mode */ +#define SDIO_TRANSMODE_BLOCK (uint32_t)0x00000000U /*!< block transfer */ +#define SDIO_TRANSMODE_STREAM SDIO_DATACTL_TRANSMOD /*!< stream transfer or SDIO multibyte transfer */ + +/* SDIO data transfer direction */ +#define SDIO_TRANSDIRECTION_TOCARD (uint32_t)0x00000000U /*!< write data to card */ +#define SDIO_TRANSDIRECTION_TOSDIO SDIO_DATACTL_DATADIR /*!< read data from card */ + +/* SDIO read wait type */ +#define SDIO_READWAITTYPE_DAT2 (uint32_t)0x00000000U /*!< read wait control using SDIO_DAT[2] */ +#define SDIO_READWAITTYPE_CLK SDIO_DATACTL_RWTYPE /*!< read wait control by stopping SDIO_CLK */ + +/* function declarations */ +/* de/initialization functions, hardware clock, bus mode, power_state and SDIO clock configuration */ +/* deinitialize the SDIO */ +void sdio_deinit(void); +/* configure the SDIO clock */ +void sdio_clock_config(uint32_t clock_edge, uint32_t clock_bypass, uint32_t clock_powersave, uint16_t clock_division); +/* enable hardware clock control */ +void sdio_hardware_clock_enable(void); +/* disable hardware clock control */ +void sdio_hardware_clock_disable(void); +/* set different SDIO card bus mode */ +void sdio_bus_mode_set(uint32_t bus_mode); +/* set the SDIO power state */ +void sdio_power_state_set(uint32_t power_state); +/* get the SDIO power state */ +uint32_t sdio_power_state_get(void); +/* enable SDIO_CLK clock output */ +void sdio_clock_enable(void); +/* disable SDIO_CLK clock output */ +void sdio_clock_disable(void); + +/* configure the command index, argument, response type, wait type and CSM to send command functions */ +/* configure the command and response */ +void sdio_command_response_config(uint32_t cmd_index, uint32_t cmd_argument, uint32_t response_type); +/* set the command state machine wait type */ +void sdio_wait_type_set(uint32_t wait_type); +/* enable the CSM(command state machine) */ +void sdio_csm_enable(void); +/* disable the CSM(command state machine) */ +void sdio_csm_disable(void); +/* get the last response command index */ +uint8_t sdio_command_index_get(void); +/* get the response for the last received command */ +uint32_t sdio_response_get(uint32_t responsex); + +/* configure the data timeout, length, block size, transfer mode, direction and DSM for data transfer functions */ +/* configure the data timeout, data length and data block size */ +void sdio_data_config(uint32_t data_timeout, uint32_t data_length, uint32_t data_blocksize); +/* configure the data transfer mode and direction */ +void sdio_data_transfer_config(uint32_t transfer_mode, uint32_t transfer_direction); +/* enable the DSM(data state machine) for data transfer */ +void sdio_dsm_enable(void); +/* disable the DSM(data state machine) */ +void sdio_dsm_disable(void); +/* write data(one word) to the transmit FIFO */ +void sdio_data_write(uint32_t data); +/* read data(one word) from the receive FIFO */ +uint32_t sdio_data_read(void); +/* get the number of remaining data bytes to be transferred to card */ +uint32_t sdio_data_counter_get(void); +/* get the number of words remaining to be written or read from FIFO */ +uint32_t sdio_fifo_counter_get(void); +/* enable the DMA request for SDIO */ +void sdio_dma_enable(void); +/* disable the DMA request for SDIO */ +void sdio_dma_disable(void); + +/* flag and interrupt functions */ +/* get the flags state of SDIO */ +FlagStatus sdio_flag_get(uint32_t flag); +/* clear the pending flags of SDIO */ +void sdio_flag_clear(uint32_t flag); +/* enable the SDIO interrupt */ +void sdio_interrupt_enable(uint32_t int_flag); +/* disable the SDIO interrupt */ +void sdio_interrupt_disable(uint32_t int_flag); +/* get the interrupt flags state of SDIO */ +FlagStatus sdio_interrupt_flag_get(uint32_t int_flag); +/* clear the interrupt pending flags of SDIO */ +void sdio_interrupt_flag_clear(uint32_t int_flag); + +/* SD I/O card functions */ +/* enable the read wait mode(SD I/O only) */ +void sdio_readwait_enable(void); +/* disable the read wait mode(SD I/O only) */ +void sdio_readwait_disable(void); +/* enable the function that stop the read wait process(SD I/O only) */ +void sdio_stop_readwait_enable(void); +/* disable the function that stop the read wait process(SD I/O only) */ +void sdio_stop_readwait_disable(void); +/* set the read wait type(SD I/O only) */ +void sdio_readwait_type_set(uint32_t readwait_type); +/* enable the SD I/O mode specific operation(SD I/O only) */ +void sdio_operation_enable(void); +/* disable the SD I/O mode specific operation(SD I/O only) */ +void sdio_operation_disable(void); +/* enable the SD I/O suspend operation(SD I/O only) */ +void sdio_suspend_enable(void); +/* disable the SD I/O suspend operation(SD I/O only) */ +void sdio_suspend_disable(void); + +/* CE-ATA functions */ +/* enable the CE-ATA command(CE-ATA only) */ +void sdio_ceata_command_enable(void); +/* disable the CE-ATA command(CE-ATA only) */ +void sdio_ceata_command_disable(void); +/* enable the CE-ATA interrupt(CE-ATA only) */ +void sdio_ceata_interrupt_enable(void); +/* disable the CE-ATA interrupt(CE-ATA only) */ +void sdio_ceata_interrupt_disable(void); +/* enable the CE-ATA command completion signal(CE-ATA only) */ +void sdio_ceata_command_completion_enable(void); +/* disable the CE-ATA command completion signal(CE-ATA only) */ +void sdio_ceata_command_completion_disable(void); + +#endif /* GD32F30X_SDIO_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_spi.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_spi.h new file mode 100644 index 0000000000..73a023dc49 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_spi.h @@ -0,0 +1,365 @@ +/*! + \file gd32f30x_spi.h + \brief definitions for the SPI + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_SPI_H +#define GD32F30X_SPI_H + +#include "gd32f30x.h" + +/* SPIx(x=0,1,2) definitions */ +#define SPI0 (SPI_BASE + 0x0000F800U) +#define SPI1 SPI_BASE +#define SPI2 (SPI_BASE + 0x00000400U) + +/* SPI registers definitions */ +#define SPI_CTL0(spix) REG32((spix) + 0x00U) /*!< SPI control register 0 */ +#define SPI_CTL1(spix) REG32((spix) + 0x04U) /*!< SPI control register 1*/ +#define SPI_STAT(spix) REG32((spix) + 0x08U) /*!< SPI status register */ +#define SPI_DATA(spix) REG32((spix) + 0x0CU) /*!< SPI data register */ +#define SPI_CRCPOLY(spix) REG32((spix) + 0x10U) /*!< SPI CRC polynomial register */ +#define SPI_RCRC(spix) REG32((spix) + 0x14U) /*!< SPI receive CRC register */ +#define SPI_TCRC(spix) REG32((spix) + 0x18U) /*!< SPI transmit CRC register */ +#define SPI_I2SCTL(spix) REG32((spix) + 0x1CU) /*!< SPI I2S control register */ +#define SPI_I2SPSC(spix) REG32((spix) + 0x20U) /*!< SPI I2S clock prescaler register */ +#define SPI_QCTL(spix) REG32((spix) + 0x80U) /*!< SPI quad mode control register(only SPI0) */ + +/* bits definitions */ +/* SPI_CTL0 */ +#define SPI_CTL0_CKPH BIT(0) /*!< clock phase selection*/ +#define SPI_CTL0_CKPL BIT(1) /*!< clock polarity selection */ +#define SPI_CTL0_MSTMOD BIT(2) /*!< master mode enable */ +#define SPI_CTL0_PSC BITS(3,5) /*!< master clock prescaler selection */ +#define SPI_CTL0_SPIEN BIT(6) /*!< SPI enable*/ +#define SPI_CTL0_LF BIT(7) /*!< LSB first mode */ +#define SPI_CTL0_SWNSS BIT(8) /*!< NSS pin selection in NSS software mode */ +#define SPI_CTL0_SWNSSEN BIT(9) /*!< NSS software mode selection */ +#define SPI_CTL0_RO BIT(10) /*!< receive only */ +#define SPI_CTL0_FF16 BIT(11) /*!< data frame size */ +#define SPI_CTL0_CRCNT BIT(12) /*!< CRC next transfer */ +#define SPI_CTL0_CRCEN BIT(13) /*!< CRC calculation enable */ +#define SPI_CTL0_BDOEN BIT(14) /*!< bidirectional transmit output enable*/ +#define SPI_CTL0_BDEN BIT(15) /*!< bidirectional enable */ + +/* SPI_CTL1 */ +#define SPI_CTL1_DMAREN BIT(0) /*!< receive buffer dma enable */ +#define SPI_CTL1_DMATEN BIT(1) /*!< transmit buffer dma enable */ +#define SPI_CTL1_NSSDRV BIT(2) /*!< drive NSS output */ +#define SPI_CTL1_NSSP BIT(3) /*!< SPI NSS pulse mode enable */ +#define SPI_CTL1_TMOD BIT(4) /*!< SPI TI mode enable */ +#define SPI_CTL1_ERRIE BIT(5) /*!< errors interrupt enable */ +#define SPI_CTL1_RBNEIE BIT(6) /*!< receive buffer not empty interrupt enable */ +#define SPI_CTL1_TBEIE BIT(7) /*!< transmit buffer empty interrupt enable */ + +/* SPI_STAT */ +#define SPI_STAT_RBNE BIT(0) /*!< receive buffer not empty */ +#define SPI_STAT_TBE BIT(1) /*!< transmit buffer empty */ +#define SPI_STAT_I2SCH BIT(2) /*!< I2S channel side */ +#define SPI_STAT_TXURERR BIT(3) /*!< I2S transmission underrun error bit */ +#define SPI_STAT_CRCERR BIT(4) /*!< SPI CRC error bit */ +#define SPI_STAT_CONFERR BIT(5) /*!< SPI configuration error bit */ +#define SPI_STAT_RXORERR BIT(6) /*!< SPI reception overrun error bit */ +#define SPI_STAT_TRANS BIT(7) /*!< transmitting on-going bit */ +#define SPI_STAT_FERR BIT(8) /*!< format error bit */ + +/* SPI_DATA */ +#define SPI_DATA_DATA BITS(0,15) /*!< data transfer register */ + +/* SPI_CRCPOLY */ +#define SPI_CRCPOLY_CPR BITS(0,15) /*!< CRC polynomial register */ + +/* SPI_RCRC */ +#define SPI_RCRC_RCR BITS(0,15) /*!< RX CRC register */ + +/* SPI_TCRC */ +#define SPI_TCRC_TCR BITS(0,15) /*!< TX CRC register */ + +/* SPI_I2SCTL */ +#define SPI_I2SCTL_CHLEN BIT(0) /*!< channel length */ +#define SPI_I2SCTL_DTLEN BITS(1,2) /*!< data length */ +#define SPI_I2SCTL_CKPL BIT(3) /*!< idle state clock polarity */ +#define SPI_I2SCTL_I2SSTD BITS(4,5) /*!< I2S standard selection */ +#define SPI_I2SCTL_PCMSMOD BIT(7) /*!< PCM frame synchronization mode */ +#define SPI_I2SCTL_I2SOPMOD BITS(8,9) /*!< I2S operation mode */ +#define SPI_I2SCTL_I2SEN BIT(10) /*!< I2S enable */ +#define SPI_I2SCTL_I2SSEL BIT(11) /*!< I2S mode selection */ + +/* SPI_I2SPSC */ +#define SPI_I2SPSC_DIV BITS(0,7) /*!< dividing factor for the prescaler */ +#define SPI_I2SPSC_OF BIT(8) /*!< odd factor for the prescaler */ +#define SPI_I2SPSC_MCKOEN BIT(9) /*!< I2S MCK output enable */ + +/* SPI_QCTL(only for SPI0) */ +#define SPI_QCTL_QMOD BIT(0) /*!< quad-SPI mode enable */ +#define SPI_QCTL_QRD BIT(1) /*!< quad-SPI mode read select */ +#define SPI_QCTL_IO23_DRV BIT(2) /*!< drive SPI_IO2 and SPI_IO3 enable */ + +/* constants definitions */ +/* SPI and I2S parameter struct definitions */ +typedef struct +{ + uint32_t device_mode; /*!< SPI master or slave */ + uint32_t trans_mode; /*!< SPI transtype */ + uint32_t frame_size; /*!< SPI frame size */ + uint32_t nss; /*!< SPI NSS control by handware or software */ + uint32_t endian; /*!< SPI big endian or little endian */ + uint32_t clock_polarity_phase; /*!< SPI clock phase and polarity */ + uint32_t prescale; /*!< SPI prescale factor */ +}spi_parameter_struct; + +/* SPI mode definitions */ +#define SPI_MASTER (SPI_CTL0_MSTMOD | SPI_CTL0_SWNSS) /*!< SPI as master */ +#define SPI_SLAVE ((uint32_t)0x00000000U) /*!< SPI as slave */ + +/* SPI bidirectional transfer direction */ +#define SPI_BIDIRECTIONAL_TRANSMIT SPI_CTL0_BDOEN /*!< SPI work in transmit-only mode */ +#define SPI_BIDIRECTIONAL_RECEIVE (~SPI_CTL0_BDOEN) /*!< SPI work in receive-only mode */ + +/* SPI transmit type */ +#define SPI_TRANSMODE_FULLDUPLEX ((uint32_t)0x00000000U) /*!< SPI receive and send data at fullduplex communication */ +#define SPI_TRANSMODE_RECEIVEONLY SPI_CTL0_RO /*!< SPI only receive data */ +#define SPI_TRANSMODE_BDRECEIVE SPI_CTL0_BDEN /*!< bidirectional receive data */ +#define SPI_TRANSMODE_BDTRANSMIT (SPI_CTL0_BDEN | SPI_CTL0_BDOEN) /*!< bidirectional transmit data*/ + +/* SPI frame size */ +#define SPI_FRAMESIZE_16BIT SPI_CTL0_FF16 /*!< SPI frame size is 16 bits */ +#define SPI_FRAMESIZE_8BIT ((uint32_t)0x00000000U) /*!< SPI frame size is 8 bits */ + +/* SPI NSS control mode */ +#define SPI_NSS_SOFT SPI_CTL0_SWNSSEN /*!< SPI NSS control by sofrware */ +#define SPI_NSS_HARD ((uint32_t)0x00000000U) /*!< SPI NSS control by hardware */ + +/* SPI transmit way */ +#define SPI_ENDIAN_MSB ((uint32_t)0x00000000U) /*!< SPI transmit way is big endian: transmit MSB first */ +#define SPI_ENDIAN_LSB SPI_CTL0_LF /*!< SPI transmit way is little endian: transmit LSB first */ + +/* SPI clock phase and polarity */ +#define SPI_CK_PL_LOW_PH_1EDGE ((uint32_t)0x00000000U) /*!< SPI clock polarity is low level and phase is first edge */ +#define SPI_CK_PL_HIGH_PH_1EDGE SPI_CTL0_CKPL /*!< SPI clock polarity is high level and phase is first edge */ +#define SPI_CK_PL_LOW_PH_2EDGE SPI_CTL0_CKPH /*!< SPI clock polarity is low level and phase is second edge */ +#define SPI_CK_PL_HIGH_PH_2EDGE (SPI_CTL0_CKPL | SPI_CTL0_CKPH) /*!< SPI clock polarity is high level and phase is second edge */ + +/* SPI clock prescale factor */ +#define CTL0_PSC(regval) (BITS(3,5) & ((uint32_t)(regval) << 3)) +#define SPI_PSC_2 CTL0_PSC(0) /*!< SPI clock prescale factor is 2 */ +#define SPI_PSC_4 CTL0_PSC(1) /*!< SPI clock prescale factor is 4 */ +#define SPI_PSC_8 CTL0_PSC(2) /*!< SPI clock prescale factor is 8 */ +#define SPI_PSC_16 CTL0_PSC(3) /*!< SPI clock prescale factor is 16 */ +#define SPI_PSC_32 CTL0_PSC(4) /*!< SPI clock prescale factor is 32 */ +#define SPI_PSC_64 CTL0_PSC(5) /*!< SPI clock prescale factor is 64 */ +#define SPI_PSC_128 CTL0_PSC(6) /*!< SPI clock prescale factor is 128 */ +#define SPI_PSC_256 CTL0_PSC(7) /*!< SPI clock prescale factor is 256 */ + +/* I2S audio sample rate */ +#define I2S_AUDIOSAMPLE_8K ((uint32_t)8000U) /*!< I2S audio sample rate is 8KHz */ +#define I2S_AUDIOSAMPLE_11K ((uint32_t)11025U) /*!< I2S audio sample rate is 11KHz */ +#define I2S_AUDIOSAMPLE_16K ((uint32_t)16000U) /*!< I2S audio sample rate is 16KHz */ +#define I2S_AUDIOSAMPLE_22K ((uint32_t)22050U) /*!< I2S audio sample rate is 22KHz */ +#define I2S_AUDIOSAMPLE_32K ((uint32_t)32000U) /*!< I2S audio sample rate is 32KHz */ +#define I2S_AUDIOSAMPLE_44K ((uint32_t)44100U) /*!< I2S audio sample rate is 44KHz */ +#define I2S_AUDIOSAMPLE_48K ((uint32_t)48000U) /*!< I2S audio sample rate is 48KHz */ +#define I2S_AUDIOSAMPLE_96K ((uint32_t)96000U) /*!< I2S audio sample rate is 96KHz */ +#define I2S_AUDIOSAMPLE_192K ((uint32_t)192000U) /*!< I2S audio sample rate is 192KHz */ + +/* I2S frame format */ +#define I2SCTL_DTLEN(regval) (BITS(1,2) & ((uint32_t)(regval) << 1)) +#define I2S_FRAMEFORMAT_DT16B_CH16B I2SCTL_DTLEN(0) /*!< I2S data length is 16 bit and channel length is 16 bit */ +#define I2S_FRAMEFORMAT_DT16B_CH32B (I2SCTL_DTLEN(0) | SPI_I2SCTL_CHLEN) /*!< I2S data length is 16 bit and channel length is 32 bit */ +#define I2S_FRAMEFORMAT_DT24B_CH32B (I2SCTL_DTLEN(1) | SPI_I2SCTL_CHLEN) /*!< I2S data length is 24 bit and channel length is 32 bit */ +#define I2S_FRAMEFORMAT_DT32B_CH32B (I2SCTL_DTLEN(2) | SPI_I2SCTL_CHLEN) /*!< I2S data length is 32 bit and channel length is 32 bit */ + +/* I2S master clock output */ +#define I2S_MCKOUT_DISABLE ((uint32_t)0x00000000U) /*!< I2S master clock output disable */ +#define I2S_MCKOUT_ENABLE SPI_I2SPSC_MCKOEN /*!< I2S master clock output enable */ + +/* I2S operation mode */ +#define I2SCTL_I2SOPMOD(regval) (BITS(8,9) & ((uint32_t)(regval) << 8)) +#define I2S_MODE_SLAVETX I2SCTL_I2SOPMOD(0) /*!< I2S slave transmit mode */ +#define I2S_MODE_SLAVERX I2SCTL_I2SOPMOD(1) /*!< I2S slave receive mode */ +#define I2S_MODE_MASTERTX I2SCTL_I2SOPMOD(2) /*!< I2S master transmit mode */ +#define I2S_MODE_MASTERRX I2SCTL_I2SOPMOD(3) /*!< I2S master receive mode */ + +/* I2S standard */ +#define I2SCTL_I2SSTD(regval) (BITS(4,5) & ((uint32_t)(regval) << 4)) +#define I2S_STD_PHILLIPS I2SCTL_I2SSTD(0) /*!< I2S phillips standard */ +#define I2S_STD_MSB I2SCTL_I2SSTD(1) /*!< I2S MSB standard */ +#define I2S_STD_LSB I2SCTL_I2SSTD(2) /*!< I2S LSB standard */ +#define I2S_STD_PCMSHORT I2SCTL_I2SSTD(3) /*!< I2S PCM short standard */ +#define I2S_STD_PCMLONG (I2SCTL_I2SSTD(3) | SPI_I2SCTL_PCMSMOD) /*!< I2S PCM long standard */ + +/* I2S clock polarity */ +#define I2S_CKPL_LOW ((uint32_t)0x00000000U) /*!< I2S clock polarity low level */ +#define I2S_CKPL_HIGH SPI_I2SCTL_CKPL /*!< I2S clock polarity high level */ + +/* SPI DMA constants definitions */ +#define SPI_DMA_TRANSMIT ((uint8_t)0x00U) /*!< SPI transmit data use DMA */ +#define SPI_DMA_RECEIVE ((uint8_t)0x01U) /*!< SPI receive data use DMA */ + +/* SPI CRC constants definitions */ +#define SPI_CRC_TX ((uint8_t)0x00U) /*!< SPI transmit CRC value */ +#define SPI_CRC_RX ((uint8_t)0x01U) /*!< SPI receive CRC value */ + +/* SPI/I2S interrupt enable/disable constants definitions */ +#define SPI_I2S_INT_TBE ((uint8_t)0x00U) /*!< transmit buffer empty interrupt */ +#define SPI_I2S_INT_RBNE ((uint8_t)0x01U) /*!< receive buffer not empty interrupt */ +#define SPI_I2S_INT_ERR ((uint8_t)0x02U) /*!< error interrupt */ + +/* SPI/I2S interrupt flag constants definitions */ +#define SPI_I2S_INT_FLAG_TBE ((uint8_t)0x00U) /*!< transmit buffer empty interrupt flag */ +#define SPI_I2S_INT_FLAG_RBNE ((uint8_t)0x01U) /*!< receive buffer not empty interrupt flag */ +#define SPI_I2S_INT_FLAG_RXORERR ((uint8_t)0x02U) /*!< overrun interrupt flag */ +#define SPI_INT_FLAG_CONFERR ((uint8_t)0x03U) /*!< config error interrupt flag */ +#define SPI_INT_FLAG_CRCERR ((uint8_t)0x04U) /*!< CRC error interrupt flag */ +#define I2S_INT_FLAG_TXURERR ((uint8_t)0x05U) /*!< underrun error interrupt flag */ +#define SPI_I2S_INT_FLAG_FERR ((uint8_t)0x06U) /*!< format error interrupt flag */ + +/* SPI/I2S flag definitions */ +#define SPI_FLAG_RBNE SPI_STAT_RBNE /*!< receive buffer not empty flag */ +#define SPI_FLAG_TBE SPI_STAT_TBE /*!< transmit buffer empty flag */ +#define SPI_FLAG_CRCERR SPI_STAT_CRCERR /*!< CRC error flag */ +#define SPI_FLAG_CONFERR SPI_STAT_CONFERR /*!< mode config error flag */ +#define SPI_FLAG_RXORERR SPI_STAT_RXORERR /*!< receive overrun error flag */ +#define SPI_FLAG_TRANS SPI_STAT_TRANS /*!< transmit on-going flag */ +#define SPI_FLAG_FERR SPI_STAT_FERR /*!< format error flag */ +#define I2S_FLAG_RBNE SPI_STAT_RBNE /*!< receive buffer not empty flag */ +#define I2S_FLAG_TBE SPI_STAT_TBE /*!< transmit buffer empty flag */ +#define I2S_FLAG_CH SPI_STAT_I2SCH /*!< channel side flag */ +#define I2S_FLAG_TXURERR SPI_STAT_TXURERR /*!< underrun error flag */ +#define I2S_FLAG_RXORERR SPI_STAT_RXORERR /*!< overrun error flag */ +#define I2S_FLAG_TRANS SPI_STAT_TRANS /*!< transmit on-going flag */ +#define I2S_FLAG_FERR SPI_STAT_FERR /*!< format error flag */ + +/* function declarations */ +/* SPI/I2S deinitialization and initialization functions */ +/* reset SPI and I2S */ +void spi_i2s_deinit(uint32_t spi_periph); +/* initialize the parameters of SPI struct with the default values */ +void spi_struct_para_init(spi_parameter_struct* spi_struct); +/* initialize SPI parameter */ +void spi_init(uint32_t spi_periph, spi_parameter_struct* spi_struct); +/* enable SPI */ +void spi_enable(uint32_t spi_periph); +/* disable SPI */ +void spi_disable(uint32_t spi_periph); + +/* initialize I2S parameter */ +void i2s_init(uint32_t spi_periph, uint32_t i2s_mode, uint32_t i2s_standard, uint32_t i2s_ckpl); +/* configure I2S prescaler */ +void i2s_psc_config(uint32_t spi_periph, uint32_t i2s_audiosample, uint32_t i2s_frameformat, uint32_t i2s_mckout); +/* enable I2S */ +void i2s_enable(uint32_t spi_periph); +/* disable I2S */ +void i2s_disable(uint32_t spi_periph); + +/* NSS functions */ +/* enable SPI NSS output */ +void spi_nss_output_enable(uint32_t spi_periph); +/* disable SPI NSS output */ +void spi_nss_output_disable(uint32_t spi_periph); +/* SPI NSS pin high level in software mode */ +void spi_nss_internal_high(uint32_t spi_periph); +/* SPI NSS pin low level in software mode */ +void spi_nss_internal_low(uint32_t spi_periph); + +/* SPI DMA functions */ +/* enable SPI DMA */ +void spi_dma_enable(uint32_t spi_periph, uint8_t dma); +/* disable SPI DMA */ +void spi_dma_disable(uint32_t spi_periph, uint8_t dma); + +/* SPI/I2S transfer configure functions */ +/* configure SPI/I2S data frame format */ +void spi_i2s_data_frame_format_config(uint32_t spi_periph, uint16_t frame_format); +/* SPI transmit data */ +void spi_i2s_data_transmit(uint32_t spi_periph, uint16_t data); +/* SPI receive data */ +uint16_t spi_i2s_data_receive(uint32_t spi_periph); +/* configure SPI bidirectional transfer direction */ +void spi_bidirectional_transfer_config(uint32_t spi_periph, uint32_t transfer_direction); + +/* SPI CRC functions */ +/* set SPI CRC polynomial */ +void spi_crc_polynomial_set(uint32_t spi_periph, uint16_t crc_poly); +/* get SPI CRC polynomial */ +uint16_t spi_crc_polynomial_get(uint32_t spi_periph); +/* turn on SPI CRC function */ +void spi_crc_on(uint32_t spi_periph); +/* turn off SPI CRC function */ +void spi_crc_off(uint32_t spi_periph); +/* SPI next data is CRC value */ +void spi_crc_next(uint32_t spi_periph); +/* get SPI CRC send value or receive value */ +uint16_t spi_crc_get(uint32_t spi_periph, uint8_t crc); + +/* SPI TI mode functions */ +/* enable SPI TI mode */ +void spi_ti_mode_enable(uint32_t spi_periph); +/* disable SPI TI mode */ +void spi_ti_mode_disable(uint32_t spi_periph); + +/* SPI NSS pulse mode functions */ +/* enable SPI NSS pulse mode */ +void spi_nssp_mode_enable(uint32_t spi_periph); +/* disable SPI NSS pulse mode */ +void spi_nssp_mode_disable(uint32_t spi_periph); + +/* quad wire SPI functions */ +/* enable quad wire SPI */ +void spi_quad_enable(uint32_t spi_periph); +/* disable quad wire SPI */ +void spi_quad_disable(uint32_t spi_periph); +/* enable quad wire SPI write */ +void spi_quad_write_enable(uint32_t spi_periph); +/* enable quad wire SPI read */ +void spi_quad_read_enable(uint32_t spi_periph); +/* enable quad wire SPI_IO2 and SPI_IO3 pin output */ +void spi_quad_io23_output_enable(uint32_t spi_periph); +/* disable quad wire SPI_IO2 and SPI_IO3 pin output */ +void spi_quad_io23_output_disable(uint32_t spi_periph); + +/* flag and interrupt functions */ +/* enable SPI and I2S interrupt */ +void spi_i2s_interrupt_enable(uint32_t spi_periph, uint8_t interrupt); +/* disable SPI and I2S interrupt */ +void spi_i2s_interrupt_disable(uint32_t spi_periph, uint8_t interrupt); +/* get SPI and I2S interrupt status */ +FlagStatus spi_i2s_interrupt_flag_get(uint32_t spi_periph, uint8_t interrupt); +/* get SPI and I2S flag status */ +FlagStatus spi_i2s_flag_get(uint32_t spi_periph, uint32_t flag); +/* clear SPI CRC error flag status */ +void spi_crc_error_clear(uint32_t spi_periph); + +#endif /* GD32F30X_SPI_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_timer.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_timer.h new file mode 100644 index 0000000000..56867e32f8 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_timer.h @@ -0,0 +1,752 @@ +/*! + \file gd32f30x_timer.h + \brief definitions for the TIMER + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_TIMER_H +#define GD32F30X_TIMER_H + +#include "gd32f30x.h" + +/* TIMERx(x=0..13) definitions */ +#define TIMER0 (TIMER_BASE + 0x00012C00U) +#define TIMER1 (TIMER_BASE + 0x00000000U) +#define TIMER2 (TIMER_BASE + 0x00000400U) +#define TIMER3 (TIMER_BASE + 0x00000800U) +#define TIMER4 (TIMER_BASE + 0x00000C00U) +#define TIMER5 (TIMER_BASE + 0x00001000U) +#define TIMER6 (TIMER_BASE + 0x00001400U) +#define TIMER7 (TIMER_BASE + 0x00013400U) +#define TIMER8 (TIMER_BASE + 0x00014C00U) +#define TIMER9 (TIMER_BASE + 0x00015000U) +#define TIMER10 (TIMER_BASE + 0x00015400U) +#define TIMER11 (TIMER_BASE + 0x00001800U) +#define TIMER12 (TIMER_BASE + 0x00001C00U) +#define TIMER13 (TIMER_BASE + 0x00002000U) + +/* registers definitions */ +#define TIMER_CTL0(timerx) REG32((timerx) + 0x00U) /*!< TIMER control register 0 */ +#define TIMER_CTL1(timerx) REG32((timerx) + 0x04U) /*!< TIMER control register 1 */ +#define TIMER_SMCFG(timerx) REG32((timerx) + 0x08U) /*!< TIMER slave mode configuration register */ +#define TIMER_DMAINTEN(timerx) REG32((timerx) + 0x0CU) /*!< TIMER DMA and interrupt enable register */ +#define TIMER_INTF(timerx) REG32((timerx) + 0x10U) /*!< TIMER interrupt flag register */ +#define TIMER_SWEVG(timerx) REG32((timerx) + 0x14U) /*!< TIMER software event generation register */ +#define TIMER_CHCTL0(timerx) REG32((timerx) + 0x18U) /*!< TIMER channel control register 0 */ +#define TIMER_CHCTL1(timerx) REG32((timerx) + 0x1CU) /*!< TIMER channel control register 1 */ +#define TIMER_CHCTL2(timerx) REG32((timerx) + 0x20U) /*!< TIMER channel control register 2 */ +#define TIMER_CNT(timerx) REG32((timerx) + 0x24U) /*!< TIMER counter register */ +#define TIMER_PSC(timerx) REG32((timerx) + 0x28U) /*!< TIMER prescaler register */ +#define TIMER_CAR(timerx) REG32((timerx) + 0x2CU) /*!< TIMER counter auto reload register */ +#define TIMER_CREP(timerx) REG32((timerx) + 0x30U) /*!< TIMER counter repetition register */ +#define TIMER_CH0CV(timerx) REG32((timerx) + 0x34U) /*!< TIMER channel 0 capture/compare value register */ +#define TIMER_CH1CV(timerx) REG32((timerx) + 0x38U) /*!< TIMER channel 1 capture/compare value register */ +#define TIMER_CH2CV(timerx) REG32((timerx) + 0x3CU) /*!< TIMER channel 2 capture/compare value register */ +#define TIMER_CH3CV(timerx) REG32((timerx) + 0x40U) /*!< TIMER channel 3 capture/compare value register */ +#define TIMER_CCHP(timerx) REG32((timerx) + 0x44U) /*!< TIMER complementary channel protection register */ +#define TIMER_DMACFG(timerx) REG32((timerx) + 0x48U) /*!< TIMER DMA configuration register */ +#define TIMER_DMATB(timerx) REG32((timerx) + 0x4CU) /*!< TIMER DMA transfer buffer register */ +#define TIMER_IRMP(timerx) REG32((timerx) + 0x50U) /*!< TIMER channel input remap register */ +#define TIMER_CFG(timerx) REG32((timerx) + 0xFCU) /*!< TIMER configuration register */ + +/* bits definitions */ +/* TIMER_CTL0 */ +#define TIMER_CTL0_CEN BIT(0) /*!< TIMER counter enable */ +#define TIMER_CTL0_UPDIS BIT(1) /*!< update disable */ +#define TIMER_CTL0_UPS BIT(2) /*!< update source */ +#define TIMER_CTL0_SPM BIT(3) /*!< single pulse mode */ +#define TIMER_CTL0_DIR BIT(4) /*!< timer counter direction */ +#define TIMER_CTL0_CAM BITS(5,6) /*!< center-aligned mode selection */ +#define TIMER_CTL0_ARSE BIT(7) /*!< auto-reload shadow enable */ +#define TIMER_CTL0_CKDIV BITS(8,9) /*!< clock division */ + +/* TIMER_CTL1 */ +#define TIMER_CTL1_CCSE BIT(0) /*!< commutation control shadow enable */ +#define TIMER_CTL1_CCUC BIT(2) /*!< commutation control shadow register update control */ +#define TIMER_CTL1_DMAS BIT(3) /*!< DMA request source selection */ +#define TIMER_CTL1_MMC BITS(4,6) /*!< master mode control */ +#define TIMER_CTL1_TI0S BIT(7) /*!< channel 0 trigger input selection(hall mode selection) */ +#define TIMER_CTL1_ISO0 BIT(8) /*!< idle state of channel 0 output */ +#define TIMER_CTL1_ISO0N BIT(9) /*!< idle state of channel 0 complementary output */ +#define TIMER_CTL1_ISO1 BIT(10) /*!< idle state of channel 1 output */ +#define TIMER_CTL1_ISO1N BIT(11) /*!< idle state of channel 1 complementary output */ +#define TIMER_CTL1_ISO2 BIT(12) /*!< idle state of channel 2 output */ +#define TIMER_CTL1_ISO2N BIT(13) /*!< idle state of channel 2 complementary output */ +#define TIMER_CTL1_ISO3 BIT(14) /*!< idle state of channel 3 output */ + +/* TIMER_SMCFG */ +#define TIMER_SMCFG_SMC BITS(0,2) /*!< slave mode control */ +#define TIMER_SMCFG_TRGS BITS(4,6) /*!< trigger selection */ +#define TIMER_SMCFG_MSM BIT(7) /*!< master-slave mode */ +#define TIMER_SMCFG_ETFC BITS(8,11) /*!< external trigger filter control */ +#define TIMER_SMCFG_ETPSC BITS(12,13) /*!< external trigger prescaler */ +#define TIMER_SMCFG_SMC1 BIT(14) /*!< part of SMC for enable external clock mode 1 */ +#define TIMER_SMCFG_ETP BIT(15) /*!< external trigger polarity */ + +/* TIMER_DMAINTEN */ +#define TIMER_DMAINTEN_UPIE BIT(0) /*!< update interrupt enable */ +#define TIMER_DMAINTEN_CH0IE BIT(1) /*!< channel 0 capture/compare interrupt enable */ +#define TIMER_DMAINTEN_CH1IE BIT(2) /*!< channel 1 capture/compare interrupt enable */ +#define TIMER_DMAINTEN_CH2IE BIT(3) /*!< channel 2 capture/compare interrupt enable */ +#define TIMER_DMAINTEN_CH3IE BIT(4) /*!< channel 3 capture/compare interrupt enable */ +#define TIMER_DMAINTEN_CMTIE BIT(5) /*!< commutation interrupt request enable */ +#define TIMER_DMAINTEN_TRGIE BIT(6) /*!< trigger interrupt enable */ +#define TIMER_DMAINTEN_BRKIE BIT(7) /*!< break interrupt enable */ +#define TIMER_DMAINTEN_UPDEN BIT(8) /*!< update DMA request enable */ +#define TIMER_DMAINTEN_CH0DEN BIT(9) /*!< channel 0 DMA request enable */ +#define TIMER_DMAINTEN_CH1DEN BIT(10) /*!< channel 1 DMA request enable */ +#define TIMER_DMAINTEN_CH2DEN BIT(11) /*!< channel 2 DMA request enable */ +#define TIMER_DMAINTEN_CH3DEN BIT(12) /*!< channel 3 DMA request enable */ +#define TIMER_DMAINTEN_CMTDEN BIT(13) /*!< commutation DMA request enable */ +#define TIMER_DMAINTEN_TRGDEN BIT(14) /*!< trigger DMA request enable */ + +/* TIMER_INTF */ +#define TIMER_INTF_UPIF BIT(0) /*!< update interrupt flag */ +#define TIMER_INTF_CH0IF BIT(1) /*!< channel 0 capture/compare interrupt flag */ +#define TIMER_INTF_CH1IF BIT(2) /*!< channel 1 capture/compare interrupt flag */ +#define TIMER_INTF_CH2IF BIT(3) /*!< channel 2 capture/compare interrupt flag */ +#define TIMER_INTF_CH3IF BIT(4) /*!< channel 3 capture/compare interrupt flag */ +#define TIMER_INTF_CMTIF BIT(5) /*!< channel commutation interrupt flag */ +#define TIMER_INTF_TRGIF BIT(6) /*!< trigger interrupt flag */ +#define TIMER_INTF_BRKIF BIT(7) /*!< break interrupt flag */ +#define TIMER_INTF_CH0OF BIT(9) /*!< channel 0 overcapture flag */ +#define TIMER_INTF_CH1OF BIT(10) /*!< channel 1 overcapture flag */ +#define TIMER_INTF_CH2OF BIT(11) /*!< channel 2 overcapture flag */ +#define TIMER_INTF_CH3OF BIT(12) /*!< channel 3 overcapture flag */ + +/* TIMER_SWEVG */ +#define TIMER_SWEVG_UPG BIT(0) /*!< update event generate */ +#define TIMER_SWEVG_CH0G BIT(1) /*!< channel 0 capture or compare event generation */ +#define TIMER_SWEVG_CH1G BIT(2) /*!< channel 1 capture or compare event generation */ +#define TIMER_SWEVG_CH2G BIT(3) /*!< channel 2 capture or compare event generation */ +#define TIMER_SWEVG_CH3G BIT(4) /*!< channel 3 capture or compare event generation */ +#define TIMER_SWEVG_CMTG BIT(5) /*!< channel commutation event generation */ +#define TIMER_SWEVG_TRGG BIT(6) /*!< trigger event generation */ +#define TIMER_SWEVG_BRKG BIT(7) /*!< break event generation */ + +/* TIMER_CHCTL0 */ +/* output compare mode */ +#define TIMER_CHCTL0_CH0MS BITS(0,1) /*!< channel 0 mode selection */ +#define TIMER_CHCTL0_CH0COMFEN BIT(2) /*!< channel 0 output compare fast enable */ +#define TIMER_CHCTL0_CH0COMSEN BIT(3) /*!< channel 0 output compare shadow enable */ +#define TIMER_CHCTL0_CH0COMCTL BITS(4,6) /*!< channel 0 output compare mode */ +#define TIMER_CHCTL0_CH0COMCEN BIT(7) /*!< channel 0 output compare clear enable */ +#define TIMER_CHCTL0_CH1MS BITS(8,9) /*!< channel 1 mode selection */ +#define TIMER_CHCTL0_CH1COMFEN BIT(10) /*!< channel 1 output compare fast enable */ +#define TIMER_CHCTL0_CH1COMSEN BIT(11) /*!< channel 1 output compare shadow enable */ +#define TIMER_CHCTL0_CH1COMCTL BITS(12,14) /*!< channel 1 output compare mode */ +#define TIMER_CHCTL0_CH1COMCEN BIT(15) /*!< channel 1 output compare clear enable */ +/* input capture mode */ +#define TIMER_CHCTL0_CH0CAPPSC BITS(2,3) /*!< channel 0 input capture prescaler */ +#define TIMER_CHCTL0_CH0CAPFLT BITS(4,7) /*!< channel 0 input capture filter control */ +#define TIMER_CHCTL0_CH1CAPPSC BITS(10,11) /*!< channel 1 input capture prescaler */ +#define TIMER_CHCTL0_CH1CAPFLT BITS(12,15) /*!< channel 1 input capture filter control */ + +/* TIMER_CHCTL1 */ +/* output compare mode */ +#define TIMER_CHCTL1_CH2MS BITS(0,1) /*!< channel 2 mode selection */ +#define TIMER_CHCTL1_CH2COMFEN BIT(2) /*!< channel 2 output compare fast enable */ +#define TIMER_CHCTL1_CH2COMSEN BIT(3) /*!< channel 2 output compare shadow enable */ +#define TIMER_CHCTL1_CH2COMCTL BITS(4,6) /*!< channel 2 output compare mode */ +#define TIMER_CHCTL1_CH2COMCEN BIT(7) /*!< channel 2 output compare clear enable */ +#define TIMER_CHCTL1_CH3MS BITS(8,9) /*!< channel 3 mode selection */ +#define TIMER_CHCTL1_CH3COMFEN BIT(10) /*!< channel 3 output compare fast enable */ +#define TIMER_CHCTL1_CH3COMSEN BIT(11) /*!< channel 3 output compare shadow enable */ +#define TIMER_CHCTL1_CH3COMCTL BITS(12,14) /*!< channel 3 output compare mode */ +#define TIMER_CHCTL1_CH3COMCEN BIT(15) /*!< channel 3 output compare clear enable */ +/* input capture mode */ +#define TIMER_CHCTL1_CH2CAPPSC BITS(2,3) /*!< channel 2 input capture prescaler */ +#define TIMER_CHCTL1_CH2CAPFLT BITS(4,7) /*!< channel 2 input capture filter control */ +#define TIMER_CHCTL1_CH3CAPPSC BITS(10,11) /*!< channel 3 input capture prescaler */ +#define TIMER_CHCTL1_CH3CAPFLT BITS(12,15) /*!< channel 3 input capture filter control */ + +/* TIMER_CHCTL2 */ +#define TIMER_CHCTL2_CH0EN BIT(0) /*!< channel 0 capture/compare function enable */ +#define TIMER_CHCTL2_CH0P BIT(1) /*!< channel 0 capture/compare function polarity */ +#define TIMER_CHCTL2_CH0NEN BIT(2) /*!< channel 0 complementary output enable */ +#define TIMER_CHCTL2_CH0NP BIT(3) /*!< channel 0 complementary output polarity */ +#define TIMER_CHCTL2_CH1EN BIT(4) /*!< channel 1 capture/compare function enable */ +#define TIMER_CHCTL2_CH1P BIT(5) /*!< channel 1 capture/compare function polarity */ +#define TIMER_CHCTL2_CH1NEN BIT(6) /*!< channel 1 complementary output enable */ +#define TIMER_CHCTL2_CH1NP BIT(7) /*!< channel 1 complementary output polarity */ +#define TIMER_CHCTL2_CH2EN BIT(8) /*!< channel 2 capture/compare function enable */ +#define TIMER_CHCTL2_CH2P BIT(9) /*!< channel 2 capture/compare function polarity */ +#define TIMER_CHCTL2_CH2NEN BIT(10) /*!< channel 2 complementary output enable */ +#define TIMER_CHCTL2_CH2NP BIT(11) /*!< channel 2 complementary output polarity */ +#define TIMER_CHCTL2_CH3EN BIT(12) /*!< channel 3 capture/compare function enable */ +#define TIMER_CHCTL2_CH3P BIT(13) /*!< channel 3 capture/compare function polarity */ + +/* TIMER_CNT */ +#define TIMER_CNT_CNT BITS(0,15) /*!< 16 bit timer counter */ + +/* TIMER_PSC */ +#define TIMER_PSC_PSC BITS(0,15) /*!< prescaler value of the counter clock */ + +/* TIMER_CAR */ +#define TIMER_CAR_CARL BITS(0,15) /*!< 16 bit counter auto reload value */ + +/* TIMER_CREP */ +#define TIMER_CREP_CREP BITS(0,7) /*!< counter repetition value */ + +/* TIMER_CH0CV */ +#define TIMER_CH0CV_CH0VAL BITS(0,15) /*!< 16 bit capture/compare value of channel 0 */ + +/* TIMER_CH1CV */ +#define TIMER_CH1CV_CH1VAL BITS(0,15) /*!< 16 bit capture/compare value of channel 1 */ + +/* TIMER_CH2CV */ +#define TIMER_CH2CV_CH2VAL BITS(0,15) /*!< 16 bit capture/compare value of channel 2 */ + +/* TIMER_CH3CV */ +#define TIMER_CH3CV_CH3VAL BITS(0,15) /*!< 16 bit capture/compare value of channel 3 */ + +/* TIMER_CCHP */ +#define TIMER_CCHP_DTCFG BITS(0,7) /*!< dead time configure */ +#define TIMER_CCHP_PROT BITS(8,9) /*!< complementary register protect control */ +#define TIMER_CCHP_IOS BIT(10) /*!< idle mode off-state configure */ +#define TIMER_CCHP_ROS BIT(11) /*!< run mode off-state configure */ +#define TIMER_CCHP_BRKEN BIT(12) /*!< break enable */ +#define TIMER_CCHP_BRKP BIT(13) /*!< break polarity */ +#define TIMER_CCHP_OAEN BIT(14) /*!< output automatic enable */ +#define TIMER_CCHP_POEN BIT(15) /*!< primary output enable */ + +/* TIMER_DMACFG */ +#define TIMER_DMACFG_DMATA BITS(0,4) /*!< DMA transfer access start address */ +#define TIMER_DMACFG_DMATC BITS(8,12) /*!< DMA transfer count */ + +/* TIMER_DMATB */ +#define TIMER_DMATB_DMATB BITS(0,15) /*!< DMA transfer buffer address */ + +/* TIMER_IRMP */ +#define TIMER10_IRMP_ITI1_RMP BITS(0,1) /*!< TIMER10 internal trigger input 1 remap */ + +/* TIMER_CFG */ +#define TIMER_CFG_OUTSEL BIT(0) /*!< the output value selection */ +#define TIMER_CFG_CHVSEL BIT(1) /*!< write CHxVAL register selection */ + +/* constants definitions */ +/* TIMER init parameter struct definitions*/ +typedef struct +{ + uint16_t prescaler; /*!< prescaler value */ + uint16_t alignedmode; /*!< aligned mode */ + uint16_t counterdirection; /*!< counter direction */ + uint16_t clockdivision; /*!< clock division value */ + uint32_t period; /*!< period value */ + uint8_t repetitioncounter; /*!< the counter repetition value */ +}timer_parameter_struct; + +/* break parameter struct definitions*/ +typedef struct +{ + uint16_t runoffstate; /*!< run mode off-state */ + uint16_t ideloffstate; /*!< idle mode off-state */ + uint16_t deadtime; /*!< dead time */ + uint16_t breakpolarity; /*!< break polarity */ + uint16_t outputautostate; /*!< output automatic enable */ + uint16_t protectmode; /*!< complementary register protect control */ + uint16_t breakstate; /*!< break enable */ +}timer_break_parameter_struct; + +/* channel output parameter struct definitions */ +typedef struct +{ + uint16_t outputstate; /*!< channel output state */ + uint16_t outputnstate; /*!< channel complementary output state */ + uint16_t ocpolarity; /*!< channel output polarity */ + uint16_t ocnpolarity; /*!< channel complementary output polarity */ + uint16_t ocidlestate; /*!< idle state of channel output */ + uint16_t ocnidlestate; /*!< idle state of channel complementary output */ +}timer_oc_parameter_struct; + +/* channel input parameter struct definitions */ +typedef struct +{ + uint16_t icpolarity; /*!< channel input polarity */ + uint16_t icselection; /*!< channel input mode selection */ + uint16_t icprescaler; /*!< channel input capture prescaler */ + uint16_t icfilter; /*!< channel input capture filter control */ +}timer_ic_parameter_struct; + +/* TIMER interrupt enable or disable */ +#define TIMER_INT_UP TIMER_DMAINTEN_UPIE /*!< update interrupt */ +#define TIMER_INT_CH0 TIMER_DMAINTEN_CH0IE /*!< channel 0 interrupt */ +#define TIMER_INT_CH1 TIMER_DMAINTEN_CH1IE /*!< channel 1 interrupt */ +#define TIMER_INT_CH2 TIMER_DMAINTEN_CH2IE /*!< channel 2 interrupt */ +#define TIMER_INT_CH3 TIMER_DMAINTEN_CH3IE /*!< channel 3 interrupt */ +#define TIMER_INT_CMT TIMER_DMAINTEN_CMTIE /*!< channel commutation interrupt flag */ +#define TIMER_INT_TRG TIMER_DMAINTEN_TRGIE /*!< trigger interrupt */ +#define TIMER_INT_BRK TIMER_DMAINTEN_BRKIE /*!< break interrupt */ + +/* TIMER flag */ +#define TIMER_FLAG_UP TIMER_INTF_UPIF /*!< update flag */ +#define TIMER_FLAG_CH0 TIMER_INTF_CH0IF /*!< channel 0 flag */ +#define TIMER_FLAG_CH1 TIMER_INTF_CH1IF /*!< channel 1 flag */ +#define TIMER_FLAG_CH2 TIMER_INTF_CH2IF /*!< channel 2 flag */ +#define TIMER_FLAG_CH3 TIMER_INTF_CH3IF /*!< channel 3 flag */ +#define TIMER_FLAG_CMT TIMER_INTF_CMTIF /*!< channel commutation flag */ +#define TIMER_FLAG_TRG TIMER_INTF_TRGIF /*!< trigger flag */ +#define TIMER_FLAG_BRK TIMER_INTF_BRKIF /*!< break flag */ +#define TIMER_FLAG_CH0O TIMER_INTF_CH0OF /*!< channel 0 overcapture flag */ +#define TIMER_FLAG_CH1O TIMER_INTF_CH1OF /*!< channel 1 overcapture flag */ +#define TIMER_FLAG_CH2O TIMER_INTF_CH2OF /*!< channel 2 overcapture flag */ +#define TIMER_FLAG_CH3O TIMER_INTF_CH3OF /*!< channel 3 overcapture flag */ + +/* TIMER interrupt flag */ +#define TIMER_INT_FLAG_UP TIMER_INTF_UPIF /*!< update interrupt flag */ +#define TIMER_INT_FLAG_CH0 TIMER_INTF_CH0IF /*!< channel 0 interrupt flag */ +#define TIMER_INT_FLAG_CH1 TIMER_INTF_CH1IF /*!< channel 1 interrupt flag */ +#define TIMER_INT_FLAG_CH2 TIMER_INTF_CH2IF /*!< channel 2 interrupt flag */ +#define TIMER_INT_FLAG_CH3 TIMER_INTF_CH3IF /*!< channel 3 interrupt flag */ +#define TIMER_INT_FLAG_CMT TIMER_INTF_CMTIF /*!< channel commutation interrupt flag */ +#define TIMER_INT_FLAG_TRG TIMER_INTF_TRGIF /*!< trigger interrupt flag */ +#define TIMER_INT_FLAG_BRK TIMER_INTF_BRKIF + + + +/* TIMER DMA source enable */ +#define TIMER_DMA_UPD ((uint16_t)TIMER_DMAINTEN_UPDEN) /*!< update DMA enable */ +#define TIMER_DMA_CH0D ((uint16_t)TIMER_DMAINTEN_CH0DEN) /*!< channel 0 DMA enable */ +#define TIMER_DMA_CH1D ((uint16_t)TIMER_DMAINTEN_CH1DEN) /*!< channel 1 DMA enable */ +#define TIMER_DMA_CH2D ((uint16_t)TIMER_DMAINTEN_CH2DEN) /*!< channel 2 DMA enable */ +#define TIMER_DMA_CH3D ((uint16_t)TIMER_DMAINTEN_CH3DEN) /*!< channel 3 DMA enable */ +#define TIMER_DMA_CMTD ((uint16_t)TIMER_DMAINTEN_CMTDEN) /*!< commutation DMA request enable */ +#define TIMER_DMA_TRGD ((uint16_t)TIMER_DMAINTEN_TRGDEN) /*!< trigger DMA enable */ + +/* channel DMA request source selection */ +#define TIMER_DMAREQUEST_UPDATEEVENT ((uint8_t)0x00U) /*!< DMA request of channel y is sent when update event occurs */ +#define TIMER_DMAREQUEST_CHANNELEVENT ((uint8_t)0x01U) /*!< DMA request of channel y is sent when channel y event occurs */ + +/* DMA access base address */ +#define DMACFG_DMATA(regval) (BITS(0, 4) & ((uint32_t)(regval) << 0U)) +#define TIMER_DMACFG_DMATA_CTL0 DMACFG_DMATA(0) /*!< DMA transfer address is TIMER_CTL0 */ +#define TIMER_DMACFG_DMATA_CTL1 DMACFG_DMATA(1) /*!< DMA transfer address is TIMER_CTL1 */ +#define TIMER_DMACFG_DMATA_SMCFG DMACFG_DMATA(2) /*!< DMA transfer address is TIMER_SMCFG */ +#define TIMER_DMACFG_DMATA_DMAINTEN DMACFG_DMATA(3) /*!< DMA transfer address is TIMER_DMAINTEN */ +#define TIMER_DMACFG_DMATA_INTF DMACFG_DMATA(4) /*!< DMA transfer address is TIMER_INTF */ +#define TIMER_DMACFG_DMATA_SWEVG DMACFG_DMATA(5) /*!< DMA transfer address is TIMER_SWEVG */ +#define TIMER_DMACFG_DMATA_CHCTL0 DMACFG_DMATA(6) /*!< DMA transfer address is TIMER_CHCTL0 */ +#define TIMER_DMACFG_DMATA_CHCTL1 DMACFG_DMATA(7) /*!< DMA transfer address is TIMER_CHCTL1 */ +#define TIMER_DMACFG_DMATA_CHCTL2 DMACFG_DMATA(8) /*!< DMA transfer address is TIMER_CHCTL2 */ +#define TIMER_DMACFG_DMATA_CNT DMACFG_DMATA(9) /*!< DMA transfer address is TIMER_CNT */ +#define TIMER_DMACFG_DMATA_PSC DMACFG_DMATA(10) /*!< DMA transfer address is TIMER_PSC */ +#define TIMER_DMACFG_DMATA_CAR DMACFG_DMATA(11) /*!< DMA transfer address is TIMER_CAR */ +#define TIMER_DMACFG_DMATA_CREP DMACFG_DMATA(12) /*!< DMA transfer address is TIMER_CREP */ +#define TIMER_DMACFG_DMATA_CH0CV DMACFG_DMATA(13) /*!< DMA transfer address is TIMER_CH0CV */ +#define TIMER_DMACFG_DMATA_CH1CV DMACFG_DMATA(14) /*!< DMA transfer address is TIMER_CH1CV */ +#define TIMER_DMACFG_DMATA_CH2CV DMACFG_DMATA(15) /*!< DMA transfer address is TIMER_CH2CV */ +#define TIMER_DMACFG_DMATA_CH3CV DMACFG_DMATA(16) /*!< DMA transfer address is TIMER_CH3CV */ +#define TIMER_DMACFG_DMATA_CCHP DMACFG_DMATA(17) /*!< DMA transfer address is TIMER_CCHP */ +#define TIMER_DMACFG_DMATA_DMACFG DMACFG_DMATA(18) /*!< DMA transfer address is TIMER_DMACFG */ +#define TIMER_DMACFG_DMATA_DMATB DMACFG_DMATA(19) /*!< DMA transfer address is TIMER_DMATB */ + +/* DMA access burst length */ +#define DMACFG_DMATC(regval) (BITS(8, 12) & ((uint32_t)(regval) << 8U)) +#define TIMER_DMACFG_DMATC_1TRANSFER DMACFG_DMATC(0) /*!< DMA transfer 1 time */ +#define TIMER_DMACFG_DMATC_2TRANSFER DMACFG_DMATC(1) /*!< DMA transfer 2 times */ +#define TIMER_DMACFG_DMATC_3TRANSFER DMACFG_DMATC(2) /*!< DMA transfer 3 times */ +#define TIMER_DMACFG_DMATC_4TRANSFER DMACFG_DMATC(3) /*!< DMA transfer 4 times */ +#define TIMER_DMACFG_DMATC_5TRANSFER DMACFG_DMATC(4) /*!< DMA transfer 5 times */ +#define TIMER_DMACFG_DMATC_6TRANSFER DMACFG_DMATC(5) /*!< DMA transfer 6 times */ +#define TIMER_DMACFG_DMATC_7TRANSFER DMACFG_DMATC(6) /*!< DMA transfer 7 times */ +#define TIMER_DMACFG_DMATC_8TRANSFER DMACFG_DMATC(7) /*!< DMA transfer 8 times */ +#define TIMER_DMACFG_DMATC_9TRANSFER DMACFG_DMATC(8) /*!< DMA transfer 9 times */ +#define TIMER_DMACFG_DMATC_10TRANSFER DMACFG_DMATC(9) /*!< DMA transfer 10 times */ +#define TIMER_DMACFG_DMATC_11TRANSFER DMACFG_DMATC(10) /*!< DMA transfer 11 times */ +#define TIMER_DMACFG_DMATC_12TRANSFER DMACFG_DMATC(11) /*!< DMA transfer 12 times */ +#define TIMER_DMACFG_DMATC_13TRANSFER DMACFG_DMATC(12) /*!< DMA transfer 13 times */ +#define TIMER_DMACFG_DMATC_14TRANSFER DMACFG_DMATC(13) /*!< DMA transfer 14 times */ +#define TIMER_DMACFG_DMATC_15TRANSFER DMACFG_DMATC(14) /*!< DMA transfer 15 times */ +#define TIMER_DMACFG_DMATC_16TRANSFER DMACFG_DMATC(15) /*!< DMA transfer 16 times */ +#define TIMER_DMACFG_DMATC_17TRANSFER DMACFG_DMATC(16) /*!< DMA transfer 17 times */ +#define TIMER_DMACFG_DMATC_18TRANSFER DMACFG_DMATC(17) /*!< DMA transfer 18 times */ + +/* TIMER software event generation source */ +#define TIMER_EVENT_SRC_UPG ((uint16_t)0x0001U) /*!< update event generation */ +#define TIMER_EVENT_SRC_CH0G ((uint16_t)0x0002U) /*!< channel 0 capture or compare event generation */ +#define TIMER_EVENT_SRC_CH1G ((uint16_t)0x0004U) /*!< channel 1 capture or compare event generation */ +#define TIMER_EVENT_SRC_CH2G ((uint16_t)0x0008U) /*!< channel 2 capture or compare event generation */ +#define TIMER_EVENT_SRC_CH3G ((uint16_t)0x0010U) /*!< channel 3 capture or compare event generation */ +#define TIMER_EVENT_SRC_CMTG ((uint16_t)0x0020U) /*!< channel commutation event generation */ +#define TIMER_EVENT_SRC_TRGG ((uint16_t)0x0040U) /*!< trigger event generation */ +#define TIMER_EVENT_SRC_BRKG ((uint16_t)0x0080U) /*!< break event generation */ + +/* center-aligned mode selection */ +#define CTL0_CAM(regval) ((uint16_t)(BITS(5, 6) & ((uint32_t)(regval) << 5U))) +#define TIMER_COUNTER_EDGE CTL0_CAM(0) /*!< edge-aligned mode */ +#define TIMER_COUNTER_CENTER_DOWN CTL0_CAM(1) /*!< center-aligned and counting down assert mode */ +#define TIMER_COUNTER_CENTER_UP CTL0_CAM(2) /*!< center-aligned and counting up assert mode */ +#define TIMER_COUNTER_CENTER_BOTH CTL0_CAM(3) /*!< center-aligned and counting up/down assert mode */ + +/* TIMER prescaler reload mode */ +#define TIMER_PSC_RELOAD_NOW ((uint32_t)0x00000000U) /*!< the prescaler is loaded right now */ +#define TIMER_PSC_RELOAD_UPDATE ((uint32_t)0x00000001U) /*!< the prescaler is loaded at the next update event */ + +/* count direction */ +#define TIMER_COUNTER_UP ((uint16_t)0x0000U) /*!< counter up direction */ +#define TIMER_COUNTER_DOWN ((uint16_t)TIMER_CTL0_DIR) /*!< counter down direction */ + +/* specify division ratio between TIMER clock and dead-time and sampling clock */ +#define CTL0_CKDIV(regval) ((uint16_t)(BITS(8, 9) & ((uint32_t)(regval) << 8U))) +#define TIMER_CKDIV_DIV1 CTL0_CKDIV(0) /*!< clock division value is 1,fDTS=fTIMER_CK */ +#define TIMER_CKDIV_DIV2 CTL0_CKDIV(1) /*!< clock division value is 2,fDTS= fTIMER_CK/2 */ +#define TIMER_CKDIV_DIV4 CTL0_CKDIV(2) /*!< clock division value is 4, fDTS= fTIMER_CK/4 */ + +/* single pulse mode */ +#define TIMER_SP_MODE_SINGLE ((uint32_t)0x00000000U) /*!< single pulse mode */ +#define TIMER_SP_MODE_REPETITIVE ((uint32_t)0x00000001U) /*!< repetitive pulse mode */ + +/* update source */ +#define TIMER_UPDATE_SRC_REGULAR ((uint32_t)0x00000000U) /*!< update generate only by counter overflow/underflow */ +#define TIMER_UPDATE_SRC_GLOBAL ((uint32_t)0x00000001U) /*!< update generate by setting of UPG bit or the counter overflow/underflow,or the slave mode controller trigger */ + +/* run mode off-state configure */ +#define TIMER_ROS_STATE_ENABLE ((uint16_t)TIMER_CCHP_ROS) /*!< when POEN bit is set, the channel output signals (CHx_O/CHx_ON) are enabled, with relationship to CHxEN/CHxNEN bits */ +#define TIMER_ROS_STATE_DISABLE ((uint16_t)0x0000U) /*!< when POEN bit is set, the channel output signals (CHx_O/CHx_ON) are disabled */ + +/* idle mode off-state configure */ +#define TIMER_IOS_STATE_ENABLE ((uint16_t)TIMER_CCHP_IOS) /*!< when POEN bit is reset, he channel output signals (CHx_O/CHx_ON) are enabled, with relationship to CHxEN/CHxNEN bits */ +#define TIMER_IOS_STATE_DISABLE ((uint16_t)0x0000U) /*!< when POEN bit is reset, the channel output signals (CHx_O/CHx_ON) are disabled */ + +/* break input polarity */ +#define TIMER_BREAK_POLARITY_LOW ((uint16_t)0x0000U) /*!< break input polarity is low */ +#define TIMER_BREAK_POLARITY_HIGH ((uint16_t)TIMER_CCHP_BRKP) /*!< break input polarity is high */ + +/* output automatic enable */ +#define TIMER_OUTAUTO_ENABLE ((uint16_t)TIMER_CCHP_OAEN) /*!< output automatic enable */ +#define TIMER_OUTAUTO_DISABLE ((uint16_t)0x0000U) /*!< output automatic disable */ + +/* complementary register protect control */ +#define CCHP_PROT(regval) ((uint16_t)(BITS(8, 9) & ((uint32_t)(regval) << 8U))) +#define TIMER_CCHP_PROT_OFF CCHP_PROT(0) /*!< protect disable */ +#define TIMER_CCHP_PROT_0 CCHP_PROT(1) /*!< PROT mode 0 */ +#define TIMER_CCHP_PROT_1 CCHP_PROT(2) /*!< PROT mode 1 */ +#define TIMER_CCHP_PROT_2 CCHP_PROT(3) /*!< PROT mode 2 */ + +/* break input enable */ +#define TIMER_BREAK_ENABLE ((uint16_t)TIMER_CCHP_BRKEN) /*!< break input enable */ +#define TIMER_BREAK_DISABLE ((uint16_t)0x0000U) /*!< break input disable */ + +/* TIMER channel n(n=0,1,2,3) */ +#define TIMER_CH_0 ((uint16_t)0x0000U) /*!< TIMER channel 0(TIMERx(x=0..4,7..13)) */ +#define TIMER_CH_1 ((uint16_t)0x0001U) /*!< TIMER channel 1(TIMERx(x=0..4,7,8,11)) */ +#define TIMER_CH_2 ((uint16_t)0x0002U) /*!< TIMER channel 2(TIMERx(x=0..4,7)) */ +#define TIMER_CH_3 ((uint16_t)0x0003U) /*!< TIMER channel 3(TIMERx(x=0..4,7)) */ + +/* channel enable state*/ +#define TIMER_CCX_ENABLE ((uint32_t)0x00000001U) /*!< channel enable */ +#define TIMER_CCX_DISABLE ((uint32_t)0x00000000U) /*!< channel disable */ + +/* channel complementary output enable state*/ +#define TIMER_CCXN_ENABLE ((uint16_t)0x0004U) /*!< channel complementary enable */ +#define TIMER_CCXN_DISABLE ((uint16_t)0x0000U) /*!< channel complementary disable */ + +/* channel output polarity */ +#define TIMER_OC_POLARITY_HIGH ((uint16_t)0x0000U) /*!< channel output polarity is high */ +#define TIMER_OC_POLARITY_LOW ((uint16_t)0x0002U) /*!< channel output polarity is low */ + +/* channel complementary output polarity */ +#define TIMER_OCN_POLARITY_HIGH ((uint16_t)0x0000U) /*!< channel complementary output polarity is high */ +#define TIMER_OCN_POLARITY_LOW ((uint16_t)0x0008U) /*!< channel complementary output polarity is low */ + +/* idle state of channel output */ +#define TIMER_OC_IDLE_STATE_HIGH ((uint16_t)0x0100) /*!< idle state of channel output is high */ +#define TIMER_OC_IDLE_STATE_LOW ((uint16_t)0x0000) /*!< idle state of channel output is low */ + +/* idle state of channel complementary output */ +#define TIMER_OCN_IDLE_STATE_HIGH ((uint16_t)0x0200U) /*!< idle state of channel complementary output is high */ +#define TIMER_OCN_IDLE_STATE_LOW ((uint16_t)0x0000U) /*!< idle state of channel complementary output is low */ + +/* channel output compare mode */ +#define TIMER_OC_MODE_TIMING ((uint16_t)0x0000U) /*!< timing mode */ +#define TIMER_OC_MODE_ACTIVE ((uint16_t)0x0010U) /*!< active mode */ +#define TIMER_OC_MODE_INACTIVE ((uint16_t)0x0020U) /*!< inactive mode */ +#define TIMER_OC_MODE_TOGGLE ((uint16_t)0x0030U) /*!< toggle mode */ +#define TIMER_OC_MODE_LOW ((uint16_t)0x0040U) /*!< force low mode */ +#define TIMER_OC_MODE_HIGH ((uint16_t)0x0050U) /*!< force high mode */ +#define TIMER_OC_MODE_PWM0 ((uint16_t)0x0060U) /*!< PWM0 mode */ +#define TIMER_OC_MODE_PWM1 ((uint16_t)0x0070U) /*!< PWM1 mode*/ + +/* channel output compare shadow enable */ +#define TIMER_OC_SHADOW_ENABLE ((uint16_t)0x0008U) /*!< channel output shadow state enable */ +#define TIMER_OC_SHADOW_DISABLE ((uint16_t)0x0000U) /*!< channel output shadow state disable */ + +/* channel output compare fast enable */ +#define TIMER_OC_FAST_ENABLE ((uint16_t)0x0004) /*!< channel output fast function enable */ +#define TIMER_OC_FAST_DISABLE ((uint16_t)0x0000) /*!< channel output fast function disable */ + +/* channel output compare clear enable */ +#define TIMER_OC_CLEAR_ENABLE ((uint16_t)0x0080U) /*!< channel output clear function enable */ +#define TIMER_OC_CLEAR_DISABLE ((uint16_t)0x0000U) /*!< channel output clear function disable */ + +/* channel control shadow register update control */ +#define TIMER_UPDATECTL_CCU ((uint32_t)0x00000000U) /*!< the shadow registers are updated when CMTG bit is set */ +#define TIMER_UPDATECTL_CCUTRI ((uint32_t)0x00000001U) /*!< the shadow registers update by when CMTG bit is set or an rising edge of TRGI occurs */ + +/* channel input capture polarity */ +#define TIMER_IC_POLARITY_RISING ((uint16_t)0x0000U) /*!< input capture rising edge */ +#define TIMER_IC_POLARITY_FALLING ((uint16_t)0x0002U) /*!< input capture falling edge */ + +/* TIMER input capture selection */ +#define TIMER_IC_SELECTION_DIRECTTI ((uint16_t)0x0001U) /*!< channel y is configured as input and icy is mapped on CIy */ +#define TIMER_IC_SELECTION_INDIRECTTI ((uint16_t)0x0002U) /*!< channel y is configured as input and icy is mapped on opposite input */ +#define TIMER_IC_SELECTION_ITS ((uint16_t)0x0003U) /*!< channel y is configured as input and icy is mapped on ITS */ + +/* channel input capture prescaler */ +#define TIMER_IC_PSC_DIV1 ((uint16_t)0x0000U) /*!< no prescaler */ +#define TIMER_IC_PSC_DIV2 ((uint16_t)0x0004U) /*!< divided by 2 */ +#define TIMER_IC_PSC_DIV4 ((uint16_t)0x0008U) /*!< divided by 4*/ +#define TIMER_IC_PSC_DIV8 ((uint16_t)0x000CU) /*!< divided by 8 */ + +/* trigger selection */ +#define SMCFG_TRGSEL(regval) (BITS(4, 6) & ((uint32_t)(regval) << 4U)) +#define TIMER_SMCFG_TRGSEL_ITI0 SMCFG_TRGSEL(0) /*!< internal trigger 0 */ +#define TIMER_SMCFG_TRGSEL_ITI1 SMCFG_TRGSEL(1) /*!< internal trigger 1 */ +#define TIMER_SMCFG_TRGSEL_ITI2 SMCFG_TRGSEL(2) /*!< internal trigger 2 */ +#define TIMER_SMCFG_TRGSEL_ITI3 SMCFG_TRGSEL(3) /*!< internal trigger 3 */ +#define TIMER_SMCFG_TRGSEL_CI0F_ED SMCFG_TRGSEL(4) /*!< TI0 Edge Detector */ +#define TIMER_SMCFG_TRGSEL_CI0FE0 SMCFG_TRGSEL(5) /*!< filtered TIMER input 0 */ +#define TIMER_SMCFG_TRGSEL_CI1FE1 SMCFG_TRGSEL(6) /*!< filtered TIMER input 1 */ +#define TIMER_SMCFG_TRGSEL_ETIFP SMCFG_TRGSEL(7) /*!< external trigger */ + +/* master mode control */ +#define CTL1_MMC(regval) (BITS(4, 6) & ((uint32_t)(regval) << 4U)) +#define TIMER_TRI_OUT_SRC_RESET CTL1_MMC(0) /*!< the UPG bit as trigger output */ +#define TIMER_TRI_OUT_SRC_ENABLE CTL1_MMC(1) /*!< the counter enable signal TIMER_CTL0_CEN as trigger output */ +#define TIMER_TRI_OUT_SRC_UPDATE CTL1_MMC(2) /*!< update event as trigger output */ +#define TIMER_TRI_OUT_SRC_CH0 CTL1_MMC(3) /*!< a capture or a compare match occurred in channal0 as trigger output TRGO */ +#define TIMER_TRI_OUT_SRC_O0CPRE CTL1_MMC(4) /*!< O0CPRE as trigger output */ +#define TIMER_TRI_OUT_SRC_O1CPRE CTL1_MMC(5) /*!< O1CPRE as trigger output */ +#define TIMER_TRI_OUT_SRC_O2CPRE CTL1_MMC(6) /*!< O2CPRE as trigger output */ +#define TIMER_TRI_OUT_SRC_O3CPRE CTL1_MMC(7) /*!< O3CPRE as trigger output */ + +/* slave mode control */ +#define SMCFG_SMC(regval) (BITS(0, 2) & ((uint32_t)(regval) << 0U)) +#define TIMER_SLAVE_MODE_DISABLE SMCFG_SMC(0) /*!< slave mode disable */ +#define TIMER_ENCODER_MODE0 SMCFG_SMC(1) /*!< encoder mode 0 */ +#define TIMER_ENCODER_MODE1 SMCFG_SMC(2) /*!< encoder mode 1 */ +#define TIMER_ENCODER_MODE2 SMCFG_SMC(3) /*!< encoder mode 2 */ +#define TIMER_SLAVE_MODE_RESTART SMCFG_SMC(4) /*!< restart mode */ +#define TIMER_SLAVE_MODE_PAUSE SMCFG_SMC(5) /*!< pause mode */ +#define TIMER_SLAVE_MODE_EVENT SMCFG_SMC(6) /*!< event mode */ +#define TIMER_SLAVE_MODE_EXTERNAL0 SMCFG_SMC(7) /*!< external clock mode 0 */ + +/* master slave mode selection */ +#define TIMER_MASTER_SLAVE_MODE_ENABLE ((uint32_t)0x00000000U) /*!< master slave mode enable */ +#define TIMER_MASTER_SLAVE_MODE_DISABLE ((uint32_t)0x00000001U) /*!< master slave mode disable */ + +/* external trigger prescaler */ +#define SMCFG_ETPSC(regval) (BITS(12, 13) & ((uint32_t)(regval) << 12U)) +#define TIMER_EXT_TRI_PSC_OFF SMCFG_ETPSC(0) /*!< no divided */ +#define TIMER_EXT_TRI_PSC_DIV2 SMCFG_ETPSC(1) /*!< divided by 2 */ +#define TIMER_EXT_TRI_PSC_DIV4 SMCFG_ETPSC(2) /*!< divided by 4 */ +#define TIMER_EXT_TRI_PSC_DIV8 SMCFG_ETPSC(3) /*!< divided by 8 */ + +/* external trigger polarity */ +#define TIMER_ETP_FALLING TIMER_SMCFG_ETP /*!< active low or falling edge active */ +#define TIMER_ETP_RISING ((uint32_t)0x00000000U) /*!< active high or rising edge active */ + +/* channel 0 trigger input selection */ +#define TIMER_HALLINTERFACE_ENABLE ((uint32_t)0x00000000U) /*!< TIMER hall sensor mode enable */ +#define TIMER_HALLINTERFACE_DISABLE ((uint32_t)0x00000001U) /*!< TIMER hall sensor mode disable */ + +/* TIMERx(x=0,1,2,13,14,15,16) write cc register selection */ +#define TIMER_CHVSEL_ENABLE ((uint16_t)0x0002U) /*!< write CHxVAL register selection enable */ +#define TIMER_CHVSEL_DISABLE ((uint16_t)0x0000U) /*!< write CHxVAL register selection disable */ + +/* the output value selection */ +#define TIMER_OUTSEL_ENABLE ((uint16_t)0x0001U) /*!< output value selection enable */ +#define TIMER_OUTSEL_DISABLE ((uint16_t)0x0000U) /*!< output value selection disable */ + + +/* function declarations */ +/* TIMER timebase */ +/* deinit a TIMER */ +void timer_deinit(uint32_t timer_periph); +/* initialize TIMER init parameter struct */ +void timer_struct_para_init(timer_parameter_struct* initpara); +/* initialize TIMER counter */ +void timer_init(uint32_t timer_periph, timer_parameter_struct* initpara); +/* enable a TIMER */ +void timer_enable(uint32_t timer_periph); +/* disable a TIMER */ +void timer_disable(uint32_t timer_periph); +/* enable the auto reload shadow function */ +void timer_auto_reload_shadow_enable(uint32_t timer_periph); +/* disable the auto reload shadow function */ +void timer_auto_reload_shadow_disable(uint32_t timer_periph); +/* enable the update event */ +void timer_update_event_enable(uint32_t timer_periph); +/* disable the update event */ +void timer_update_event_disable(uint32_t timer_periph); +/* set TIMER counter alignment mode */ +void timer_counter_alignment(uint32_t timer_periph, uint16_t aligned); +/* set TIMER counter up direction */ +void timer_counter_up_direction(uint32_t timer_periph); +/* set TIMER counter down direction */ +void timer_counter_down_direction(uint32_t timer_periph); +/* configure TIMER prescaler */ +void timer_prescaler_config(uint32_t timer_periph, uint16_t prescaler, uint8_t pscreload); +/* configure TIMER repetition register value */ +void timer_repetition_value_config(uint32_t timer_periph, uint16_t repetition); +/* configure TIMER autoreload register value */ +void timer_autoreload_value_config(uint32_t timer_periph, uint16_t autoreload); +/* configure TIMER counter register value */ +void timer_counter_value_config(uint32_t timer_periph , uint16_t counter); +/* read TIMER counter value */ +uint32_t timer_counter_read(uint32_t timer_periph); +/* read TIMER prescaler value */ +uint16_t timer_prescaler_read(uint32_t timer_periph); +/* configure TIMER single pulse mode */ +void timer_single_pulse_mode_config(uint32_t timer_periph, uint32_t spmode); +/* configure TIMER update source */ +void timer_update_source_config(uint32_t timer_periph, uint32_t update); + +/* TIMER interrupt and flag*/ +/* enable the TIMER interrupt */ +void timer_interrupt_enable(uint32_t timer_periph, uint32_t interrupt); +/* disable the TIMER interrupt */ +void timer_interrupt_disable(uint32_t timer_periph, uint32_t interrupt); +/* get timer interrupt flag */ +FlagStatus timer_interrupt_flag_get(uint32_t timer_periph, uint32_t interrupt); +/* clear TIMER interrupt flag */ +void timer_interrupt_flag_clear(uint32_t timer_periph, uint32_t interrupt); +/* get TIMER flags */ +FlagStatus timer_flag_get(uint32_t timer_periph, uint32_t flag); +/* clear TIMER flags */ +void timer_flag_clear(uint32_t timer_periph, uint32_t flag); + +/* timer DMA and event*/ +/* enable the TIMER DMA */ +void timer_dma_enable(uint32_t timer_periph, uint16_t dma); +/* disable the TIMER DMA */ +void timer_dma_disable(uint32_t timer_periph, uint16_t dma); +/* channel DMA request source selection */ +void timer_channel_dma_request_source_select(uint32_t timer_periph, uint8_t dma_request); +/* configure the TIMER DMA transfer */ +void timer_dma_transfer_config(uint32_t timer_periph,uint32_t dma_baseaddr, uint32_t dma_lenth); +/* software generate events */ +void timer_event_software_generate(uint32_t timer_periph, uint16_t event); + +/* TIMER channel complementary protection */ +/* initialize TIMER break parameter struct */ +void timer_break_struct_para_init(timer_break_parameter_struct* breakpara); +/* configure TIMER break function */ +void timer_break_config(uint32_t timer_periph, timer_break_parameter_struct* breakpara); +/* enable TIMER break function */ +void timer_break_enable(uint32_t timer_periph); +/* disable TIMER break function */ +void timer_break_disable(uint32_t timer_periph); +/* enable TIMER output automatic function */ +void timer_automatic_output_enable(uint32_t timer_periph); +/* disable TIMER output automatic function */ +void timer_automatic_output_disable(uint32_t timer_periph); +/* enable or disable TIMER primary output function */ +void timer_primary_output_config(uint32_t timer_periph, ControlStatus newvalue); +/* enable or disable channel capture/compare control shadow register */ +void timer_channel_control_shadow_config(uint32_t timer_periph, ControlStatus newvalue); +/* configure TIMER channel control shadow register update control */ +void timer_channel_control_shadow_update_config(uint32_t timer_periph, uint8_t ccuctl); + +/* TIMER channel output */ +/* initialize TIMER channel output parameter struct */ +void timer_channel_output_struct_para_init(timer_oc_parameter_struct* ocpara); +/* configure TIMER channel output function */ +void timer_channel_output_config(uint32_t timer_periph,uint16_t channel, timer_oc_parameter_struct* ocpara); +/* configure TIMER channel output compare mode */ +void timer_channel_output_mode_config(uint32_t timer_periph, uint16_t channel,uint16_t ocmode); +/* configure TIMER channel output pulse value */ +void timer_channel_output_pulse_value_config(uint32_t timer_periph, uint16_t channel, uint32_t pulse); +/* configure TIMER channel output shadow function */ +void timer_channel_output_shadow_config(uint32_t timer_periph, uint16_t channel, uint16_t ocshadow); +/* configure TIMER channel output fast function */ +void timer_channel_output_fast_config(uint32_t timer_periph, uint16_t channel, uint16_t ocfast); +/* configure TIMER channel output clear function */ +void timer_channel_output_clear_config(uint32_t timer_periph,uint16_t channel,uint16_t occlear); +/* configure TIMER channel output polarity */ +void timer_channel_output_polarity_config(uint32_t timer_periph, uint16_t channel, uint16_t ocpolarity); +/* configure TIMER channel complementary output polarity */ +void timer_channel_complementary_output_polarity_config(uint32_t timer_periph, uint16_t channel, uint16_t ocnpolarity); +/* configure TIMER channel enable state */ +void timer_channel_output_state_config(uint32_t timer_periph, uint16_t channel, uint32_t state); +/* configure TIMER channel complementary output enable state */ +void timer_channel_complementary_output_state_config(uint32_t timer_periph, uint16_t channel, uint16_t ocnstate); + +/* TIMER channel input */ +/* initialize TIMER channel input parameter struct */ +void timer_channel_input_struct_para_init(timer_ic_parameter_struct* icpara); +/* configure TIMER input capture parameter */ +void timer_input_capture_config(uint32_t timer_periph, uint16_t channel, timer_ic_parameter_struct* icpara); +/* configure TIMER channel input capture prescaler value */ +void timer_channel_input_capture_prescaler_config(uint32_t timer_periph, uint16_t channel, uint16_t prescaler); +/* read TIMER channel capture compare register value */ +uint32_t timer_channel_capture_value_register_read(uint32_t timer_periph, uint16_t channel); +/* configure TIMER input pwm capture function */ +void timer_input_pwm_capture_config(uint32_t timer_periph, uint16_t channel, timer_ic_parameter_struct* icpwm); +/* configure TIMER hall sensor mode */ +void timer_hall_mode_config(uint32_t timer_periph, uint32_t hallmode); + +/* TIMER master and slave */ +/* select TIMER input trigger source */ +void timer_input_trigger_source_select(uint32_t timer_periph, uint32_t intrigger); +/* select TIMER master mode output trigger source */ +void timer_master_output_trigger_source_select(uint32_t timer_periph, uint32_t outrigger); +/* select TIMER slave mode */ +void timer_slave_mode_select(uint32_t timer_periph,uint32_t slavemode); +/* configure TIMER master slave mode */ +void timer_master_slave_mode_config(uint32_t timer_periph, uint32_t masterslave); +/* configure TIMER external trigger input */ +void timer_external_trigger_config(uint32_t timer_periph, uint32_t extprescaler, uint32_t extpolarity, uint32_t extfilter); +/* configure TIMER quadrature decoder mode */ +void timer_quadrature_decoder_mode_config(uint32_t timer_periph, uint32_t decomode, uint16_t ic0polarity, uint16_t ic1polarity); +/* configure TIMER internal clock mode */ +void timer_internal_clock_config(uint32_t timer_periph); +/* configure TIMER the internal trigger as external clock input */ +void timer_internal_trigger_as_external_clock_config(uint32_t timer_periph, uint32_t intrigger); +/* configure TIMER the external trigger as external clock input */ +void timer_external_trigger_as_external_clock_config(uint32_t timer_periph, uint32_t extrigger, uint16_t extpolarity,uint32_t extfilter); +/* configure TIMER the external clock mode 0 */ +void timer_external_clock_mode0_config(uint32_t timer_periph, uint32_t extprescaler, uint32_t extpolarity, uint32_t extfilter); +/* configure TIMER the external clock mode 1 */ +void timer_external_clock_mode1_config(uint32_t timer_periph, uint32_t extprescaler, uint32_t extpolarity, uint32_t extfilter); +/* disable TIMER the external clock mode 1 */ +void timer_external_clock_mode1_disable(uint32_t timer_periph); + +/* TIMER configure */ +/* configure TIMER write CHxVAL register selection */ +void timer_write_chxval_register_config(uint32_t timer_periph, uint16_t ccsel); +/* configure TIMER output value selection */ +void timer_output_value_selection_config(uint32_t timer_periph, uint16_t outsel); + +#endif /* GD32F30X_TIMER_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_usart.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_usart.h new file mode 100644 index 0000000000..198a0cfd44 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_usart.h @@ -0,0 +1,444 @@ +/*! + \file gd32f30x_usart.h + \brief definitions for the USART + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef GD32F30X_USART_H +#define GD32F30X_USART_H + +#include "gd32f30x.h" + +/* USARTx(x=0,1,2)/UARTx(x=3,4) definitions */ +#define USART1 USART_BASE /*!< USART1 base address */ +#define USART2 (USART_BASE+0x00000400U) /*!< USART2 base address */ +#define UART3 (USART_BASE+0x00000800U) /*!< UART3 base address */ +#define UART4 (USART_BASE+0x00000C00U) /*!< UART4 base address */ +#define USART0 (USART_BASE+0x0000F400U) /*!< USART0 base address */ + +/* registers definitions */ +#define USART_STAT0(usartx) REG32((usartx) + 0x00U) /*!< USART status register 0 */ +#define USART_DATA(usartx) REG32((usartx) + 0x04U) /*!< USART data register */ +#define USART_BAUD(usartx) REG32((usartx) + 0x08U) /*!< USART baud rate register */ +#define USART_CTL0(usartx) REG32((usartx) + 0x0CU) /*!< USART control register 0 */ +#define USART_CTL1(usartx) REG32((usartx) + 0x10U) /*!< USART control register 1 */ +#define USART_CTL2(usartx) REG32((usartx) + 0x14U) /*!< USART control register 2 */ +#define USART_GP(usartx) REG32((usartx) + 0x18U) /*!< USART guard time and prescaler register */ +#define USART_CTL3(usartx) REG32((usartx) + 0x80U) /*!< USART control register 3 */ +#define USART_RT(usartx) REG32((usartx) + 0x84U) /*!< USART receiver timeout register */ +#define USART_STAT1(usartx) REG32((usartx) + 0x88U) /*!< USART status register 1 */ + +/* bits definitions */ +/* USARTx_STAT0 */ +#define USART_STAT0_PERR BIT(0) /*!< parity error flag */ +#define USART_STAT0_FERR BIT(1) /*!< frame error flag */ +#define USART_STAT0_NERR BIT(2) /*!< noise error flag */ +#define USART_STAT0_ORERR BIT(3) /*!< overrun error */ +#define USART_STAT0_IDLEF BIT(4) /*!< IDLE frame detected flag */ +#define USART_STAT0_RBNE BIT(5) /*!< read data buffer not empty */ +#define USART_STAT0_TC BIT(6) /*!< transmission complete */ +#define USART_STAT0_TBE BIT(7) /*!< transmit data buffer empty */ +#define USART_STAT0_LBDF BIT(8) /*!< LIN break detected flag */ +#define USART_STAT0_CTSF BIT(9) /*!< CTS change flag */ + +/* USARTx_DATA */ +#define USART_DATA_DATA BITS(0,8) /*!< transmit or read data value */ + +/* USARTx_BAUD */ +#define USART_BAUD_FRADIV BITS(0,3) /*!< fraction part of baud-rate divider */ +#define USART_BAUD_INTDIV BITS(4,15) /*!< integer part of baud-rate divider */ + +/* USARTx_CTL0 */ +#define USART_CTL0_SBKCMD BIT(0) /*!< send break command */ +#define USART_CTL0_RWU BIT(1) /*!< receiver wakeup from mute mode */ +#define USART_CTL0_REN BIT(2) /*!< receiver enable */ +#define USART_CTL0_TEN BIT(3) /*!< transmitter enable */ +#define USART_CTL0_IDLEIE BIT(4) /*!< idle line detected interrupt enable */ +#define USART_CTL0_RBNEIE BIT(5) /*!< read data buffer not empty interrupt and overrun error interrupt enable */ +#define USART_CTL0_TCIE BIT(6) /*!< transmission complete interrupt enable */ +#define USART_CTL0_TBEIE BIT(7) /*!< transmitter buffer empty interrupt enable */ +#define USART_CTL0_PERRIE BIT(8) /*!< parity error interrupt enable */ +#define USART_CTL0_PM BIT(9) /*!< parity mode */ +#define USART_CTL0_PCEN BIT(10) /*!< parity check function enable */ +#define USART_CTL0_WM BIT(11) /*!< wakeup method in mute mode */ +#define USART_CTL0_WL BIT(12) /*!< word length */ +#define USART_CTL0_UEN BIT(13) /*!< USART enable */ + +/* USARTx_CTL1 */ +#define USART_CTL1_ADDR BITS(0,3) /*!< address of USART */ +#define USART_CTL1_LBLEN BIT(5) /*!< LIN break frame length */ +#define USART_CTL1_LBDIE BIT(6) /*!< LIN break detected interrupt eanble */ +#define USART_CTL1_CLEN BIT(8) /*!< CK length */ +#define USART_CTL1_CPH BIT(9) /*!< CK phase */ +#define USART_CTL1_CPL BIT(10) /*!< CK polarity */ +#define USART_CTL1_CKEN BIT(11) /*!< CK pin enable */ +#define USART_CTL1_STB BITS(12,13) /*!< STOP bits length */ +#define USART_CTL1_LMEN BIT(14) /*!< LIN mode enable */ + +/* USARTx_CTL2 */ +#define USART_CTL2_ERRIE BIT(0) /*!< error interrupt enable */ +#define USART_CTL2_IREN BIT(1) /*!< IrDA mode enable */ +#define USART_CTL2_IRLP BIT(2) /*!< IrDA low-power */ +#define USART_CTL2_HDEN BIT(3) /*!< half-duplex enable */ +#define USART_CTL2_NKEN BIT(4) /*!< NACK enable in smartcard mode */ +#define USART_CTL2_SCEN BIT(5) /*!< smartcard mode enable */ +#define USART_CTL2_DENR BIT(6) /*!< DMA request enable for reception */ +#define USART_CTL2_DENT BIT(7) /*!< DMA request enable for transmission */ +#define USART_CTL2_RTSEN BIT(8) /*!< RTS enable */ +#define USART_CTL2_CTSEN BIT(9) /*!< CTS enable */ +#define USART_CTL2_CTSIE BIT(10) /*!< CTS interrupt enable */ + +/* USARTx_GP */ +#define USART_GP_PSC BITS(0,7) /*!< prescaler value for dividing the system clock */ +#define USART_GP_GUAT BITS(8,15) /*!< guard time value in smartcard mode */ + +/* USARTx_CTL3 */ +#define USART_CTL3_RTEN BIT(0) /*!< receiver timeout enable */ +#define USART_CTL3_SCRTNUM BITS(1,3) /*!< smartcard auto-retry number */ +#define USART_CTL3_RTIE BIT(4) /*!< interrupt enable bit of receive timeout event */ +#define USART_CTL3_EBIE BIT(5) /*!< interrupt enable bit of end of block event */ +#define USART_CTL3_RINV BIT(8) /*!< RX pin level inversion */ +#define USART_CTL3_TINV BIT(9) /*!< TX pin level inversion */ +#define USART_CTL3_DINV BIT(10) /*!< data bit level inversion */ +#define USART_CTL3_MSBF BIT(11) /*!< most significant bit first */ + +/* USARTx_RT */ +#define USART_RT_RT BITS(0,23) /*!< receiver timeout threshold */ +#define USART_RT_BL BITS(24,31) /*!< block length */ + +/* USARTx_STAT1 */ +#define USART_STAT1_RTF BIT(11) /*!< receiver timeout flag */ +#define USART_STAT1_EBF BIT(12) /*!< end of block flag */ +#define USART_STAT1_BSY BIT(16) /*!< busy flag */ + +/* constants definitions */ +/* define the USART bit position and its register index offset */ +#define USART_REGIDX_BIT(regidx, bitpos) (((uint32_t)(regidx) << 6) | (uint32_t)(bitpos)) +#define USART_REG_VAL(usartx, offset) (REG32((usartx) + (((uint32_t)(offset) & 0xFFFFU) >> 6))) +#define USART_BIT_POS(val) ((uint32_t)(val) & 0x1FU) +#define USART_REGIDX_BIT2(regidx, bitpos, regidx2, bitpos2) (((uint32_t)(regidx2) << 22) | (uint32_t)((bitpos2) << 16)\ + | (((uint32_t)(regidx) << 6) | (uint32_t)(bitpos))) +#define USART_REG_VAL2(usartx, offset) (REG32((usartx) + ((uint32_t)(offset) >> 22))) +#define USART_BIT_POS2(val) (((uint32_t)(val) & 0x1F0000U) >> 16) + +/* register offset */ +#define USART_STAT0_REG_OFFSET 0x00U /*!< STAT0 register offset */ +#define USART_STAT1_REG_OFFSET 0x88U /*!< STAT1 register offset */ +#define USART_CTL0_REG_OFFSET 0x0CU /*!< CTL0 register offset */ +#define USART_CTL1_REG_OFFSET 0x10U /*!< CTL1 register offset */ +#define USART_CTL2_REG_OFFSET 0x14U /*!< CTL2 register offset */ +#define USART_CTL3_REG_OFFSET 0x80U /*!< CTL3 register offset */ + +/* USART flags */ +typedef enum +{ + /* flags in STAT0 register */ + USART_FLAG_CTS = USART_REGIDX_BIT(USART_STAT0_REG_OFFSET, 9U), /*!< CTS change flag */ + USART_FLAG_LBD = USART_REGIDX_BIT(USART_STAT0_REG_OFFSET, 8U), /*!< LIN break detected flag */ + USART_FLAG_TBE = USART_REGIDX_BIT(USART_STAT0_REG_OFFSET, 7U), /*!< transmit data buffer empty */ + USART_FLAG_TC = USART_REGIDX_BIT(USART_STAT0_REG_OFFSET, 6U), /*!< transmission complete */ + USART_FLAG_RBNE = USART_REGIDX_BIT(USART_STAT0_REG_OFFSET, 5U), /*!< read data buffer not empty */ + USART_FLAG_IDLE = USART_REGIDX_BIT(USART_STAT0_REG_OFFSET, 4U), /*!< IDLE frame detected flag */ + USART_FLAG_ORERR = USART_REGIDX_BIT(USART_STAT0_REG_OFFSET, 3U), /*!< overrun error */ + USART_FLAG_NERR = USART_REGIDX_BIT(USART_STAT0_REG_OFFSET, 2U), /*!< noise error flag */ + USART_FLAG_FERR = USART_REGIDX_BIT(USART_STAT0_REG_OFFSET, 1U), /*!< frame error flag */ + USART_FLAG_PERR = USART_REGIDX_BIT(USART_STAT0_REG_OFFSET, 0U), /*!< parity error flag */ + /* flags in STAT1 register */ + USART_FLAG_BSY = USART_REGIDX_BIT(USART_STAT1_REG_OFFSET, 16U), /*!< busy flag */ + USART_FLAG_EB = USART_REGIDX_BIT(USART_STAT1_REG_OFFSET, 12U), /*!< end of block flag */ + USART_FLAG_RT = USART_REGIDX_BIT(USART_STAT1_REG_OFFSET, 11U), /*!< receiver timeout flag */ +}usart_flag_enum; + +/* USART interrupt flags */ +typedef enum +{ + /* interrupt flags in CTL0 register */ + USART_INT_FLAG_PERR = USART_REGIDX_BIT2(USART_CTL0_REG_OFFSET, 8U, USART_STAT0_REG_OFFSET, 0U), /*!< parity error interrupt and flag */ + USART_INT_FLAG_TBE = USART_REGIDX_BIT2(USART_CTL0_REG_OFFSET, 7U, USART_STAT0_REG_OFFSET, 7U), /*!< transmitter buffer empty interrupt and flag */ + USART_INT_FLAG_TC = USART_REGIDX_BIT2(USART_CTL0_REG_OFFSET, 6U, USART_STAT0_REG_OFFSET, 6U), /*!< transmission complete interrupt and flag */ + USART_INT_FLAG_RBNE = USART_REGIDX_BIT2(USART_CTL0_REG_OFFSET, 5U, USART_STAT0_REG_OFFSET, 5U), /*!< read data buffer not empty interrupt and flag */ + USART_INT_FLAG_RBNE_ORERR = USART_REGIDX_BIT2(USART_CTL0_REG_OFFSET, 5U, USART_STAT0_REG_OFFSET, 3U), /*!< read data buffer not empty interrupt and overrun error flag */ + USART_INT_FLAG_IDLE = USART_REGIDX_BIT2(USART_CTL0_REG_OFFSET, 4U, USART_STAT0_REG_OFFSET, 4U), /*!< IDLE line detected interrupt and flag */ + /* interrupt flags in CTL1 register */ + USART_INT_FLAG_LBD = USART_REGIDX_BIT2(USART_CTL1_REG_OFFSET, 6U, USART_STAT0_REG_OFFSET, 8U), /*!< LIN break detected interrupt and flag */ + /* interrupt flags in CTL2 register */ + USART_INT_FLAG_CTS = USART_REGIDX_BIT2(USART_CTL2_REG_OFFSET, 10U, USART_STAT0_REG_OFFSET, 9U), /*!< CTS interrupt and flag */ + USART_INT_FLAG_ERR_ORERR = USART_REGIDX_BIT2(USART_CTL2_REG_OFFSET, 0U, USART_STAT0_REG_OFFSET, 3U), /*!< error interrupt and overrun error */ + USART_INT_FLAG_ERR_NERR = USART_REGIDX_BIT2(USART_CTL2_REG_OFFSET, 0U, USART_STAT0_REG_OFFSET, 2U), /*!< error interrupt and noise error flag */ + USART_INT_FLAG_ERR_FERR = USART_REGIDX_BIT2(USART_CTL2_REG_OFFSET, 0U, USART_STAT0_REG_OFFSET, 1U), /*!< error interrupt and frame error flag */ + /* interrupt flags in CTL3 register */ + USART_INT_FLAG_EB = USART_REGIDX_BIT2(USART_CTL3_REG_OFFSET, 5U, USART_STAT1_REG_OFFSET, 12U), /*!< interrupt enable bit of end of block event and flag */ + USART_INT_FLAG_RT = USART_REGIDX_BIT2(USART_CTL3_REG_OFFSET, 4U, USART_STAT1_REG_OFFSET, 11U), /*!< interrupt enable bit of receive timeout event and flag */ +}usart_interrupt_flag_enum; + +/* USART interrupt enable or disable */ +typedef enum +{ + /* interrupt in CTL0 register */ + USART_INT_PERR = USART_REGIDX_BIT(USART_CTL0_REG_OFFSET, 8U), /*!< parity error interrupt */ + USART_INT_TBE = USART_REGIDX_BIT(USART_CTL0_REG_OFFSET, 7U), /*!< transmitter buffer empty interrupt */ + USART_INT_TC = USART_REGIDX_BIT(USART_CTL0_REG_OFFSET, 6U), /*!< transmission complete interrupt */ + USART_INT_RBNE = USART_REGIDX_BIT(USART_CTL0_REG_OFFSET, 5U), /*!< read data buffer not empty interrupt and overrun error interrupt */ + USART_INT_IDLE = USART_REGIDX_BIT(USART_CTL0_REG_OFFSET, 4U), /*!< IDLE line detected interrupt */ + /* interrupt in CTL1 register */ + USART_INT_LBD = USART_REGIDX_BIT(USART_CTL1_REG_OFFSET, 6U), /*!< LIN break detected interrupt */ + /* interrupt in CTL2 register */ + USART_INT_CTS = USART_REGIDX_BIT(USART_CTL2_REG_OFFSET, 10U), /*!< CTS interrupt */ + USART_INT_ERR = USART_REGIDX_BIT(USART_CTL2_REG_OFFSET, 0U), /*!< error interrupt */ + /* interrupt in CTL3 register */ + USART_INT_EB = USART_REGIDX_BIT(USART_CTL3_REG_OFFSET, 5U), /*!< end of block interrupt */ + USART_INT_RT = USART_REGIDX_BIT(USART_CTL3_REG_OFFSET, 4U), /*!< receive timeout interrupt */ +}usart_interrupt_enum; + +/* USART invert configure */ +typedef enum +{ + /* data bit level inversion */ + USART_DINV_ENABLE, /*!< data bit level inversion */ + USART_DINV_DISABLE, /*!< data bit level not inversion */ + /* TX pin level inversion */ + USART_TXPIN_ENABLE, /*!< TX pin level inversion */ + USART_TXPIN_DISABLE, /*!< TX pin level not inversion */ + /* RX pin level inversion */ + USART_RXPIN_ENABLE, /*!< RX pin level inversion */ + USART_RXPIN_DISABLE, /*!< RX pin level not inversion */ +}usart_invert_enum; + +/* USART receiver configure */ +#define CTL0_REN(regval) (BIT(2) & ((uint32_t)(regval) << 2)) +#define USART_RECEIVE_ENABLE CTL0_REN(1) /*!< enable receiver */ +#define USART_RECEIVE_DISABLE CTL0_REN(0) /*!< disable receiver */ + +/* USART transmitter configure */ +#define CTL0_TEN(regval) (BIT(3) & ((uint32_t)(regval) << 3)) +#define USART_TRANSMIT_ENABLE CTL0_TEN(1) /*!< enable transmitter */ +#define USART_TRANSMIT_DISABLE CTL0_TEN(0) /*!< disable transmitter */ + +/* USART parity bits definitions */ +#define CTL0_PM(regval) (BITS(9,10) & ((uint32_t)(regval) << 9)) +#define USART_PM_NONE CTL0_PM(0) /*!< no parity */ +#define USART_PM_EVEN CTL0_PM(2) /*!< even parity */ +#define USART_PM_ODD CTL0_PM(3) /*!< odd parity */ + +/* USART wakeup method in mute mode */ +#define CTL0_WM(regval) (BIT(11) & ((uint32_t)(regval) << 11)) +#define USART_WM_IDLE CTL0_WM(0) /*!< idle line */ +#define USART_WM_ADDR CTL0_WM(1) /*!< address match */ + +/* USART word length definitions */ +#define CTL0_WL(regval) (BIT(12) & ((uint32_t)(regval) << 12)) +#define USART_WL_8BIT CTL0_WL(0) /*!< 8 bits */ +#define USART_WL_9BIT CTL0_WL(1) /*!< 9 bits */ + +/* USART stop bits definitions */ +#define CTL1_STB(regval) (BITS(12,13) & ((uint32_t)(regval) << 12)) +#define USART_STB_1BIT CTL1_STB(0) /*!< 1 bit */ +#define USART_STB_0_5BIT CTL1_STB(1) /*!< 0.5 bit */ +#define USART_STB_2BIT CTL1_STB(2) /*!< 2 bits */ +#define USART_STB_1_5BIT CTL1_STB(3) /*!< 1.5 bits */ + +/* USART LIN break frame length */ +#define CTL1_LBLEN(regval) (BIT(5) & ((uint32_t)(regval) << 5)) +#define USART_LBLEN_10B CTL1_LBLEN(0) /*!< 10 bits */ +#define USART_LBLEN_11B CTL1_LBLEN(1) /*!< 11 bits */ + +/* USART CK length */ +#define CTL1_CLEN(regval) (BIT(8) & ((uint32_t)(regval) << 8)) +#define USART_CLEN_NONE CTL1_CLEN(0) /*!< there are 7 CK pulses for an 8 bit frame and 8 CK pulses for a 9 bit frame */ +#define USART_CLEN_EN CTL1_CLEN(1) /*!< there are 8 CK pulses for an 8 bit frame and 9 CK pulses for a 9 bit frame */ + +/* USART clock phase */ +#define CTL1_CPH(regval) (BIT(9) & ((uint32_t)(regval) << 9)) +#define USART_CPH_1CK CTL1_CPH(0) /*!< first clock transition is the first data capture edge */ +#define USART_CPH_2CK CTL1_CPH(1) /*!< second clock transition is the first data capture edge */ + +/* USART clock polarity */ +#define CTL1_CPL(regval) (BIT(10) & ((uint32_t)(regval) << 10)) +#define USART_CPL_LOW CTL1_CPL(0) /*!< steady low value on CK pin */ +#define USART_CPL_HIGH CTL1_CPL(1) /*!< steady high value on CK pin */ + +/* USART DMA request for receive configure */ +#define CLT2_DENR(regval) (BIT(6) & ((uint32_t)(regval) << 6)) +#define USART_DENR_ENABLE CLT2_DENR(1) /*!< DMA request enable for reception */ +#define USART_DENR_DISABLE CLT2_DENR(0) /*!< DMA request disable for reception */ + +/* USART DMA request for transmission configure */ +#define CLT2_DENT(regval) (BIT(7) & ((uint32_t)(regval) << 7)) +#define USART_DENT_ENABLE CLT2_DENT(1) /*!< DMA request enable for transmission */ +#define USART_DENT_DISABLE CLT2_DENT(0) /*!< DMA request disable for transmission */ + +/* USART RTS configure */ +#define CLT2_RTSEN(regval) (BIT(8) & ((uint32_t)(regval) << 8)) +#define USART_RTS_ENABLE CLT2_RTSEN(1) /*!< RTS enable */ +#define USART_RTS_DISABLE CLT2_RTSEN(0) /*!< RTS disable */ + +/* USART CTS configure */ +#define CLT2_CTSEN(regval) (BIT(9) & ((uint32_t)(regval) << 9)) +#define USART_CTS_ENABLE CLT2_CTSEN(1) /*!< CTS enable */ +#define USART_CTS_DISABLE CLT2_CTSEN(0) /*!< CTS disable */ + +/* USART IrDA low-power enable */ +#define CTL2_IRLP(regval) (BIT(2) & ((uint32_t)(regval) << 2)) +#define USART_IRLP_LOW CTL2_IRLP(1) /*!< low-power */ +#define USART_IRLP_NORMAL CTL2_IRLP(0) /*!< normal */ + +/* USART data is transmitted/received with the LSB/MSB first */ +#define CTL3_MSBF(regval) (BIT(11) & ((uint32_t)(regval) << 11)) +#define USART_MSBF_LSB CTL3_MSBF(0) /*!< LSB first */ +#define USART_MSBF_MSB CTL3_MSBF(1) /*!< MSB first */ + +/* function declarations */ +/* initialization functions */ +/* reset USART */ +void usart_deinit(uint32_t usart_periph); +/* configure USART baud rate value */ +void usart_baudrate_set(uint32_t usart_periph, uint32_t baudval); +/* configure USART parity function */ +void usart_parity_config(uint32_t usart_periph, uint32_t paritycfg); +/* configure USART word length */ +void usart_word_length_set(uint32_t usart_periph, uint32_t wlen); +/* configure USART stop bit length */ +void usart_stop_bit_set(uint32_t usart_periph, uint32_t stblen); +/* enable USART */ +void usart_enable(uint32_t usart_periph); +/* disable USART */ +void usart_disable(uint32_t usart_periph); +/* configure USART transmitter */ +void usart_transmit_config(uint32_t usart_periph, uint32_t txconfig); +/* configure USART receiver */ +void usart_receive_config(uint32_t usart_periph, uint32_t rxconfig); + +/* USART normal mode communication */ +/* data is transmitted/received with the LSB/MSB first */ +void usart_data_first_config(uint32_t usart_periph, uint32_t msbf); +/* configure USART inverted */ +void usart_invert_config(uint32_t usart_periph, usart_invert_enum invertpara); +/* enable receiver timeout */ +void usart_receiver_timeout_enable(uint32_t usart_periph); +/* disable receiver timeout */ +void usart_receiver_timeout_disable(uint32_t usart_periph); +/* configure receiver timeout threshold */ +void usart_receiver_timeout_threshold_config(uint32_t usart_periph, uint32_t rtimeout); +/* USART transmit data function */ +void usart_data_transmit(uint32_t usart_periph, uint32_t data); +/* USART receive data function */ +uint16_t usart_data_receive(uint32_t usart_periph); + +/* multi-processor communication */ +/* configure address of the USART */ +void usart_address_config(uint32_t usart_periph, uint8_t addr); +/* enable mute mode */ +void usart_mute_mode_enable(uint32_t usart_periph); +/* disable mute mode */ +void usart_mute_mode_disable(uint32_t usart_periph); +/* configure wakeup method in mute mode */ +void usart_mute_mode_wakeup_config(uint32_t usart_periph, uint32_t wmethod); + +/* LIN mode communication */ +/* enable LIN mode */ +void usart_lin_mode_enable(uint32_t usart_periph); +/* disable LIN mode */ +void usart_lin_mode_disable(uint32_t usart_periph); +/* LIN break detection length */ +void usart_lin_break_detection_length_config(uint32_t usart_periph, uint32_t lblen); +/* send break frame */ +void usart_send_break(uint32_t usart_periph); + +/* half-duplex communication */ +/* enable half-duplex mode */ +void usart_halfduplex_enable(uint32_t usart_periph); +/* disable half-duplex mode */ +void usart_halfduplex_disable(uint32_t usart_periph); + +/* synchronous communication */ +/* enable CK pin in synchronous mode */ +void usart_synchronous_clock_enable(uint32_t usart_periph); +/* disable CK pin in synchronous mode */ +void usart_synchronous_clock_disable(uint32_t usart_periph); +/* configure usart synchronous mode parameters */ +void usart_synchronous_clock_config(uint32_t usart_periph, uint32_t clen, uint32_t cph, uint32_t cpl); + +/* smartcard communication */ +/* configure guard time value in smartcard mode */ +void usart_guard_time_config(uint32_t usart_periph,uint32_t guat); +/* enable smartcard mode */ +void usart_smartcard_mode_enable(uint32_t usart_periph); +/* disable smartcard mode */ +void usart_smartcard_mode_disable(uint32_t usart_periph); +/* enable NACK in smartcard mode */ +void usart_smartcard_mode_nack_enable(uint32_t usart_periph); +/* disable NACK in smartcard mode */ +void usart_smartcard_mode_nack_disable(uint32_t usart_periph); +/* configure smartcard auto-retry number */ +void usart_smartcard_autoretry_config(uint32_t usart_periph, uint32_t scrtnum); +/* configure block length */ +void usart_block_length_config(uint32_t usart_periph, uint32_t bl); + +/* IrDA communication */ +/* enable IrDA mode */ +void usart_irda_mode_enable(uint32_t usart_periph); +/* disable IrDA mode */ +void usart_irda_mode_disable(uint32_t usart_periph); +/* configure the peripheral clock prescaler */ +void usart_prescaler_config(uint32_t usart_periph, uint8_t psc); +/* configure IrDA low-power */ +void usart_irda_lowpower_config(uint32_t usart_periph, uint32_t irlp); + +/* hardware flow communication */ +/* configure hardware flow control RTS */ +void usart_hardware_flow_rts_config(uint32_t usart_periph, uint32_t rtsconfig); +/* configure hardware flow control CTS */ +void usart_hardware_flow_cts_config(uint32_t usart_periph, uint32_t ctsconfig); + +/* DMA communication */ +/* configure USART DMA for reception */ +void usart_dma_receive_config(uint32_t usart_periph, uint32_t dmacmd); +/* configure USART DMA for transmission */ +void usart_dma_transmit_config(uint32_t usart_periph, uint32_t dmacmd); + +/* flag & interrupt functions */ +/* get flag in STAT0/STAT1 register */ +FlagStatus usart_flag_get(uint32_t usart_periph, usart_flag_enum flag); +/* clear flag in STAT0/STAT1 register */ +void usart_flag_clear(uint32_t usart_periph, usart_flag_enum flag); +/* enable USART interrupt */ +void usart_interrupt_enable(uint32_t usart_periph, usart_interrupt_enum interrupt); +/* disable USART interrupt */ +void usart_interrupt_disable(uint32_t usart_periph, usart_interrupt_enum interrupt); +/* get USART interrupt and flag status */ +FlagStatus usart_interrupt_flag_get(uint32_t usart_periph, usart_interrupt_flag_enum int_flag); +/* clear interrupt flag in STAT0/STAT1 register */ +void usart_interrupt_flag_clear(uint32_t usart_periph, usart_interrupt_flag_enum int_flag); + +#endif /* GD32F30x_USART_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_wwdgt.h b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_wwdgt.h new file mode 100644 index 0000000000..844eac509a --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/inc/gd32f30x_wwdgt.h @@ -0,0 +1,95 @@ +/*! + \file gd32f30x_wwdgt.h + \brief definitions for the WWDGT + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + + +#ifndef GD32F30X_WWDGT_H +#define GD32F30X_WWDGT_H + +#include "gd32f30x.h" + +/* WWDGT definitions */ +#define WWDGT WWDGT_BASE /*!< WWDGT base address */ + +/* registers definitions */ +#define WWDGT_CTL REG32((WWDGT) + 0x00U) /*!< WWDGT control register */ +#define WWDGT_CFG REG32((WWDGT) + 0x04U) /*!< WWDGT configuration register */ +#define WWDGT_STAT REG32((WWDGT) + 0x08U) /*!< WWDGT status register */ + +/* bits definitions */ +/* WWDGT_CTL */ +#define WWDGT_CTL_CNT BITS(0,6) /*!< WWDGT counter value */ +#define WWDGT_CTL_WDGTEN BIT(7) /*!< WWDGT counter enable */ + +/* WWDGT_CFG */ +#define WWDGT_CFG_WIN BITS(0,6) /*!< WWDGT counter window value */ +#define WWDGT_CFG_PSC BITS(7,8) /*!< WWDGT prescaler divider value */ +#define WWDGT_CFG_EWIE BIT(9) /*!< early wakeup interrupt enable */ + +/* WWDGT_STAT */ +#define WWDGT_STAT_EWIF BIT(0) /*!< early wakeup interrupt flag */ + +/* constants definitions */ +#define CFG_PSC(regval) (BITS(7,8) & ((uint32_t)(regval) << 7)) /*!< write value to WWDGT_CFG_PSC bit field */ +#define WWDGT_CFG_PSC_DIV1 CFG_PSC(0) /*!< the time base of WWDGT = (PCLK1/4096)/1 */ +#define WWDGT_CFG_PSC_DIV2 CFG_PSC(1) /*!< the time base of WWDGT = (PCLK1/4096)/2 */ +#define WWDGT_CFG_PSC_DIV4 CFG_PSC(2) /*!< the time base of WWDGT = (PCLK1/4096)/4 */ +#define WWDGT_CFG_PSC_DIV8 CFG_PSC(3) /*!< the time base of WWDGT = (PCLK1/4096)/8 */ + +/* write value to WWDGT_CTL_CNT bit field */ +#define CTL_CNT(regval) (BITS(0,6) & ((uint32_t)(regval) << 0)) +/* write value to WWDGT_CFG_WIN bit field */ +#define CFG_WIN(regval) (BITS(0,6) & ((uint32_t)(regval) << 0)) + +/* function declarations */ +/* reset the window watchdog timer configuration */ +void wwdgt_deinit(void); +/* start the window watchdog timer counter */ +void wwdgt_enable(void); + +/* configure the window watchdog timer counter value */ +void wwdgt_counter_update(uint16_t counter_value); +/* configure counter value, window value, and prescaler divider value */ +void wwdgt_config(uint16_t counter, uint16_t window, uint32_t prescaler); + +/* check early wakeup interrupt state of WWDGT */ +FlagStatus wwdgt_flag_get(void); +/* clear early wakeup interrupt state of WWDGT */ +void wwdgt_flag_clear(void); +/* enable early wakeup interrupt of WWDGT */ +void wwdgt_interrupt_enable(void); + +#endif /* GD32F30X_WWDGT_H */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_adc.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_adc.c new file mode 100644 index 0000000000..2a8c536f37 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_adc.c @@ -0,0 +1,941 @@ +/*! + \file gd32f30x_adc.c + \brief ADC driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_adc.h" + +/*! + \brief reset ADC + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[out] none + \retval none +*/ +void adc_deinit(uint32_t adc_periph) +{ + switch(adc_periph){ + case ADC0: + rcu_periph_reset_enable(RCU_ADC0RST); + rcu_periph_reset_disable(RCU_ADC0RST); + break; + case ADC1: + rcu_periph_reset_enable(RCU_ADC1RST); + rcu_periph_reset_disable(RCU_ADC1RST); + break; +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + case ADC2: + rcu_periph_reset_enable(RCU_ADC2RST); + rcu_periph_reset_disable(RCU_ADC2RST); + break; +#endif + default: + break; + } +} + +/*! + \brief enable ADC interface + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[out] none + \retval none +*/ +void adc_enable(uint32_t adc_periph) +{ + if(RESET == (ADC_CTL1(adc_periph) & ADC_CTL1_ADCON)){ + ADC_CTL1(adc_periph) |= (uint32_t)ADC_CTL1_ADCON; + } +} + +/*! + \brief disable ADC interface + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[out] none + \retval none +*/ +void adc_disable(uint32_t adc_periph) +{ + ADC_CTL1(adc_periph) &= ~((uint32_t)ADC_CTL1_ADCON); +} + +/*! + \brief ADC calibration and reset calibration + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[out] none + \retval none +*/ +void adc_calibration_enable(uint32_t adc_periph) +{ + /* reset the selected ADC calibration registers */ + ADC_CTL1(adc_periph) |= (uint32_t) ADC_CTL1_RSTCLB; + /* check the RSTCLB bit state */ + while((ADC_CTL1(adc_periph) & ADC_CTL1_RSTCLB)){ + } + /* enable ADC calibration process */ + ADC_CTL1(adc_periph) |= ADC_CTL1_CLB; + /* check the CLB bit state */ + while((ADC_CTL1(adc_periph) & ADC_CTL1_CLB)){ + } +} + +/*! + \brief enable DMA request + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[out] none + \retval none +*/ +void adc_dma_mode_enable(uint32_t adc_periph) +{ + ADC_CTL1(adc_periph) |= (uint32_t)(ADC_CTL1_DMA); +} + +/*! + \brief disable DMA request + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[out] none + \retval none +*/ +void adc_dma_mode_disable(uint32_t adc_periph) +{ + ADC_CTL1(adc_periph) &= ~((uint32_t)ADC_CTL1_DMA); +} + +/*! + \brief enable the temperature sensor and Vrefint channel + \param[in] none + \param[out] none + \retval none +*/ +void adc_tempsensor_vrefint_enable(void) +{ + /* enable the temperature sensor and Vrefint channel */ + ADC_CTL1(ADC0) |= ADC_CTL1_TSVREN; +} + +/*! + \brief disable the temperature sensor and Vrefint channel + \param[in] none + \param[out] none + \retval none +*/ +void adc_tempsensor_vrefint_disable(void) +{ + /* disable the temperature sensor and Vrefint channel */ + ADC_CTL1(ADC0) &= ~ADC_CTL1_TSVREN; +} + +/*! + \brief configure ADC resolution + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] resolution: ADC resolution + only one among these parameters can be selected + \arg ADC_RESOLUTION_12B: 12-bit ADC resolution + \arg ADC_RESOLUTION_10B: 10-bit ADC resolution + \arg ADC_RESOLUTION_8B: 8-bit ADC resolution + \arg ADC_RESOLUTION_6B: 6-bit ADC resolution + \param[out] none + \retval none +*/ +void adc_resolution_config(uint32_t adc_periph , uint32_t resolution) +{ + ADC_OVSAMPCTL(adc_periph) &= ~((uint32_t)ADC_OVSAMPCTL_DRES); + ADC_OVSAMPCTL(adc_periph) |= (uint32_t)resolution; +} + +/*! + \brief configure ADC discontinuous mode + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_channel_group: select the channel group + only one among these parameters can be selected + \arg ADC_REGULAR_CHANNEL: regular channel group + \arg ADC_INSERTED_CHANNEL: inserted channel group + \arg ADC_CHANNEL_DISCON_DISABLE: disable discontinuous mode of regular & inserted channel + \param[in] length: number of conversions in discontinuous mode,the number can be 1..8 + for regular channel ,the number has no effect for inserted channel + \param[out] none + \retval none +*/ +void adc_discontinuous_mode_config(uint32_t adc_periph, uint8_t adc_channel_group, uint8_t length) +{ + ADC_CTL0(adc_periph) &= ~((uint32_t)( ADC_CTL0_DISRC | ADC_CTL0_DISIC )); + switch(adc_channel_group){ + case ADC_REGULAR_CHANNEL: + /* config the number of conversions in discontinuous mode */ + ADC_CTL0(adc_periph) &= ~((uint32_t)ADC_CTL0_DISNUM); + ADC_CTL0(adc_periph) |= CTL0_DISNUM(((uint32_t)length - 1U)); + + ADC_CTL0(adc_periph) |= (uint32_t)ADC_CTL0_DISRC; + break; + case ADC_INSERTED_CHANNEL: + ADC_CTL0(adc_periph) |= (uint32_t)ADC_CTL0_DISIC; + break; + case ADC_CHANNEL_DISCON_DISABLE: + default: + break; + } +} + +/*! + \brief configure the ADC sync mode + \param[in] mode: ADC mode + only one among these parameters can be selected + \arg ADC_MODE_FREE: all the ADCs work independently + \arg ADC_DAUL_REGULAL_PARALLEL_INSERTED_PARALLEL: ADC0 and ADC1 work in combined regular parallel + inserted parallel mode + \arg ADC_DAUL_REGULAL_PARALLEL_INSERTED_ROTATION: ADC0 and ADC1 work in combined regular parallel + trigger rotation mode + \arg ADC_DAUL_INSERTED_PARALLEL_REGULAL_FOLLOWUP_FAST: ADC0 and ADC1 work in combined inserted parallel + follow-up fast mode + \arg ADC_DAUL_INSERTED_PARALLEL_REGULAL_FOLLOWUP_SLOW: ADC0 and ADC1 work in combined inserted parallel + follow-up slow mode + \arg ADC_DAUL_INSERTED_PARALLEL: ADC0 and ADC1 work in inserted parallel mode only + \arg ADC_DAUL_REGULAL_PARALLEL: ADC0 and ADC1 work in regular parallel mode only + \arg ADC_DAUL_REGULAL_FOLLOWUP_FAST: ADC0 and ADC1 work in follow-up fast mode only + \arg ADC_DAUL_REGULAL_FOLLOWUP_SLOW: ADC0 and ADC1 work in follow-up slow mode only + \arg ADC_DAUL_INSERTED_TRRIGGER_ROTATION: ADC0 and ADC1 work in trigger rotation mode only + \param[out] none + \retval none +*/ +void adc_mode_config(uint32_t mode) +{ + ADC_CTL0(ADC0) &= ~(ADC_CTL0_SYNCM); + ADC_CTL0(ADC0) |= mode; +} + +/*! + \brief enable or disable ADC special function + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] function: the function to config + one or more parameters can be selected below + \arg ADC_SCAN_MODE: scan mode select + \arg ADC_INSERTED_CHANNEL_AUTO: inserted channel group convert automatically + \arg ADC_CONTINUOUS_MODE: continuous mode select + \param[in] newvalue: ENABLE or DISABLE + \param[out] none + \retval none +*/ +void adc_special_function_config(uint32_t adc_periph , uint32_t function , ControlStatus newvalue) +{ + if(newvalue){ + if(0U != (function & ADC_SCAN_MODE)){ + ADC_CTL0(adc_periph) |= ADC_SCAN_MODE; + } + if(0U != (function & ADC_INSERTED_CHANNEL_AUTO)){ + ADC_CTL0(adc_periph) |= ADC_INSERTED_CHANNEL_AUTO; + } + if(0U != (function & ADC_CONTINUOUS_MODE)){ + ADC_CTL1(adc_periph) |= ADC_CONTINUOUS_MODE; + } + }else{ + if(0U != (function & ADC_SCAN_MODE)){ + ADC_CTL0(adc_periph) &= ~ADC_SCAN_MODE; + } + if(0U != (function & ADC_INSERTED_CHANNEL_AUTO)){ + ADC_CTL0(adc_periph) &= ~ADC_INSERTED_CHANNEL_AUTO; + } + if(0U != (function & ADC_CONTINUOUS_MODE)){ + ADC_CTL1(adc_periph) &= ~ADC_CONTINUOUS_MODE; + } + } +} + +/*! + \brief configure ADC data alignment + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] data_alignment: data alignment select + only one parameter can be selected + \arg ADC_DATAALIGN_RIGHT: LSB alignment + \arg ADC_DATAALIGN_LEFT: MSB alignment + \param[out] none + \retval none +*/ +void adc_data_alignment_config(uint32_t adc_periph , uint32_t data_alignment) +{ + if(ADC_DATAALIGN_RIGHT != data_alignment){ + ADC_CTL1(adc_periph) |= ADC_CTL1_DAL; + }else{ + ADC_CTL1(adc_periph) &= ~((uint32_t)ADC_CTL1_DAL); + } +} + +/*! + \brief configure the length of regular channel group or inserted channel group + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_channel_group: select the channel group + only one parameter can be selected + \arg ADC_REGULAR_CHANNEL: regular channel group + \arg ADC_INSERTED_CHANNEL: inserted channel group + \param[in] length: the length of the channel + regular channel 1-16 + inserted channel 1-4 + \param[out] none + \retval none +*/ +void adc_channel_length_config(uint32_t adc_periph, uint8_t adc_channel_group, uint32_t length) +{ + switch(adc_channel_group){ + case ADC_REGULAR_CHANNEL: + ADC_RSQ0(adc_periph) &= ~((uint32_t)ADC_RSQ0_RL); + ADC_RSQ0(adc_periph) |= RSQ0_RL((uint32_t)(length-1U)); + + break; + case ADC_INSERTED_CHANNEL: + ADC_ISQ(adc_periph) &= ~((uint32_t)ADC_ISQ_IL); + ADC_ISQ(adc_periph) |= ISQ_IL((uint32_t)(length-1U)); + + break; + default: + break; + } +} + +/*! + \brief configure ADC regular channel + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] rank: the regular group sequence rank,this parameter must be between 0 to 15 + \param[in] adc_channel: the selected ADC channel + only one among these parameters can be selected + \arg ADC_CHANNEL_x(x=0..17)(x=16 and x=17 are only for ADC0): ADC Channelx + \param[in] sample_time: the sample time value + only one parameter can be selected + \arg ADC_SAMPLETIME_1POINT5: 1.5 cycles + \arg ADC_SAMPLETIME_7POINT5: 7.5 cycles + \arg ADC_SAMPLETIME_13POINT5: 13.5 cycles + \arg ADC_SAMPLETIME_28POINT5: 28.5 cycles + \arg ADC_SAMPLETIME_41POINT5: 41.5 cycles + \arg ADC_SAMPLETIME_55POINT5: 55.5 cycles + \arg ADC_SAMPLETIME_71POINT5: 71.5 cycles + \arg ADC_SAMPLETIME_239POINT5: 239.5 cycles + \param[out] none + \retval none +*/ +void adc_regular_channel_config(uint32_t adc_periph , uint8_t rank , uint8_t adc_channel , uint32_t sample_time) +{ + uint32_t rsq,sampt; + + /* ADC regular sequence config */ + if(rank < 6U){ + rsq = ADC_RSQ2(adc_periph); + rsq &= ~((uint32_t)(ADC_RSQX_RSQN << (5U*rank))); + rsq |= ((uint32_t)adc_channel << (5U*rank)); + ADC_RSQ2(adc_periph) = rsq; + }else if(rank < 12U){ + rsq = ADC_RSQ1(adc_periph); + rsq &= ~((uint32_t)(ADC_RSQX_RSQN << (5U*(rank-6U)))); + rsq |= ((uint32_t)adc_channel << (5U*(rank-6U))); + ADC_RSQ1(adc_periph) = rsq; + }else if(rank < 16U){ + rsq = ADC_RSQ0(adc_periph); + rsq &= ~((uint32_t)(ADC_RSQX_RSQN << (5U*(rank-12U)))); + rsq |= ((uint32_t)adc_channel << (5U*(rank-12U))); + ADC_RSQ0(adc_periph) = rsq; + }else{ + } + + /* ADC sampling time config */ + if(adc_channel < 10U){ + sampt = ADC_SAMPT1(adc_periph); + sampt &= ~((uint32_t)(ADC_SAMPTX_SPTN << (3U*adc_channel))); + sampt |= (uint32_t)(sample_time << (3U*adc_channel)); + ADC_SAMPT1(adc_periph) = sampt; + }else if(adc_channel < 18U){ + sampt = ADC_SAMPT0(adc_periph); + sampt &= ~((uint32_t)(ADC_SAMPTX_SPTN << (3U*(adc_channel-10U)))); + sampt |= (uint32_t)(sample_time << (3U*(adc_channel-10U))); + ADC_SAMPT0(adc_periph) = sampt; + }else{ + } +} + +/*! + \brief configure ADC inserted channel + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] rank: the inserted group sequencer rank,this parameter must be between 0 to 3 + \param[in] adc_channel: the selected ADC channel + only one among these parameters can be selected + \arg ADC_CHANNEL_x(x=0..17)(x=16 and x=17 are only for ADC0): ADC Channelx + \param[in] sample_time: The sample time value + only one parameter can be selected + \arg ADC_SAMPLETIME_1POINT5: 1.5 cycles + \arg ADC_SAMPLETIME_7POINT5: 7.5 cycles + \arg ADC_SAMPLETIME_13POINT5: 13.5 cycles + \arg ADC_SAMPLETIME_28POINT5: 28.5 cycles + \arg ADC_SAMPLETIME_41POINT5: 41.5 cycles + \arg ADC_SAMPLETIME_55POINT5: 55.5 cycles + \arg ADC_SAMPLETIME_71POINT5: 71.5 cycles + \arg ADC_SAMPLETIME_239POINT5: 239.5 cycles + \param[out] none + \retval none +*/ +void adc_inserted_channel_config(uint32_t adc_periph , uint8_t rank , uint8_t adc_channel , uint32_t sample_time) +{ + uint8_t inserted_length; + uint32_t isq,sampt; + + inserted_length = (uint8_t)GET_BITS(ADC_ISQ(adc_periph) , 20U , 21U); + + isq = ADC_ISQ(adc_periph); + isq &= ~((uint32_t)(ADC_ISQ_ISQN << (5U * ((3 + rank) - inserted_length)))); + isq |= ((uint32_t)adc_channel << (5U * ((3 + rank) - inserted_length))); + ADC_ISQ(adc_periph) = isq; + + /* ADC sampling time config */ + if(adc_channel < 10U){ + sampt = ADC_SAMPT1(adc_periph); + sampt &= ~((uint32_t)(ADC_SAMPTX_SPTN << (3U*adc_channel))); + sampt |= (uint32_t) sample_time << (3U*adc_channel); + ADC_SAMPT1(adc_periph) = sampt; + }else if(adc_channel < 18U){ + sampt = ADC_SAMPT0(adc_periph); + sampt &= ~((uint32_t)(ADC_SAMPTX_SPTN << (3U*(adc_channel-10U)))); + sampt |= ((uint32_t)sample_time << (3U*(adc_channel-10U))); + ADC_SAMPT0(adc_periph) = sampt; + }else{ + } +} + +/*! + \brief configure ADC inserted channel offset + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] inserted_channel : insert channel select + only one parameter can be selected + \arg ADC_INSERTED_CHANNEL_0: inserted channel0 + \arg ADC_INSERTED_CHANNEL_1: inserted channel1 + \arg ADC_INSERTED_CHANNEL_2: inserted channel2 + \arg ADC_INSERTED_CHANNEL_3: inserted channel3 + \param[in] offset : the offset data + \param[out] none + \retval none +*/ +void adc_inserted_channel_offset_config(uint32_t adc_periph , uint8_t inserted_channel , uint16_t offset) +{ + uint8_t inserted_length; + uint32_t num = 0U; + + inserted_length = (uint8_t)GET_BITS(ADC_ISQ(adc_periph) , 20U , 21U); + num = 3U - (inserted_length - inserted_channel); + + if(num <= 3U){ + /* calculate the offset of the register */ + num = num * 4U; + /* config the offset of the selected channels */ + REG32((adc_periph) + 0x14U + num) = IOFFX_IOFF((uint32_t)offset); + } +} + +/*! + \brief enable ADC external trigger + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_channel_group: select the channel group + one or more parameters can be selected + \arg ADC_REGULAR_CHANNEL: regular channel group + \arg ADC_INSERTED_CHANNEL: inserted channel group + \param[in] newvalue: ENABLE or DISABLE + \param[out] none + \retval none +*/ +void adc_external_trigger_config(uint32_t adc_periph, uint8_t adc_channel_group, ControlStatus newvalue) +{ + if(newvalue){ + if(0U != (adc_channel_group & ADC_REGULAR_CHANNEL)){ + ADC_CTL1(adc_periph) |= ADC_CTL1_ETERC; + } + if(0U != (adc_channel_group & ADC_INSERTED_CHANNEL)){ + ADC_CTL1(adc_periph) |= ADC_CTL1_ETEIC; + } + }else{ + if(0U != (adc_channel_group & ADC_REGULAR_CHANNEL)){ + ADC_CTL1(adc_periph) &= ~ADC_CTL1_ETERC; + } + if(0U != (adc_channel_group & ADC_INSERTED_CHANNEL)){ + ADC_CTL1(adc_periph) &= ~ADC_CTL1_ETEIC; + } + } +} + +/*! + \brief configure ADC external trigger source + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_channel_group: select the channel group + only one parameter can be selected + \arg ADC_REGULAR_CHANNEL: regular channel group + \arg ADC_INSERTED_CHANNEL: inserted channel group + \param[in] external_trigger_source: regular or inserted group trigger source + only one parameter can be selected + for regular channel: + \arg ADC0_1_EXTTRIG_REGULAR_T0_CH0: timer 0 CC0 event select + \arg ADC0_1_EXTTRIG_REGULAR_T0_CH1: timer 0 CC1 event select + \arg ADC0_1_EXTTRIG_REGULAR_T0_CH2: timer 0 CC2 event select + \arg ADC0_1_EXTTRIG_REGULAR_T1_CH1: timer 1 CC1 event select + \arg ADC0_1_EXTTRIG_REGULAR_T2_TRGO: timer 2 TRGO event select + \arg ADC0_1_EXTTRIG_REGULAR_T3_CH3: timer 3 CC3 event select + \arg ADC0_1_EXTTRIG_REGULAR_T7_TRGO: timer 7 TRGO event select + \arg ADC0_1_EXTTRIG_REGULAR_EXTI_11 : external interrupt line 11 + \arg ADC2_EXTTRIG_REGULAR_T2_CH0: timer 2 CC0 event select + \arg ADC2_EXTTRIG_REGULAR_T1_CH2: timer 1 CC2 event select + \arg ADC2_EXTTRIG_REGULAR_T0_CH2: timer 0 CC2 event select + \arg ADC2_EXTTRIG_REGULAR_T7_CH0: timer 7 CC0 event select + \arg ADC2_EXTTRIG_REGULAR_T7_TRGO: timer 7 TRGO event select + \arg ADC2_EXTTRIG_REGULAR_T4_CH0: timer 4 CC0 event select + \arg ADC2_EXTTRIG_REGULAR_T4_CH2: timer 4 CC2 event select + \arg ADC0_1_2_EXTTRIG_REGULAR_NONE: software trigger + for inserted channel: + \arg ADC0_1_EXTTRIG_INSERTED_T0_TRGO: timer 0 TRGO event select + \arg ADC0_1_EXTTRIG_INSERTED_T0_CH3: timer 0 CC3 event select + \arg ADC0_1_EXTTRIG_INSERTED_T1_TRGO: timer 1 TRGO event select + \arg ADC0_1_EXTTRIG_INSERTED_T1_CH0: timer 1 CC0 event select + \arg ADC0_1_EXTTRIG_INSERTED_T2_CH3: timer 2 CC3 event select + \arg ADC0_1_EXTTRIG_INSERTED_T3_TRGO: timer 3 TRGO event select + \arg ADC0_1_EXTTRIG_INSERTED_EXTI_15: external interrupt line 15 + \arg ADC0_1_EXTTRIG_INSERTED_T7_CH3: timer 7 CC3 event select + \arg ADC2_EXTTRIG_INSERTED_T0_TRGO: timer 0 TRGO event select + \arg ADC2_EXTTRIG_INSERTED_T0_CH3: timer 0 CC3 event select + \arg ADC2_EXTTRIG_INSERTED_T3_CH2: timer 3 CC2 event select + \arg ADC2_EXTTRIG_INSERTED_T7_CH1: timer 7 CC1 event select + \arg ADC2_EXTTRIG_INSERTED_T7_CH3: timer 7 CC3 event select + \arg ADC2_EXTTRIG_INSERTED_T4_TRGO: timer 4 TRGO event select + \arg ADC2_EXTTRIG_INSERTED_T4_CH3: timer 4 CC3 event select + \arg ADC0_1_2_EXTTRIG_INSERTED_NONE: software trigger + \param[out] none + \retval none +*/ +void adc_external_trigger_source_config(uint32_t adc_periph, uint8_t adc_channel_group, uint32_t external_trigger_source) +{ + switch(adc_channel_group){ + case ADC_REGULAR_CHANNEL: + ADC_CTL1(adc_periph) &= ~((uint32_t)ADC_CTL1_ETSRC); + ADC_CTL1(adc_periph) |= (uint32_t)external_trigger_source; + break; + case ADC_INSERTED_CHANNEL: + ADC_CTL1(adc_periph) &= ~((uint32_t)ADC_CTL1_ETSIC); + ADC_CTL1(adc_periph) |= (uint32_t)external_trigger_source; + break; + default: + break; + } +} + +/*! + \brief enable ADC software trigger + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_channel_group: select the channel group + one or more parameters can be selected + \arg ADC_REGULAR_CHANNEL: regular channel group + \arg ADC_INSERTED_CHANNEL: inserted channel group + \param[out] none + \retval none +*/ +void adc_software_trigger_enable(uint32_t adc_periph , uint8_t adc_channel_group) +{ + if(0U != (adc_channel_group & ADC_REGULAR_CHANNEL)){ + ADC_CTL1(adc_periph) |= ADC_CTL1_SWRCST; + } + if(0U != (adc_channel_group & ADC_INSERTED_CHANNEL)){ + ADC_CTL1(adc_periph) |= ADC_CTL1_SWICST; + } +} + +/*! + \brief read ADC regular group data register + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] none + \param[out] none + \retval the conversion value +*/ +uint16_t adc_regular_data_read(uint32_t adc_periph) +{ + return (uint16_t)(ADC_RDATA(adc_periph)); +} + +/*! + \brief read ADC inserted group data register + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] inserted_channel : insert channel select + only one parameter can be selected + \arg ADC_INSERTED_CHANNEL_0: inserted Channel0 + \arg ADC_INSERTED_CHANNEL_1: inserted channel1 + \arg ADC_INSERTED_CHANNEL_2: inserted Channel2 + \arg ADC_INSERTED_CHANNEL_3: inserted Channel3 + \param[out] none + \retval the conversion value +*/ +uint16_t adc_inserted_data_read(uint32_t adc_periph , uint8_t inserted_channel) +{ + uint32_t idata; + /* read the data of the selected channel */ + switch(inserted_channel){ + case ADC_INSERTED_CHANNEL_0: + idata = ADC_IDATA0(adc_periph); + break; + case ADC_INSERTED_CHANNEL_1: + idata = ADC_IDATA1(adc_periph); + break; + case ADC_INSERTED_CHANNEL_2: + idata = ADC_IDATA2(adc_periph); + break; + case ADC_INSERTED_CHANNEL_3: + idata = ADC_IDATA3(adc_periph); + break; + default: + idata = 0U; + break; + } + return (uint16_t)idata; +} + +/*! + \brief read the last ADC0 and ADC1 conversion result data in sync mode + \param[in] none + \param[out] none + \retval the conversion value +*/ +uint32_t adc_sync_mode_convert_value_read(void) +{ + /* return conversion value */ + return ADC_RDATA(ADC0); +} + +/*! + \brief get the ADC flag bits + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_flag: the adc flag bits + only one parameter can be selected + \arg ADC_FLAG_WDE: analog watchdog event flag + \arg ADC_FLAG_EOC: end of group conversion flag + \arg ADC_FLAG_EOIC: end of inserted group conversion flag + \arg ADC_FLAG_STIC: start flag of inserted channel group + \arg ADC_FLAG_STRC: start flag of regular channel group + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus adc_flag_get(uint32_t adc_periph , uint32_t adc_flag) +{ + FlagStatus reval = RESET; + if(ADC_STAT(adc_periph) & adc_flag){ + reval = SET; + } + return reval; +} + +/*! + \brief clear the ADC flag bits + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_flag: the adc flag bits + one or more parameters can be selected + \arg ADC_FLAG_WDE: analog watchdog event flag + \arg ADC_FLAG_EOC: end of group conversion flag + \arg ADC_FLAG_EOIC: end of inserted group conversion flag + \arg ADC_FLAG_STIC: start flag of inserted channel group + \arg ADC_FLAG_STRC: start flag of regular channel group + \param[out] none + \retval none +*/ +void adc_flag_clear(uint32_t adc_periph , uint32_t adc_flag) +{ + ADC_STAT(adc_periph) &= ~((uint32_t)adc_flag); +} + +/*! + \brief get the ADC interrupt bits + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_interrupt: the adc interrupt bits + only oneparameter can be selected + \arg ADC_INT_FLAG_WDE: analog watchdog interrupt + \arg ADC_INT_FLAG_EOC: end of group conversion interrupt + \arg ADC_INT_FLAG_EOIC: end of inserted group conversion interrupt + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus adc_interrupt_flag_get(uint32_t adc_periph , uint32_t adc_interrupt) +{ + FlagStatus interrupt_flag = RESET; + uint32_t state; + /* check the interrupt bits */ + switch(adc_interrupt){ + case ADC_INT_FLAG_WDE: + state = ADC_STAT(adc_periph) & ADC_STAT_WDE; + if((ADC_CTL0(adc_periph) & ADC_CTL0_WDEIE) && state){ + interrupt_flag = SET; + } + break; + case ADC_INT_FLAG_EOC: + state = ADC_STAT(adc_periph) & ADC_STAT_EOC; + if((ADC_CTL0(adc_periph) & ADC_CTL0_EOCIE) && state){ + interrupt_flag = SET; + } + break; + case ADC_INT_FLAG_EOIC: + state = ADC_STAT(adc_periph) & ADC_STAT_EOIC; + if((ADC_CTL0(adc_periph) & ADC_CTL0_EOICIE) && state){ + interrupt_flag = SET; + } + break; + default: + break; + } + return interrupt_flag; +} + +/*! + \brief clear the ADC flag + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_interrupt: the adc status flag + one or more parameters can be selected + \arg ADC_INT_FLAG_WDE: analog watchdog interrupt + \arg ADC_INT_FLAG_EOC: end of group conversion interrupt + \arg ADC_INT_FLAG_EOIC: end of inserted group conversion interrupt + \param[out] none + \retval none +*/ +void adc_interrupt_flag_clear(uint32_t adc_periph , uint32_t adc_interrupt) +{ + ADC_STAT(adc_periph) &= ~((uint32_t)adc_interrupt); +} + +/*! + \brief enable ADC interrupt + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_interrupt: the adc interrupt + one or more parameters can be selected + \arg ADC_INT_WDE: analog watchdog interrupt flag + \arg ADC_INT_EOC: end of group conversion interrupt flag + \arg ADC_INT_EOIC: end of inserted group conversion interrupt flag + \param[out] none + \retval none +*/ +void adc_interrupt_enable(uint32_t adc_periph , uint32_t adc_interrupt) +{ + if(0U != (adc_interrupt & ADC_INT_WDE)){ + ADC_CTL0(adc_periph) |= (uint32_t) ADC_CTL0_WDEIE; + } + + if(0U != (adc_interrupt & ADC_INT_EOC)){ + ADC_CTL0(adc_periph) |= (uint32_t) ADC_CTL0_EOCIE; + } + + if(0U != (adc_interrupt & ADC_INT_EOIC)){ + ADC_CTL0(adc_periph) |= (uint32_t) ADC_CTL0_EOICIE; + } +} + +/*! + \brief disable ADC interrupt + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_interrupt: the adc interrupt flag + one or more parameters can be selected + \arg ADC_INT_WDE: analog watchdog interrupt flag + \arg ADC_INT_EOC: end of group conversion interrupt flag + \arg ADC_INT_EOIC: end of inserted group conversion interrupt flag + \param[out] none + \retval none +*/ +void adc_interrupt_disable(uint32_t adc_periph, uint32_t adc_interrupt) +{ + if(0U != (adc_interrupt & ADC_INT_WDE)){ + ADC_CTL0(adc_periph) &= ~(uint32_t) ADC_CTL0_WDEIE; + } + + if(0U != (adc_interrupt & ADC_INT_EOC)){ + ADC_CTL0(adc_periph) &= ~(uint32_t) ADC_CTL0_EOCIE; + } + + if(0U != (adc_interrupt & ADC_INT_EOIC)){ + ADC_CTL0(adc_periph) &= ~(uint32_t) ADC_CTL0_EOICIE; + } +} + +/*! + \brief configure ADC analog watchdog single channel + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_channel: the selected ADC channel + only one among these parameters can be selected + \arg ADC_CHANNEL_x: ADC Channelx(x=0..17)(x=16 and x=17 are only for ADC0) + \param[out] none + \retval none +*/ +void adc_watchdog_single_channel_enable(uint32_t adc_periph, uint8_t adc_channel) +{ + ADC_CTL0(adc_periph) &= (uint32_t)~(ADC_CTL0_RWDEN | ADC_CTL0_IWDEN | ADC_CTL0_WDSC | ADC_CTL0_WDCHSEL); + + ADC_CTL0(adc_periph) |= (uint32_t)adc_channel; + ADC_CTL0(adc_periph) |= (uint32_t)(ADC_CTL0_RWDEN | ADC_CTL0_IWDEN | ADC_CTL0_WDSC); +} + +/*! + \brief configure ADC analog watchdog group channel + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] adc_channel_group: the channel group use analog watchdog + only one parameter can be selected + \arg ADC_REGULAR_CHANNEL: regular channel group + \arg ADC_INSERTED_CHANNEL: inserted channel group + \arg ADC_REGULAR_INSERTED_CHANNEL: both regular and inserted group + \param[out] none + \retval none +*/ +void adc_watchdog_group_channel_enable(uint32_t adc_periph, uint8_t adc_channel_group) +{ + ADC_CTL0(adc_periph) &= (uint32_t)~(ADC_CTL0_RWDEN | ADC_CTL0_IWDEN | ADC_CTL0_WDSC); + /* select the group */ + switch(adc_channel_group){ + case ADC_REGULAR_CHANNEL: + ADC_CTL0(adc_periph) |= (uint32_t) ADC_CTL0_RWDEN; + break; + case ADC_INSERTED_CHANNEL: + ADC_CTL0(adc_periph) |= (uint32_t) ADC_CTL0_IWDEN; + break; + case ADC_REGULAR_INSERTED_CHANNEL: + ADC_CTL0(adc_periph) |= (uint32_t)(ADC_CTL0_RWDEN | ADC_CTL0_IWDEN); + break; + default: + break; + } +} + +/*! + \brief disable ADC analog watchdog + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[out] none + \retval none +*/ +void adc_watchdog_disable(uint32_t adc_periph) +{ + ADC_CTL0(adc_periph) &= (uint32_t)~(ADC_CTL0_RWDEN | ADC_CTL0_IWDEN | ADC_CTL0_WDSC | ADC_CTL0_WDCHSEL); +} + +/*! + \brief configure ADC analog watchdog threshold + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] low_threshold: analog watchdog low threshold,0..4095 + \param[in] high_threshold: analog watchdog high threshold,0..4095 + \param[out] none + \retval none +*/ +void adc_watchdog_threshold_config(uint32_t adc_periph , uint16_t low_threshold , uint16_t high_threshold) +{ + ADC_WDLT(adc_periph) = (uint32_t)WDLT_WDLT(low_threshold); + ADC_WDHT(adc_periph) = (uint32_t)WDHT_WDHT(high_threshold); +} + +/*! + \brief configure ADC oversample mode + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[in] mode: ADC oversampling mode + only oneparameter can be selected + \arg ADC_OVERSAMPLING_ALL_CONVERT: all oversampled conversions for a channel are done consecutively after a trigger + \arg ADC_OVERSAMPLING_ONE_CONVERT: each oversampled conversion for a channel needs a trigger + \param[in] shift: ADC oversampling shift + only oneparameter can be selected + \arg ADC_OVERSAMPLING_SHIFT_NONE: no oversampling shift + \arg ADC_OVERSAMPLING_SHIFT_1B: 1-bit oversampling shift + \arg ADC_OVERSAMPLING_SHIFT_2B: 2-bit oversampling shift + \arg ADC_OVERSAMPLING_SHIFT_3B: 3-bit oversampling shift + \arg ADC_OVERSAMPLING_SHIFT_4B: 3-bit oversampling shift + \arg ADC_OVERSAMPLING_SHIFT_5B: 5-bit oversampling shift + \arg ADC_OVERSAMPLING_SHIFT_6B: 6-bit oversampling shift + \arg ADC_OVERSAMPLING_SHIFT_7B: 7-bit oversampling shift + \arg ADC_OVERSAMPLING_SHIFT_8B: 8-bit oversampling shift + \param[in] ratio: ADC oversampling ratio + only oneparameter can be selected + \arg ADC_OVERSAMPLING_RATIO_MUL2: oversampling ratio multiple 2 + \arg ADC_OVERSAMPLING_RATIO_MUL4: oversampling ratio multiple 4 + \arg ADC_OVERSAMPLING_RATIO_MUL8: oversampling ratio multiple 8 + \arg ADC_OVERSAMPLING_RATIO_MUL16: oversampling ratio multiple 16 + \arg ADC_OVERSAMPLING_RATIO_MUL32: oversampling ratio multiple 32 + \arg ADC_OVERSAMPLING_RATIO_MUL64: oversampling ratio multiple 64 + \arg ADC_OVERSAMPLING_RATIO_MUL128: oversampling ratio multiple 128 + \arg ADC_OVERSAMPLING_RATIO_MUL256: oversampling ratio multiple 256 + \param[out] none + \retval none +*/ +void adc_oversample_mode_config(uint32_t adc_periph, uint32_t mode, uint16_t shift, uint8_t ratio) +{ + if(ADC_OVERSAMPLING_ONE_CONVERT == mode){ + ADC_OVSAMPCTL(adc_periph) |= (uint32_t)ADC_OVSAMPCTL_TOVS; + }else{ + ADC_OVSAMPCTL(adc_periph) &= ~((uint32_t)ADC_OVSAMPCTL_TOVS); + } + /* config the shift and ratio */ + ADC_OVSAMPCTL(adc_periph) &= ~((uint32_t)(ADC_OVSAMPCTL_OVSR | ADC_OVSAMPCTL_OVSS)); + ADC_OVSAMPCTL(adc_periph) |= ((uint32_t)shift | (uint32_t)ratio); +} + +/*! + \brief enable ADC oversample mode + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[out] none + \retval none +*/ +void adc_oversample_mode_enable(uint32_t adc_periph) +{ + ADC_OVSAMPCTL(adc_periph) |= ADC_OVSAMPCTL_OVSEN; +} + +/*! + \brief disable ADC oversample mode + \param[in] adc_periph: ADCx,x=0,1,2 + only one among these parameters can be selected + \param[out] none + \retval none +*/ +void adc_oversample_mode_disable(uint32_t adc_periph) +{ + ADC_OVSAMPCTL(adc_periph) &= ~((uint32_t)ADC_OVSAMPCTL_OVSEN); +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_bkp.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_bkp.c new file mode 100644 index 0000000000..6bf086b869 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_bkp.c @@ -0,0 +1,328 @@ +/*! + \file gd32f30x_bkp.c + \brief BKP driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_bkp.h" + +#define TAMPER_FLAG_SHIFT ((uint8_t)8U) + +/*! + \brief reset BKP registers + \param[in] none + \param[out] none + \retval none +*/ +void bkp_deinit(void) +{ + /* reset BKP domain register*/ + rcu_bkp_reset_enable(); + rcu_bkp_reset_disable(); +} + +/*! + \brief write BKP data register + \param[in] register_number: refer to bkp_data_register_enum, only one parameter can be selected + \arg BKP_DATA_x(x = 0..41): bkp data register number x + \param[in] data: the data to be write in BKP data register + \param[out] none + \retval none +*/ +void bkp_write_data(bkp_data_register_enum register_number, uint16_t data) +{ + if((register_number >= BKP_DATA_10) && (register_number <= BKP_DATA_41)){ + BKP_DATA10_41(register_number-1U) = data; + }else if((register_number >= BKP_DATA_0) && (register_number <= BKP_DATA_9)){ + BKP_DATA0_9(register_number-1U) = data; + }else{ + /* illegal parameters */ + } +} + +/*! + \brief read BKP data register + \param[in] register_number: refer to bkp_data_register_enum, only one parameter can be selected + \arg BKP_DATA_x(x = 0..41): bkp data register number x + \param[out] none + \retval data of BKP data register +*/ +uint16_t bkp_read_data(bkp_data_register_enum register_number) +{ + uint16_t data = 0U; + + /* get the data from the BKP data register */ + if((register_number >= BKP_DATA_10) && (register_number <= BKP_DATA_41)){ + data = BKP_DATA10_41(register_number-1U); + }else if((register_number >= BKP_DATA_0) && (register_number <= BKP_DATA_9)){ + data = BKP_DATA0_9(register_number-1U); + }else{ + /* illegal parameters */ + } + return data; +} + +/*! + \brief enable RTC clock calibration output + \param[in] none + \param[out] none + \retval none +*/ +void bkp_rtc_calibration_output_enable(void) +{ + BKP_OCTL |= (uint16_t)BKP_OCTL_COEN; +} + +/*! + \brief disable RTC clock calibration output + \param[in] none + \param[out] none + \retval none +*/ +void bkp_rtc_calibration_output_disable(void) +{ + BKP_OCTL &= (uint16_t)~BKP_OCTL_COEN; +} + +/*! + \brief enable RTC alarm or second signal output + \param[in] none + \param[out] none + \retval none +*/ +void bkp_rtc_signal_output_enable(void) +{ + BKP_OCTL |= (uint16_t)BKP_OCTL_ASOEN; +} + +/*! + \brief disable RTC alarm or second signal output + \param[in] none + \param[out] none + \retval none +*/ +void bkp_rtc_signal_output_disable(void) +{ + BKP_OCTL &= (uint16_t)~BKP_OCTL_ASOEN; +} + +/*! + \brief select RTC output + \param[in] outputsel: RTC output selection + \arg RTC_OUTPUT_ALARM_PULSE: RTC alarm pulse is selected as the RTC output + \arg RTC_OUTPUT_SECOND_PULSE: RTC second pulse is selected as the RTC output + \param[out] none + \retval none +*/ +void bkp_rtc_output_select(uint16_t outputsel) +{ + uint16_t ctl = 0U; + + ctl = BKP_OCTL; + ctl &= (uint16_t)~BKP_OCTL_ROSEL; + ctl |= outputsel; + BKP_OCTL = ctl; +} + +/*! + \brief select RTC clock output + \param[in] clocksel: RTC clock output selection + \arg RTC_CLOCK_DIV_64: RTC clock div 64 + \arg RTC_CLOCK_DIV_1: RTC clock + \param[out] none + \retval none +*/ +void bkp_rtc_clock_output_select(uint16_t clocksel) +{ + uint16_t ctl = 0U; + + ctl = BKP_OCTL; + ctl &= (uint16_t)~BKP_OCTL_CCOSEL; + ctl |= clocksel; + BKP_OCTL = ctl; +} + +/*! + \brief RTC clock calibration direction + \param[in] direction: RTC clock calibration direction + \arg RTC_CLOCK_SLOWED_DOWN: RTC clock slow down + \arg RTC_CLOCK_SPEED_UP: RTC clock speed up + \param[out] none + \retval none +*/ +void bkp_rtc_clock_calibration_direction(uint16_t direction) +{ + uint16_t ctl = 0U; + + ctl = BKP_OCTL; + ctl &= (uint16_t)~BKP_OCTL_CALDIR; + ctl |= direction; + BKP_OCTL = ctl; +} + +/*! + \brief set RTC clock calibration value + \param[in] value: RTC clock calibration value + \arg 0x00 - 0x7F + \param[out] none + \retval none +*/ +void bkp_rtc_calibration_value_set(uint8_t value) +{ + uint16_t ctl; + + ctl = BKP_OCTL; + ctl &= ~(uint16_t)BKP_OCTL_RCCV; + ctl |= (uint16_t)OCTL_RCCV(value); + BKP_OCTL = ctl; +} + +/*! + \brief enable tamper detection + \param[in] none + \param[out] none + \retval none +*/ +void bkp_tamper_detection_enable(void) +{ + BKP_TPCTL |= (uint16_t)BKP_TPCTL_TPEN; +} + +/*! + \brief disable tamper detection + \param[in] none + \param[out] none + \retval none +*/ +void bkp_tamper_detection_disable(void) +{ + BKP_TPCTL &= (uint16_t)~BKP_TPCTL_TPEN; +} + +/*! + \brief set tamper pin active level + \param[in] level: tamper active level + \arg TAMPER_PIN_ACTIVE_HIGH: the tamper pin is active high + \arg TAMPER_PIN_ACTIVE_LOW: the tamper pin is active low + \param[out] none + \retval none +*/ +void bkp_tamper_active_level_set(uint16_t level) +{ + uint16_t ctl = 0U; + + ctl = BKP_TPCTL; + ctl &= (uint16_t)~BKP_TPCTL_TPAL; + ctl |= level; + BKP_TPCTL = ctl; +} + +/*! + \brief enable tamper interrupt + \param[in] none + \param[out] none + \retval none +*/ +void bkp_tamper_interrupt_enable(void) +{ + BKP_TPCS |= (uint16_t)BKP_TPCS_TPIE; +} + +/*! + \brief disable tamper interrupt + \param[in] none + \param[out] none + \retval none +*/ +void bkp_tamper_interrupt_disable(void) +{ + BKP_TPCS &= (uint16_t)~BKP_TPCS_TPIE; +} + +/*! + \brief get bkp flag state + \param[in] flag + \arg BKP_FLAG_TAMPER: tamper event flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus bkp_flag_get(uint16_t flag) +{ + if(RESET != (BKP_TPCS & flag)){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear bkp flag state + \param[in] flag + \arg BKP_FLAG_TAMPER: tamper event flag + \param[out] none + \retval none +*/ +void bkp_flag_clear(uint16_t flag) +{ + BKP_TPCS |= (uint16_t)(flag >> TAMPER_FLAG_SHIFT); +} + +/*! + \brief get bkp interrupt flag state + \param[in] flag + \arg BKP_INT_FLAG_TAMPER: tamper interrupt flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus bkp_interrupt_flag_get(uint16_t flag) +{ + if(RESET != (BKP_TPCS & flag)){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear bkp interrupt flag state + \param[in] flag + \arg BKP_INT_FLAG_TAMPER: tamper interrupt flag + \param[out] none + \retval none +*/ +void bkp_interrupt_flag_clear(uint16_t flag) +{ + BKP_TPCS |= (uint16_t)(flag >> TAMPER_FLAG_SHIFT); +} + diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_can.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_can.c new file mode 100644 index 0000000000..7bc5a7ed58 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_can.c @@ -0,0 +1,1042 @@ +/*! + \file gd32f30x_can.c + \brief CAN driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2019-11-27, V2.0.1, firmware for GD32F30x + \version 2020-03-02, V2.0.2, firmware for GD32F30x + \version 2020-07-14, V2.0.3, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_can.h" +#include + +#define CAN_ERROR_HANDLE(s) do{}while(1) + +/*! + \brief deinitialize CAN + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[out] none + \retval none +*/ +void can_deinit(uint32_t can_periph) +{ +#ifdef GD32F30X_CL + if(CAN0 == can_periph){ + rcu_periph_reset_enable(RCU_CAN0RST); + rcu_periph_reset_disable(RCU_CAN0RST); + }else{ + rcu_periph_reset_enable(RCU_CAN1RST); + rcu_periph_reset_disable(RCU_CAN1RST); + } +#else + if(CAN0 == can_periph){ + rcu_periph_reset_enable(RCU_CAN0RST); + rcu_periph_reset_disable(RCU_CAN0RST); + } +#endif +} + +/*! + \brief initialize CAN parameter struct with a default value + \param[in] type: the type of CAN parameter struct + only one parameter can be selected which is shown as below: + \arg CAN_INIT_STRUCT: the CAN initial struct + \arg CAN_FILTER_STRUCT: the CAN filter struct + \arg CAN_TX_MESSAGE_STRUCT: the CAN TX message struct + \arg CAN_RX_MESSAGE_STRUCT: the CAN RX message struct + \param[in] p_struct: the pointer of the specific struct + \param[out] none + \retval none +*/ +void can_struct_para_init(can_struct_type_enum type, void* p_struct) +{ + uint8_t i; + + if(NULL == p_struct){ + CAN_ERROR_HANDLE("struct parameter can not be NULL \r\n"); + } + + /* get type of the struct */ + switch(type){ + /* used for can_init() */ + case CAN_INIT_STRUCT: + ((can_parameter_struct*)p_struct)->auto_bus_off_recovery = DISABLE; + ((can_parameter_struct*)p_struct)->auto_retrans = DISABLE; + ((can_parameter_struct*)p_struct)->auto_wake_up = DISABLE; + ((can_parameter_struct*)p_struct)->prescaler = 0x03FFU; + ((can_parameter_struct*)p_struct)->rec_fifo_overwrite = DISABLE; + ((can_parameter_struct*)p_struct)->resync_jump_width = CAN_BT_SJW_1TQ; + ((can_parameter_struct*)p_struct)->time_segment_1 = CAN_BT_BS1_3TQ; + ((can_parameter_struct*)p_struct)->time_segment_2 = CAN_BT_BS2_1TQ; + ((can_parameter_struct*)p_struct)->time_triggered = DISABLE; + ((can_parameter_struct*)p_struct)->trans_fifo_order = DISABLE; + ((can_parameter_struct*)p_struct)->working_mode = CAN_NORMAL_MODE; + + break; + /* used for can_filter_init() */ + case CAN_FILTER_STRUCT: + ((can_filter_parameter_struct*)p_struct)->filter_bits = CAN_FILTERBITS_32BIT; + ((can_filter_parameter_struct*)p_struct)->filter_enable = DISABLE; + ((can_filter_parameter_struct*)p_struct)->filter_fifo_number = CAN_FIFO0; + ((can_filter_parameter_struct*)p_struct)->filter_list_high = 0x0000U; + ((can_filter_parameter_struct*)p_struct)->filter_list_low = 0x0000U; + ((can_filter_parameter_struct*)p_struct)->filter_mask_high = 0x0000U; + ((can_filter_parameter_struct*)p_struct)->filter_mask_low = 0x0000U; + ((can_filter_parameter_struct*)p_struct)->filter_mode = CAN_FILTERMODE_MASK; + ((can_filter_parameter_struct*)p_struct)->filter_number = 0U; + + break; + /* used for can_message_transmit() */ + case CAN_TX_MESSAGE_STRUCT: + for(i = 0U; i < 8U; i++){ + ((can_trasnmit_message_struct*)p_struct)->tx_data[i] = 0U; + } + + ((can_trasnmit_message_struct*)p_struct)->tx_dlen = 0u; + ((can_trasnmit_message_struct*)p_struct)->tx_efid = 0U; + ((can_trasnmit_message_struct*)p_struct)->tx_ff = (uint8_t)CAN_FF_STANDARD; + ((can_trasnmit_message_struct*)p_struct)->tx_ft = (uint8_t)CAN_FT_DATA; + ((can_trasnmit_message_struct*)p_struct)->tx_sfid = 0U; + + break; + /* used for can_message_receive() */ + case CAN_RX_MESSAGE_STRUCT: + for(i = 0U; i < 8U; i++){ + ((can_receive_message_struct*)p_struct)->rx_data[i] = 0U; + } + + ((can_receive_message_struct*)p_struct)->rx_dlen = 0U; + ((can_receive_message_struct*)p_struct)->rx_efid = 0U; + ((can_receive_message_struct*)p_struct)->rx_ff = (uint8_t)CAN_FF_STANDARD; + ((can_receive_message_struct*)p_struct)->rx_fi = 0U; + ((can_receive_message_struct*)p_struct)->rx_ft = (uint8_t)CAN_FT_DATA; + ((can_receive_message_struct*)p_struct)->rx_sfid = 0U; + + break; + + default: + CAN_ERROR_HANDLE("parameter is invalid \r\n"); + } +} + +/*! + \brief initialize CAN + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] can_parameter_init: parameters for CAN initializtion + \arg working_mode: CAN_NORMAL_MODE, CAN_LOOPBACK_MODE, CAN_SILENT_MODE, CAN_SILENT_LOOPBACK_MODE + \arg resync_jump_width: CAN_BT_SJW_xTQ(x=1, 2, 3, 4) + \arg time_segment_1: CAN_BT_BS1_xTQ(1..16) + \arg time_segment_2: CAN_BT_BS2_xTQ(1..8) + \arg time_triggered: ENABLE or DISABLE + \arg auto_bus_off_recovery: ENABLE or DISABLE + \arg auto_wake_up: ENABLE or DISABLE + \arg auto_retrans: ENABLE or DISABLE + \arg rec_fifo_overwrite: ENABLE or DISABLE + \arg trans_fifo_order: ENABLE or DISABLE + \arg prescaler: 0x0001 - 0x0400 + \param[out] none + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus can_init(uint32_t can_periph, can_parameter_struct* can_parameter_init) +{ + uint32_t timeout = CAN_TIMEOUT; + ErrStatus flag = ERROR; + + /* disable sleep mode */ + CAN_CTL(can_periph) &= ~CAN_CTL_SLPWMOD; + /* enable initialize mode */ + CAN_CTL(can_periph) |= CAN_CTL_IWMOD; + /* wait ACK */ + while((CAN_STAT_IWS != (CAN_STAT(can_periph) & CAN_STAT_IWS)) && (0U != timeout)){ + timeout--; + } + /* check initialize working success */ + if(CAN_STAT_IWS != (CAN_STAT(can_periph) & CAN_STAT_IWS)){ + flag = ERROR; + }else{ + /* set the bit timing register */ + CAN_BT(can_periph) = (BT_MODE((uint32_t)can_parameter_init->working_mode) | \ + BT_SJW((uint32_t)can_parameter_init->resync_jump_width) | \ + BT_BS1((uint32_t)can_parameter_init->time_segment_1) | \ + BT_BS2((uint32_t)can_parameter_init->time_segment_2) | \ + BT_BAUDPSC(((uint32_t)(can_parameter_init->prescaler) - 1U))); + + /* time trigger communication mode */ + if(ENABLE == can_parameter_init->time_triggered){ + CAN_CTL(can_periph) |= CAN_CTL_TTC; + }else{ + CAN_CTL(can_periph) &= ~CAN_CTL_TTC; + } + /* automatic bus-off managment */ + if(ENABLE == can_parameter_init->auto_bus_off_recovery){ + CAN_CTL(can_periph) |= CAN_CTL_ABOR; + }else{ + CAN_CTL(can_periph) &= ~CAN_CTL_ABOR; + } + /* automatic wakeup mode */ + if(ENABLE == can_parameter_init->auto_wake_up){ + CAN_CTL(can_periph) |= CAN_CTL_AWU; + }else{ + CAN_CTL(can_periph) &= ~CAN_CTL_AWU; + } + /* automatic retransmission mode disable */ + if(ENABLE == can_parameter_init->auto_retrans){ + CAN_CTL(can_periph) &= ~CAN_CTL_ARD; + }else{ + CAN_CTL(can_periph) |= CAN_CTL_ARD; + } + /* receive fifo overwrite mode */ + if(ENABLE == can_parameter_init->rec_fifo_overwrite){ + CAN_CTL(can_periph) &= ~CAN_CTL_RFOD; + }else{ + CAN_CTL(can_periph) |= CAN_CTL_RFOD; + } + /* transmit fifo order */ + if(ENABLE == can_parameter_init->trans_fifo_order){ + CAN_CTL(can_periph) |= CAN_CTL_TFO; + }else{ + CAN_CTL(can_periph) &= ~CAN_CTL_TFO; + } + /* disable initialize mode */ + CAN_CTL(can_periph) &= ~CAN_CTL_IWMOD; + timeout = CAN_TIMEOUT; + /* wait the ACK */ + while((CAN_STAT_IWS == (CAN_STAT(can_periph) & CAN_STAT_IWS)) && (0U != timeout)){ + timeout--; + } + /* check exit initialize mode */ + if(0U != timeout){ + flag = SUCCESS; + } + } + return flag; +} + +/*! + \brief initialize CAN filter + \param[in] can_filter_parameter_init: struct for CAN filter initialization + \arg filter_list_high: 0x0000 - 0xFFFF + \arg filter_list_low: 0x0000 - 0xFFFF + \arg filter_mask_high: 0x0000 - 0xFFFF + \arg filter_mask_low: 0x0000 - 0xFFFF + \arg filter_fifo_number: CAN_FIFO0, CAN_FIFO1 + \arg filter_number: 0 - 27 + \arg filter_mode: CAN_FILTERMODE_MASK, CAN_FILTERMODE_LIST + \arg filter_bits: CAN_FILTERBITS_32BIT, CAN_FILTERBITS_16BIT + \arg filter_enable: ENABLE or DISABLE + \param[out] none + \retval none +*/ +void can_filter_init(can_filter_parameter_struct* can_filter_parameter_init) +{ + uint32_t val = 0U; + + val = ((uint32_t)1) << (can_filter_parameter_init->filter_number); + /* filter lock disable */ + CAN_FCTL(CAN0) |= CAN_FCTL_FLD; + /* disable filter */ + CAN_FW(CAN0) &= ~(uint32_t)val; + + /* filter 16 bits */ + if(CAN_FILTERBITS_16BIT == can_filter_parameter_init->filter_bits){ + /* set filter 16 bits */ + CAN_FSCFG(CAN0) &= ~(uint32_t)val; + /* first 16 bits list and first 16 bits mask or first 16 bits list and second 16 bits list */ + CAN_FDATA0(CAN0, can_filter_parameter_init->filter_number) = \ + FDATA_MASK_HIGH((can_filter_parameter_init->filter_mask_low) & CAN_FILTER_MASK_16BITS) | \ + FDATA_MASK_LOW((can_filter_parameter_init->filter_list_low) & CAN_FILTER_MASK_16BITS); + /* second 16 bits list and second 16 bits mask or third 16 bits list and fourth 16 bits list */ + CAN_FDATA1(CAN0, can_filter_parameter_init->filter_number) = \ + FDATA_MASK_HIGH((can_filter_parameter_init->filter_mask_high) & CAN_FILTER_MASK_16BITS) | \ + FDATA_MASK_LOW((can_filter_parameter_init->filter_list_high) & CAN_FILTER_MASK_16BITS); + } + /* filter 32 bits */ + if(CAN_FILTERBITS_32BIT == can_filter_parameter_init->filter_bits){ + /* set filter 32 bits */ + CAN_FSCFG(CAN0) |= (uint32_t)val; + /* 32 bits list or first 32 bits list */ + CAN_FDATA0(CAN0, can_filter_parameter_init->filter_number) = \ + FDATA_MASK_HIGH((can_filter_parameter_init->filter_list_high) & CAN_FILTER_MASK_16BITS) | + FDATA_MASK_LOW((can_filter_parameter_init->filter_list_low) & CAN_FILTER_MASK_16BITS); + /* 32 bits mask or second 32 bits list */ + CAN_FDATA1(CAN0, can_filter_parameter_init->filter_number) = \ + FDATA_MASK_HIGH((can_filter_parameter_init->filter_mask_high) & CAN_FILTER_MASK_16BITS) | + FDATA_MASK_LOW((can_filter_parameter_init->filter_mask_low) & CAN_FILTER_MASK_16BITS); + } + + /* filter mode */ + if(CAN_FILTERMODE_MASK == can_filter_parameter_init->filter_mode){ + /* mask mode */ + CAN_FMCFG(CAN0) &= ~(uint32_t)val; + }else{ + /* list mode */ + CAN_FMCFG(CAN0) |= (uint32_t)val; + } + + /* filter FIFO */ + if(CAN_FIFO0 == (can_filter_parameter_init->filter_fifo_number)){ + /* FIFO0 */ + CAN_FAFIFO(CAN0) &= ~(uint32_t)val; + }else{ + /* FIFO1 */ + CAN_FAFIFO(CAN0) |= (uint32_t)val; + } + + /* filter working */ + if(ENABLE == can_filter_parameter_init->filter_enable){ + + CAN_FW(CAN0) |= (uint32_t)val; + } + + /* filter lock enable */ + CAN_FCTL(CAN0) &= ~CAN_FCTL_FLD; +} + +/*! + \brief set CAN1 fliter start bank number + \param[in] start_bank: CAN1 start bank number + only one parameter can be selected which is shown as below: + \arg (1..27) + \param[out] none + \retval none +*/ +void can1_filter_start_bank(uint8_t start_bank) +{ + /* filter lock disable */ + CAN_FCTL(CAN0) |= CAN_FCTL_FLD; + /* set CAN1 filter start number */ + CAN_FCTL(CAN0) &= ~(uint32_t)CAN_FCTL_HBC1F; + CAN_FCTL(CAN0) |= FCTL_HBC1F(start_bank); + /* filter lock enaable */ + CAN_FCTL(CAN0) &= ~CAN_FCTL_FLD; +} + +/*! + \brief enable CAN debug freeze + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[out] none + \retval none +*/ +void can_debug_freeze_enable(uint32_t can_periph) +{ + CAN_CTL(can_periph) |= CAN_CTL_DFZ; +#ifdef GD32F30X_CL + if(CAN0 == can_periph){ + dbg_periph_enable(DBG_CAN0_HOLD); + }else{ + dbg_periph_enable(DBG_CAN1_HOLD); + } +#else + if(CAN0 == can_periph){ + dbg_periph_enable(DBG_CAN0_HOLD); + } +#endif +} + +/*! + \brief disable CAN debug freeze + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[out] none + \retval none +*/ +void can_debug_freeze_disable(uint32_t can_periph) +{ + CAN_CTL(can_periph) &= ~CAN_CTL_DFZ; +#ifdef GD32F30X_CL + if(CAN0 == can_periph){ + dbg_periph_disable(DBG_CAN0_HOLD); + }else{ + dbg_periph_disable(DBG_CAN1_HOLD); + } +#else + if(CAN0 == can_periph){ + dbg_periph_enable(DBG_CAN0_HOLD); + } +#endif +} + +/*! + \brief enable CAN time trigger mode + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[out] none + \retval none +*/ +void can_time_trigger_mode_enable(uint32_t can_periph) +{ + uint8_t mailbox_number; + + /* enable the tcc mode */ + CAN_CTL(can_periph) |= CAN_CTL_TTC; + /* enable time stamp */ + for(mailbox_number = 0U; mailbox_number < 3U; mailbox_number++){ + CAN_TMP(can_periph, mailbox_number) |= CAN_TMP_TSEN; + } +} + +/*! + \brief disable CAN time trigger mode + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[out] none + \retval none +*/ +void can_time_trigger_mode_disable(uint32_t can_periph) +{ + uint8_t mailbox_number; + + /* disable the TCC mode */ + CAN_CTL(can_periph) &= ~CAN_CTL_TTC; + /* reset TSEN bits */ + for(mailbox_number = 0U; mailbox_number < 3U; mailbox_number++){ + CAN_TMP(can_periph, mailbox_number) &= ~CAN_TMP_TSEN; + } +} + +/*! + \brief transmit CAN message + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] transmit_message: struct for CAN transmit message + \arg tx_sfid: 0x00000000 - 0x000007FF + \arg tx_efid: 0x00000000 - 0x1FFFFFFF + \arg tx_ff: CAN_FF_STANDARD, CAN_FF_EXTENDED + \arg tx_ft: CAN_FT_DATA, CAN_FT_REMOTE + \arg tx_dlen: 0 - 8 + \arg tx_data[]: 0x00 - 0xFF + \param[out] none + \retval mailbox_number +*/ +uint8_t can_message_transmit(uint32_t can_periph, can_trasnmit_message_struct* transmit_message) +{ + uint8_t mailbox_number = CAN_MAILBOX0; + + /* select one empty mailbox */ + if(CAN_TSTAT_TME0 == (CAN_TSTAT(can_periph)&CAN_TSTAT_TME0)){ + mailbox_number = CAN_MAILBOX0; + }else if(CAN_TSTAT_TME1 == (CAN_TSTAT(can_periph)&CAN_TSTAT_TME1)){ + mailbox_number = CAN_MAILBOX1; + }else if(CAN_TSTAT_TME2 == (CAN_TSTAT(can_periph)&CAN_TSTAT_TME2)){ + mailbox_number = CAN_MAILBOX2; + }else{ + mailbox_number = CAN_NOMAILBOX; + } + /* return no mailbox empty */ + if(CAN_NOMAILBOX == mailbox_number){ + return CAN_NOMAILBOX; + } + + CAN_TMI(can_periph, mailbox_number) &= CAN_TMI_TEN; + if(CAN_FF_STANDARD == transmit_message->tx_ff){ + /* set transmit mailbox standard identifier */ + CAN_TMI(can_periph, mailbox_number) |= (uint32_t)(TMI_SFID(transmit_message->tx_sfid) | \ + transmit_message->tx_ft); + }else{ + /* set transmit mailbox extended identifier */ + CAN_TMI(can_periph, mailbox_number) |= (uint32_t)(TMI_EFID(transmit_message->tx_efid) | \ + transmit_message->tx_ff | \ + transmit_message->tx_ft); + } + /* set the data length */ + CAN_TMP(can_periph, mailbox_number) &= ~CAN_TMP_DLENC; + CAN_TMP(can_periph, mailbox_number) |= transmit_message->tx_dlen; + /* set the data */ + CAN_TMDATA0(can_periph, mailbox_number) = TMDATA0_DB3(transmit_message->tx_data[3]) | \ + TMDATA0_DB2(transmit_message->tx_data[2]) | \ + TMDATA0_DB1(transmit_message->tx_data[1]) | \ + TMDATA0_DB0(transmit_message->tx_data[0]); + CAN_TMDATA1(can_periph, mailbox_number) = TMDATA1_DB7(transmit_message->tx_data[7]) | \ + TMDATA1_DB6(transmit_message->tx_data[6]) | \ + TMDATA1_DB5(transmit_message->tx_data[5]) | \ + TMDATA1_DB4(transmit_message->tx_data[4]); + /* enable transmission */ + CAN_TMI(can_periph, mailbox_number) |= CAN_TMI_TEN; + + return mailbox_number; +} + +/*! + \brief get CAN transmit state + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] mailbox_number + only one parameter can be selected which is shown as below: + \arg CAN_MAILBOX(x=0,1,2) + \param[out] none + \retval can_transmit_state_enum +*/ +can_transmit_state_enum can_transmit_states(uint32_t can_periph, uint8_t mailbox_number) +{ + can_transmit_state_enum state = CAN_TRANSMIT_FAILED; + uint32_t val = 0U; + + /* check selected mailbox state */ + switch(mailbox_number){ + /* mailbox0 */ + case CAN_MAILBOX0: + val = CAN_TSTAT(can_periph) & (CAN_TSTAT_MTF0 | CAN_TSTAT_MTFNERR0 | CAN_TSTAT_TME0); + break; + /* mailbox1 */ + case CAN_MAILBOX1: + val = CAN_TSTAT(can_periph) & (CAN_TSTAT_MTF1 | CAN_TSTAT_MTFNERR1 | CAN_TSTAT_TME1); + break; + /* mailbox2 */ + case CAN_MAILBOX2: + val = CAN_TSTAT(can_periph) & (CAN_TSTAT_MTF2 | CAN_TSTAT_MTFNERR2 | CAN_TSTAT_TME2); + break; + default: + val = CAN_TRANSMIT_FAILED; + break; + } + + switch(val){ + /* transmit pending */ + case (CAN_STATE_PENDING): + state = CAN_TRANSMIT_PENDING; + break; + /* mailbox0 transmit succeeded */ + case (CAN_TSTAT_MTF0 | CAN_TSTAT_MTFNERR0 | CAN_TSTAT_TME0): + state = CAN_TRANSMIT_OK; + break; + /* mailbox1 transmit succeeded */ + case (CAN_TSTAT_MTF1 | CAN_TSTAT_MTFNERR1 | CAN_TSTAT_TME1): + state = CAN_TRANSMIT_OK; + break; + /* mailbox2 transmit succeeded */ + case (CAN_TSTAT_MTF2 | CAN_TSTAT_MTFNERR2 | CAN_TSTAT_TME2): + state = CAN_TRANSMIT_OK; + break; + /* transmit failed */ + default: + state = CAN_TRANSMIT_FAILED; + break; + } + return state; +} + +/*! + \brief stop CAN transmission + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] mailbox_number + only one parameter can be selected which is shown as below: + \arg CAN_MAILBOXx(x=0,1,2) + \param[out] none + \retval none +*/ +void can_transmission_stop(uint32_t can_periph, uint8_t mailbox_number) +{ + if(CAN_MAILBOX0 == mailbox_number){ + CAN_TSTAT(can_periph) |= CAN_TSTAT_MST0; + while(CAN_TSTAT_MST0 == (CAN_TSTAT(can_periph) & CAN_TSTAT_MST0)){ + } + }else if(CAN_MAILBOX1 == mailbox_number){ + CAN_TSTAT(can_periph) |= CAN_TSTAT_MST1; + while(CAN_TSTAT_MST1 == (CAN_TSTAT(can_periph) & CAN_TSTAT_MST1)){ + } + }else if(CAN_MAILBOX2 == mailbox_number){ + CAN_TSTAT(can_periph) |= CAN_TSTAT_MST2; + while(CAN_TSTAT_MST2 == (CAN_TSTAT(can_periph) & CAN_TSTAT_MST2)){ + } + }else{ + /* illegal parameters */ + } +} + +/*! + \brief CAN receive message + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] fifo_number + \arg CAN_FIFOx(x=0,1) + \param[out] receive_message: struct for CAN receive message + \arg rx_sfid: 0x00000000 - 0x000007FF + \arg rx_efid: 0x00000000 - 0x1FFFFFFF + \arg rx_ff: CAN_FF_STANDARD, CAN_FF_EXTENDED + \arg rx_ft: CAN_FT_DATA, CAN_FT_REMOTE + \arg rx_dlen: 0 - 8 + \arg rx_data[]: 0x00 - 0xFF + \arg rx_fi: 0 - 27 + \retval none +*/ +void can_message_receive(uint32_t can_periph, uint8_t fifo_number, can_receive_message_struct* receive_message) +{ + /* get the frame format */ + receive_message->rx_ff = (uint8_t)(CAN_RFIFOMI_FF & CAN_RFIFOMI(can_periph, fifo_number)); + if(CAN_FF_STANDARD == receive_message->rx_ff){ + /* get standard identifier */ + receive_message->rx_sfid = (uint32_t)(GET_RFIFOMI_SFID(CAN_RFIFOMI(can_periph, fifo_number))); + }else{ + /* get extended identifier */ + receive_message->rx_efid = (uint32_t)(GET_RFIFOMI_EFID(CAN_RFIFOMI(can_periph, fifo_number))); + } + + /* get frame type */ + receive_message->rx_ft = (uint8_t)(CAN_RFIFOMI_FT & CAN_RFIFOMI(can_periph, fifo_number)); + /* filtering index */ + receive_message->rx_fi = (uint8_t)(GET_RFIFOMP_FI(CAN_RFIFOMP(can_periph, fifo_number))); + /* get recevie data length */ + receive_message->rx_dlen = (uint8_t)(GET_RFIFOMP_DLENC(CAN_RFIFOMP(can_periph, fifo_number))); + + /* receive data */ + receive_message -> rx_data[0] = (uint8_t)(GET_RFIFOMDATA0_DB0(CAN_RFIFOMDATA0(can_periph, fifo_number))); + receive_message -> rx_data[1] = (uint8_t)(GET_RFIFOMDATA0_DB1(CAN_RFIFOMDATA0(can_periph, fifo_number))); + receive_message -> rx_data[2] = (uint8_t)(GET_RFIFOMDATA0_DB2(CAN_RFIFOMDATA0(can_periph, fifo_number))); + receive_message -> rx_data[3] = (uint8_t)(GET_RFIFOMDATA0_DB3(CAN_RFIFOMDATA0(can_periph, fifo_number))); + receive_message -> rx_data[4] = (uint8_t)(GET_RFIFOMDATA1_DB4(CAN_RFIFOMDATA1(can_periph, fifo_number))); + receive_message -> rx_data[5] = (uint8_t)(GET_RFIFOMDATA1_DB5(CAN_RFIFOMDATA1(can_periph, fifo_number))); + receive_message -> rx_data[6] = (uint8_t)(GET_RFIFOMDATA1_DB6(CAN_RFIFOMDATA1(can_periph, fifo_number))); + receive_message -> rx_data[7] = (uint8_t)(GET_RFIFOMDATA1_DB7(CAN_RFIFOMDATA1(can_periph, fifo_number))); + + /* release FIFO */ + if(CAN_FIFO0 == fifo_number){ + CAN_RFIFO0(can_periph) |= CAN_RFIFO0_RFD0; + }else{ + CAN_RFIFO1(can_periph) |= CAN_RFIFO1_RFD1; + } +} + +/*! + \brief release FIFO0 + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] fifo_number + only one parameter can be selected which is shown as below: + \arg CAN_FIFOx(x=0,1) + \param[out] none + \retval none +*/ +void can_fifo_release(uint32_t can_periph, uint8_t fifo_number) +{ + if(CAN_FIFO0 == fifo_number){ + CAN_RFIFO0(can_periph) |= CAN_RFIFO0_RFD0; + }else if(CAN_FIFO1 == fifo_number){ + CAN_RFIFO1(can_periph) |= CAN_RFIFO1_RFD1; + }else{ + /* illegal parameters */ + CAN_ERROR_HANDLE("CAN FIFO NUM is invalid \r\n"); + } +} + +/*! + \brief CAN receive message length + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] fifo_number + only one parameter can be selected which is shown as below: + \arg CAN_FIFOx(x=0,1) + \param[out] none + \retval message length +*/ +uint8_t can_receive_message_length_get(uint32_t can_periph, uint8_t fifo_number) +{ + uint8_t val = 0U; + + if(CAN_FIFO0 == fifo_number){ + /* FIFO0 */ + val = (uint8_t)(CAN_RFIFO0(can_periph) & CAN_RFIF_RFL_MASK); + }else if(CAN_FIFO1 == fifo_number){ + /* FIFO1 */ + val = (uint8_t)(CAN_RFIFO1(can_periph) & CAN_RFIF_RFL_MASK); + }else{ + /* illegal parameters */ + } + return val; +} + +/*! + \brief set CAN working mode + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] can_working_mode + only one parameter can be selected which is shown as below: + \arg CAN_MODE_INITIALIZE + \arg CAN_MODE_NORMAL + \arg CAN_MODE_SLEEP + \param[out] none + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus can_working_mode_set(uint32_t can_periph, uint8_t working_mode) +{ + ErrStatus flag = ERROR; + /* timeout for IWS or also for SLPWS bits */ + uint32_t timeout = CAN_TIMEOUT; + + if(CAN_MODE_INITIALIZE == working_mode){ + /* disable sleep mode */ + CAN_CTL(can_periph) &= (~(uint32_t)CAN_CTL_SLPWMOD); + /* set initialize mode */ + CAN_CTL(can_periph) |= (uint8_t)CAN_CTL_IWMOD; + /* wait the acknowledge */ + while((CAN_STAT_IWS != (CAN_STAT(can_periph) & CAN_STAT_IWS)) && (0U != timeout)){ + timeout--; + } + if(CAN_STAT_IWS != (CAN_STAT(can_periph) & CAN_STAT_IWS)){ + flag = ERROR; + }else{ + flag = SUCCESS; + } + }else if(CAN_MODE_NORMAL == working_mode){ + /* enter normal mode */ + CAN_CTL(can_periph) &= ~(uint32_t)(CAN_CTL_SLPWMOD | CAN_CTL_IWMOD); + /* wait the acknowledge */ + while((0U != (CAN_STAT(can_periph) & (CAN_STAT_IWS | CAN_STAT_SLPWS))) && (0U != timeout)){ + timeout--; + } + if(0U != (CAN_STAT(can_periph) & (CAN_STAT_IWS | CAN_STAT_SLPWS))){ + flag = ERROR; + }else{ + flag = SUCCESS; + } + }else if(CAN_MODE_SLEEP == working_mode){ + /* disable initialize mode */ + CAN_CTL(can_periph) &= (~(uint32_t)CAN_CTL_IWMOD); + /* set sleep mode */ + CAN_CTL(can_periph) |= (uint8_t)CAN_CTL_SLPWMOD; + /* wait the acknowledge */ + while((CAN_STAT_SLPWS != (CAN_STAT(can_periph) & CAN_STAT_SLPWS)) && (0U != timeout)){ + timeout--; + } + if(CAN_STAT_SLPWS != (CAN_STAT(can_periph) & CAN_STAT_SLPWS)){ + flag = ERROR; + }else{ + flag = SUCCESS; + } + }else{ + flag = ERROR; + } + return flag; +} + +/*! + \brief wake up CAN + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[out] none + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus can_wakeup(uint32_t can_periph) +{ + ErrStatus flag = ERROR; + uint32_t timeout = CAN_TIMEOUT; + + /* wakeup */ + CAN_CTL(can_periph) &= ~CAN_CTL_SLPWMOD; + + while((0U != (CAN_STAT(can_periph) & CAN_STAT_SLPWS)) && (0x00U != timeout)){ + timeout--; + } + /* check state */ + if(0U != (CAN_STAT(can_periph) & CAN_STAT_SLPWS)){ + flag = ERROR; + }else{ + flag = SUCCESS; + } + return flag; +} + +/*! + \brief get CAN error type + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[out] none + \retval can_error_enum + \arg CAN_ERROR_NONE: no error + \arg CAN_ERROR_FILL: fill error + \arg CAN_ERROR_FORMATE: format error + \arg CAN_ERROR_ACK: ACK error + \arg CAN_ERROR_BITRECESSIVE: bit recessive + \arg CAN_ERROR_BITDOMINANTER: bit dominant error + \arg CAN_ERROR_CRC: CRC error + \arg CAN_ERROR_SOFTWARECFG: software configure +*/ +can_error_enum can_error_get(uint32_t can_periph) +{ + can_error_enum error; + error = CAN_ERROR_NONE; + + /* get error type */ + error = (can_error_enum)(GET_ERR_ERRN(CAN_ERR(can_periph))); + return error; +} + +/*! + \brief get CAN receive error number + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[out] none + \retval error number +*/ +uint8_t can_receive_error_number_get(uint32_t can_periph) +{ + uint8_t val; + + /* get error count */ + val = (uint8_t)(GET_ERR_RECNT(CAN_ERR(can_periph))); + return val; +} + +/*! + \brief get CAN transmit error number + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[out] none + \retval error number +*/ +uint8_t can_transmit_error_number_get(uint32_t can_periph) +{ + uint8_t val; + + val = (uint8_t)(GET_ERR_TECNT(CAN_ERR(can_periph))); + return val; +} + +/*! + \brief enable CAN interrupt + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] interrupt + one or more parameters can be selected which are shown as below: + \arg CAN_INT_TME: transmit mailbox empty interrupt enable + \arg CAN_INT_RFNE0: receive FIFO0 not empty interrupt enable + \arg CAN_INT_RFF0: receive FIFO0 full interrupt enable + \arg CAN_INT_RFO0: receive FIFO0 overfull interrupt enable + \arg CAN_INT_RFNE1: receive FIFO1 not empty interrupt enable + \arg CAN_INT_RFF1: receive FIFO1 full interrupt enable + \arg CAN_INT_RFO1: receive FIFO1 overfull interrupt enable + \arg CAN_INT_WERR: warning error interrupt enable + \arg CAN_INT_PERR: passive error interrupt enable + \arg CAN_INT_BO: bus-off interrupt enable + \arg CAN_INT_ERRN: error number interrupt enable + \arg CAN_INT_ERR: error interrupt enable + \arg CAN_INT_WU: wakeup interrupt enable + \arg CAN_INT_SLPW: sleep working interrupt enable + \param[out] none + \retval none +*/ +void can_interrupt_enable(uint32_t can_periph, uint32_t interrupt) +{ + CAN_INTEN(can_periph) |= interrupt; +} + +/*! + \brief disable CAN interrupt + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] interrupt + one or more parameters can be selected which are shown as below: + \arg CAN_INT_TME: transmit mailbox empty interrupt enable + \arg CAN_INT_RFNE0: receive FIFO0 not empty interrupt enable + \arg CAN_INT_RFF0: receive FIFO0 full interrupt enable + \arg CAN_INT_RFO0: receive FIFO0 overfull interrupt enable + \arg CAN_INT_RFNE1: receive FIFO1 not empty interrupt enable + \arg CAN_INT_RFF1: receive FIFO1 full interrupt enable + \arg CAN_INT_RFO1: receive FIFO1 overfull interrupt enable + \arg CAN_INT_WERR: warning error interrupt enable + \arg CAN_INT_PERR: passive error interrupt enable + \arg CAN_INT_BO: bus-off interrupt enable + \arg CAN_INT_ERRN: error number interrupt enable + \arg CAN_INT_ERR: error interrupt enable + \arg CAN_INT_WU: wakeup interrupt enable + \arg CAN_INT_SLPW: sleep working interrupt enable + \param[out] none + \retval none +*/ +void can_interrupt_disable(uint32_t can_periph, uint32_t interrupt) +{ + CAN_INTEN(can_periph) &= ~interrupt; +} + +/*! + \brief get CAN flag state + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] flag: CAN flags, refer to can_flag_enum + only one parameter can be selected which is shown as below: + \arg CAN_FLAG_RXL: RX level + \arg CAN_FLAG_LASTRX: last sample value of RX pin + \arg CAN_FLAG_RS: receiving state + \arg CAN_FLAG_TS: transmitting state + \arg CAN_FLAG_SLPIF: status change flag of entering sleep working mode + \arg CAN_FLAG_WUIF: status change flag of wakeup from sleep working mode + \arg CAN_FLAG_ERRIF: error flag + \arg CAN_FLAG_SLPWS: sleep working state + \arg CAN_FLAG_IWS: initial working state + \arg CAN_FLAG_TMLS2: transmit mailbox 2 last sending in Tx FIFO + \arg CAN_FLAG_TMLS1: transmit mailbox 1 last sending in Tx FIFO + \arg CAN_FLAG_TMLS0: transmit mailbox 0 last sending in Tx FIFO + \arg CAN_FLAG_TME2: transmit mailbox 2 empty + \arg CAN_FLAG_TME1: transmit mailbox 1 empty + \arg CAN_FLAG_TME0: transmit mailbox 0 empty + \arg CAN_FLAG_MTE2: mailbox 2 transmit error + \arg CAN_FLAG_MTE1: mailbox 1 transmit error + \arg CAN_FLAG_MTE0: mailbox 0 transmit error + \arg CAN_FLAG_MAL2: mailbox 2 arbitration lost + \arg CAN_FLAG_MAL1: mailbox 1 arbitration lost + \arg CAN_FLAG_MAL0: mailbox 0 arbitration lost + \arg CAN_FLAG_MTFNERR2: mailbox 2 transmit finished with no error + \arg CAN_FLAG_MTFNERR1: mailbox 1 transmit finished with no error + \arg CAN_FLAG_MTFNERR0: mailbox 0 transmit finished with no error + \arg CAN_FLAG_MTF2: mailbox 2 transmit finished + \arg CAN_FLAG_MTF1: mailbox 1 transmit finished + \arg CAN_FLAG_MTF0: mailbox 0 transmit finished + \arg CAN_FLAG_RFO0: receive FIFO0 overfull + \arg CAN_FLAG_RFF0: receive FIFO0 full + \arg CAN_FLAG_RFO1: receive FIFO1 overfull + \arg CAN_FLAG_RFF1: receive FIFO1 full + \arg CAN_FLAG_BOERR: bus-off error + \arg CAN_FLAG_PERR: passive error + \arg CAN_FLAG_WERR: warning error + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus can_flag_get(uint32_t can_periph, can_flag_enum flag) +{ + /* get flag and interrupt enable state */ + if(RESET != (CAN_REG_VAL(can_periph, flag) & BIT(CAN_BIT_POS(flag)))){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear CAN flag state + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] flag: CAN flags, refer to can_flag_enum + only one parameter can be selected which is shown as below: + \arg CAN_FLAG_SLPIF: status change flag of entering sleep working mode + \arg CAN_FLAG_WUIF: status change flag of wakeup from sleep working mode + \arg CAN_FLAG_ERRIF: error flag + \arg CAN_FLAG_MTE2: mailbox 2 transmit error + \arg CAN_FLAG_MTE1: mailbox 1 transmit error + \arg CAN_FLAG_MTE0: mailbox 0 transmit error + \arg CAN_FLAG_MAL2: mailbox 2 arbitration lost + \arg CAN_FLAG_MAL1: mailbox 1 arbitration lost + \arg CAN_FLAG_MAL0: mailbox 0 arbitration lost + \arg CAN_FLAG_MTFNERR2: mailbox 2 transmit finished with no error + \arg CAN_FLAG_MTFNERR1: mailbox 1 transmit finished with no error + \arg CAN_FLAG_MTFNERR0: mailbox 0 transmit finished with no error + \arg CAN_FLAG_MTF2: mailbox 2 transmit finished + \arg CAN_FLAG_MTF1: mailbox 1 transmit finished + \arg CAN_FLAG_MTF0: mailbox 0 transmit finished + \arg CAN_FLAG_RFO0: receive FIFO0 overfull + \arg CAN_FLAG_RFF0: receive FIFO0 full + \arg CAN_FLAG_RFO1: receive FIFO1 overfull + \arg CAN_FLAG_RFF1: receive FIFO1 full + \param[out] none + \retval none +*/ +void can_flag_clear(uint32_t can_periph, can_flag_enum flag) +{ + CAN_REG_VAL(can_periph, flag) = BIT(CAN_BIT_POS(flag)); +} + +/*! + \brief get CAN interrupt flag state + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] flag: CAN interrupt flags, refer to can_interrupt_flag_enum + only one parameter can be selected which is shown as below: + \arg CAN_INT_FLAG_SLPIF: status change interrupt flag of sleep working mode entering + \arg CAN_INT_FLAG_WUIF: status change interrupt flag of wakeup from sleep working mode + \arg CAN_INT_FLAG_ERRIF: error interrupt flag + \arg CAN_INT_FLAG_MTF2: mailbox 2 transmit finished interrupt flag + \arg CAN_INT_FLAG_MTF1: mailbox 1 transmit finished interrupt flag + \arg CAN_INT_FLAG_MTF0: mailbox 0 transmit finished interrupt flag + \arg CAN_INT_FLAG_RFO0: receive FIFO0 overfull interrupt flag + \arg CAN_INT_FLAG_RFF0: receive FIFO0 full interrupt flag + \arg CAN_INT_FLAG_RFL0: receive FIFO0 not empty interrupt flag + \arg CAN_INT_FLAG_RFO1: receive FIFO1 overfull interrupt flag + \arg CAN_INT_FLAG_RFF1: receive FIFO1 full interrupt flag + \arg CAN_INT_FLAG_RFL1: receive FIFO1 not empty interrupt flag + \arg CAN_INT_FLAG_ERRN: error number interrupt flag + \arg CAN_INT_FLAG_BOERR: bus-off error interrupt flag + \arg CAN_INT_FLAG_PERR: passive error interrupt flag + \arg CAN_INT_FLAG_WERR: warning error interrupt flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus can_interrupt_flag_get(uint32_t can_periph, can_interrupt_flag_enum flag) +{ + uint32_t ret1 = RESET; + uint32_t ret2 = RESET; + + /* get the staus of interrupt flag */ + if (flag == CAN_INT_FLAG_RFL0) { + ret1 = can_receive_message_length_get(can_periph, CAN_FIFO0); + } else if (flag == CAN_INT_FLAG_RFL1) { + ret1 = can_receive_message_length_get(can_periph, CAN_FIFO1); + } else if (flag == CAN_INT_FLAG_ERRN) { + ret1 = can_error_get(can_periph); + } else { + ret1 = CAN_REG_VALS(can_periph, flag) & BIT(CAN_BIT_POS0(flag)); + } + /* get the staus of interrupt enale bit */ + ret2 = CAN_INTEN(can_periph) & BIT(CAN_BIT_POS1(flag)); + if(ret1 && ret2){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear CAN interrupt flag state + \param[in] can_periph + \arg CANx(x=0,1),the CAN1 only for GD32F30X_CL + \param[in] flag: CAN interrupt flags, refer to can_interrupt_flag_enum + only one parameter can be selected which is shown as below: + \arg CAN_INT_FLAG_SLPIF: status change interrupt flag of sleep working mode entering + \arg CAN_INT_FLAG_WUIF: status change interrupt flag of wakeup from sleep working mode + \arg CAN_INT_FLAG_ERRIF: error interrupt flag + \arg CAN_INT_FLAG_MTF2: mailbox 2 transmit finished interrupt flag + \arg CAN_INT_FLAG_MTF1: mailbox 1 transmit finished interrupt flag + \arg CAN_INT_FLAG_MTF0: mailbox 0 transmit finished interrupt flag + \arg CAN_INT_FLAG_RFO0: receive FIFO0 overfull interrupt flag + \arg CAN_INT_FLAG_RFF0: receive FIFO0 full interrupt flag + \arg CAN_INT_FLAG_RFO1: receive FIFO1 overfull interrupt flag + \arg CAN_INT_FLAG_RFF1: receive FIFO1 full interrupt flag + \param[out] none + \retval none +*/ +void can_interrupt_flag_clear(uint32_t can_periph, can_interrupt_flag_enum flag) +{ + CAN_REG_VALS(can_periph, flag) = BIT(CAN_BIT_POS0(flag)); +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_crc.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_crc.c new file mode 100644 index 0000000000..1072748979 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_crc.c @@ -0,0 +1,130 @@ +/*! + \file gd32f30x_crc.c + \brief CRC driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_crc.h" + +#define CRC_DATA_RESET_VALUE ((uint32_t)0xFFFFFFFFU) +#define CRC_FDATA_RESET_VALUE ((uint32_t)0x00000000U) + +/*! + \brief deinit CRC calculation unit + \param[in] none + \param[out] none + \retval none +*/ +void crc_deinit(void) +{ + CRC_DATA = CRC_DATA_RESET_VALUE; + CRC_FDATA = CRC_FDATA_RESET_VALUE; + CRC_CTL = (uint32_t)CRC_CTL_RST; +} + +/*! + \brief reset data register(CRC_DATA) to the value of 0xFFFFFFFF + \param[in] none + \param[out] none + \retval none +*/ +void crc_data_register_reset(void) +{ + CRC_CTL |= (uint32_t)CRC_CTL_RST; +} + +/*! + \brief read the value of the data register + \param[in] none + \param[out] none + \retval 32-bit value of the data register +*/ +uint32_t crc_data_register_read(void) +{ + uint32_t data; + data = CRC_DATA; + return (data); +} + +/*! + \brief read the value of the free data register + \param[in] none + \param[out] none + \retval 8-bit value of the free data register +*/ +uint8_t crc_free_data_register_read(void) +{ + uint8_t fdata; + fdata = (uint8_t)CRC_FDATA; + return (fdata); +} + +/*! + \brief write data to the free data register + \param[in] free_data: specified 8-bit data + \param[out] none + \retval none +*/ +void crc_free_data_register_write(uint8_t free_data) +{ + CRC_FDATA = (uint32_t)free_data; +} + +/*! + \brief calculate the CRC value of a 32-bit data + \param[in] sdata: specified 32-bit data + \param[out] none + \retval 32-bit value calculated by CRC +*/ +uint32_t crc_single_data_calculate(uint32_t sdata) +{ + CRC_DATA = sdata; + return (CRC_DATA); +} + +/*! + \brief calculate the CRC value of an array of 32-bit values + \param[in] array: pointer to an array of 32-bit values + \param[in] size: size of the array + \param[out] none + \retval 32-bit value calculated by CRC +*/ +uint32_t crc_block_data_calculate(const uint32_t *array, uint32_t size) +{ + uint32_t index; + for(index = 0U; index < size; index++){ + CRC_DATA = *(array+index); + } + return (CRC_DATA); +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_ctc.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_ctc.c new file mode 100644 index 0000000000..84c64732a6 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_ctc.c @@ -0,0 +1,392 @@ +/*! + \file gd32f30x_ctc.c + \brief CTC driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_ctc.h" + +#define CTC_FLAG_MASK ((uint32_t)0x00000700U) + +/* CTC register bit offset */ +#define CTC_TRIMVALUE_OFFSET ((uint32_t)8U) +#define CTC_TRIM_VALUE_OFFSET ((uint32_t)8U) +#define CTC_REFCAP_OFFSET ((uint32_t)16U) +#define CTC_LIMIT_VALUE_OFFSET ((uint32_t)16U) + +/*! + \brief reset CTC clock trim controller + \param[in] none + \param[out] none + \retval none +*/ +void ctc_deinit(void) +{ + /* reset CTC */ + rcu_periph_reset_enable(RCU_CTCRST); + rcu_periph_reset_disable(RCU_CTCRST); +} + + + +/*! + \brief enable CTC trim counter + \param[in] none + \param[out] none + \retval none +*/ +void ctc_counter_enable(void) +{ + CTC_CTL0 |= (uint32_t)CTC_CTL0_CNTEN; +} + +/*! + \brief disable CTC trim counter + \param[in] none + \param[out] none + \retval none +*/ +void ctc_counter_disable(void) +{ + CTC_CTL0 &= (uint32_t)(~CTC_CTL0_CNTEN); +} + +/*! + \brief configure the IRC48M trim value + \param[in] ctc_trim_value: 8-bit IRC48M trim value + \arg 0x00 - 0x3F + \param[out] none + \retval none +*/ +void ctc_irc48m_trim_value_config(uint8_t trim_value) +{ + /* clear TRIMVALUE bits */ + CTC_CTL0 &= (~(uint32_t)CTC_CTL0_TRIMVALUE); + /* set TRIMVALUE bits */ + CTC_CTL0 |= ((uint32_t)trim_value << CTC_TRIM_VALUE_OFFSET); +} + +/*! + \brief generate software reference source sync pulse + \param[in] none + \param[out] none + \retval none +*/ +void ctc_software_refsource_pulse_generate(void) +{ + CTC_CTL0 |= (uint32_t)CTC_CTL0_SWREFPUL; +} + +/*! + \brief configure hardware automatically trim mode + \param[in] hardmode: + only one parameter can be selected which is shown as below: + \arg CTC_HARDWARE_TRIM_MODE_ENABLE: hardware automatically trim mode enable + \arg CTC_HARDWARE_TRIM_MODE_DISABLE: hardware automatically trim mode disable + \param[out] none + \retval none +*/ +void ctc_hardware_trim_mode_config(uint32_t hardmode) +{ + CTC_CTL0 &= (uint32_t)(~CTC_CTL0_AUTOTRIM); + CTC_CTL0 |= (uint32_t)hardmode; +} +/*! + \brief configure reference signal source polarity + \param[in] polarity: + only one parameter can be selected which is shown as below: + \arg CTC_REFSOURCE_POLARITY_FALLING: reference signal source polarity is falling edge + \arg CTC_REFSOURCE_POLARITY_RISING: reference signal source polarity is rising edge + \param[out] none + \retval none +*/ +void ctc_refsource_polarity_config(uint32_t polarity) +{ + CTC_CTL1 &= (uint32_t)(~CTC_CTL1_REFPOL); + CTC_CTL1 |= (uint32_t)polarity; +} + +/*! + \brief select reference signal source + \param[in] refs: + only one parameter can be selected which is shown as below: + \arg CTC_REFSOURCE_GPIO: GPIO is selected + \arg CTC_REFSOURCE_LXTAL: LXTAL is selected + \param[out] none + \retval none +*/ +void ctc_refsource_signal_select(uint32_t refs) +{ + CTC_CTL1 &= (uint32_t)(~CTC_CTL1_REFSEL); + CTC_CTL1 |= (uint32_t)refs; +} + +/*! + \brief configure reference signal source prescaler + \param[in] prescaler: + only one parameter can be selected which is shown as below: + \arg CTC_REFSOURCE_PSC_OFF: reference signal not divided + \arg CTC_REFSOURCE_PSC_DIV2: reference signal divided by 2 + \arg CTC_REFSOURCE_PSC_DIV4: reference signal divided by 4 + \arg CTC_REFSOURCE_PSC_DIV8: reference signal divided by 8 + \arg CTC_REFSOURCE_PSC_DIV16: reference signal divided by 16 + \arg CTC_REFSOURCE_PSC_DIV32: reference signal divided by 32 + \arg CTC_REFSOURCE_PSC_DIV64: reference signal divided by 64 + \arg CTC_REFSOURCE_PSC_DIV128: reference signal divided by 128 + \param[out] none + \retval none +*/ +void ctc_refsource_prescaler_config(uint32_t prescaler) +{ + CTC_CTL1 &= (uint32_t)(~CTC_CTL1_REFPSC); + CTC_CTL1 |= (uint32_t)prescaler; +} + +/*! + \brief configure clock trim base limit value + \param[in] limit_value: 8-bit clock trim base limit value + \arg 0x00 - 0xFF + \param[out] none + \retval none +*/ +void ctc_clock_limit_value_config(uint8_t limit_value) +{ + CTC_CTL1 &= (uint32_t)(~CTC_CTL1_CKLIM); + CTC_CTL1 |= (uint32_t)((uint32_t)limit_value << CTC_LIMIT_VALUE_OFFSET); +} + +/*! + \brief configure CTC counter reload value + \param[in] reload_value: 16-bit CTC counter reload value + \arg 0x0000 - 0xFFFF + \param[out] none + \retval none +*/ +void ctc_counter_reload_value_config(uint16_t reload_value) +{ + CTC_CTL1 &= (uint32_t)(~CTC_CTL1_RLVALUE); + CTC_CTL1 |= (uint32_t)reload_value; +} + +/*! + \brief read CTC counter capture value when reference sync pulse occurred + \param[in] none + \param[out] none + \retval the 16-bit CTC counter capture value +*/ +uint16_t ctc_counter_capture_value_read(void) +{ + uint16_t capture_value = 0U; + capture_value = (uint16_t)((CTC_STAT & CTC_STAT_REFCAP)>> CTC_REFCAP_OFFSET); + return (capture_value); +} + +/*! + \brief read CTC trim counter direction when reference sync pulse occurred + \param[in] none + \param[out] none + \retval FlagStatus: SET or RESET + \arg SET: CTC trim counter direction is down-counting + \arg RESET: CTC trim counter direction is up-counting +*/ +FlagStatus ctc_counter_direction_read(void) +{ + if(RESET != (CTC_STAT & CTC_STAT_REFDIR)){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief read CTC counter reload value + \param[in] none + \param[out] none + \retval the 16-bit CTC counter reload value +*/ +uint16_t ctc_counter_reload_value_read(void) +{ + uint16_t reload_value = 0U; + reload_value = (uint16_t)(CTC_CTL1 & CTC_CTL1_RLVALUE); + return (reload_value); +} + +/*! + \brief read the IRC48M trim value + \param[in] none + \param[out] none + \retval the 8-bit IRC48M trim value +*/ +uint8_t ctc_irc48m_trim_value_read(void) +{ + uint8_t trim_value = 0U; + trim_value = (uint8_t)((CTC_CTL0 & CTC_CTL0_TRIMVALUE) >> CTC_TRIMVALUE_OFFSET); + return (trim_value); +} + +/*! + \brief enable the CTC interrupt + \param[in] interrupt: CTC interrupt enable + one or more parameters can be selected which are shown as below: + \arg CTC_INT_CKOK: clock trim OK interrupt enable + \arg CTC_INT_CKWARN: clock trim warning interrupt enable + \arg CTC_INT_ERR: error interrupt enable + \arg CTC_INT_EREF: expect reference interrupt enable + \param[out] none + \retval none +*/ +void ctc_interrupt_enable(uint32_t interrupt) +{ + CTC_CTL0 |= (uint32_t)interrupt; +} + +/*! + \brief disable the CTC interrupt + \param[in] interrupt: CTC interrupt enable source + one or more parameters can be selected which are shown as below: + \arg CTC_INT_CKOK: clock trim OK interrupt enable + \arg CTC_INT_CKWARN: clock trim warning interrupt enable + \arg CTC_INT_ERR: error interrupt enable + \arg CTC_INT_EREF: expect reference interrupt enable + \param[out] none + \retval none +*/ +void ctc_interrupt_disable(uint32_t interrupt) +{ + CTC_CTL0 &= (uint32_t)(~interrupt); +} + +/*! + \brief get CTC interrupt flag + \param[in] int_flag: the CTC interrupt flag + only one parameter can be selected which is shown as below: + \arg CTC_INT_FLAG_CKOK: clock trim OK interrupt + \arg CTC_INT_FLAG_CKWARN: clock trim warning interrupt + \arg CTC_INT_FLAG_ERR: error interrupt + \arg CTC_INT_FLAG_EREF: expect reference interrupt + \arg CTC_INT_FLAG_CKERR: clock trim error bit interrupt + \arg CTC_INT_FLAG_REFMISS: reference sync pulse miss interrupt + \arg CTC_INT_FLAG_TRIMERR: trim value error interrupt + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus ctc_interrupt_flag_get(uint32_t int_flag) +{ + uint32_t interrupt_flag = 0U, intenable = 0U; + + /* check whether the interrupt is enabled */ + if(RESET != (int_flag & CTC_FLAG_MASK)){ + intenable = CTC_CTL0 & CTC_CTL0_ERRIE; + }else{ + intenable = CTC_CTL0 & int_flag; + } + + /* get interrupt flag status */ + interrupt_flag = CTC_STAT & int_flag; + + if(interrupt_flag && intenable){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear CTC interrupt flag + \param[in] int_flag: the CTC interrupt flag + only one parameter can be selected which is shown as below: + \arg CTC_INT_FLAG_CKOK: clock trim OK interrupt + \arg CTC_INT_FLAG_CKWARN: clock trim warning interrupt + \arg CTC_INT_FLAG_ERR: error interrupt + \arg CTC_INT_FLAG_EREF: expect reference interrupt + \arg CTC_INT_FLAG_CKERR: clock trim error bit interrupt + \arg CTC_INT_FLAG_REFMISS: reference sync pulse miss interrupt + \arg CTC_INT_FLAG_TRIMERR: trim value error interrupt + \param[out] none + \retval none +*/ +void ctc_interrupt_flag_clear(uint32_t int_flag) +{ + if(RESET != (int_flag & CTC_FLAG_MASK)){ + CTC_INTC |= CTC_INTC_ERRIC; + }else{ + CTC_INTC |= int_flag; + } +} + +/*! + \brief get CTC flag + \param[in] flag: the CTC flag + only one parameter can be selected which is shown as below: + \arg CTC_FLAG_CKOK: clock trim OK flag + \arg CTC_FLAG_CKWARN: clock trim warning flag + \arg CTC_FLAG_ERR: error flag + \arg CTC_FLAG_EREF: expect reference flag + \arg CTC_FLAG_CKERR: clock trim error bit + \arg CTC_FLAG_REFMISS: reference sync pulse miss + \arg CTC_FLAG_TRIMERR: trim value error bit + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus ctc_flag_get(uint32_t flag) +{ + if(RESET != (CTC_STAT & flag)){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear CTC flag + \param[in] flag: the CTC flag + only one parameter can be selected which is shown as below: + \arg CTC_FLAG_CKOK: clock trim OK flag + \arg CTC_FLAG_CKWARN: clock trim warning flag + \arg CTC_FLAG_ERR: error flag + \arg CTC_FLAG_EREF: expect reference flag + \arg CTC_FLAG_CKERR: clock trim error bit + \arg CTC_FLAG_REFMISS: reference sync pulse miss + \arg CTC_FLAG_TRIMERR: trim value error bit + \param[out] none + \retval none +*/ +void ctc_flag_clear(uint32_t flag) +{ + if(RESET != (flag & CTC_FLAG_MASK)){ + CTC_INTC |= CTC_INTC_ERRIC; + }else{ + CTC_INTC |= flag; + } +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dac.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dac.c new file mode 100644 index 0000000000..0a8c6df2b1 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dac.c @@ -0,0 +1,541 @@ +/*! + \file gd32f30x_dac.c + \brief DAC driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_dac.h" + +/* DAC register bit offset */ +#define DAC1_REG_OFFSET ((uint32_t)16U) +#define DH_12BIT_OFFSET ((uint32_t)16U) +#define DH_8BIT_OFFSET ((uint32_t)8U) + +/*! + \brief deinitialize DAC + \param[in] none + \param[out] none + \retval none +*/ +void dac_deinit(void) +{ + rcu_periph_reset_enable(RCU_DACRST); + rcu_periph_reset_disable(RCU_DACRST); +} + +/*! + \brief enable DAC + \param[in] dac_periph: DACx(x = 0,1) + \param[out] none + \retval none +*/ +void dac_enable(uint32_t dac_periph) +{ + if(DAC0 == dac_periph){ + DAC_CTL |= DAC_CTL_DEN0; + }else{ + DAC_CTL |= DAC_CTL_DEN1; + } +} + +/*! + \brief disable DAC + \param[in] dac_periph: DACx(x = 0,1) + \param[out] none + \retval none +*/ +void dac_disable(uint32_t dac_periph) +{ + if(DAC0 == dac_periph){ + DAC_CTL &= ~DAC_CTL_DEN0; + }else{ + DAC_CTL &= ~DAC_CTL_DEN1; + } +} + +/*! + \brief enable DAC DMA function + \param[in] dac_periph: DACx(x = 0,1) + \param[out] none + \retval none +*/ +void dac_dma_enable(uint32_t dac_periph) +{ + if(DAC0 == dac_periph){ + DAC_CTL |= DAC_CTL_DDMAEN0; + }else{ + DAC_CTL |= DAC_CTL_DDMAEN1; + } +} + +/*! + \brief disable DAC DMA function + \param[in] dac_periph: DACx(x = 0,1) + \param[out] none + \retval none +*/ +void dac_dma_disable(uint32_t dac_periph) +{ + if(DAC0 == dac_periph){ + DAC_CTL &= ~DAC_CTL_DDMAEN0; + }else{ + DAC_CTL &= ~DAC_CTL_DDMAEN1; + } +} + +/*! + \brief enable DAC output buffer + \param[in] dac_periph: DACx(x = 0,1) + \param[out] none + \retval none +*/ +void dac_output_buffer_enable(uint32_t dac_periph) +{ + if(DAC0 == dac_periph){ + DAC_CTL &= ~DAC_CTL_DBOFF0; + }else{ + DAC_CTL &= ~DAC_CTL_DBOFF1; + } +} + +/*! + \brief disable DAC output buffer + \param[in] dac_periph: DACx(x = 0,1) + \param[out] none + \retval none +*/ +void dac_output_buffer_disable(uint32_t dac_periph) +{ + if(DAC0 == dac_periph){ + DAC_CTL |= DAC_CTL_DBOFF0; + }else{ + DAC_CTL |= DAC_CTL_DBOFF1; + } +} + +/*! + \brief get DAC output value + \param[in] dac_periph: DACx(x = 0,1) + \param[out] none + \retval DAC output data +*/ +uint16_t dac_output_value_get(uint32_t dac_periph) +{ + uint16_t data = 0U; + if(DAC0 == dac_periph){ + /* store the DAC0 output value */ + data = (uint16_t)DAC0_DO; + }else{ + /* store the DAC1 output value */ + data = (uint16_t)DAC1_DO; + } + return data; +} + +/*! + \brief set the DAC specified data holding register value + \param[in] dac_periph: DACx(x = 0,1) + \param[in] dac_align: data alignment + only one parameter can be selected which is shown as below: + \arg DAC_ALIGN_8B_R: data right 8 bit alignment + \arg DAC_ALIGN_12B_R: data right 12 bit alignment + \arg DAC_ALIGN_12B_L: data left 12 bit alignment + \param[in] data: data to be loaded + \param[out] none + \retval none +*/ +void dac_data_set(uint32_t dac_periph, uint32_t dac_align, uint16_t data) +{ + if(DAC0 == dac_periph){ + switch(dac_align){ + /* data right 12 bit alignment */ + case DAC_ALIGN_12B_R: + DAC0_R12DH = data; + break; + /* data left 12 bit alignment */ + case DAC_ALIGN_12B_L: + DAC0_L12DH = data; + break; + /* data right 8 bit alignment */ + case DAC_ALIGN_8B_R: + DAC0_R8DH = data; + break; + default: + break; + } + }else{ + switch(dac_align){ + /* data right 12 bit alignment */ + case DAC_ALIGN_12B_R: + DAC1_R12DH = data; + break; + /* data left 12 bit alignment */ + case DAC_ALIGN_12B_L: + DAC1_L12DH = data; + break; + /* data right 8 bit alignment */ + case DAC_ALIGN_8B_R: + DAC1_R8DH = data; + break; + default: + break; + } + } +} + +/*! + \brief enable DAC trigger + \param[in] dac_periph: DACx(x = 0,1) + \param[out] none + \retval none +*/ +void dac_trigger_enable(uint32_t dac_periph) +{ + if(DAC0 == dac_periph){ + DAC_CTL |= DAC_CTL_DTEN0; + }else{ + DAC_CTL |= DAC_CTL_DTEN1; + } +} + +/*! + \brief disable DAC trigger + \param[in] dac_periph: DACx(x = 0,1) + \param[out] none + \retval none +*/ +void dac_trigger_disable(uint32_t dac_periph) +{ + if(DAC0 == dac_periph){ + DAC_CTL &= ~DAC_CTL_DTEN0; + }else{ + DAC_CTL &= ~DAC_CTL_DTEN1; + } +} + +/*! + \brief set DAC trigger source + \param[in] dac_periph: DACx(x = 0,1) + \param[in] triggersource: external triggers of DAC + only one parameter can be selected which is shown as below: + \arg DAC_TRIGGER_T1_TRGO: TIMER1 TRGO + \arg DAC_TRIGGER_T2_TRGO: TIMER2 TRGO (for GD32F30X_CL) + \arg DAC_TRIGGER_T3_TRGO: TIMER3 TRGO + \arg DAC_TRIGGER_T4_TRGO: TIMER4 TRGO + \arg DAC_TRIGGER_T5_TRGO: TIMER5 TRGO + \arg DAC_TRIGGER_T6_TRGO: TIMER6 TRGO + \arg DAC_TRIGGER_T7_TRGO: TIMER7 TRGO (for GD32F30X_HD and GD32F30X_XD) + \arg DAC_TRIGGER_EXTI_9: EXTI interrupt line9 event + \arg DAC_TRIGGER_SOFTWARE: software trigger + \param[out] none + \retval none +*/ +void dac_trigger_source_config(uint32_t dac_periph,uint32_t triggersource) +{ + if(DAC0 == dac_periph){ + /* configure DAC0 trigger source */ + DAC_CTL &= ~DAC_CTL_DTSEL0; + DAC_CTL |= triggersource; + }else{ + /* configure DAC1 trigger source */ + DAC_CTL &= ~DAC_CTL_DTSEL1; + DAC_CTL |= (triggersource << DAC1_REG_OFFSET); + } +} + +/*! + \brief enable DAC software trigger + \param[in] dac_periph: DACx(x = 0,1) + \retval none +*/ +void dac_software_trigger_enable(uint32_t dac_periph) +{ + if(DAC0 == dac_periph){ + DAC_SWT |= DAC_SWT_SWTR0; + }else{ + DAC_SWT |= DAC_SWT_SWTR1; + } +} + +/*! + \brief disable DAC software trigger + \param[in] dac_periph: DACx(x = 0,1) + \param[out] none + \retval none +*/ +void dac_software_trigger_disable(uint32_t dac_periph) +{ + if(DAC0 == dac_periph){ + DAC_SWT &= ~DAC_SWT_SWTR0; + }else{ + DAC_SWT &= ~DAC_SWT_SWTR1; + } +} + +/*! + \brief configure DAC wave mode + \param[in] dac_periph: DACx(x = 0,1) + \param[in] wave_mode: noise wave mode + only one parameter can be selected which is shown as below: + \arg DAC_WAVE_DISABLE: wave disable + \arg DAC_WAVE_MODE_LFSR: LFSR noise mode + \arg DAC_WAVE_MODE_TRIANGLE: triangle noise mode + \param[out] none + \retval none +*/ +void dac_wave_mode_config(uint32_t dac_periph, uint32_t wave_mode) +{ + if(DAC0 == dac_periph){ + /* configure DAC0 wave mode */ + DAC_CTL &= ~DAC_CTL_DWM0; + DAC_CTL |= wave_mode; + }else{ + /* configure DAC1 wave mode */ + DAC_CTL &= ~DAC_CTL_DWM1; + DAC_CTL |= (wave_mode << DAC1_REG_OFFSET); + } +} + +/*! + \brief configure DAC wave bit width + \param[in] dac_periph: DACx(x = 0,1) + \param[in] bit_width: noise wave bit width + only one parameter can be selected which is shown as below: + \arg DAC_WAVE_BIT_WIDTH_1: bit width of the wave signal is 1 + \arg DAC_WAVE_BIT_WIDTH_2: bit width of the wave signal is 2 + \arg DAC_WAVE_BIT_WIDTH_3: bit width of the wave signal is 3 + \arg DAC_WAVE_BIT_WIDTH_4: bit width of the wave signal is 4 + \arg DAC_WAVE_BIT_WIDTH_5: bit width of the wave signal is 5 + \arg DAC_WAVE_BIT_WIDTH_6: bit width of the wave signal is 6 + \arg DAC_WAVE_BIT_WIDTH_7: bit width of the wave signal is 7 + \arg DAC_WAVE_BIT_WIDTH_8: bit width of the wave signal is 8 + \arg DAC_WAVE_BIT_WIDTH_9: bit width of the wave signal is 9 + \arg DAC_WAVE_BIT_WIDTH_10: bit width of the wave signal is 10 + \arg DAC_WAVE_BIT_WIDTH_11: bit width of the wave signal is 11 + \arg DAC_WAVE_BIT_WIDTH_12: bit width of the wave signal is 12 + \param[out] none + \retval none +*/ +void dac_wave_bit_width_config(uint32_t dac_periph, uint32_t bit_width) +{ + if(DAC0 == dac_periph){ + /* configure DAC0 wave bit width */ + DAC_CTL &= ~DAC_CTL_DWBW0; + DAC_CTL |= bit_width; + }else{ + /* configure DAC1 wave bit width */ + DAC_CTL &= ~DAC_CTL_DWBW1; + DAC_CTL |= (bit_width << DAC1_REG_OFFSET); + } +} + +/*! + \brief configure DAC LFSR noise mode + \param[in] dac_periph: DACx(x = 0,1) + \param[in] unmask_bits: unmask LFSR bits in DAC LFSR noise mode + only one parameter can be selected which is shown as below: + \arg DAC_LFSR_BIT0: unmask the LFSR bit0 + \arg DAC_LFSR_BITS1_0: unmask the LFSR bits[1:0] + \arg DAC_LFSR_BITS2_0: unmask the LFSR bits[2:0] + \arg DAC_LFSR_BITS3_0: unmask the LFSR bits[3:0] + \arg DAC_LFSR_BITS4_0: unmask the LFSR bits[4:0] + \arg DAC_LFSR_BITS5_0: unmask the LFSR bits[5:0] + \arg DAC_LFSR_BITS6_0: unmask the LFSR bits[6:0] + \arg DAC_LFSR_BITS7_0: unmask the LFSR bits[7:0] + \arg DAC_LFSR_BITS8_0: unmask the LFSR bits[8:0] + \arg DAC_LFSR_BITS9_0: unmask the LFSR bits[9:0] + \arg DAC_LFSR_BITS10_0: unmask the LFSR bits[10:0] + \arg DAC_LFSR_BITS11_0: unmask the LFSR bits[11:0] + \param[out] none + \retval none +*/ +void dac_lfsr_noise_config(uint32_t dac_periph, uint32_t unmask_bits) +{ + if(DAC0 == dac_periph){ + /* configure DAC0 LFSR noise mode */ + DAC_CTL &= ~DAC_CTL_DWBW0; + DAC_CTL |= unmask_bits; + }else{ + /* configure DAC1 LFSR noise mode */ + DAC_CTL &= ~DAC_CTL_DWBW1; + DAC_CTL |= (unmask_bits << DAC1_REG_OFFSET); + } +} + +/*! + \brief configure DAC triangle noise mode + \param[in] dac_periph: DACx(x = 0,1) + \param[in] amplitude: triangle amplitude in DAC triangle noise mode + only one parameter can be selected which is shown as below: + \arg DAC_TRIANGLE_AMPLITUDE_1: triangle amplitude is 1 + \arg DAC_TRIANGLE_AMPLITUDE_3: triangle amplitude is 3 + \arg DAC_TRIANGLE_AMPLITUDE_7: triangle amplitude is 7 + \arg DAC_TRIANGLE_AMPLITUDE_15: triangle amplitude is 15 + \arg DAC_TRIANGLE_AMPLITUDE_31: triangle amplitude is 31 + \arg DAC_TRIANGLE_AMPLITUDE_63: triangle amplitude is 63 + \arg DAC_TRIANGLE_AMPLITUDE_127: triangle amplitude is 127 + \arg DAC_TRIANGLE_AMPLITUDE_255: triangle amplitude is 255 + \arg DAC_TRIANGLE_AMPLITUDE_511: triangle amplitude is 511 + \arg DAC_TRIANGLE_AMPLITUDE_1023: triangle amplitude is 1023 + \arg DAC_TRIANGLE_AMPLITUDE_2047: triangle amplitude is 2047 + \arg DAC_TRIANGLE_AMPLITUDE_4095: triangle amplitude is 4095 + \param[out] none + \retval none +*/ +void dac_triangle_noise_config(uint32_t dac_periph, uint32_t amplitude) +{ + if(DAC0 == dac_periph){ + /* configure DAC0 triangle noise mode */ + DAC_CTL &= ~DAC_CTL_DWBW0; + DAC_CTL |= amplitude; + }else{ + /* configure DAC1 triangle noise mode */ + DAC_CTL &= ~DAC_CTL_DWBW1; + DAC_CTL |= (amplitude << DAC1_REG_OFFSET); + } +} + +/*! + \brief enable DAC concurrent mode + \param[in] none + \param[out] none + \retval none +*/ +void dac_concurrent_enable(void) +{ + uint32_t ctl = 0U; + ctl = DAC_CTL_DEN0 | DAC_CTL_DEN1; + DAC_CTL |= (ctl); +} + +/*! + \brief disable DAC concurrent mode + \param[in] none + \param[out] none + \retval none +*/ +void dac_concurrent_disable(void) +{ + uint32_t ctl = 0U; + ctl = DAC_CTL_DEN0 | DAC_CTL_DEN1; + DAC_CTL &= (~ctl); +} + +/*! + \brief enable DAC concurrent software trigger function + \param[in] none + \param[out] none + \retval none +*/ +void dac_concurrent_software_trigger_enable(void) +{ + uint32_t swt = 0U; + swt = DAC_SWT_SWTR0 | DAC_SWT_SWTR1; + DAC_SWT |= (swt); +} + +/*! + \brief disable DAC concurrent software trigger function + \param[in] none + \param[out] none + \retval none +*/ +void dac_concurrent_software_trigger_disable(void) +{ + uint32_t swt = 0U; + swt = DAC_SWT_SWTR0 | DAC_SWT_SWTR1; + DAC_SWT &= (~swt); +} + +/*! + \brief enable DAC concurrent buffer function + \param[in] none + \param[out] none + \retval none +*/ +void dac_concurrent_output_buffer_enable(void) +{ + uint32_t ctl = 0U; + ctl = DAC_CTL_DBOFF0 | DAC_CTL_DBOFF1; + DAC_CTL &= (~ctl); +} + +/*! + \brief disable DAC concurrent buffer function + \param[in] none + \param[out] none + \retval none +*/ +void dac_concurrent_output_buffer_disable(void) +{ + uint32_t ctl = 0U; + ctl = DAC_CTL_DBOFF0 | DAC_CTL_DBOFF1; + DAC_CTL |= (ctl); +} + +/*! + \brief set DAC concurrent mode data holding register value + \param[in] dac_align: data alignment + only one parameter can be selected which is shown as below: + \arg DAC_ALIGN_8B_R: data right 8b alignment + \arg DAC_ALIGN_12B_R: data right 12b alignment + \arg DAC_ALIGN_12B_L: data left 12b alignment + \param[in] data0: data to be loaded + \param[in] data1: data to be loaded + \param[out] none + \retval none +*/ +void dac_concurrent_data_set(uint32_t dac_align, uint16_t data0, uint16_t data1) +{ + uint32_t data = 0U; + switch(dac_align){ + /* data right 12b alignment */ + case DAC_ALIGN_12B_R: + data = ((uint32_t)data1 << DH_12BIT_OFFSET) | data0; + DACC_R12DH = data; + break; + /* data left 12b alignment */ + case DAC_ALIGN_12B_L: + data = ((uint32_t)data1 << DH_12BIT_OFFSET) | data0; + DACC_L12DH = data; + break; + /* data right 8b alignment */ + case DAC_ALIGN_8B_R: + data = ((uint32_t)data1 << DH_8BIT_OFFSET) | data0; + DACC_R8DH = data; + break; + default: + break; + } +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dbg.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dbg.c new file mode 100644 index 0000000000..242a50096c --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dbg.c @@ -0,0 +1,148 @@ +/*! + \file gd32f30x_dbg.c + \brief DBG driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_dbg.h" + +#define DBG_RESET_VAL 0x00000000U + +/*! + \brief deinitialize the DBG + \param[in] none + \param[out] none + \retval none +*/ +void dbg_deinit(void) +{ + DBG_CTL0 = DBG_RESET_VAL; +} + +/*! + \brief read DBG_ID code register + \param[in] none + \param[out] none + \retval DBG_ID code +*/ +uint32_t dbg_id_get(void) +{ + return DBG_ID; +} + +/*! + \brief enable low power behavior when the mcu is in debug mode + \param[in] dbg_low_power: + this parameter can be any combination of the following values: + \arg DBG_LOW_POWER_SLEEP: keep debugger connection during sleep mode + \arg DBG_LOW_POWER_DEEPSLEEP: keep debugger connection during deepsleep mode + \arg DBG_LOW_POWER_STANDBY: keep debugger connection during standby mode + \param[out] none + \retval none +*/ +void dbg_low_power_enable(uint32_t dbg_low_power) +{ + DBG_CTL0 |= dbg_low_power; +} + +/*! + \brief disable low power behavior when the mcu is in debug mode + \param[in] dbg_low_power: + this parameter can be any combination of the following values: + \arg DBG_LOW_POWER_SLEEP: donot keep debugger connection during sleep mode + \arg DBG_LOW_POWER_DEEPSLEEP: donot keep debugger connection during deepsleep mode + \arg DBG_LOW_POWER_STANDBY: donot keep debugger connection during standby mode + \param[out] none + \retval none +*/ +void dbg_low_power_disable(uint32_t dbg_low_power) +{ + DBG_CTL0 &= ~dbg_low_power; +} + +/*! + \brief enable peripheral behavior when the mcu is in debug mode + \param[in] dbg_periph: refer to dbg_periph_enum + only one parameter can be selected which is shown as below: + \arg DBG_FWDGT_HOLD : debug FWDGT kept when core is halted + \arg DBG_WWDGT_HOLD : debug WWDGT kept when core is halted + \arg DBG_CANx_HOLD (x=0,1,CAN1 is only available for CL series): hold CANx counter when core is halted + \arg DBG_I2Cx_HOLD (x=0,1): hold I2Cx smbus when core is halted + \arg DBG_TIMERx_HOLD (x=0,1,2,3,4,5,6,7,8,9,10,11,12,13,TIMER8..13 are not available for HD series): hold TIMERx counter when core is halted + \param[out] none + \retval none +*/ +void dbg_periph_enable(dbg_periph_enum dbg_periph) +{ + DBG_REG_VAL(dbg_periph) |= BIT(DBG_BIT_POS(dbg_periph)); +} + +/*! + \brief disable peripheral behavior when the mcu is in debug mode + \param[in] dbg_periph: refer to dbg_periph_enum + only one parameter can be selected which is shown as below: + \arg DBG_FWDGT_HOLD : debug FWDGT kept when core is halted + \arg DBG_WWDGT_HOLD : debug WWDGT kept when core is halted + \arg DBG_CANx_HOLD (x=0,1,CAN1 is only available for CL series): hold CAN0 counter when core is halted + \arg DBG_I2Cx_HOLD (x=0,1): hold I2Cx smbus when core is halted + \arg DBG_TIMERx_HOLD (x=0,1,2,3,4,5,6,7,8,9,10,11,12,13,TIMER8..13 are not available for HD series): hold TIMERx counter when core is halted + \param[out] none + \retval none +*/ +void dbg_periph_disable(dbg_periph_enum dbg_periph) +{ + DBG_REG_VAL(dbg_periph) &= ~BIT(DBG_BIT_POS(dbg_periph)); +} + +/*! + \brief enable trace pin assignment + \param[in] none + \param[out] none + \retval none +*/ +void dbg_trace_pin_enable(void) +{ + DBG_CTL0 |= DBG_CTL0_TRACE_IOEN; +} + +/*! + \brief disable trace pin assignment + \param[in] none + \param[out] none + \retval none +*/ +void dbg_trace_pin_disable(void) +{ + DBG_CTL0 &= ~DBG_CTL0_TRACE_IOEN; +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dma.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dma.c new file mode 100644 index 0000000000..683e8ea33d --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_dma.c @@ -0,0 +1,735 @@ +/*! + \file gd32f30x_dma.c + \brief DMA driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_dma.h" +#include + +#define DMA_WRONG_HANDLE while(1){} + +/* check whether peripheral matches channels or not */ +static ErrStatus dma_periph_and_channel_check(uint32_t dma_periph, dma_channel_enum channelx); + +/*! + \brief deinitialize DMA a channel registers + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel is deinitialized + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_deinit(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + /* disable DMA a channel */ + DMA_CHCTL(dma_periph, channelx) &= ~DMA_CHXCTL_CHEN; + /* reset DMA channel registers */ + DMA_CHCTL(dma_periph, channelx) = DMA_CHCTL_RESET_VALUE; + DMA_CHCNT(dma_periph, channelx) = DMA_CHCNT_RESET_VALUE; + DMA_CHPADDR(dma_periph, channelx) = DMA_CHPADDR_RESET_VALUE; + DMA_CHMADDR(dma_periph, channelx) = DMA_CHMADDR_RESET_VALUE; + DMA_INTC(dma_periph) |= DMA_FLAG_ADD(DMA_CHINTF_RESET_VALUE, channelx); +} + +/*! + \brief initialize the parameters of DMA struct with the default values + \param[in] init_struct: the initialization data needed to initialize DMA channel + \param[out] none + \retval none +*/ +void dma_struct_para_init(dma_parameter_struct* init_struct) +{ + if(NULL == init_struct){ + DMA_WRONG_HANDLE + } + + /* set the DMA struct with the default values */ + init_struct->periph_addr = 0U; + init_struct->periph_width = 0U; + init_struct->periph_inc = DMA_PERIPH_INCREASE_DISABLE; + init_struct->memory_addr = 0U; + init_struct->memory_width = 0U; + init_struct->memory_inc = DMA_MEMORY_INCREASE_DISABLE; + init_struct->number = 0U; + init_struct->direction = DMA_PERIPHERAL_TO_MEMORY; + init_struct->priority = DMA_PRIORITY_LOW; +} + +/*! + \brief initialize DMA channel + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel is initialized + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] init_struct: the data needed to initialize DMA channel + periph_addr: peripheral base address + periph_width: DMA_PERIPHERAL_WIDTH_8BIT, DMA_PERIPHERAL_WIDTH_16BIT, DMA_PERIPHERAL_WIDTH_32BIT + periph_inc: DMA_PERIPH_INCREASE_ENABLE, DMA_PERIPH_INCREASE_DISABLE + memory_addr: memory base address + memory_width: DMA_MEMORY_WIDTH_8BIT, DMA_MEMORY_WIDTH_16BIT, DMA_MEMORY_WIDTH_32BIT + memory_inc: DMA_MEMORY_INCREASE_ENABLE, DMA_MEMORY_INCREASE_DISABLE + direction: DMA_PERIPHERAL_TO_MEMORY, DMA_MEMORY_TO_PERIPHERAL + number: the number of remaining data to be transferred by the DMA + priority: DMA_PRIORITY_LOW, DMA_PRIORITY_MEDIUM, DMA_PRIORITY_HIGH, DMA_PRIORITY_ULTRA_HIGH + \param[out] none + \retval none +*/ +void dma_init(uint32_t dma_periph, dma_channel_enum channelx, dma_parameter_struct* init_struct) +{ + uint32_t ctl; + + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + /* configure peripheral base address */ + DMA_CHPADDR(dma_periph, channelx) = init_struct->periph_addr; + + /* configure memory base address */ + DMA_CHMADDR(dma_periph, channelx) = init_struct->memory_addr; + + /* configure the number of remaining data to be transferred */ + DMA_CHCNT(dma_periph, channelx) = (init_struct->number & DMA_CHANNEL_CNT_MASK); + + /* configure peripheral transfer width,memory transfer width and priority */ + ctl = DMA_CHCTL(dma_periph, channelx); + ctl &= ~(DMA_CHXCTL_PWIDTH | DMA_CHXCTL_MWIDTH | DMA_CHXCTL_PRIO); + ctl |= (init_struct->periph_width | init_struct->memory_width | init_struct->priority); + DMA_CHCTL(dma_periph, channelx) = ctl; + + /* configure peripheral increasing mode */ + if(DMA_PERIPH_INCREASE_ENABLE == init_struct->periph_inc){ + DMA_CHCTL(dma_periph, channelx) |= DMA_CHXCTL_PNAGA; + }else{ + DMA_CHCTL(dma_periph, channelx) &= ~DMA_CHXCTL_PNAGA; + } + + /* configure memory increasing mode */ + if(DMA_MEMORY_INCREASE_ENABLE == init_struct->memory_inc){ + DMA_CHCTL(dma_periph, channelx) |= DMA_CHXCTL_MNAGA; + }else{ + DMA_CHCTL(dma_periph, channelx) &= ~DMA_CHXCTL_MNAGA; + } + + /* configure the direction of data transfer */ + if(DMA_PERIPHERAL_TO_MEMORY == init_struct->direction){ + DMA_CHCTL(dma_periph, channelx) &= ~DMA_CHXCTL_DIR; + }else{ + DMA_CHCTL(dma_periph, channelx) |= DMA_CHXCTL_DIR; + } +} + +/*! + \brief enable DMA circulation mode + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_circulation_enable(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) |= DMA_CHXCTL_CMEN; +} + +/*! + \brief disable DMA circulation mode + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_circulation_disable(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) &= ~DMA_CHXCTL_CMEN; +} + +/*! + \brief enable memory to memory mode + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_memory_to_memory_enable(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) |= DMA_CHXCTL_M2M; +} + +/*! + \brief disable memory to memory mode + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_memory_to_memory_disable(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) &= ~DMA_CHXCTL_M2M; +} + +/*! + \brief enable DMA channel + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_channel_enable(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) |= DMA_CHXCTL_CHEN; +} + +/*! + \brief disable DMA channel + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_channel_disable(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) &= ~DMA_CHXCTL_CHEN; +} + +/*! + \brief set DMA peripheral base address + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel to set peripheral base address + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] address: peripheral base address + \param[out] none + \retval none +*/ +void dma_periph_address_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t address) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHPADDR(dma_periph, channelx) = address; +} + +/*! + \brief set DMA memory base address + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel to set memory base address + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] address: memory base address + \param[out] none + \retval none +*/ +void dma_memory_address_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t address) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHMADDR(dma_periph, channelx) = address; +} + +/*! + \brief set the number of remaining data to be transferred by the DMA + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel to set number + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] number: the number of remaining data to be transferred by the DMA + \param[out] none + \retval none +*/ +void dma_transfer_number_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t number) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCNT(dma_periph, channelx) = (number & DMA_CHANNEL_CNT_MASK); +} + +/*! + \brief get the number of remaining data to be transferred by the DMA + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel to set number + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval uint32_t: the number of remaining data to be transferred by the DMA +*/ +uint32_t dma_transfer_number_get(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + return (uint32_t)DMA_CHCNT(dma_periph, channelx); +} + +/*! + \brief configure priority level of DMA channel + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] priority: priority Level of this channel + only one parameter can be selected which is shown as below: + \arg DMA_PRIORITY_LOW: low priority + \arg DMA_PRIORITY_MEDIUM: medium priority + \arg DMA_PRIORITY_HIGH: high priority + \arg DMA_PRIORITY_ULTRA_HIGH: ultra high priority + \param[out] none + \retval none +*/ +void dma_priority_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t priority) +{ + uint32_t ctl; + + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + /* acquire DMA_CHxCTL register */ + ctl = DMA_CHCTL(dma_periph, channelx); + /* assign regiser */ + ctl &= ~DMA_CHXCTL_PRIO; + ctl |= priority; + DMA_CHCTL(dma_periph, channelx) = ctl; +} + +/*! + \brief configure transfer data size of memory + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] mwidth: transfer data width of memory + only one parameter can be selected which is shown as below: + \arg DMA_MEMORY_WIDTH_8BIT: transfer data width of memory is 8-bit + \arg DMA_MEMORY_WIDTH_16BIT: transfer data width of memory is 16-bit + \arg DMA_MEMORY_WIDTH_32BIT: transfer data width of memory is 32-bit + \param[out] none + \retval none +*/ +void dma_memory_width_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t mwidth) +{ + uint32_t ctl; + + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + /* acquire DMA_CHxCTL register */ + ctl = DMA_CHCTL(dma_periph, channelx); + /* assign regiser */ + ctl &= ~DMA_CHXCTL_MWIDTH; + ctl |= mwidth; + DMA_CHCTL(dma_periph, channelx) = ctl; +} + +/*! + \brief configure transfer data size of peripheral + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] pwidth: transfer data width of peripheral + only one parameter can be selected which is shown as below: + \arg DMA_PERIPHERAL_WIDTH_8BIT: transfer data width of peripheral is 8-bit + \arg DMA_PERIPHERAL_WIDTH_16BIT: transfer data width of peripheral is 16-bit + \arg DMA_PERIPHERAL_WIDTH_32BIT: transfer data width of peripheral is 32-bit + \param[out] none + \retval none +*/ +void dma_periph_width_config (uint32_t dma_periph, dma_channel_enum channelx, uint32_t pwidth) +{ + uint32_t ctl; + + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + /* acquire DMA_CHxCTL register */ + ctl = DMA_CHCTL(dma_periph, channelx); + /* assign regiser */ + ctl &= ~DMA_CHXCTL_PWIDTH; + ctl |= pwidth; + DMA_CHCTL(dma_periph, channelx) = ctl; +} + +/*! + \brief enable next address increasement algorithm of memory + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_memory_increase_enable(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) |= DMA_CHXCTL_MNAGA; +} + +/*! + \brief disable next address increasement algorithm of memory + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_memory_increase_disable(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) &= ~DMA_CHXCTL_MNAGA; +} + +/*! + \brief enable next address increasement algorithm of peripheral + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_periph_increase_enable(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) |= DMA_CHXCTL_PNAGA; +} + +/*! + \brief disable next address increasement algorithm of peripheral + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[out] none + \retval none +*/ +void dma_periph_increase_disable(uint32_t dma_periph, dma_channel_enum channelx) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) &= ~DMA_CHXCTL_PNAGA; +} + +/*! + \brief configure the direction of data transfer on the channel + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] direction: specify the direction of data transfer + only one parameter can be selected which is shown as below: + \arg DMA_PERIPHERAL_TO_MEMORY: read from peripheral and write to memory + \arg DMA_MEMORY_TO_PERIPHERAL: read from memory and write to peripheral + \param[out] none + \retval none +*/ +void dma_transfer_direction_config(uint32_t dma_periph, dma_channel_enum channelx, uint32_t direction) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + if(DMA_PERIPHERAL_TO_MEMORY == direction){ + DMA_CHCTL(dma_periph, channelx) &= ~DMA_CHXCTL_DIR; + } else { + DMA_CHCTL(dma_periph, channelx) |= DMA_CHXCTL_DIR; + } +} + +/*! + \brief check DMA flag is set or not + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel to get flag + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] flag: specify get which flag + only one parameter can be selected which is shown as below: + \arg DMA_FLAG_G: global interrupt flag of channel + \arg DMA_FLAG_FTF: full transfer finish flag of channel + \arg DMA_FLAG_HTF: half transfer finish flag of channel + \arg DMA_FLAG_ERR: error flag of channel + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus dma_flag_get(uint32_t dma_periph, dma_channel_enum channelx, uint32_t flag) +{ + FlagStatus reval; + + if(RESET != (DMA_INTF(dma_periph) & DMA_FLAG_ADD(flag, channelx))){ + reval = SET; + }else{ + reval = RESET; + } + + return reval; +} + +/*! + \brief clear DMA a channel flag + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel to clear flag + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] flag: specify get which flag + only one parameter can be selected which is shown as below: + \arg DMA_FLAG_G: global interrupt flag of channel + \arg DMA_FLAG_FTF: full transfer finish flag of channel + \arg DMA_FLAG_HTF: half transfer finish flag of channel + \arg DMA_FLAG_ERR: error flag of channel + \param[out] none + \retval none +*/ +void dma_flag_clear(uint32_t dma_periph, dma_channel_enum channelx, uint32_t flag) +{ + DMA_INTC(dma_periph) |= DMA_FLAG_ADD(flag, channelx); +} + +/*! + \brief check DMA flag and interrupt enable bit is set or not + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel to get flag + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] flag: specify get which flag + only one parameter can be selected which is shown as below: + \arg DMA_INT_FLAG_FTF: full transfer finish interrupt flag of channel + \arg DMA_INT_FLAG_HTF: half transfer finish interrupt flag of channel + \arg DMA_INT_FLAG_ERR: error interrupt flag of channel + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus dma_interrupt_flag_get(uint32_t dma_periph, dma_channel_enum channelx, uint32_t flag) +{ + uint32_t interrupt_enable = 0U, interrupt_flag = 0U; + + switch(flag){ + case DMA_INT_FLAG_FTF: + interrupt_flag = DMA_INTF(dma_periph) & DMA_FLAG_ADD(flag, channelx); + interrupt_enable = DMA_CHCTL(dma_periph, channelx) & DMA_CHXCTL_FTFIE; + break; + case DMA_INT_FLAG_HTF: + interrupt_flag = DMA_INTF(dma_periph) & DMA_FLAG_ADD(flag, channelx); + interrupt_enable = DMA_CHCTL(dma_periph, channelx) & DMA_CHXCTL_HTFIE; + break; + case DMA_INT_FLAG_ERR: + interrupt_flag = DMA_INTF(dma_periph) & DMA_FLAG_ADD(flag, channelx); + interrupt_enable = DMA_CHCTL(dma_periph, channelx) & DMA_CHXCTL_ERRIE; + break; + default: + DMA_WRONG_HANDLE + } + + if(interrupt_flag && interrupt_enable){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear DMA a channel flag + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel to clear flag + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] flag: specify get which flag + only one parameter can be selected which is shown as below: + \arg DMA_INT_FLAG_G: global interrupt flag of channel + \arg DMA_INT_FLAG_FTF: full transfer finish interrupt flag of channel + \arg DMA_INT_FLAG_HTF: half transfer finish interrupt flag of channel + \arg DMA_INT_FLAG_ERR: error interrupt flag of channel + \param[out] none + \retval none +*/ +void dma_interrupt_flag_clear(uint32_t dma_periph, dma_channel_enum channelx, uint32_t flag) +{ + DMA_INTC(dma_periph) |= DMA_FLAG_ADD(flag, channelx); +} + +/*! + \brief enable DMA interrupt + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] source: specify which interrupt to enbale + one or more parameters can be selected which are shown as below + \arg DMA_INT_FTF: channel full transfer finish interrupt + \arg DMA_INT_HTF: channel half transfer finish interrupt + \arg DMA_INT_ERR: channel error interrupt + \param[out] none + \retval none +*/ +void dma_interrupt_enable(uint32_t dma_periph, dma_channel_enum channelx, uint32_t source) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) |= source; +} + +/*! + \brief disable DMA interrupt + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA0: DMA_CHx(x=0..6), DMA1: DMA_CHx(x=0..4) + \param[in] source: specify which interrupt to disbale + one or more parameters can be selected which are shown as below + \arg DMA_INT_FTF: channel full transfer finish interrupt + \arg DMA_INT_HTF: channel half transfer finish interrupt + \arg DMA_INT_ERR: channel error interrupt + \param[out] none + \retval none +*/ +void dma_interrupt_disable(uint32_t dma_periph, dma_channel_enum channelx, uint32_t source) +{ + if(ERROR == dma_periph_and_channel_check(dma_periph, channelx)){ + DMA_WRONG_HANDLE + } + + DMA_CHCTL(dma_periph, channelx) &= ~source; +} + +/*! + \brief check whether peripheral and channels match + \param[in] dma_periph: DMAx(x=0,1) + \arg DMAx(x=0,1) + \param[in] channelx: specify which DMA channel + only one parameter can be selected which is shown as below: + \arg DMA_CHx(x=0..6) + \param[out] none + \retval none +*/ +static ErrStatus dma_periph_and_channel_check(uint32_t dma_periph, dma_channel_enum channelx) +{ + ErrStatus val = SUCCESS; + + if(DMA1 == dma_periph){ + /* for DMA1, the channel is from DMA_CH0 to DMA_CH4 */ + if(channelx > DMA_CH4){ + val = ERROR; + } + } + + return val; +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_enet.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_enet.c new file mode 100644 index 0000000000..7841254db9 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_enet.c @@ -0,0 +1,3680 @@ +/*! + \file gd32f30x_enet.c + \brief ENET driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-04-02, V2.0.1, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_enet.h" +#include + +#ifdef GD32F30X_CL + +#if defined (__CC_ARM) /*!< ARM compiler */ +__align(4) +enet_descriptors_struct rxdesc_tab[ENET_RXBUF_NUM]; /*!< ENET RxDMA descriptor */ +__align(4) +enet_descriptors_struct txdesc_tab[ENET_TXBUF_NUM]; /*!< ENET TxDMA descriptor */ +__align(4) +uint8_t rx_buff[ENET_RXBUF_NUM][ENET_RXBUF_SIZE]; /*!< ENET receive buffer */ +__align(4) +uint8_t tx_buff[ENET_TXBUF_NUM][ENET_TXBUF_SIZE]; /*!< ENET transmit buffer */ + +#elif defined ( __ICCARM__ ) /*!< IAR compiler */ +#pragma data_alignment=4 +enet_descriptors_struct rxdesc_tab[ENET_RXBUF_NUM]; /*!< ENET RxDMA descriptor */ +#pragma data_alignment=4 +enet_descriptors_struct txdesc_tab[ENET_TXBUF_NUM]; /*!< ENET TxDMA descriptor */ +#pragma data_alignment=4 +uint8_t rx_buff[ENET_RXBUF_NUM][ENET_RXBUF_SIZE]; /*!< ENET receive buffer */ +#pragma data_alignment=4 +uint8_t tx_buff[ENET_TXBUF_NUM][ENET_TXBUF_SIZE]; /*!< ENET transmit buffer */ + +#elif defined (__GNUC__) /* GNU Compiler */ +enet_descriptors_struct rxdesc_tab[ENET_RXBUF_NUM] __attribute__ ((aligned (4))); /*!< ENET RxDMA descriptor */ +enet_descriptors_struct txdesc_tab[ENET_TXBUF_NUM] __attribute__ ((aligned (4))); /*!< ENET TxDMA descriptor */ +uint8_t rx_buff[ENET_RXBUF_NUM][ENET_RXBUF_SIZE] __attribute__ ((aligned (4))); /*!< ENET receive buffer */ +uint8_t tx_buff[ENET_TXBUF_NUM][ENET_TXBUF_SIZE] __attribute__ ((aligned (4))); /*!< ENET transmit buffer */ + +#endif /* __CC_ARM */ + +/* global transmit and receive descriptors pointers */ +enet_descriptors_struct *dma_current_txdesc; +enet_descriptors_struct *dma_current_rxdesc; + +/* structure pointer of ptp descriptor for normal mode */ +enet_descriptors_struct *dma_current_ptp_txdesc = NULL; +enet_descriptors_struct *dma_current_ptp_rxdesc = NULL; + +/* init structure parameters for ENET initialization */ +static enet_initpara_struct enet_initpara ={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; + +static uint32_t enet_unknow_err = 0U; +/* array of register offset for debug information get */ +static const uint16_t enet_reg_tab[] = { +0x0000, 0x0004, 0x0008, 0x000C, 0x0010, 0x0014, 0x0018, 0x001C, 0x0028, 0x002C, 0x0034, +0x0038, 0x003C, 0x0040, 0x0044, 0x0048, 0x004C, 0x0050, 0x0054, 0x0058, 0x005C, 0x1080, + +0x0100, 0x0104, 0x0108, 0x010C, 0x0110, 0x014C, 0x0150, 0x0168, 0x0194, 0x0198, 0x01C4, + +0x0700, 0x0704,0x0708, 0x070C, 0x0710, 0x0714, 0x0718, 0x071C, 0x0720, 0x0728, 0x072C, + +0x1000, 0x1004, 0x1008, 0x100C, 0x1010, 0x1014, 0x1018, 0x101C, 0x1020, 0x1024, 0x1048, +0x104C, 0x1050, 0x1054}; + +/* initialize ENET peripheral with generally concerned parameters, call it by enet_init() */ +static void enet_default_init(void); + +#ifndef USE_DELAY +/* insert a delay time */ +static void enet_delay(uint32_t ncount); +#endif /* USE_DELAY */ + +/*! + \brief deinitialize the ENET, and reset structure parameters for ENET initialization + \param[in] none + \param[out] none + \retval none +*/ +void enet_deinit(void) +{ + rcu_periph_reset_enable(RCU_ENETRST); + rcu_periph_reset_disable(RCU_ENETRST); + enet_initpara_reset(); +} + +/*! + \brief configure the parameters which are usually less cared for initialization + note -- this function must be called before enet_init(), otherwise + configuration will be no effect + \param[in] option: different function option, which is related to several parameters, + only one parameter can be selected which is shown as below, refer to enet_option_enum + \arg FORWARD_OPTION: choose to configure the frame forward related parameters + \arg DMABUS_OPTION: choose to configure the DMA bus mode related parameters + \arg DMA_MAXBURST_OPTION: choose to configure the DMA max burst related parameters + \arg DMA_ARBITRATION_OPTION: choose to configure the DMA arbitration related parameters + \arg STORE_OPTION: choose to configure the store forward mode related parameters + \arg DMA_OPTION: choose to configure the DMA descriptor related parameters + \arg VLAN_OPTION: choose to configure vlan related parameters + \arg FLOWCTL_OPTION: choose to configure flow control related parameters + \arg HASHH_OPTION: choose to configure hash high + \arg HASHL_OPTION: choose to configure hash low + \arg FILTER_OPTION: choose to configure frame filter related parameters + \arg HALFDUPLEX_OPTION: choose to configure halfduplex mode related parameters + \arg TIMER_OPTION: choose to configure time counter related parameters + \arg INTERFRAMEGAP_OPTION: choose to configure the inter frame gap related parameters + \param[in] para: the related parameters according to the option + all the related parameters should be configured which are shown as below + FORWARD_OPTION related parameters: + - ENET_AUTO_PADCRC_DROP_ENABLE/ ENET_AUTO_PADCRC_DROP_DISABLE ; + - ENET_TYPEFRAME_CRC_DROP_ENABLE/ ENET_TYPEFRAME_CRC_DROP_DISABLE ; + - ENET_FORWARD_ERRFRAMES_ENABLE/ ENET_FORWARD_ERRFRAMES_DISABLE ; + - ENET_FORWARD_UNDERSZ_GOODFRAMES_ENABLE/ ENET_FORWARD_UNDERSZ_GOODFRAMES_DISABLE . + DMABUS_OPTION related parameters: + - ENET_ADDRESS_ALIGN_ENABLE/ ENET_ADDRESS_ALIGN_DISABLE ; + - ENET_FIXED_BURST_ENABLE/ ENET_FIXED_BURST_DISABLE ; + - ENET_MIXED_BURST_ENABLE/ ENET_MIXED_BURST_DISABLE ; + DMA_MAXBURST_OPTION related parameters: + - ENET_RXDP_1BEAT/ ENET_RXDP_2BEAT/ ENET_RXDP_4BEAT/ + ENET_RXDP_8BEAT/ ENET_RXDP_16BEAT/ ENET_RXDP_32BEAT/ + ENET_RXDP_4xPGBL_4BEAT/ ENET_RXDP_4xPGBL_8BEAT/ + ENET_RXDP_4xPGBL_16BEAT/ ENET_RXDP_4xPGBL_32BEAT/ + ENET_RXDP_4xPGBL_64BEAT/ ENET_RXDP_4xPGBL_128BEAT ; + - ENET_PGBL_1BEAT/ ENET_PGBL_2BEAT/ ENET_PGBL_4BEAT/ + ENET_PGBL_8BEAT/ ENET_PGBL_16BEAT/ ENET_PGBL_32BEAT/ + ENET_PGBL_4xPGBL_4BEAT/ ENET_PGBL_4xPGBL_8BEAT/ + ENET_PGBL_4xPGBL_16BEAT/ ENET_PGBL_4xPGBL_32BEAT/ + ENET_PGBL_4xPGBL_64BEAT/ ENET_PGBL_4xPGBL_128BEAT ; + - ENET_RXTX_DIFFERENT_PGBL/ ENET_RXTX_SAME_PGBL ; + DMA_ARBITRATION_OPTION related parameters: + - ENET_ARBITRATION_RXPRIORTX + - ENET_ARBITRATION_RXTX_1_1/ ENET_ARBITRATION_RXTX_2_1/ + ENET_ARBITRATION_RXTX_3_1/ ENET_ARBITRATION_RXTX_4_1/. + STORE_OPTION related parameters: + - ENET_RX_MODE_STOREFORWARD/ ENET_RX_MODE_CUTTHROUGH ; + - ENET_TX_MODE_STOREFORWARD/ ENET_TX_MODE_CUTTHROUGH ; + - ENET_RX_THRESHOLD_64BYTES/ ENET_RX_THRESHOLD_32BYTES/ + ENET_RX_THRESHOLD_96BYTES/ ENET_RX_THRESHOLD_128BYTES ; + - ENET_TX_THRESHOLD_64BYTES/ ENET_TX_THRESHOLD_128BYTES/ + ENET_TX_THRESHOLD_192BYTES/ ENET_TX_THRESHOLD_256BYTES/ + ENET_TX_THRESHOLD_40BYTES/ ENET_TX_THRESHOLD_32BYTES/ + ENET_TX_THRESHOLD_24BYTES/ ENET_TX_THRESHOLD_16BYTES . + DMA_OPTION related parameters: + - ENET_FLUSH_RXFRAME_ENABLE/ ENET_FLUSH_RXFRAME_DISABLE ; + - ENET_SECONDFRAME_OPT_ENABLE/ ENET_SECONDFRAME_OPT_DISABLE ; + - ENET_ENHANCED_DESCRIPTOR/ ENET_NORMAL_DESCRIPTOR . + VLAN_OPTION related parameters: + - ENET_VLANTAGCOMPARISON_12BIT/ ENET_VLANTAGCOMPARISON_16BIT ; + - MAC_VLT_VLTI(regval) . + FLOWCTL_OPTION related parameters: + - MAC_FCTL_PTM(regval) ; + - ENET_ZERO_QUANTA_PAUSE_ENABLE/ ENET_ZERO_QUANTA_PAUSE_DISABLE ; + - ENET_PAUSETIME_MINUS4/ ENET_PAUSETIME_MINUS28/ + ENET_PAUSETIME_MINUS144/ENET_PAUSETIME_MINUS256 ; + - ENET_MAC0_AND_UNIQUE_ADDRESS_PAUSEDETECT/ ENET_UNIQUE_PAUSEDETECT ; + - ENET_RX_FLOWCONTROL_ENABLE/ ENET_RX_FLOWCONTROL_DISABLE ; + - ENET_TX_FLOWCONTROL_ENABLE/ ENET_TX_FLOWCONTROL_DISABLE ; + - ENET_ACTIVE_THRESHOLD_256BYTES/ ENET_ACTIVE_THRESHOLD_512BYTES ; + - ENET_ACTIVE_THRESHOLD_768BYTES/ ENET_ACTIVE_THRESHOLD_1024BYTES ; + - ENET_ACTIVE_THRESHOLD_1280BYTES/ ENET_ACTIVE_THRESHOLD_1536BYTES ; + - ENET_ACTIVE_THRESHOLD_1792BYTES ; + - ENET_DEACTIVE_THRESHOLD_256BYTES/ ENET_DEACTIVE_THRESHOLD_512BYTES ; + - ENET_DEACTIVE_THRESHOLD_768BYTES/ ENET_DEACTIVE_THRESHOLD_1024BYTES ; + - ENET_DEACTIVE_THRESHOLD_1280BYTES/ ENET_DEACTIVE_THRESHOLD_1536BYTES ; + - ENET_DEACTIVE_THRESHOLD_1792BYTES . + HASHH_OPTION related parameters: + - 0x0~0xFFFF FFFFU + HASHL_OPTION related parameters: + - 0x0~0xFFFF FFFFU + FILTER_OPTION related parameters: + - ENET_SRC_FILTER_NORMAL_ENABLE/ ENET_SRC_FILTER_INVERSE_ENABLE/ + ENET_SRC_FILTER_DISABLE ; + - ENET_DEST_FILTER_INVERSE_ENABLE/ ENET_DEST_FILTER_INVERSE_DISABLE ; + - ENET_MULTICAST_FILTER_HASH_OR_PERFECT/ ENET_MULTICAST_FILTER_HASH/ + ENET_MULTICAST_FILTER_PERFECT/ ENET_MULTICAST_FILTER_NONE ; + - ENET_UNICAST_FILTER_EITHER/ ENET_UNICAST_FILTER_HASH/ + ENET_UNICAST_FILTER_PERFECT ; + - ENET_PCFRM_PREVENT_ALL/ ENET_PCFRM_PREVENT_PAUSEFRAME/ + ENET_PCFRM_FORWARD_ALL/ ENET_PCFRM_FORWARD_FILTERED . + HALFDUPLEX_OPTION related parameters: + - ENET_CARRIERSENSE_ENABLE/ ENET_CARRIERSENSE_DISABLE ; + - ENET_RECEIVEOWN_ENABLE/ ENET_RECEIVEOWN_DISABLE ; + - ENET_RETRYTRANSMISSION_ENABLE/ ENET_RETRYTRANSMISSION_DISABLE ; + - ENET_BACKOFFLIMIT_10/ ENET_BACKOFFLIMIT_8/ + ENET_BACKOFFLIMIT_4/ ENET_BACKOFFLIMIT_1 ; + - ENET_DEFERRALCHECK_ENABLE/ ENET_DEFERRALCHECK_DISABLE . + TIMER_OPTION related parameters: + - ENET_WATCHDOG_ENABLE/ ENET_WATCHDOG_DISABLE ; + - ENET_JABBER_ENABLE/ ENET_JABBER_DISABLE ; + INTERFRAMEGAP_OPTION related parameters: + - ENET_INTERFRAMEGAP_96BIT/ ENET_INTERFRAMEGAP_88BIT/ + ENET_INTERFRAMEGAP_80BIT/ ENET_INTERFRAMEGAP_72BIT/ + ENET_INTERFRAMEGAP_64BIT/ ENET_INTERFRAMEGAP_56BIT/ + ENET_INTERFRAMEGAP_48BIT/ ENET_INTERFRAMEGAP_40BIT . + \param[out] none + \retval none +*/ +void enet_initpara_config(enet_option_enum option, uint32_t para) +{ + switch(option){ + case FORWARD_OPTION: + /* choose to configure forward_frame, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)FORWARD_OPTION; + enet_initpara.forward_frame = para; + break; + case DMABUS_OPTION: + /* choose to configure dmabus_mode, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)DMABUS_OPTION; + enet_initpara.dmabus_mode = para; + break; + case DMA_MAXBURST_OPTION: + /* choose to configure dma_maxburst, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)DMA_MAXBURST_OPTION; + enet_initpara.dma_maxburst = para; + break; + case DMA_ARBITRATION_OPTION: + /* choose to configure dma_arbitration, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)DMA_ARBITRATION_OPTION; + enet_initpara.dma_arbitration = para; + break; + case STORE_OPTION: + /* choose to configure store_forward_mode, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)STORE_OPTION; + enet_initpara.store_forward_mode = para; + break; + case DMA_OPTION: + /* choose to configure dma_function, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)DMA_OPTION; + +#ifndef SELECT_DESCRIPTORS_ENHANCED_MODE + para &= ~ENET_ENHANCED_DESCRIPTOR; +#endif /* SELECT_DESCRIPTORS_ENHANCED_MODE */ + + enet_initpara.dma_function = para; + break; + case VLAN_OPTION: + /* choose to configure vlan_config, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)VLAN_OPTION; + enet_initpara.vlan_config = para; + break; + case FLOWCTL_OPTION: + /* choose to configure flow_control, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)FLOWCTL_OPTION; + enet_initpara.flow_control = para; + break; + case HASHH_OPTION: + /* choose to configure hashtable_high, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)HASHH_OPTION; + enet_initpara.hashtable_high = para; + break; + case HASHL_OPTION: + /* choose to configure hashtable_low, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)HASHL_OPTION; + enet_initpara.hashtable_low = para; + break; + case FILTER_OPTION: + /* choose to configure framesfilter_mode, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)FILTER_OPTION; + enet_initpara.framesfilter_mode = para; + break; + case HALFDUPLEX_OPTION: + /* choose to configure halfduplex_param, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)HALFDUPLEX_OPTION; + enet_initpara.halfduplex_param = para; + break; + case TIMER_OPTION: + /* choose to configure timer_config, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)TIMER_OPTION; + enet_initpara.timer_config = para; + break; + case INTERFRAMEGAP_OPTION: + /* choose to configure interframegap, and save the configuration parameters */ + enet_initpara.option_enable |= (uint32_t)INTERFRAMEGAP_OPTION; + enet_initpara.interframegap = para; + break; + default: + break; + } +} + +/*! + \brief initialize ENET peripheral with generally concerned parameters and the less cared + parameters + \param[in] mediamode: PHY mode and mac loopback configurations, only one parameter can be selected + which is shown as below, refer to enet_mediamode_enum + \arg ENET_AUTO_NEGOTIATION: PHY auto negotiation + \arg ENET_100M_FULLDUPLEX: 100Mbit/s, full-duplex + \arg ENET_100M_HALFDUPLEX: 100Mbit/s, half-duplex + \arg ENET_10M_FULLDUPLEX: 10Mbit/s, full-duplex + \arg ENET_10M_HALFDUPLEX: 10Mbit/s, half-duplex + \arg ENET_LOOPBACKMODE: MAC in loopback mode at the MII + \param[in] checksum: IP frame checksum offload function, only one parameter can be selected + which is shown as below, refer to enet_mediamode_enum + \arg ENET_NO_AUTOCHECKSUM: disable IP frame checksum function + \arg ENET_AUTOCHECKSUM_DROP_FAILFRAMES: enable IP frame checksum function + \arg ENET_AUTOCHECKSUM_ACCEPT_FAILFRAMES: enable IP frame checksum function, and the received frame + with only payload error but no other errors will not be dropped + \param[in] recept: frame filter function, only one parameter can be selected + which is shown as below, refer to enet_frmrecept_enum + \arg ENET_PROMISCUOUS_MODE: promiscuous mode enabled + \arg ENET_RECEIVEALL: all received frame are forwarded to application + \arg ENET_BROADCAST_FRAMES_PASS: the address filters pass all received broadcast frames + \arg ENET_BROADCAST_FRAMES_DROP: the address filters filter all incoming broadcast frames + \param[out] none + \retval ErrStatus: ERROR or SUCCESS +*/ +ErrStatus enet_init(enet_mediamode_enum mediamode, enet_chksumconf_enum checksum, enet_frmrecept_enum recept) +{ + uint32_t reg_value=0U, reg_temp = 0U, temp = 0U; + uint32_t media_temp = 0U; + uint32_t timeout = 0U; + uint16_t phy_value = 0U; + ErrStatus phy_state= ERROR, enet_state = ERROR; + + /* PHY interface configuration, configure SMI clock and reset PHY chip */ + if(ERROR == enet_phy_config()){ + _ENET_DELAY_(PHY_RESETDELAY); + if(ERROR == enet_phy_config()){ + return enet_state; + } + } + /* initialize ENET peripheral with generally concerned parameters */ + enet_default_init(); + + /* 1st, configure mediamode */ + media_temp = (uint32_t)mediamode; + /* if is PHY auto negotiation */ + if((uint32_t)ENET_AUTO_NEGOTIATION == media_temp){ + /* wait for PHY_LINKED_STATUS bit be set */ + do{ + enet_phy_write_read(ENET_PHY_READ, PHY_ADDRESS, PHY_REG_BSR, &phy_value); + phy_value &= PHY_LINKED_STATUS; + timeout++; + }while((RESET == phy_value) && (timeout < PHY_READ_TO)); + /* return ERROR due to timeout */ + if(PHY_READ_TO == timeout){ + return enet_state; + } + /* reset timeout counter */ + timeout = 0U; + + /* enable auto-negotiation */ + phy_value = PHY_AUTONEGOTIATION; + phy_state = enet_phy_write_read(ENET_PHY_WRITE, PHY_ADDRESS, PHY_REG_BCR, &phy_value); + if(!phy_state){ + /* return ERROR due to write timeout */ + return enet_state; + } + + /* wait for the PHY_AUTONEGO_COMPLETE bit be set */ + do{ + enet_phy_write_read(ENET_PHY_READ, PHY_ADDRESS, PHY_REG_BSR, &phy_value); + phy_value &= PHY_AUTONEGO_COMPLETE; + timeout++; + }while((RESET == phy_value) && (timeout < (uint32_t)PHY_READ_TO)); + /* return ERROR due to timeout */ + if(PHY_READ_TO == timeout){ + return enet_state; + } + /* reset timeout counter */ + timeout = 0U; + + /* read the result of the auto-negotiation */ + enet_phy_write_read(ENET_PHY_READ, PHY_ADDRESS, PHY_SR, &phy_value); + /* configure the duplex mode of MAC following the auto-negotiation result */ + if((uint16_t)RESET != (phy_value & PHY_DUPLEX_STATUS)){ + media_temp = ENET_MODE_FULLDUPLEX; + }else{ + media_temp = ENET_MODE_HALFDUPLEX; + } + /* configure the communication speed of MAC following the auto-negotiation result */ + if((uint16_t)RESET !=(phy_value & PHY_SPEED_STATUS)){ + media_temp |= ENET_SPEEDMODE_10M; + }else{ + media_temp |= ENET_SPEEDMODE_100M; + } + }else{ + phy_value = (uint16_t)((media_temp & ENET_MAC_CFG_DPM) >> 3); + phy_value |= (uint16_t)((media_temp & ENET_MAC_CFG_SPD) >> 1); + phy_state = enet_phy_write_read(ENET_PHY_WRITE, PHY_ADDRESS, PHY_REG_BCR, &phy_value); + if(!phy_state){ + /* return ERROR due to write timeout */ + return enet_state; + } + /* PHY configuration need some time */ + _ENET_DELAY_(PHY_CONFIGDELAY); + } + /* after configuring the PHY, use mediamode to configure registers */ + reg_value = ENET_MAC_CFG; + /* configure ENET_MAC_CFG register */ + reg_value &= (~(ENET_MAC_CFG_SPD |ENET_MAC_CFG_DPM |ENET_MAC_CFG_LBM)); + reg_value |= media_temp; + ENET_MAC_CFG = reg_value; + + /* 2st, configure checksum */ + if(RESET != ((uint32_t)checksum & ENET_CHECKSUMOFFLOAD_ENABLE)){ + ENET_MAC_CFG |= ENET_CHECKSUMOFFLOAD_ENABLE; + + reg_value = ENET_DMA_CTL; + /* configure ENET_DMA_CTL register */ + reg_value &= ~ENET_DMA_CTL_DTCERFD; + reg_value |= ((uint32_t)checksum & ENET_DMA_CTL_DTCERFD); + ENET_DMA_CTL = reg_value; + } + + /* 3rd, configure recept */ + ENET_MAC_FRMF |= (uint32_t)recept; + + /* 4th, configure different function options */ + /* configure forward_frame related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)FORWARD_OPTION)){ + reg_temp = enet_initpara.forward_frame; + + reg_value = ENET_MAC_CFG; + temp = reg_temp; + /* configure ENET_MAC_CFG register */ + reg_value &= (~(ENET_MAC_CFG_TFCD |ENET_MAC_CFG_APCD)); + temp &= (ENET_MAC_CFG_TFCD | ENET_MAC_CFG_APCD); + reg_value |= temp; + ENET_MAC_CFG = reg_value; + + reg_value = ENET_DMA_CTL; + temp = reg_temp; + /* configure ENET_DMA_CTL register */ + reg_value &= (~(ENET_DMA_CTL_FERF |ENET_DMA_CTL_FUF)); + temp &= ((ENET_DMA_CTL_FERF | ENET_DMA_CTL_FUF)<<2); + reg_value |= (temp >> 2); + ENET_DMA_CTL = reg_value; + } + + /* configure dmabus_mode related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)DMABUS_OPTION)){ + temp = enet_initpara.dmabus_mode; + + reg_value = ENET_DMA_BCTL; + /* configure ENET_DMA_BCTL register */ + reg_value &= ~(ENET_DMA_BCTL_AA | ENET_DMA_BCTL_FB \ + |ENET_DMA_BCTL_FPBL | ENET_DMA_BCTL_MB); + reg_value |= temp; + ENET_DMA_BCTL = reg_value; + } + + /* configure dma_maxburst related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)DMA_MAXBURST_OPTION)){ + temp = enet_initpara.dma_maxburst; + + reg_value = ENET_DMA_BCTL; + /* configure ENET_DMA_BCTL register */ + reg_value &= ~(ENET_DMA_BCTL_RXDP| ENET_DMA_BCTL_PGBL | ENET_DMA_BCTL_UIP); + reg_value |= temp; + ENET_DMA_BCTL = reg_value; + } + + /* configure dma_arbitration related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)DMA_ARBITRATION_OPTION)){ + temp = enet_initpara.dma_arbitration; + + reg_value = ENET_DMA_BCTL; + /* configure ENET_DMA_BCTL register */ + reg_value &= ~(ENET_DMA_BCTL_RTPR | ENET_DMA_BCTL_DAB); + reg_value |= temp; + ENET_DMA_BCTL = reg_value; + } + + /* configure store_forward_mode related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)STORE_OPTION)){ + temp = enet_initpara.store_forward_mode; + + reg_value = ENET_DMA_CTL; + /* configure ENET_DMA_CTL register */ + reg_value &= ~(ENET_DMA_CTL_RSFD | ENET_DMA_CTL_TSFD| ENET_DMA_CTL_RTHC| ENET_DMA_CTL_TTHC); + reg_value |= temp; + ENET_DMA_CTL = reg_value; + } + + /* configure dma_function related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)DMA_OPTION)){ + reg_temp = enet_initpara.dma_function; + + reg_value = ENET_DMA_CTL; + temp = reg_temp; + /* configure ENET_DMA_CTL register */ + reg_value &= (~(ENET_DMA_CTL_DAFRF |ENET_DMA_CTL_OSF)); + temp &= (ENET_DMA_CTL_DAFRF | ENET_DMA_CTL_OSF); + reg_value |= temp; + ENET_DMA_CTL = reg_value; + + reg_value = ENET_DMA_BCTL; + temp = reg_temp; + /* configure ENET_DMA_BCTL register */ + reg_value &= (~ENET_DMA_BCTL_DFM); + temp &= ENET_DMA_BCTL_DFM; + reg_value |= temp; + ENET_DMA_BCTL = reg_value; + } + + /* configure vlan_config related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)VLAN_OPTION)){ + reg_temp = enet_initpara.vlan_config; + + reg_value = ENET_MAC_VLT; + /* configure ENET_MAC_VLT register */ + reg_value &= ~(ENET_MAC_VLT_VLTI | ENET_MAC_VLT_VLTC); + reg_value |= reg_temp; + ENET_MAC_VLT = reg_value; + } + + /* configure flow_control related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)FLOWCTL_OPTION)){ + reg_temp = enet_initpara.flow_control; + + reg_value = ENET_MAC_FCTL; + temp = reg_temp; + /* configure ENET_MAC_FCTL register */ + reg_value &= ~(ENET_MAC_FCTL_PTM |ENET_MAC_FCTL_DZQP |ENET_MAC_FCTL_PLTS \ + | ENET_MAC_FCTL_UPFDT |ENET_MAC_FCTL_RFCEN |ENET_MAC_FCTL_TFCEN); + temp &= (ENET_MAC_FCTL_PTM |ENET_MAC_FCTL_DZQP |ENET_MAC_FCTL_PLTS \ + | ENET_MAC_FCTL_UPFDT |ENET_MAC_FCTL_RFCEN |ENET_MAC_FCTL_TFCEN); + reg_value |= temp; + ENET_MAC_FCTL = reg_value; + + reg_value = ENET_MAC_FCTH; + temp = reg_temp; + /* configure ENET_MAC_FCTH register */ + reg_value &= ~(ENET_MAC_FCTH_RFA |ENET_MAC_FCTH_RFD); + temp &= ((ENET_MAC_FCTH_RFA | ENET_MAC_FCTH_RFD )<<8); + reg_value |= (temp >> 8); + ENET_MAC_FCTH = reg_value; + } + + /* configure hashtable_high related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)HASHH_OPTION)){ + ENET_MAC_HLH = enet_initpara.hashtable_high; + } + + /* configure hashtable_low related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)HASHL_OPTION)){ + ENET_MAC_HLL = enet_initpara.hashtable_low; + } + + /* configure framesfilter_mode related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)FILTER_OPTION)){ + reg_temp = enet_initpara.framesfilter_mode; + + reg_value = ENET_MAC_FRMF; + /* configure ENET_MAC_FRMF register */ + reg_value &= ~(ENET_MAC_FRMF_SAFLT | ENET_MAC_FRMF_SAIFLT | ENET_MAC_FRMF_DAIFLT \ + | ENET_MAC_FRMF_HMF | ENET_MAC_FRMF_HPFLT | ENET_MAC_FRMF_MFD \ + | ENET_MAC_FRMF_HUF | ENET_MAC_FRMF_PCFRM); + reg_value |= reg_temp; + ENET_MAC_FRMF = reg_value; + } + + /* configure halfduplex_param related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)HALFDUPLEX_OPTION)){ + reg_temp = enet_initpara.halfduplex_param; + + reg_value = ENET_MAC_CFG; + /* configure ENET_MAC_CFG register */ + reg_value &= ~(ENET_MAC_CFG_CSD | ENET_MAC_CFG_ROD | ENET_MAC_CFG_RTD \ + | ENET_MAC_CFG_BOL | ENET_MAC_CFG_DFC); + reg_value |= reg_temp; + ENET_MAC_CFG = reg_value; + } + + /* configure timer_config related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)TIMER_OPTION)){ + reg_temp = enet_initpara.timer_config; + + reg_value = ENET_MAC_CFG; + /* configure ENET_MAC_CFG register */ + reg_value &= ~(ENET_MAC_CFG_WDD | ENET_MAC_CFG_JBD); + reg_value |= reg_temp; + ENET_MAC_CFG = reg_value; + } + + /* configure interframegap related registers */ + if(RESET != (enet_initpara.option_enable & (uint32_t)INTERFRAMEGAP_OPTION)){ + reg_temp = enet_initpara.interframegap; + + reg_value = ENET_MAC_CFG; + /* configure ENET_MAC_CFG register */ + reg_value &= ~ENET_MAC_CFG_IGBS; + reg_value |= reg_temp; + ENET_MAC_CFG = reg_value; + } + + enet_state = SUCCESS; + return enet_state; +} + +/*! + \brief reset all core internal registers located in CLK_TX and CLK_RX + \param[in] none + \param[out] none + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus enet_software_reset(void) +{ + uint32_t timeout = 0U; + ErrStatus enet_state = ERROR; + uint32_t dma_flag; + + /* reset all core internal registers located in CLK_TX and CLK_RX */ + ENET_DMA_BCTL |= ENET_DMA_BCTL_SWR; + + /* wait for reset operation complete */ + do{ + dma_flag = (ENET_DMA_BCTL & ENET_DMA_BCTL_SWR); + timeout++; + }while((RESET != dma_flag) && (ENET_DELAY_TO != timeout)); + + /* reset operation complete */ + if(RESET == (ENET_DMA_BCTL & ENET_DMA_BCTL_SWR)){ + enet_state = SUCCESS; + } + + return enet_state; +} + +/*! + \brief check receive frame valid and return frame size + \param[in] none + \param[out] none + \retval size of received frame: 0x0 - 0x3FFF +*/ +uint32_t enet_rxframe_size_get(void) +{ + uint32_t size = 0U; + uint32_t status; + + /* get rdes0 information of current RxDMA descriptor */ + status = dma_current_rxdesc->status; + + /* if the desciptor is owned by DMA */ + if((uint32_t)RESET != (status & ENET_RDES0_DAV)){ + return 0U; + } + + /* if has any error, or the frame uses two or more descriptors */ + if((((uint32_t)RESET) != (status & ENET_RDES0_ERRS)) || + (((uint32_t)RESET) == (status & ENET_RDES0_LDES)) || + (((uint32_t)RESET) == (status & ENET_RDES0_FDES))){ + /* drop current receive frame */ + enet_rxframe_drop(); + + return 1U; + } +#ifdef SELECT_DESCRIPTORS_ENHANCED_MODE + /* if is an ethernet-type frame, and IP frame payload error occurred */ + if(((uint32_t)RESET) != (dma_current_rxdesc->status & ENET_RDES0_FRMT) && + ((uint32_t)RESET) != (dma_current_rxdesc->extended_status & ENET_RDES4_IPPLDERR)){ + /* drop current receive frame */ + enet_rxframe_drop(); + + return 1U; + } +#else + /* if is an ethernet-type frame, and IP frame payload error occurred */ + if((((uint32_t)RESET) != (status & ENET_RDES0_FRMT)) && + (((uint32_t)RESET) != (status & ENET_RDES0_PCERR))){ + /* drop current receive frame */ + enet_rxframe_drop(); + + return 1U; + } +#endif + /* if CPU owns current descriptor, no error occured, the frame uses only one descriptor */ + if((((uint32_t)RESET) == (status & ENET_RDES0_DAV)) && + (((uint32_t)RESET) == (status & ENET_RDES0_ERRS)) && + (((uint32_t)RESET) != (status & ENET_RDES0_LDES)) && + (((uint32_t)RESET) != (status & ENET_RDES0_FDES))){ + /* get the size of the received data including CRC */ + size = GET_RDES0_FRML(status); + /* substract the CRC size */ + size = size - 4U; + + /* if is a type frame, and CRC is not included in forwarding frame */ + if((RESET != (ENET_MAC_CFG & ENET_MAC_CFG_TFCD)) && (RESET != (status & ENET_RDES0_FRMT))){ + size = size + 4U; + } + }else{ + enet_unknow_err++; + enet_rxframe_drop(); + + return 1U; + } + + /* return packet size */ + return size; +} + +/*! + \brief initialize the DMA Tx/Rx descriptors's parameters in chain mode + \param[in] direction: the descriptors which users want to init, refer to enet_dmadirection_enum, + only one parameter can be selected which is shown as below + \arg ENET_DMA_TX: DMA Tx descriptors + \arg ENET_DMA_RX: DMA Rx descriptors + \param[out] none + \retval none +*/ +void enet_descriptors_chain_init(enet_dmadirection_enum direction) +{ + uint32_t num = 0U, count = 0U, maxsize = 0U; + uint32_t desc_status = 0U, desc_bufsize = 0U; + enet_descriptors_struct *desc, *desc_tab; + uint8_t *buf; + + /* if want to initialize DMA Tx descriptors */ + if (ENET_DMA_TX == direction){ + /* save a copy of the DMA Tx descriptors */ + desc_tab = txdesc_tab; + buf = &tx_buff[0][0]; + count = ENET_TXBUF_NUM; + maxsize = ENET_TXBUF_SIZE; + + /* select chain mode */ + desc_status = ENET_TDES0_TCHM; + + /* configure DMA Tx descriptor table address register */ + ENET_DMA_TDTADDR = (uint32_t)desc_tab; + dma_current_txdesc = desc_tab; + }else{ + /* if want to initialize DMA Rx descriptors */ + /* save a copy of the DMA Rx descriptors */ + desc_tab = rxdesc_tab; + buf = &rx_buff[0][0]; + count = ENET_RXBUF_NUM; + maxsize = ENET_RXBUF_SIZE; + + /* enable receiving */ + desc_status = ENET_RDES0_DAV; + /* select receive chained mode and set buffer1 size */ + desc_bufsize = ENET_RDES1_RCHM | (uint32_t)ENET_RXBUF_SIZE; + + /* configure DMA Rx descriptor table address register */ + ENET_DMA_RDTADDR = (uint32_t)desc_tab; + dma_current_rxdesc = desc_tab; + } + dma_current_ptp_rxdesc = NULL; + dma_current_ptp_txdesc = NULL; + + /* configure each descriptor */ + for(num=0U; num < count; num++){ + /* get the pointer to the next descriptor of the descriptor table */ + desc = desc_tab + num; + + /* configure descriptors */ + desc->status = desc_status; + desc->control_buffer_size = desc_bufsize; + desc->buffer1_addr = (uint32_t)(&buf[num * maxsize]); + + /* if is not the last descriptor */ + if(num < (count - 1U)){ + /* configure the next descriptor address */ + desc->buffer2_next_desc_addr = (uint32_t)(desc_tab + num + 1U); + }else{ + /* when it is the last descriptor, the next descriptor address + equals to first descriptor address in descriptor table */ + desc->buffer2_next_desc_addr = (uint32_t) desc_tab; + } + } +} + +/*! + \brief initialize the DMA Tx/Rx descriptors's parameters in ring mode + \param[in] direction: the descriptors which users want to init, refer to enet_dmadirection_enum, + only one parameter can be selected which is shown as below + \arg ENET_DMA_TX: DMA Tx descriptors + \arg ENET_DMA_RX: DMA Rx descriptors + \param[out] none + \retval none +*/ +void enet_descriptors_ring_init(enet_dmadirection_enum direction) +{ + uint32_t num = 0U, count = 0U, maxsize = 0U; + uint32_t desc_status = 0U, desc_bufsize = 0U; + enet_descriptors_struct *desc; + enet_descriptors_struct *desc_tab; + uint8_t *buf; + + /* configure descriptor skip length */ + ENET_DMA_BCTL &= ~ENET_DMA_BCTL_DPSL; + ENET_DMA_BCTL |= DMA_BCTL_DPSL(0); + + /* if want to initialize DMA Tx descriptors */ + if (ENET_DMA_TX == direction){ + /* save a copy of the DMA Tx descriptors */ + desc_tab = txdesc_tab; + buf = &tx_buff[0][0]; + count = ENET_TXBUF_NUM; + maxsize = ENET_TXBUF_SIZE; + + /* configure DMA Tx descriptor table address register */ + ENET_DMA_TDTADDR = (uint32_t)desc_tab; + dma_current_txdesc = desc_tab; + }else{ + /* if want to initialize DMA Rx descriptors */ + /* save a copy of the DMA Rx descriptors */ + desc_tab = rxdesc_tab; + buf = &rx_buff[0][0]; + count = ENET_RXBUF_NUM; + maxsize = ENET_RXBUF_SIZE; + + /* enable receiving */ + desc_status = ENET_RDES0_DAV; + /* set buffer1 size */ + desc_bufsize = ENET_RXBUF_SIZE; + + /* configure DMA Rx descriptor table address register */ + ENET_DMA_RDTADDR = (uint32_t)desc_tab; + dma_current_rxdesc = desc_tab; + } + dma_current_ptp_rxdesc = NULL; + dma_current_ptp_txdesc = NULL; + + /* configure each descriptor */ + for(num=0U; num < count; num++){ + /* get the pointer to the next descriptor of the descriptor table */ + desc = desc_tab + num; + + /* configure descriptors */ + desc->status = desc_status; + desc->control_buffer_size = desc_bufsize; + desc->buffer1_addr = (uint32_t)(&buf[num * maxsize]); + + /* when it is the last descriptor */ + if(num == (count - 1U)){ + if (ENET_DMA_TX == direction){ + /* configure transmit end of ring mode */ + desc->status |= ENET_TDES0_TERM; + }else{ + /* configure receive end of ring mode */ + desc->control_buffer_size |= ENET_RDES1_RERM; + } + } + } +} + +/*! + \brief handle current received frame data to application buffer + \param[in] bufsize: the size of buffer which is the parameter in function + \param[out] buffer: pointer to the received frame data + note -- if the input is NULL, user should copy data in application by himself + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus enet_frame_receive(uint8_t *buffer, uint32_t bufsize) +{ + uint32_t offset = 0U, size = 0U; + + /* the descriptor is busy due to own by the DMA */ + if((uint32_t)RESET != (dma_current_rxdesc->status & ENET_RDES0_DAV)){ + return ERROR; + } + + /* if buffer pointer is null, indicates that users has copied data in application */ + if(NULL != buffer){ + /* if no error occurs, and the frame uses only one descriptor */ + if((((uint32_t)RESET) == (dma_current_rxdesc->status & ENET_RDES0_ERRS)) && + (((uint32_t)RESET) != (dma_current_rxdesc->status & ENET_RDES0_LDES)) && + (((uint32_t)RESET) != (dma_current_rxdesc->status & ENET_RDES0_FDES))){ + /* get the frame length except CRC */ + size = GET_RDES0_FRML(dma_current_rxdesc->status); + size = size - 4U; + + /* if is a type frame, and CRC is not included in forwarding frame */ + if((RESET != (ENET_MAC_CFG & ENET_MAC_CFG_TFCD)) && (RESET != (dma_current_rxdesc->status & ENET_RDES0_FRMT))){ + size = size + 4U; + } + + /* to avoid situation that the frame size exceeds the buffer length */ + if(size > bufsize){ + return ERROR; + } + + /* copy data from Rx buffer to application buffer */ + for(offset = 0U; offsetbuffer1_addr) + offset)); + } + + }else{ + /* return ERROR */ + return ERROR; + } + } + /* enable reception, descriptor is owned by DMA */ + dma_current_rxdesc->status = ENET_RDES0_DAV; + + /* check Rx buffer unavailable flag status */ + if ((uint32_t)RESET != (ENET_DMA_STAT & ENET_DMA_STAT_RBU)){ + /* clear RBU flag */ + ENET_DMA_STAT = ENET_DMA_STAT_RBU; + /* resume DMA reception by writing to the RPEN register*/ + ENET_DMA_RPEN = 0U; + } + + /* update the current RxDMA descriptor pointer to the next decriptor in RxDMA decriptor table */ + /* chained mode */ + if((uint32_t)RESET != (dma_current_rxdesc->control_buffer_size & ENET_RDES1_RCHM)){ + dma_current_rxdesc = (enet_descriptors_struct*) (dma_current_rxdesc->buffer2_next_desc_addr); + }else{ + /* ring mode */ + if((uint32_t)RESET != (dma_current_rxdesc->control_buffer_size & ENET_RDES1_RERM)){ + /* if is the last descriptor in table, the next descriptor is the table header */ + dma_current_rxdesc = (enet_descriptors_struct*) (ENET_DMA_RDTADDR); + }else{ + /* the next descriptor is the current address, add the descriptor size, and descriptor skip length */ + dma_current_rxdesc = (enet_descriptors_struct*) (uint32_t)((uint32_t)dma_current_rxdesc + ETH_DMARXDESC_SIZE + (GET_DMA_BCTL_DPSL(ENET_DMA_BCTL))); + } + } + + return SUCCESS; +} + +/*! + \brief handle application buffer data to transmit it + \param[in] buffer: pointer to the frame data to be transmitted, + note -- if the input is NULL, user should handle the data in application by himself + \param[in] length: the length of frame data to be transmitted + \param[out] none + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus enet_frame_transmit(uint8_t *buffer, uint32_t length) +{ + uint32_t offset = 0U; + uint32_t dma_tbu_flag, dma_tu_flag; + + /* the descriptor is busy due to own by the DMA */ + if((uint32_t)RESET != (dma_current_txdesc->status & ENET_TDES0_DAV)){ + return ERROR; + } + + /* only frame length no more than ENET_MAX_FRAME_SIZE is allowed */ + if(length > ENET_MAX_FRAME_SIZE){ + return ERROR; + } + + /* if buffer pointer is null, indicates that users has handled data in application */ + if(NULL != buffer){ + /* copy frame data from application buffer to Tx buffer */ + for(offset = 0U; offset < length; offset++){ + (*(__IO uint8_t *) (uint32_t)((dma_current_txdesc->buffer1_addr) + offset)) = (*(buffer + offset)); + } + } + + /* set the frame length */ + dma_current_txdesc->control_buffer_size = length; + /* set the segment of frame, frame is transmitted in one descriptor */ + dma_current_txdesc->status |= ENET_TDES0_LSG | ENET_TDES0_FSG; + /* enable the DMA transmission */ + dma_current_txdesc->status |= ENET_TDES0_DAV; + + /* check Tx buffer unavailable flag status */ + dma_tbu_flag = (ENET_DMA_STAT & ENET_DMA_STAT_TBU); + dma_tu_flag = (ENET_DMA_STAT & ENET_DMA_STAT_TU); + + if ((RESET != dma_tbu_flag) || (RESET != dma_tu_flag)){ + /* clear TBU and TU flag */ + ENET_DMA_STAT = (dma_tbu_flag | dma_tu_flag); + /* resume DMA transmission by writing to the TPEN register*/ + ENET_DMA_TPEN = 0U; + } + + /* update the current TxDMA descriptor pointer to the next decriptor in TxDMA decriptor table*/ + /* chained mode */ + if((uint32_t)RESET != (dma_current_txdesc->status & ENET_TDES0_TCHM)){ + dma_current_txdesc = (enet_descriptors_struct*) (dma_current_txdesc->buffer2_next_desc_addr); + }else{ + /* ring mode */ + if((uint32_t)RESET != (dma_current_txdesc->status & ENET_TDES0_TERM)){ + /* if is the last descriptor in table, the next descriptor is the table header */ + dma_current_txdesc = (enet_descriptors_struct*) (ENET_DMA_TDTADDR); + }else{ + /* the next descriptor is the current address, add the descriptor size, and descriptor skip length */ + dma_current_txdesc = (enet_descriptors_struct*) (uint32_t)((uint32_t)dma_current_txdesc + ETH_DMATXDESC_SIZE + (GET_DMA_BCTL_DPSL(ENET_DMA_BCTL))); + } + } + + return SUCCESS; +} + +/*! + \brief configure the transmit IP frame checksum offload calculation and insertion + \param[in] desc: the descriptor pointer which users want to configure + \param[in] checksum: IP frame checksum configuration + only one parameter can be selected which is shown as below + \arg ENET_CHECKSUM_DISABLE: checksum insertion disabled + \arg ENET_CHECKSUM_IPV4HEADER: only IP header checksum calculation and insertion are enabled + \arg ENET_CHECKSUM_TCPUDPICMP_SEGMENT: TCP/UDP/ICMP checksum insertion calculated but pseudo-header + \arg ENET_CHECKSUM_TCPUDPICMP_FULL: TCP/UDP/ICMP checksum insertion fully calculated + \param[out] none + \retval ErrStatus: ERROR, SUCCESS +*/ +ErrStatus enet_transmit_checksum_config(enet_descriptors_struct *desc, uint32_t checksum) +{ + if(NULL != desc){ + desc->status &= ~ENET_TDES0_CM; + desc->status |= checksum; + return SUCCESS; + }else{ + return ERROR; + } +} + +/*! + \brief ENET Tx and Rx function enable (include MAC and DMA module) + \param[in] none + \param[out] none + \retval none +*/ +void enet_enable(void) +{ + enet_tx_enable(); + enet_rx_enable(); +} + +/*! + \brief ENET Tx and Rx function disable (include MAC and DMA module) + \param[in] none + \param[out] none + \retval none +*/ +void enet_disable(void) +{ + enet_tx_disable(); + enet_rx_disable(); +} + +/*! + \brief configure MAC address + \param[in] mac_addr: select which MAC address will be set, + only one parameter can be selected which is shown as below + \arg ENET_MAC_ADDRESS0: set MAC address 0 filter + \arg ENET_MAC_ADDRESS1: set MAC address 1 filter + \arg ENET_MAC_ADDRESS2: set MAC address 2 filter + \arg ENET_MAC_ADDRESS3: set MAC address 3 filter + \param[in] paddr: the buffer pointer which stores the MAC address + (little-ending store, such as MAC address is aa:bb:cc:dd:ee:22, the buffer is {22, ee, dd, cc, bb, aa}) + \param[out] none + \retval none +*/ +void enet_mac_address_set(enet_macaddress_enum mac_addr, uint8_t paddr[]) +{ + REG32(ENET_ADDRH_BASE + (uint32_t)mac_addr) = ENET_SET_MACADDRH(paddr); + REG32(ENET_ADDRL_BASE + (uint32_t)mac_addr) = ENET_SET_MACADDRL(paddr); +} + +/*! + \brief get MAC address + \param[in] mac_addr: select which MAC address will be get, + only one parameter can be selected which is shown as below + \arg ENET_MAC_ADDRESS0: get MAC address 0 filter + \arg ENET_MAC_ADDRESS1: get MAC address 1 filter + \arg ENET_MAC_ADDRESS2: get MAC address 2 filter + \arg ENET_MAC_ADDRESS3: get MAC address 3 filter + \param[out] paddr: the buffer pointer which is stored the MAC address + (little-ending store, such as mac address is aa:bb:cc:dd:ee:22, the buffer is {22, ee, dd, cc, bb, aa}) + \param[in] bufsize: refer to the size of the buffer which stores the MAC address + \arg 6 - 255 + \retval ErrStatus: ERROR, SUCCESS +*/ +ErrStatus enet_mac_address_get(enet_macaddress_enum mac_addr, uint8_t paddr[], uint8_t bufsize) +{ + if(bufsize < 6U){ + return ERROR; + } + paddr[0] = ENET_GET_MACADDR(mac_addr, 0U); + paddr[1] = ENET_GET_MACADDR(mac_addr, 1U); + paddr[2] = ENET_GET_MACADDR(mac_addr, 2U); + paddr[3] = ENET_GET_MACADDR(mac_addr, 3U); + paddr[4] = ENET_GET_MACADDR(mac_addr, 4U); + paddr[5] = ENET_GET_MACADDR(mac_addr, 5U); + return SUCCESS; +} + +/*! + \brief get the ENET MAC/MSC/PTP/DMA status flag + \param[in] enet_flag: ENET status flag, refer to enet_flag_enum, + only one parameter can be selected which is shown as below + \arg ENET_MAC_FLAG_MPKR: magic packet received flag + \arg ENET_MAC_FLAG_WUFR: wakeup frame received flag + \arg ENET_MAC_FLAG_FLOWCONTROL: flow control status flag + \arg ENET_MAC_FLAG_WUM: WUM status flag + \arg ENET_MAC_FLAG_MSC: MSC status flag + \arg ENET_MAC_FLAG_MSCR: MSC receive status flag + \arg ENET_MAC_FLAG_MSCT: MSC transmit status flag + \arg ENET_MAC_FLAG_TMST: time stamp trigger status flag + \arg ENET_PTP_FLAG_TSSCO: timestamp second counter overflow flag + \arg ENET_PTP_FLAG_TTM: target time match flag + \arg ENET_MSC_FLAG_RFCE: received frames CRC error flag + \arg ENET_MSC_FLAG_RFAE: received frames alignment error flag + \arg ENET_MSC_FLAG_RGUF: received good unicast frames flag + \arg ENET_MSC_FLAG_TGFSC: transmitted good frames single collision flag + \arg ENET_MSC_FLAG_TGFMSC: transmitted good frames more single collision flag + \arg ENET_MSC_FLAG_TGF: transmitted good frames flag + \arg ENET_DMA_FLAG_TS: transmit status flag + \arg ENET_DMA_FLAG_TPS: transmit process stopped status flag + \arg ENET_DMA_FLAG_TBU: transmit buffer unavailable status flag + \arg ENET_DMA_FLAG_TJT: transmit jabber timeout status flag + \arg ENET_DMA_FLAG_RO: receive overflow status flag + \arg ENET_DMA_FLAG_TU: transmit underflow status flag + \arg ENET_DMA_FLAG_RS: receive status flag + \arg ENET_DMA_FLAG_RBU: receive buffer unavailable status flag + \arg ENET_DMA_FLAG_RPS: receive process stopped status flag + \arg ENET_DMA_FLAG_RWT: receive watchdog timeout status flag + \arg ENET_DMA_FLAG_ET: early transmit status flag + \arg ENET_DMA_FLAG_FBE: fatal bus error status flag + \arg ENET_DMA_FLAG_ER: early receive status flag + \arg ENET_DMA_FLAG_AI: abnormal interrupt summary flag + \arg ENET_DMA_FLAG_NI: normal interrupt summary flag + \arg ENET_DMA_FLAG_EB_DMA_ERROR: DMA error flag + \arg ENET_DMA_FLAG_EB_TRANSFER_ERROR: transfer error flag + \arg ENET_DMA_FLAG_EB_ACCESS_ERROR: access error flag + \arg ENET_DMA_FLAG_MSC: MSC status flag + \arg ENET_DMA_FLAG_WUM: WUM status flag + \arg ENET_DMA_FLAG_TST: timestamp trigger status flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus enet_flag_get(enet_flag_enum enet_flag) +{ + if(RESET != (ENET_REG_VAL(enet_flag) & BIT(ENET_BIT_POS(enet_flag)))){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear the ENET DMA status flag + \param[in] enet_flag: ENET DMA flag clear, refer to enet_flag_clear_enum + only one parameter can be selected which is shown as below + \arg ENET_DMA_FLAG_TS_CLR: transmit status flag clear + \arg ENET_DMA_FLAG_TPS_CLR: transmit process stopped status flag clear + \arg ENET_DMA_FLAG_TBU_CLR: transmit buffer unavailable status flag clear + \arg ENET_DMA_FLAG_TJT_CLR: transmit jabber timeout status flag clear + \arg ENET_DMA_FLAG_RO_CLR: receive overflow status flag clear + \arg ENET_DMA_FLAG_TU_CLR: transmit underflow status flag clear + \arg ENET_DMA_FLAG_RS_CLR: receive status flag clear + \arg ENET_DMA_FLAG_RBU_CLR: receive buffer unavailable status flag clear + \arg ENET_DMA_FLAG_RPS_CLR: receive process stopped status flag clear + \arg ENET_DMA_FLAG_RWT_CLR: receive watchdog timeout status flag clear + \arg ENET_DMA_FLAG_ET_CLR: early transmit status flag clear + \arg ENET_DMA_FLAG_FBE_CLR: fatal bus error status flag clear + \arg ENET_DMA_FLAG_ER_CLR: early receive status flag clear + \arg ENET_DMA_FLAG_AI_CLR: abnormal interrupt summary flag clear + \arg ENET_DMA_FLAG_NI_CLR: normal interrupt summary flag clear + \param[out] none + \retval none +*/ +void enet_flag_clear(enet_flag_clear_enum enet_flag) +{ + /* write 1 to the corresponding bit in ENET_DMA_STAT, to clear it */ + ENET_REG_VAL(enet_flag) = BIT(ENET_BIT_POS(enet_flag)); +} + +/*! + \brief enable ENET MAC/MSC/DMA interrupt + \param[in] enet_int: ENET interrupt, + only one parameter can be selected which is shown as below + \arg ENET_MAC_INT_WUMIM: WUM interrupt mask + \arg ENET_MAC_INT_TMSTIM: timestamp trigger interrupt mask + \arg ENET_MSC_INT_RFCEIM: received frame CRC error interrupt mask + \arg ENET_MSC_INT_RFAEIM: received frames alignment error interrupt mask + \arg ENET_MSC_INT_RGUFIM: received good unicast frames interrupt mask + \arg ENET_MSC_INT_TGFSCIM: transmitted good frames single collision interrupt mask + \arg ENET_MSC_INT_TGFMSCIM: transmitted good frames more single collision interrupt mask + \arg ENET_MSC_INT_TGFIM: transmitted good frames interrupt mask + \arg ENET_DMA_INT_TIE: transmit interrupt enable + \arg ENET_DMA_INT_TPSIE: transmit process stopped interrupt enable + \arg ENET_DMA_INT_TBUIE: transmit buffer unavailable interrupt enable + \arg ENET_DMA_INT_TJTIE: transmit jabber timeout interrupt enable + \arg ENET_DMA_INT_ROIE: receive overflow interrupt enable + \arg ENET_DMA_INT_TUIE: transmit underflow interrupt enable + \arg ENET_DMA_INT_RIE: receive interrupt enable + \arg ENET_DMA_INT_RBUIE: receive buffer unavailable interrupt enable + \arg ENET_DMA_INT_RPSIE: receive process stopped interrupt enable + \arg ENET_DMA_INT_RWTIE: receive watchdog timeout interrupt enable + \arg ENET_DMA_INT_ETIE: early transmit interrupt enable + \arg ENET_DMA_INT_FBEIE: fatal bus error interrupt enable + \arg ENET_DMA_INT_ERIE: early receive interrupt enable + \arg ENET_DMA_INT_AIE: abnormal interrupt summary enable + \arg ENET_DMA_INT_NIE: normal interrupt summary enable + \param[out] none + \retval none +*/ +void enet_interrupt_enable(enet_int_enum enet_int) +{ + if(DMA_INTEN_REG_OFFSET == ((uint32_t)enet_int >> 6)){ + /* ENET_DMA_INTEN register interrupt */ + ENET_REG_VAL(enet_int) |= BIT(ENET_BIT_POS(enet_int)); + }else{ + /* other INTMSK register interrupt */ + ENET_REG_VAL(enet_int) &= ~BIT(ENET_BIT_POS(enet_int)); + } +} + +/*! + \brief disable ENET MAC/MSC/DMA interrupt + \param[in] enet_int: ENET interrupt, + only one parameter can be selected which is shown as below + \arg ENET_MAC_INT_WUMIM: WUM interrupt mask + \arg ENET_MAC_INT_TMSTIM: timestamp trigger interrupt mask + \arg ENET_MSC_INT_RFCEIM: received frame CRC error interrupt mask + \arg ENET_MSC_INT_RFAEIM: received frames alignment error interrupt mask + \arg ENET_MSC_INT_RGUFIM: received good unicast frames interrupt mask + \arg ENET_MSC_INT_TGFSCIM: transmitted good frames single collision interrupt mask + \arg ENET_MSC_INT_TGFMSCIM: transmitted good frames more single collision interrupt mask + \arg ENET_MSC_INT_TGFIM: transmitted good frames interrupt mask + \arg ENET_DMA_INT_TIE: transmit interrupt enable + \arg ENET_DMA_INT_TPSIE: transmit process stopped interrupt enable + \arg ENET_DMA_INT_TBUIE: transmit buffer unavailable interrupt enable + \arg ENET_DMA_INT_TJTIE: transmit jabber timeout interrupt enable + \arg ENET_DMA_INT_ROIE: receive overflow interrupt enable + \arg ENET_DMA_INT_TUIE: transmit underflow interrupt enable + \arg ENET_DMA_INT_RIE: receive interrupt enable + \arg ENET_DMA_INT_RBUIE: receive buffer unavailable interrupt enable + \arg ENET_DMA_INT_RPSIE: receive process stopped interrupt enable + \arg ENET_DMA_INT_RWTIE: receive watchdog timeout interrupt enable + \arg ENET_DMA_INT_ETIE: early transmit interrupt enable + \arg ENET_DMA_INT_FBEIE: fatal bus error interrupt enable + \arg ENET_DMA_INT_ERIE: early receive interrupt enable + \arg ENET_DMA_INT_AIE: abnormal interrupt summary enable + \arg ENET_DMA_INT_NIE: normal interrupt summary enable + \param[out] none + \retval none +*/ +void enet_interrupt_disable(enet_int_enum enet_int) +{ + if(DMA_INTEN_REG_OFFSET == ((uint32_t)enet_int >> 6)){ + /* ENET_DMA_INTEN register interrupt */ + ENET_REG_VAL(enet_int) &= ~BIT(ENET_BIT_POS(enet_int)); + }else{ + /* other INTMSK register interrupt */ + ENET_REG_VAL(enet_int) |= BIT(ENET_BIT_POS(enet_int)); + } +} + +/*! + \brief get ENET MAC/MSC/DMA interrupt flag + \param[in] int_flag: ENET interrupt flag, + only one parameter can be selected which is shown as below + \arg ENET_MAC_INT_FLAG_WUM: WUM status flag + \arg ENET_MAC_INT_FLAG_MSC: MSC status flag + \arg ENET_MAC_INT_FLAG_MSCR: MSC receive status flag + \arg ENET_MAC_INT_FLAG_MSCT: MSC transmit status flag + \arg ENET_MAC_INT_FLAG_TMST: time stamp trigger status flag + \arg ENET_MSC_INT_FLAG_RFCE: received frames CRC error flag + \arg ENET_MSC_INT_FLAG_RFAE: received frames alignment error flag + \arg ENET_MSC_INT_FLAG_RGUF: received good unicast frames flag + \arg ENET_MSC_INT_FLAG_TGFSC: transmitted good frames single collision flag + \arg ENET_MSC_INT_FLAG_TGFMSC: transmitted good frames more single collision flag + \arg ENET_MSC_INT_FLAG_TGF: transmitted good frames flag + \arg ENET_DMA_INT_FLAG_TS: transmit status flag + \arg ENET_DMA_INT_FLAG_TPS: transmit process stopped status flag + \arg ENET_DMA_INT_FLAG_TBU: transmit buffer unavailable status flag + \arg ENET_DMA_INT_FLAG_TJT: transmit jabber timeout status flag + \arg ENET_DMA_INT_FLAG_RO: receive overflow status flag + \arg ENET_DMA_INT_FLAG_TU: transmit underflow status flag + \arg ENET_DMA_INT_FLAG_RS: receive status flag + \arg ENET_DMA_INT_FLAG_RBU: receive buffer unavailable status flag + \arg ENET_DMA_INT_FLAG_RPS: receive process stopped status flag + \arg ENET_DMA_INT_FLAG_RWT: receive watchdog timeout status flag + \arg ENET_DMA_INT_FLAG_ET: early transmit status flag + \arg ENET_DMA_INT_FLAG_FBE: fatal bus error status flag + \arg ENET_DMA_INT_FLAG_ER: early receive status flag + \arg ENET_DMA_INT_FLAG_AI: abnormal interrupt summary flag + \arg ENET_DMA_INT_FLAG_NI: normal interrupt summary flag + \arg ENET_DMA_INT_FLAG_MSC: MSC status flag + \arg ENET_DMA_INT_FLAG_WUM: WUM status flag + \arg ENET_DMA_INT_FLAG_TST: timestamp trigger status flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus enet_interrupt_flag_get(enet_int_flag_enum int_flag) +{ + if(RESET != (ENET_REG_VAL(int_flag) & BIT(ENET_BIT_POS(int_flag)))){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear ENET DMA interrupt flag + \param[in] int_flag_clear: clear ENET interrupt flag, + only one parameter can be selected which is shown as below + \arg ENET_DMA_INT_FLAG_TS_CLR: transmit status flag + \arg ENET_DMA_INT_FLAG_TPS_CLR: transmit process stopped status flag + \arg ENET_DMA_INT_FLAG_TBU_CLR: transmit buffer unavailable status flag + \arg ENET_DMA_INT_FLAG_TJT_CLR: transmit jabber timeout status flag + \arg ENET_DMA_INT_FLAG_RO_CLR: receive overflow status flag + \arg ENET_DMA_INT_FLAG_TU_CLR: transmit underflow status flag + \arg ENET_DMA_INT_FLAG_RS_CLR: receive status flag + \arg ENET_DMA_INT_FLAG_RBU_CLR: receive buffer unavailable status flag + \arg ENET_DMA_INT_FLAG_RPS_CLR: receive process stopped status flag + \arg ENET_DMA_INT_FLAG_RWT_CLR: receive watchdog timeout status flag + \arg ENET_DMA_INT_FLAG_ET_CLR: early transmit status flag + \arg ENET_DMA_INT_FLAG_FBE_CLR: fatal bus error status flag + \arg ENET_DMA_INT_FLAG_ER_CLR: early receive status flag + \arg ENET_DMA_INT_FLAG_AI_CLR: abnormal interrupt summary flag + \arg ENET_DMA_INT_FLAG_NI_CLR: normal interrupt summary flag + \param[out] none + \retval none +*/ +void enet_interrupt_flag_clear(enet_int_flag_clear_enum int_flag_clear) +{ + /* write 1 to the corresponding bit in ENET_DMA_STAT, to clear it */ + ENET_REG_VAL(int_flag_clear) = BIT(ENET_BIT_POS(int_flag_clear)); +} + +/*! + \brief ENET Tx function enable (include MAC and DMA module) + \param[in] none + \param[out] none + \retval none +*/ +void enet_tx_enable(void) +{ + ENET_MAC_CFG |= ENET_MAC_CFG_TEN; + enet_txfifo_flush(); + ENET_DMA_CTL |= ENET_DMA_CTL_STE; +} + +/*! + \brief ENET Tx function disable (include MAC and DMA module) + \param[in] none + \param[out] none + \retval none +*/ +void enet_tx_disable(void) +{ + ENET_DMA_CTL &= ~ENET_DMA_CTL_STE; + enet_txfifo_flush(); + ENET_MAC_CFG &= ~ENET_MAC_CFG_TEN; +} + +/*! + \brief ENET Rx function enable (include MAC and DMA module) + \param[in] none + \param[out] none + \retval none +*/ +void enet_rx_enable(void) +{ + ENET_MAC_CFG |= ENET_MAC_CFG_REN; + ENET_DMA_CTL |= ENET_DMA_CTL_SRE; +} + +/*! + \brief ENET Rx function disable (include MAC and DMA module) + \param[in] none + \param[out] none + \retval none +*/ +void enet_rx_disable(void) +{ + ENET_DMA_CTL &= ~ENET_DMA_CTL_SRE; + ENET_MAC_CFG &= ~ENET_MAC_CFG_REN; +} + +/*! + \brief put registers value into the application buffer + \param[in] type: register type which will be get, refer to enet_registers_type_enum, + only one parameter can be selected which is shown as below + \arg ALL_MAC_REG: get the registers within the offset scope between ENET_MAC_CFG and ENET_MAC_FCTH + \arg ALL_MSC_REG: get the registers within the offset scope between ENET_MSC_CTL and ENET_MSC_RGUFCNT + \arg ALL_PTP_REG: get the registers within the offset scope between ENET_PTP_TSCTL and ENET_PTP_PPSCTL + \arg ALL_DMA_REG: get the registers within the offset scope between ENET_DMA_BCTL and ENET_DMA_CRBADDR + \param[in] num: the number of registers that the user want to get + \param[out] preg: the application buffer pointer for storing the register value + \retval none +*/ +void enet_registers_get(enet_registers_type_enum type, uint32_t *preg, uint32_t num) +{ + uint32_t offset = 0U, max = 0U, limit = 0U; + + offset = (uint32_t)type; + max = (uint32_t)type + num; + limit = sizeof(enet_reg_tab)/sizeof(uint16_t); + + /* prevent element in this array is out of range */ + if(max > limit){ + max = limit; + } + + for(; offset < max; offset++){ + /* get value of the corresponding register */ + *preg = REG32((ENET) + enet_reg_tab[offset]); + preg++; + } +} + +/*! + \brief get the enet debug status from the debug register + \param[in] mac_debug: enet debug status, + only one parameter can be selected which is shown as below + \arg ENET_MAC_RECEIVER_NOT_IDLE: MAC receiver is not in idle state + \arg ENET_RX_ASYNCHRONOUS_FIFO_STATE: Rx asynchronous FIFO status + \arg ENET_RXFIFO_WRITING: RxFIFO is doing write operation + \arg ENET_RXFIFO_READ_STATUS: RxFIFO read operation status + \arg ENET_RXFIFO_STATE: RxFIFO state + \arg ENET_MAC_TRANSMITTER_NOT_IDLE: MAC transmitter is not in idle state + \arg ENET_MAC_TRANSMITTER_STATUS: status of MAC transmitter + \arg ENET_PAUSE_CONDITION_STATUS: pause condition status + \arg ENET_TXFIFO_READ_STATUS: TxFIFO read operation status + \arg ENET_TXFIFO_WRITING: TxFIFO is doing write operation + \arg ENET_TXFIFO_NOT_EMPTY: TxFIFO is not empty + \arg ENET_TXFIFO_FULL: TxFIFO is full + \param[out] none + \retval value of the status users want to get +*/ +uint32_t enet_debug_status_get(uint32_t mac_debug) +{ + uint32_t temp_state = 0U; + + switch(mac_debug){ + case ENET_RX_ASYNCHRONOUS_FIFO_STATE: + temp_state = GET_MAC_DBG_RXAFS(ENET_MAC_DBG); + break; + case ENET_RXFIFO_READ_STATUS: + temp_state = GET_MAC_DBG_RXFRS(ENET_MAC_DBG); + break; + case ENET_RXFIFO_STATE: + temp_state = GET_MAC_DBG_RXFS(ENET_MAC_DBG); + break; + case ENET_MAC_TRANSMITTER_STATUS: + temp_state = GET_MAC_DBG_SOMT(ENET_MAC_DBG); + break; + case ENET_TXFIFO_READ_STATUS: + temp_state = GET_MAC_DBG_TXFRS(ENET_MAC_DBG); + break; + default: + if(RESET != (ENET_MAC_DBG & mac_debug)){ + temp_state = 0x1U; + } + break; + } + return temp_state; +} + +/*! + \brief enable the MAC address filter + \param[in] mac_addr: select which MAC address will be enable + \arg ENET_MAC_ADDRESS1: enable MAC address 1 filter + \arg ENET_MAC_ADDRESS2: enable MAC address 2 filter + \arg ENET_MAC_ADDRESS3: enable MAC address 3 filter + \param[out] none + \retval none +*/ +void enet_address_filter_enable(enet_macaddress_enum mac_addr) +{ + REG32(ENET_ADDRH_BASE + mac_addr) |= ENET_MAC_ADDR1H_AFE; +} + +/*! + \brief disable the MAC address filter + \param[in] mac_addr: select which MAC address will be disable, + only one parameter can be selected which is shown as below + \arg ENET_MAC_ADDRESS1: disable MAC address 1 filter + \arg ENET_MAC_ADDRESS2: disable MAC address 2 filter + \arg ENET_MAC_ADDRESS3: disable MAC address 3 filter + \param[out] none + \retval none +*/ +void enet_address_filter_disable(enet_macaddress_enum mac_addr) +{ + REG32(ENET_ADDRH_BASE + mac_addr) &= ~ENET_MAC_ADDR1H_AFE; +} + +/*! + \brief configure the MAC address filter + \param[in] mac_addr: select which MAC address will be configured, + only one parameter can be selected which is shown as below + \arg ENET_MAC_ADDRESS1: configure MAC address 1 filter + \arg ENET_MAC_ADDRESS2: configure MAC address 2 filter + \arg ENET_MAC_ADDRESS3: configure MAC address 3 filter + \param[in] addr_mask: select which MAC address bytes will be mask, + one or more parameters can be selected which are shown as below + \arg ENET_ADDRESS_MASK_BYTE0: mask ENET_MAC_ADDR1L[7:0] bits + \arg ENET_ADDRESS_MASK_BYTE1: mask ENET_MAC_ADDR1L[15:8] bits + \arg ENET_ADDRESS_MASK_BYTE2: mask ENET_MAC_ADDR1L[23:16] bits + \arg ENET_ADDRESS_MASK_BYTE3: mask ENET_MAC_ADDR1L [31:24] bits + \arg ENET_ADDRESS_MASK_BYTE4: mask ENET_MAC_ADDR1H [7:0] bits + \arg ENET_ADDRESS_MASK_BYTE5: mask ENET_MAC_ADDR1H [15:8] bits + \param[in] filter_type: select which MAC address filter type will be selected, + only one parameter can be selected which is shown as below + \arg ENET_ADDRESS_FILTER_SA: The MAC address is used to compared with the SA field of the received frame + \arg ENET_ADDRESS_FILTER_DA: The MAC address is used to compared with the DA field of the received frame + \param[out] none + \retval none +*/ +void enet_address_filter_config(enet_macaddress_enum mac_addr, uint32_t addr_mask, uint32_t filter_type) +{ + uint32_t reg; + + /* get the address filter register value which is to be configured */ + reg = REG32(ENET_ADDRH_BASE + mac_addr); + + /* clear and configure the address filter register */ + reg &= ~(ENET_MAC_ADDR1H_MB | ENET_MAC_ADDR1H_SAF); + reg |= (addr_mask | filter_type); + REG32(ENET_ADDRH_BASE + mac_addr) = reg; +} + +/*! + \brief PHY interface configuration (configure SMI clock and reset PHY chip) + \param[in] none + \param[out] none + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus enet_phy_config(void) +{ + uint32_t ahbclk; + uint32_t reg; + uint16_t phy_value; + ErrStatus enet_state = ERROR; + + /* clear the previous MDC clock */ + reg = ENET_MAC_PHY_CTL; + reg &= ~ENET_MAC_PHY_CTL_CLR; + + /* get the HCLK frequency */ + ahbclk = rcu_clock_freq_get(CK_AHB); + + /* configure MDC clock according to HCLK frequency range */ + if(ENET_RANGE(ahbclk, 20000000U, 35000000U)){ + reg |= ENET_MDC_HCLK_DIV16; + }else if(ENET_RANGE(ahbclk, 35000000U, 60000000U)){ + reg |= ENET_MDC_HCLK_DIV26; + }else if(ENET_RANGE(ahbclk, 60000000U, 100000000U)){ + reg |= ENET_MDC_HCLK_DIV42; + }else if((ENET_RANGE(ahbclk, 100000000U, 168000000U))||(168000000U == ahbclk)){ + reg |= ENET_MDC_HCLK_DIV62; + }else{ + return enet_state; + } + ENET_MAC_PHY_CTL = reg; + + /* reset PHY */ + phy_value = PHY_RESET; + if(ERROR == (enet_phy_write_read(ENET_PHY_WRITE, PHY_ADDRESS, PHY_REG_BCR, &phy_value))){ + return enet_state; + } + /* PHY reset need some time */ + _ENET_DELAY_(ENET_DELAY_TO); + + /* check whether PHY reset is complete */ + if(ERROR == (enet_phy_write_read(ENET_PHY_READ, PHY_ADDRESS, PHY_REG_BCR, &phy_value))){ + return enet_state; + } + + /* PHY reset complete */ + if(RESET == (phy_value & PHY_RESET)){ + enet_state = SUCCESS; + } + + return enet_state; +} + +/*! + \brief write to / read from a PHY register + \param[in] direction: only one parameter can be selected which is shown as below + \arg ENET_PHY_WRITE: write data to phy register + \arg ENET_PHY_READ: read data from phy register + \param[in] phy_address: 0x0 - 0x1F + \param[in] phy_reg: 0x0 - 0x1F + \param[in] pvalue: the value will be written to the PHY register in ENET_PHY_WRITE direction + \param[out] pvalue: the value will be read from the PHY register in ENET_PHY_READ direction + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus enet_phy_write_read(enet_phydirection_enum direction, uint16_t phy_address, uint16_t phy_reg, uint16_t *pvalue) +{ + uint32_t reg, phy_flag; + uint32_t timeout = 0U; + ErrStatus enet_state = ERROR; + + /* configure ENET_MAC_PHY_CTL with write/read operation */ + reg = ENET_MAC_PHY_CTL; + reg &= ~(ENET_MAC_PHY_CTL_PB | ENET_MAC_PHY_CTL_PW | ENET_MAC_PHY_CTL_PR | ENET_MAC_PHY_CTL_PA); + reg |= (direction | MAC_PHY_CTL_PR(phy_reg) | MAC_PHY_CTL_PA(phy_address) | ENET_MAC_PHY_CTL_PB); + + /* if do the write operation, write value to the register */ + if(ENET_PHY_WRITE == direction){ + ENET_MAC_PHY_DATA = *pvalue; + } + + /* do PHY write/read operation, and wait the operation complete */ + ENET_MAC_PHY_CTL = reg; + do{ + phy_flag = (ENET_MAC_PHY_CTL & ENET_MAC_PHY_CTL_PB); + timeout++; + } + while((RESET != phy_flag) && (ENET_DELAY_TO != timeout)); + + /* write/read operation complete */ + if(RESET == (ENET_MAC_PHY_CTL & ENET_MAC_PHY_CTL_PB)){ + enet_state = SUCCESS; + } + + /* if do the read operation, get value from the register */ + if(ENET_PHY_READ == direction){ + *pvalue = (uint16_t)ENET_MAC_PHY_DATA; + } + + return enet_state; +} + +/*! + \brief enable the loopback function of PHY chip + \param[in] none + \param[out] none + \retval ErrStatus: ERROR or SUCCESS +*/ +ErrStatus enet_phyloopback_enable(void) +{ + uint16_t temp_phy = 0U; + ErrStatus phy_state = ERROR; + + /* get the PHY configuration to update it */ + enet_phy_write_read(ENET_PHY_READ, PHY_ADDRESS, PHY_REG_BCR, &temp_phy); + + /* enable the PHY loopback mode */ + temp_phy |= PHY_LOOPBACK; + + /* update the PHY control register with the new configuration */ + phy_state = enet_phy_write_read(ENET_PHY_WRITE, PHY_ADDRESS, PHY_REG_BCR, &temp_phy); + + return phy_state; +} + +/*! + \brief disable the loopback function of PHY chip + \param[in] none + \param[out] none + \retval ErrStatus: ERROR or SUCCESS +*/ +ErrStatus enet_phyloopback_disable(void) +{ + uint16_t temp_phy = 0U; + ErrStatus phy_state = ERROR; + + /* get the PHY configuration to update it */ + enet_phy_write_read(ENET_PHY_READ, PHY_ADDRESS, PHY_REG_BCR, &temp_phy); + + /* disable the PHY loopback mode */ + temp_phy &= (uint16_t)~PHY_LOOPBACK; + + /* update the PHY control register with the new configuration */ + phy_state = enet_phy_write_read(ENET_PHY_WRITE, PHY_ADDRESS, PHY_REG_BCR, &temp_phy); + + return phy_state; +} + +/*! + \brief enable ENET forward feature + \param[in] feature: the feature of ENET forward mode, + one or more parameters can be selected which are shown as below + \arg ENET_AUTO_PADCRC_DROP: the function of the MAC strips the Pad/FCS field on received frames + \arg ENET_TYPEFRAME_CRC_DROP: the function that FCS field(last 4 bytes) of frame will be dropped before forwarding + \arg ENET_FORWARD_ERRFRAMES: the function that all frame received with error except runt error are forwarded to memory + \arg ENET_FORWARD_UNDERSZ_GOODFRAMES: the function that forwarding undersized good frames + \param[out] none + \retval none +*/ +void enet_forward_feature_enable(uint32_t feature) +{ + uint32_t mask; + + mask = (feature & (~(ENET_FORWARD_ERRFRAMES | ENET_FORWARD_UNDERSZ_GOODFRAMES))); + ENET_MAC_CFG |= mask; + + mask = (feature & (~(ENET_AUTO_PADCRC_DROP | ENET_TYPEFRAME_CRC_DROP))); + ENET_DMA_CTL |= (mask >> 2); +} + +/*! + \brief disable ENET forward feature + \param[in] feature: the feature of ENET forward mode, + one or more parameters can be selected which are shown as below + \arg ENET_AUTO_PADCRC_DROP: the function of the MAC strips the Pad/FCS field on received frames + \arg ENET_TYPEFRAME_CRC_DROP: the function that FCS field(last 4 bytes) of frame will be dropped before forwarding + \arg ENET_FORWARD_ERRFRAMES: the function that all frame received with error except runt error are forwarded to memory + \arg ENET_FORWARD_UNDERSZ_GOODFRAMES: the function that forwarding undersized good frames + \param[out] none + \retval none +*/ +void enet_forward_feature_disable(uint32_t feature) +{ + uint32_t mask; + + mask = (feature & (~(ENET_FORWARD_ERRFRAMES | ENET_FORWARD_UNDERSZ_GOODFRAMES))); + ENET_MAC_CFG &= ~mask; + + mask = (feature & (~(ENET_AUTO_PADCRC_DROP | ENET_TYPEFRAME_CRC_DROP))); + ENET_DMA_CTL &= ~(mask >> 2); +} + +/*! + \brief enable ENET fliter feature + \param[in] feature: the feature of ENET fliter mode, + one or more parameters can be selected which are shown as below + \arg ENET_SRC_FILTER: filter source address function + \arg ENET_SRC_FILTER_INVERSE: inverse source address filtering result function + \arg ENET_DEST_FILTER_INVERSE: inverse DA filtering result function + \arg ENET_MULTICAST_FILTER_PASS: pass all multicast frames function + \arg ENET_MULTICAST_FILTER_HASH_MODE: HASH multicast filter function + \arg ENET_UNICAST_FILTER_HASH_MODE: HASH unicast filter function + \arg ENET_FILTER_MODE_EITHER: HASH or perfect filter function + \param[out] none + \retval none +*/ +void enet_fliter_feature_enable(uint32_t feature) +{ + ENET_MAC_FRMF |= feature; +} + +/*! + \brief disable ENET fliter feature + \param[in] feature: the feature of ENET fliter mode, + one or more parameters can be selected which are shown as below + \arg ENET_SRC_FILTER: filter source address function + \arg ENET_SRC_FILTER_INVERSE: inverse source address filtering result function + \arg ENET_DEST_FILTER_INVERSE: inverse DA filtering result function + \arg ENET_MULTICAST_FILTER_PASS: pass all multicast frames function + \arg ENET_MULTICAST_FILTER_HASH_MODE: HASH multicast filter function + \arg ENET_UNICAST_FILTER_HASH_MODE: HASH unicast filter function + \arg ENET_FILTER_MODE_EITHER: HASH or perfect filter function + \param[out] none + \retval none +*/ +void enet_fliter_feature_disable(uint32_t feature) +{ + ENET_MAC_FRMF &= ~feature; +} + +/*! + \brief generate the pause frame, ENET will send pause frame after enable transmit flow control + this function only use in full-dulex mode + \param[in] none + \param[out] none + \retval ErrStatus: ERROR or SUCCESS +*/ +ErrStatus enet_pauseframe_generate(void) +{ + ErrStatus enet_state =ERROR; + uint32_t temp = 0U; + + /* in full-duplex mode, must make sure this bit is 0 before writing register */ + temp = ENET_MAC_FCTL & ENET_MAC_FCTL_FLCBBKPA; + if(RESET == temp){ + ENET_MAC_FCTL |= ENET_MAC_FCTL_FLCBBKPA; + enet_state = SUCCESS; + } + return enet_state; +} + +/*! + \brief configure the pause frame detect type + \param[in] detect: pause frame detect type, + only one parameter can be selected which is shown as below + \arg ENET_MAC0_AND_UNIQUE_ADDRESS_PAUSEDETECT: besides the unique multicast address, MAC can also + use the MAC0 address to detecting pause frame + \arg ENET_UNIQUE_PAUSEDETECT: only the unique multicast address for pause frame which is specified + in IEEE802.3 can be detected + \param[out] none + \retval none +*/ +void enet_pauseframe_detect_config(uint32_t detect) +{ + ENET_MAC_FCTL &= ~ENET_MAC_FCTL_UPFDT; + ENET_MAC_FCTL |= detect; +} + +/*! + \brief configure the pause frame parameters + \param[in] pausetime: pause time in transmit pause control frame + \param[in] pause_threshold: the threshold of the pause timer for retransmitting frames automatically, + this value must make sure to be less than configured pause time, only one parameter can be + selected which is shown as below + \arg ENET_PAUSETIME_MINUS4: pause time minus 4 slot times + \arg ENET_PAUSETIME_MINUS28: pause time minus 28 slot times + \arg ENET_PAUSETIME_MINUS144: pause time minus 144 slot times + \arg ENET_PAUSETIME_MINUS256: pause time minus 256 slot times + \param[out] none + \retval none +*/ +void enet_pauseframe_config(uint32_t pausetime, uint32_t pause_threshold) +{ + ENET_MAC_FCTL &= ~(ENET_MAC_FCTL_PTM | ENET_MAC_FCTL_PLTS); + ENET_MAC_FCTL |= (MAC_FCTL_PTM(pausetime) | pause_threshold); +} + +/*! + \brief configure the threshold of the flow control(deactive and active threshold) + \param[in] deactive: the threshold of the deactive flow control, this value + should always be less than active flow control value, only one + parameter can be selected which is shown as below + \arg ENET_DEACTIVE_THRESHOLD_256BYTES: threshold level is 256 bytes + \arg ENET_DEACTIVE_THRESHOLD_512BYTES: threshold level is 512 bytes + \arg ENET_DEACTIVE_THRESHOLD_768BYTES: threshold level is 768 bytes + \arg ENET_DEACTIVE_THRESHOLD_1024BYTES: threshold level is 1024 bytes + \arg ENET_DEACTIVE_THRESHOLD_1280BYTES: threshold level is 1280 bytes + \arg ENET_DEACTIVE_THRESHOLD_1536BYTES: threshold level is 1536 bytes + \arg ENET_DEACTIVE_THRESHOLD_1792BYTES: threshold level is 1792 bytes + \param[in] active: the threshold of the active flow control, only one parameter + can be selected which is shown as below + \arg ENET_ACTIVE_THRESHOLD_256BYTES: threshold level is 256 bytes + \arg ENET_ACTIVE_THRESHOLD_512BYTES: threshold level is 512 bytes + \arg ENET_ACTIVE_THRESHOLD_768BYTES: threshold level is 768 bytes + \arg ENET_ACTIVE_THRESHOLD_1024BYTES: threshold level is 1024 bytes + \arg ENET_ACTIVE_THRESHOLD_1280BYTES: threshold level is 1280 bytes + \arg ENET_ACTIVE_THRESHOLD_1536BYTES: threshold level is 1536 bytes + \arg ENET_ACTIVE_THRESHOLD_1792BYTES: threshold level is 1792 bytes + \param[out] none + \retval none +*/ +void enet_flowcontrol_threshold_config(uint32_t deactive, uint32_t active) +{ + ENET_MAC_FCTH = ((deactive | active) >> 8); +} + +/*! + \brief enable ENET flow control feature + \param[in] feature: the feature of ENET flow control mode + one or more parameters can be selected which are shown as below + \arg ENET_ZERO_QUANTA_PAUSE: the automatic zero-quanta generation function + \arg ENET_TX_FLOWCONTROL: the flow control operation in the MAC + \arg ENET_RX_FLOWCONTROL: decoding function for the received pause frame and process it + \arg ENET_BACK_PRESSURE: back pressure operation in the MAC(only use in half-dulex mode) + \param[out] none + \retval none +*/ +void enet_flowcontrol_feature_enable(uint32_t feature) +{ + if(RESET != (feature & ENET_ZERO_QUANTA_PAUSE)){ + ENET_MAC_FCTL &= ~ENET_ZERO_QUANTA_PAUSE; + } + feature &= ~ENET_ZERO_QUANTA_PAUSE; + ENET_MAC_FCTL |= feature; +} + +/*! + \brief disable ENET flow control feature + \param[in] feature: the feature of ENET flow control mode + one or more parameters can be selected which are shown as below + \arg ENET_ZERO_QUANTA_PAUSE: the automatic zero-quanta generation function + \arg ENET_TX_FLOWCONTROL: the flow control operation in the MAC + \arg ENET_RX_FLOWCONTROL: decoding function for the received pause frame and process it + \arg ENET_BACK_PRESSURE: back pressure operation in the MAC(only use in half-dulex mode) + \param[out] none + \retval none +*/ +void enet_flowcontrol_feature_disable(uint32_t feature) +{ + if(RESET != (feature & ENET_ZERO_QUANTA_PAUSE)){ + ENET_MAC_FCTL |= ENET_ZERO_QUANTA_PAUSE; + } + feature &= ~ENET_ZERO_QUANTA_PAUSE; + ENET_MAC_FCTL &= ~feature; +} + +/*! + \brief get the dma transmit/receive process state + \param[in] direction: choose the direction of dma process which users want to check, + refer to enet_dmadirection_enum, only one parameter can be selected which is shown as below + \arg ENET_DMA_TX: dma transmit process + \arg ENET_DMA_RX: dma receive process + \param[out] none + \retval state of dma process, the value range shows below: + ENET_RX_STATE_STOPPED, ENET_RX_STATE_FETCHING, ENET_RX_STATE_WAITING, + ENET_RX_STATE_SUSPENDED, ENET_RX_STATE_CLOSING, ENET_RX_STATE_QUEUING, + ENET_TX_STATE_STOPPED, ENET_TX_STATE_FETCHING, ENET_TX_STATE_WAITING, + ENET_TX_STATE_READING, ENET_TX_STATE_SUSPENDED, ENET_TX_STATE_CLOSING +*/ +uint32_t enet_dmaprocess_state_get(enet_dmadirection_enum direction) +{ + uint32_t reval; + reval = (uint32_t)(ENET_DMA_STAT & (uint32_t)direction); + return reval; +} + +/*! + \brief poll the DMA transmission/reception enable by writing any value to the + ENET_DMA_TPEN/ENET_DMA_RPEN register, this will make the DMA to resume transmission/reception + \param[in] direction: choose the direction of DMA process which users want to resume, + refer to enet_dmadirection_enum, only one parameter can be selected which is shown as below + \arg ENET_DMA_TX: DMA transmit process + \arg ENET_DMA_RX: DMA receive process + \param[out] none + \retval none +*/ +void enet_dmaprocess_resume(enet_dmadirection_enum direction) +{ + if(ENET_DMA_TX == direction){ + ENET_DMA_TPEN = 0U; + }else{ + ENET_DMA_RPEN = 0U; + } +} + +/*! + \brief check and recover the Rx process + \param[in] none + \param[out] none + \retval none +*/ +void enet_rxprocess_check_recovery(void) +{ + uint32_t status; + + /* get DAV information of current RxDMA descriptor */ + status = dma_current_rxdesc->status; + status &= ENET_RDES0_DAV; + + /* if current descriptor is owned by DMA, but the descriptor address mismatches with + receive descriptor address pointer updated by RxDMA controller */ + if((ENET_DMA_CRDADDR != ((uint32_t)dma_current_rxdesc)) && + (ENET_RDES0_DAV == status)){ + dma_current_rxdesc = (enet_descriptors_struct*)ENET_DMA_CRDADDR; + } +} + +/*! + \brief flush the ENET transmit FIFO, and wait until the flush operation completes + \param[in] none + \param[out] none + \retval ErrStatus: ERROR or SUCCESS +*/ +ErrStatus enet_txfifo_flush(void) +{ + uint32_t flush_state; + uint32_t timeout = 0U; + ErrStatus enet_state = ERROR; + + /* set the FTF bit for flushing transmit FIFO */ + ENET_DMA_CTL |= ENET_DMA_CTL_FTF; + /* wait until the flush operation completes */ + do{ + flush_state = ENET_DMA_CTL & ENET_DMA_CTL_FTF; + timeout++; + }while((RESET != flush_state) && (timeout < ENET_DELAY_TO)); + /* return ERROR due to timeout */ + if(RESET == flush_state){ + enet_state = SUCCESS; + } + + return enet_state; +} + +/*! + \brief get the transmit/receive address of current descriptor, or current buffer, or descriptor table + \param[in] addr_get: choose the address which users want to get, refer to enet_desc_reg_enum, + only one parameter can be selected which is shown as below + \arg ENET_RX_DESC_TABLE: the start address of the receive descriptor table + \arg ENET_RX_CURRENT_DESC: the start descriptor address of the current receive descriptor read by + the RxDMA controller + \arg ENET_RX_CURRENT_BUFFER: the current receive buffer address being read by the RxDMA controller + \arg ENET_TX_DESC_TABLE: the start address of the transmit descriptor table + \arg ENET_TX_CURRENT_DESC: the start descriptor address of the current transmit descriptor read by + the TxDMA controller + \arg ENET_TX_CURRENT_BUFFER: the current transmit buffer address being read by the TxDMA controller + \param[out] none + \retval address value +*/ +uint32_t enet_current_desc_address_get(enet_desc_reg_enum addr_get) +{ + uint32_t reval = 0U; + + reval = REG32((ENET) +(uint32_t)addr_get); + return reval; +} + +/*! + \brief get the Tx or Rx descriptor information + \param[in] desc: the descriptor pointer which users want to get information + \param[in] info_get: the descriptor information type which is selected, + only one parameter can be selected which is shown as below + \arg RXDESC_BUFFER_1_SIZE: receive buffer 1 size + \arg RXDESC_BUFFER_2_SIZE: receive buffer 2 size + \arg RXDESC_FRAME_LENGTH: the byte length of the received frame that was transferred to the buffer + \arg TXDESC_COLLISION_COUNT: the number of collisions occurred before the frame was transmitted + \arg RXDESC_BUFFER_1_ADDR: the buffer1 address of the Rx frame + \arg TXDESC_BUFFER_1_ADDR: the buffer1 address of the Tx frame + \param[out] none + \retval descriptor information, if value is 0xFFFFFFFFU, means the false input parameter +*/ +uint32_t enet_desc_information_get(enet_descriptors_struct *desc, enet_descstate_enum info_get) +{ + uint32_t reval = 0xFFFFFFFFU; + + switch(info_get){ + case RXDESC_BUFFER_1_SIZE: + reval = GET_RDES1_RB1S(desc->control_buffer_size); + break; + case RXDESC_BUFFER_2_SIZE: + reval = GET_RDES1_RB2S(desc->control_buffer_size); + break; + case RXDESC_FRAME_LENGTH: + reval = GET_RDES0_FRML(desc->status); + if(reval > 4U){ + reval = reval - 4U; + + /* if is a type frame, and CRC is not included in forwarding frame */ + if((RESET != (ENET_MAC_CFG & ENET_MAC_CFG_TFCD)) && (RESET != (desc->status & ENET_RDES0_FRMT))){ + reval = reval + 4U; + } + }else{ + reval = 0U; + } + + break; + case RXDESC_BUFFER_1_ADDR: + reval = desc->buffer1_addr; + break; + case TXDESC_BUFFER_1_ADDR: + reval = desc->buffer1_addr; + break; + case TXDESC_COLLISION_COUNT: + reval = GET_TDES0_COCNT(desc->status); + break; + default: + break; + } + return reval; +} + +/*! + \brief get the number of missed frames during receiving + \param[in] none + \param[out] rxfifo_drop: pointer to the number of frames dropped by RxFIFO + \param[out] rxdma_drop: pointer to the number of frames missed by the RxDMA controller + \retval none +*/ +void enet_missed_frame_counter_get(uint32_t *rxfifo_drop, uint32_t *rxdma_drop) +{ + uint32_t temp_counter = 0U; + + temp_counter = ENET_DMA_MFBOCNT; + *rxfifo_drop = GET_DMA_MFBOCNT_MSFA(temp_counter); + *rxdma_drop = GET_DMA_MFBOCNT_MSFC(temp_counter); +} + +/*! + \brief get the bit flag of ENET DMA descriptor + \param[in] desc: the descriptor pointer which users want to get flag + \param[in] desc_flag: the bit flag of ENET DMA descriptor, + only one parameter can be selected which is shown as below + \arg ENET_TDES0_DB: deferred + \arg ENET_TDES0_UFE: underflow error + \arg ENET_TDES0_EXD: excessive deferral + \arg ENET_TDES0_VFRM: VLAN frame + \arg ENET_TDES0_ECO: excessive collision + \arg ENET_TDES0_LCO: late collision + \arg ENET_TDES0_NCA: no carrier + \arg ENET_TDES0_LCA: loss of carrier + \arg ENET_TDES0_IPPE: IP payload error + \arg ENET_TDES0_FRMF: frame flushed + \arg ENET_TDES0_JT: jabber timeout + \arg ENET_TDES0_ES: error summary + \arg ENET_TDES0_IPHE: IP header error + \arg ENET_TDES0_TTMSS: transmit timestamp status + \arg ENET_TDES0_TCHM: the second address chained mode + \arg ENET_TDES0_TERM: transmit end of ring mode + \arg ENET_TDES0_TTSEN: transmit timestamp function enable + \arg ENET_TDES0_DPAD: disable adding pad + \arg ENET_TDES0_DCRC: disable CRC + \arg ENET_TDES0_FSG: first segment + \arg ENET_TDES0_LSG: last segment + \arg ENET_TDES0_INTC: interrupt on completion + \arg ENET_TDES0_DAV: DAV bit + + \arg ENET_RDES0_PCERR: payload checksum error + \arg ENET_RDES0_EXSV: extended status valid + \arg ENET_RDES0_CERR: CRC error + \arg ENET_RDES0_DBERR: dribble bit error + \arg ENET_RDES0_RERR: receive error + \arg ENET_RDES0_RWDT: receive watchdog timeout + \arg ENET_RDES0_FRMT: frame type + \arg ENET_RDES0_LCO: late collision + \arg ENET_RDES0_IPHERR: IP frame header error + \arg ENET_RDES0_TSV: timestamp valid + \arg ENET_RDES0_LDES: last descriptor + \arg ENET_RDES0_FDES: first descriptor + \arg ENET_RDES0_VTAG: VLAN tag + \arg ENET_RDES0_OERR: overflow error + \arg ENET_RDES0_LERR: length error + \arg ENET_RDES0_SAFF: SA filter fail + \arg ENET_RDES0_DERR: descriptor error + \arg ENET_RDES0_ERRS: error summary + \arg ENET_RDES0_DAFF: destination address filter fail + \arg ENET_RDES0_DAV: descriptor available + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus enet_desc_flag_get(enet_descriptors_struct *desc, uint32_t desc_flag) +{ + FlagStatus enet_flag = RESET; + + if((uint32_t)RESET != (desc->status & desc_flag)){ + enet_flag = SET; + } + + return enet_flag; +} + +/*! + \brief set the bit flag of ENET DMA descriptor + \param[in] desc: the descriptor pointer which users want to set flag + \param[in] desc_flag: the bit flag of ENET DMA descriptor, + only one parameter can be selected which is shown as below + \arg ENET_TDES0_VFRM: VLAN frame + \arg ENET_TDES0_FRMF: frame flushed + \arg ENET_TDES0_TCHM: the second address chained mode + \arg ENET_TDES0_TERM: transmit end of ring mode + \arg ENET_TDES0_TTSEN: transmit timestamp function enable + \arg ENET_TDES0_DPAD: disable adding pad + \arg ENET_TDES0_DCRC: disable CRC + \arg ENET_TDES0_FSG: first segment + \arg ENET_TDES0_LSG: last segment + \arg ENET_TDES0_INTC: interrupt on completion + \arg ENET_TDES0_DAV: DAV bit + \arg ENET_RDES0_DAV: descriptor available + \param[out] none + \retval none +*/ +void enet_desc_flag_set(enet_descriptors_struct *desc, uint32_t desc_flag) +{ + desc->status |= desc_flag; +} + +/*! + \brief clear the bit flag of ENET DMA descriptor + \param[in] desc: the descriptor pointer which users want to clear flag + \param[in] desc_flag: the bit flag of ENET DMA descriptor, + only one parameter can be selected which is shown as below + \arg ENET_TDES0_VFRM: VLAN frame + \arg ENET_TDES0_FRMF: frame flushed + \arg ENET_TDES0_TCHM: the second address chained mode + \arg ENET_TDES0_TERM: transmit end of ring mode + \arg ENET_TDES0_TTSEN: transmit timestamp function enable + \arg ENET_TDES0_DPAD: disable adding pad + \arg ENET_TDES0_DCRC: disable CRC + \arg ENET_TDES0_FSG: first segment + \arg ENET_TDES0_LSG: last segment + \arg ENET_TDES0_INTC: interrupt on completion + \arg ENET_TDES0_DAV: DAV bit + \arg ENET_RDES0_DAV: descriptor available + \param[out] none + \retval none +*/ +void enet_desc_flag_clear(enet_descriptors_struct *desc, uint32_t desc_flag) +{ + desc->status &= ~desc_flag; +} + +/*! + \brief when receiving completed, set RS bit in ENET_DMA_STAT register will immediately set + \param[in] desc: the descriptor pointer which users want to configure + \param[out] none + \retval none +*/ +void enet_rx_desc_immediate_receive_complete_interrupt(enet_descriptors_struct *desc) +{ + desc->control_buffer_size &= ~ENET_RDES1_DINTC; +} + +/*! + \brief when receiving completed, set RS bit in ENET_DMA_STAT register will is set after a configurable delay time + \param[in] desc: the descriptor pointer which users want to configure + \param[in] delay_time: delay a time of 256*delay_time HCLK, this value must be between 0 and 0xFF + \param[out] none + \retval none +*/ +void enet_rx_desc_delay_receive_complete_interrupt(enet_descriptors_struct *desc, uint32_t delay_time) +{ + desc->control_buffer_size |= ENET_RDES1_DINTC; + ENET_DMA_RSWDC = DMA_RSWDC_WDCFRS(delay_time); +} + +/*! + \brief drop current receive frame + \param[in] none + \param[out] none + \retval none +*/ +void enet_rxframe_drop(void) +{ + /* enable reception, descriptor is owned by DMA */ + dma_current_rxdesc->status = ENET_RDES0_DAV; + + /* chained mode */ + if((uint32_t)RESET != (dma_current_rxdesc->control_buffer_size & ENET_RDES1_RCHM)){ + if(NULL != dma_current_ptp_rxdesc){ + dma_current_rxdesc = (enet_descriptors_struct*) (dma_current_ptp_rxdesc->buffer2_next_desc_addr); + /* if it is the last ptp descriptor */ + if(0U != dma_current_ptp_rxdesc->status){ + /* pointer back to the first ptp descriptor address in the desc_ptptab list address */ + dma_current_ptp_rxdesc = (enet_descriptors_struct*) (dma_current_ptp_rxdesc->status); + }else{ + /* ponter to the next ptp descriptor */ + dma_current_ptp_rxdesc++; + } + }else{ + dma_current_rxdesc = (enet_descriptors_struct*) (dma_current_rxdesc->buffer2_next_desc_addr); + } + + }else{ + /* ring mode */ + if((uint32_t)RESET != (dma_current_rxdesc->control_buffer_size & ENET_RDES1_RERM)){ + /* if is the last descriptor in table, the next descriptor is the table header */ + dma_current_rxdesc = (enet_descriptors_struct*) (ENET_DMA_RDTADDR); + if(NULL != dma_current_ptp_rxdesc){ + dma_current_ptp_rxdesc = (enet_descriptors_struct*) (dma_current_ptp_rxdesc->status); + } + }else{ + /* the next descriptor is the current address, add the descriptor size, and descriptor skip length */ + dma_current_rxdesc = (enet_descriptors_struct*) (uint32_t)((uint32_t)dma_current_rxdesc + ETH_DMARXDESC_SIZE + GET_DMA_BCTL_DPSL(ENET_DMA_BCTL)); + if(NULL != dma_current_ptp_rxdesc){ + dma_current_ptp_rxdesc++; + } + } + } +} + +/*! + \brief enable DMA feature + \param[in] feature: the feature of DMA mode, + one or more parameters can be selected which are shown as below + \arg ENET_NO_FLUSH_RXFRAME: RxDMA does not flushes frames function + \arg ENET_SECONDFRAME_OPT: TxDMA controller operate on second frame function + \param[out] none + \retval none +*/ +void enet_dma_feature_enable(uint32_t feature) +{ + ENET_DMA_CTL |= feature; +} + +/*! + \brief disable DMA feature + \param[in] feature: the feature of DMA mode, + one or more parameters can be selected which are shown as below + \arg ENET_NO_FLUSH_RXFRAME: RxDMA does not flushes frames function + \arg ENET_SECONDFRAME_OPT: TxDMA controller operate on second frame function + \param[out] none + \retval none +*/ +void enet_dma_feature_disable(uint32_t feature) +{ + ENET_DMA_CTL &= ~feature; +} + +#ifdef SELECT_DESCRIPTORS_ENHANCED_MODE +/*! + \brief get the bit of extended status flag in ENET DMA descriptor + \param[in] desc: the descriptor pointer which users want to get the extended status flag + \param[in] desc_status: the extended status want to get, + only one parameter can be selected which is shown as below + \arg ENET_RDES4_IPPLDT: IP frame payload type + \arg ENET_RDES4_IPHERR: IP frame header error + \arg ENET_RDES4_IPPLDERR: IP frame payload error + \arg ENET_RDES4_IPCKSB: IP frame checksum bypassed + \arg ENET_RDES4_IPF4: IP frame in version 4 + \arg ENET_RDES4_IPF6: IP frame in version 6 + \arg ENET_RDES4_PTPMT: PTP message type + \arg ENET_RDES4_PTPOEF: PTP on ethernet frame + \arg ENET_RDES4_PTPVF: PTP version format + \param[out] none + \retval value of extended status +*/ +uint32_t enet_rx_desc_enhanced_status_get(enet_descriptors_struct *desc, uint32_t desc_status) +{ + uint32_t reval = 0xFFFFFFFFU; + + switch (desc_status){ + case ENET_RDES4_IPPLDT: + reval = GET_RDES4_IPPLDT(desc->extended_status); + break; + case ENET_RDES4_PTPMT: + reval = GET_RDES4_PTPMT(desc->extended_status); + break; + default: + if ((uint32_t)RESET != (desc->extended_status & desc_status)){ + reval = 1U; + }else{ + reval = 0U; + } + } + + return reval; +} + +/*! + \brief configure descriptor to work in enhanced mode + \param[in] none + \param[out] none + \retval none +*/ +void enet_desc_select_enhanced_mode(void) +{ + ENET_DMA_BCTL |= ENET_DMA_BCTL_DFM; +} + +/*! + \brief initialize the DMA Tx/Rx descriptors's parameters in enhanced chain mode with ptp function + \param[in] direction: the descriptors which users want to init, refer to enet_dmadirection_enum, + only one parameter can be selected which is shown as below + \arg ENET_DMA_TX: DMA Tx descriptors + \arg ENET_DMA_RX: DMA Rx descriptors + \param[out] none + \retval none +*/ +void enet_ptp_enhanced_descriptors_chain_init(enet_dmadirection_enum direction) +{ + uint32_t num = 0U, count = 0U, maxsize = 0U; + uint32_t desc_status = 0U, desc_bufsize = 0U; + enet_descriptors_struct *desc, *desc_tab; + uint8_t *buf; + + /* if want to initialize DMA Tx descriptors */ + if (ENET_DMA_TX == direction){ + /* save a copy of the DMA Tx descriptors */ + desc_tab = txdesc_tab; + buf = &tx_buff[0][0]; + count = ENET_TXBUF_NUM; + maxsize = ENET_TXBUF_SIZE; + + /* select chain mode, and enable transmit timestamp function */ + desc_status = ENET_TDES0_TCHM | ENET_TDES0_TTSEN; + + /* configure DMA Tx descriptor table address register */ + ENET_DMA_TDTADDR = (uint32_t)desc_tab; + dma_current_txdesc = desc_tab; + }else{ + /* if want to initialize DMA Rx descriptors */ + /* save a copy of the DMA Rx descriptors */ + desc_tab = rxdesc_tab; + buf = &rx_buff[0][0]; + count = ENET_RXBUF_NUM; + maxsize = ENET_RXBUF_SIZE; + + /* enable receiving */ + desc_status = ENET_RDES0_DAV; + /* select receive chained mode and set buffer1 size */ + desc_bufsize = ENET_RDES1_RCHM | (uint32_t)ENET_RXBUF_SIZE; + + /* configure DMA Rx descriptor table address register */ + ENET_DMA_RDTADDR = (uint32_t)desc_tab; + dma_current_rxdesc = desc_tab; + } + + /* configuration each descriptor */ + for(num = 0U; num < count; num++){ + /* get the pointer to the next descriptor of the descriptor table */ + desc = desc_tab + num; + + /* configure descriptors */ + desc->status = desc_status; + desc->control_buffer_size = desc_bufsize; + desc->buffer1_addr = (uint32_t)(&buf[num * maxsize]); + + /* if is not the last descriptor */ + if(num < (count - 1U)){ + /* configure the next descriptor address */ + desc->buffer2_next_desc_addr = (uint32_t)(desc_tab + num + 1U); + }else{ + /* when it is the last descriptor, the next descriptor address + equals to first descriptor address in descriptor table */ + desc->buffer2_next_desc_addr = (uint32_t)desc_tab; + } + } +} + +/*! + \brief initialize the DMA Tx/Rx descriptors's parameters in enhanced ring mode with ptp function + \param[in] direction: the descriptors which users want to init, refer to enet_dmadirection_enum, + only one parameter can be selected which is shown as below + \arg ENET_DMA_TX: DMA Tx descriptors + \arg ENET_DMA_RX: DMA Rx descriptors + \param[out] none + \retval none +*/ +void enet_ptp_enhanced_descriptors_ring_init(enet_dmadirection_enum direction) +{ + uint32_t num = 0U, count = 0U, maxsize = 0U; + uint32_t desc_status = 0U, desc_bufsize = 0U; + enet_descriptors_struct *desc; + enet_descriptors_struct *desc_tab; + uint8_t *buf; + + /* configure descriptor skip length */ + ENET_DMA_BCTL &= ~ENET_DMA_BCTL_DPSL; + ENET_DMA_BCTL |= DMA_BCTL_DPSL(0); + + /* if want to initialize DMA Tx descriptors */ + if (ENET_DMA_TX == direction){ + /* save a copy of the DMA Tx descriptors */ + desc_tab = txdesc_tab; + buf = &tx_buff[0][0]; + count = ENET_TXBUF_NUM; + maxsize = ENET_TXBUF_SIZE; + + /* select ring mode, and enable transmit timestamp function */ + desc_status = ENET_TDES0_TTSEN; + + /* configure DMA Tx descriptor table address register */ + ENET_DMA_TDTADDR = (uint32_t)desc_tab; + dma_current_txdesc = desc_tab; + }else{ + /* if want to initialize DMA Rx descriptors */ + /* save a copy of the DMA Rx descriptors */ + desc_tab = rxdesc_tab; + buf = &rx_buff[0][0]; + count = ENET_RXBUF_NUM; + maxsize = ENET_RXBUF_SIZE; + + /* enable receiving */ + desc_status = ENET_RDES0_DAV; + /* set buffer1 size */ + desc_bufsize = ENET_RXBUF_SIZE; + + /* configure DMA Rx descriptor table address register */ + ENET_DMA_RDTADDR = (uint32_t)desc_tab; + dma_current_rxdesc = desc_tab; + } + + /* configure each descriptor */ + for(num=0U; num < count; num++){ + /* get the pointer to the next descriptor of the descriptor table */ + desc = desc_tab + num; + + /* configure descriptors */ + desc->status = desc_status; + desc->control_buffer_size = desc_bufsize; + desc->buffer1_addr = (uint32_t)(&buf[num * maxsize]); + + /* when it is the last descriptor */ + if(num == (count - 1U)){ + if (ENET_DMA_TX == direction){ + /* configure transmit end of ring mode */ + desc->status |= ENET_TDES0_TERM; + }else{ + /* configure receive end of ring mode */ + desc->control_buffer_size |= ENET_RDES1_RERM; + } + } + } +} + +/*! + \brief receive a packet data with timestamp values to application buffer, when the DMA is in enhanced mode + \param[in] bufsize: the size of buffer which is the parameter in function + \param[out] buffer: pointer to the application buffer + note -- if the input is NULL, user should copy data in application by himself + \param[out] timestamp: pointer to the table which stores the timestamp high and low + note -- if the input is NULL, timestamp is ignored + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus enet_ptpframe_receive_enhanced_mode(uint8_t *buffer, uint32_t bufsize, uint32_t timestamp[]) +{ + uint32_t offset = 0U, size = 0U; + uint32_t timeout = 0U; + uint32_t rdes0_tsv_flag; + + /* the descriptor is busy due to own by the DMA */ + if((uint32_t)RESET != (dma_current_rxdesc->status & ENET_RDES0_DAV)){ + return ERROR; + } + + /* if buffer pointer is null, indicates that users has copied data in application */ + if(NULL != buffer){ + /* if no error occurs, and the frame uses only one descriptor */ + if(((uint32_t)RESET == (dma_current_rxdesc->status & ENET_RDES0_ERRS)) && + ((uint32_t)RESET != (dma_current_rxdesc->status & ENET_RDES0_LDES)) && + ((uint32_t)RESET != (dma_current_rxdesc->status & ENET_RDES0_FDES))){ + /* get the frame length except CRC */ + size = GET_RDES0_FRML(dma_current_rxdesc->status) - 4U; + + /* if is a type frame, and CRC is not included in forwarding frame */ + if((RESET != (ENET_MAC_CFG & ENET_MAC_CFG_TFCD)) && (RESET != (dma_current_rxdesc->status & ENET_RDES0_FRMT))){ + size = size + 4U; + } + + /* to avoid situation that the frame size exceeds the buffer length */ + if(size > bufsize){ + return ERROR; + } + + /* copy data from Rx buffer to application buffer */ + for(offset = 0; offset < size; offset++){ + (*(buffer + offset)) = (*(__IO uint8_t *)((dma_current_rxdesc->buffer1_addr) + offset)); + } + }else{ + return ERROR; + } + } + + /* if timestamp pointer is null, indicates that users don't care timestamp in application */ + if(NULL != timestamp){ + /* wait for ENET_RDES0_TSV flag to be set, the timestamp value is taken and + write to the RDES6 and RDES7 */ + do{ + rdes0_tsv_flag = (dma_current_rxdesc->status & ENET_RDES0_TSV); + timeout++; + }while ((RESET == rdes0_tsv_flag) && (timeout < ENET_DELAY_TO)); + + /* return ERROR due to timeout */ + if(ENET_DELAY_TO == timeout){ + return ERROR; + } + + /* clear the ENET_RDES0_TSV flag */ + dma_current_rxdesc->status &= ~ENET_RDES0_TSV; + /* get the timestamp value of the received frame */ + timestamp[0] = dma_current_rxdesc->timestamp_low; + timestamp[1] = dma_current_rxdesc->timestamp_high; + } + + /* enable reception, descriptor is owned by DMA */ + dma_current_rxdesc->status = ENET_RDES0_DAV; + + /* check Rx buffer unavailable flag status */ + if ((uint32_t)RESET != (ENET_DMA_STAT & ENET_DMA_STAT_RBU)){ + /* Clear RBU flag */ + ENET_DMA_STAT = ENET_DMA_STAT_RBU; + /* resume DMA reception by writing to the RPEN register*/ + ENET_DMA_RPEN = 0; + } + + /* update the current RxDMA descriptor pointer to the next decriptor in RxDMA decriptor table */ + /* chained mode */ + if((uint32_t)RESET != (dma_current_rxdesc->control_buffer_size & ENET_RDES1_RCHM)){ + dma_current_rxdesc = (enet_descriptors_struct*) (dma_current_rxdesc->buffer2_next_desc_addr); + }else{ + /* ring mode */ + if((uint32_t)RESET != (dma_current_rxdesc->control_buffer_size & ENET_RDES1_RERM)){ + /* if is the last descriptor in table, the next descriptor is the table header */ + dma_current_rxdesc = (enet_descriptors_struct*) (ENET_DMA_RDTADDR); + }else{ + /* the next descriptor is the current address, add the descriptor size, and descriptor skip length */ + dma_current_rxdesc = (enet_descriptors_struct*) ((uint32_t)dma_current_rxdesc + ETH_DMARXDESC_SIZE + GET_DMA_BCTL_DPSL(ENET_DMA_BCTL)); + } + } + + return SUCCESS; +} + +/*! + \brief send data with timestamp values in application buffer as a transmit packet, when the DMA is in enhanced mode + \param[in] buffer: pointer on the application buffer + note -- if the input is NULL, user should copy data in application by himself + \param[in] length: the length of frame data to be transmitted + \param[out] timestamp: pointer to the table which stores the timestamp high and low + note -- if the input is NULL, timestamp is ignored + \param[out] none + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus enet_ptpframe_transmit_enhanced_mode(uint8_t *buffer, uint32_t length, uint32_t timestamp[]) +{ + uint32_t offset = 0; + uint32_t dma_tbu_flag, dma_tu_flag; + uint32_t tdes0_ttmss_flag; + uint32_t timeout = 0; + + /* the descriptor is busy due to own by the DMA */ + if((uint32_t)RESET != (dma_current_txdesc->status & ENET_TDES0_DAV)){ + return ERROR; + } + + /* only frame length no more than ENET_MAX_FRAME_SIZE is allowed */ + if(length > ENET_MAX_FRAME_SIZE){ + return ERROR; + } + + /* if buffer pointer is null, indicates that users has handled data in application */ + if(NULL != buffer){ + /* copy frame data from application buffer to Tx buffer */ + for(offset = 0; offset < length; offset++){ + (*(__IO uint8_t *)((dma_current_txdesc->buffer1_addr) + offset)) = (*(buffer + offset)); + } + } + /* set the frame length */ + dma_current_txdesc->control_buffer_size = length; + /* set the segment of frame, frame is transmitted in one descriptor */ + dma_current_txdesc->status |= ENET_TDES0_LSG | ENET_TDES0_FSG; + /* enable the DMA transmission */ + dma_current_txdesc->status |= ENET_TDES0_DAV; + + /* check Tx buffer unavailable flag status */ + dma_tbu_flag = (ENET_DMA_STAT & ENET_DMA_STAT_TBU); + dma_tu_flag = (ENET_DMA_STAT & ENET_DMA_STAT_TU); + + if ((RESET != dma_tbu_flag) || (RESET != dma_tu_flag)){ + /* Clear TBU and TU flag */ + ENET_DMA_STAT = (dma_tbu_flag | dma_tu_flag); + /* resume DMA transmission by writing to the TPEN register*/ + ENET_DMA_TPEN = 0; + } + + /* if timestamp pointer is null, indicates that users don't care timestamp in application */ + if(NULL != timestamp){ + /* wait for ENET_TDES0_TTMSS flag to be set, a timestamp was captured */ + do{ + tdes0_ttmss_flag = (dma_current_txdesc->status & ENET_TDES0_TTMSS); + timeout++; + }while((RESET == tdes0_ttmss_flag) && (timeout < ENET_DELAY_TO)); + + /* return ERROR due to timeout */ + if(ENET_DELAY_TO == timeout){ + return ERROR; + } + + /* clear the ENET_TDES0_TTMSS flag */ + dma_current_txdesc->status &= ~ENET_TDES0_TTMSS; + /* get the timestamp value of the transmit frame */ + timestamp[0] = dma_current_txdesc->timestamp_low; + timestamp[1] = dma_current_txdesc->timestamp_high; + } + + /* update the current TxDMA descriptor pointer to the next decriptor in TxDMA decriptor table*/ + /* chained mode */ + if((uint32_t)RESET != (dma_current_txdesc->status & ENET_TDES0_TCHM)){ + dma_current_txdesc = (enet_descriptors_struct*) (dma_current_txdesc->buffer2_next_desc_addr); + }else{ + /* ring mode */ + if((uint32_t)RESET != (dma_current_txdesc->status & ENET_TDES0_TERM)){ + /* if is the last descriptor in table, the next descriptor is the table header */ + dma_current_txdesc = (enet_descriptors_struct*) (ENET_DMA_TDTADDR); + }else{ + /* the next descriptor is the current address, add the descriptor size, and descriptor skip length */ + dma_current_txdesc = (enet_descriptors_struct*) ((uint32_t)dma_current_txdesc + ETH_DMATXDESC_SIZE + GET_DMA_BCTL_DPSL(ENET_DMA_BCTL)); + } + } + + return SUCCESS; +} + +#else + +/*! + \brief configure descriptor to work in normal mode + \param[in] none + \param[out] none + \retval none +*/ +void enet_desc_select_normal_mode(void) +{ + ENET_DMA_BCTL &= ~ENET_DMA_BCTL_DFM; +} + +/*! + \brief initialize the DMA Tx/Rx descriptors's parameters in normal chain mode with PTP function + \param[in] direction: the descriptors which users want to init, refer to enet_dmadirection_enum, + only one parameter can be selected which is shown as below + \arg ENET_DMA_TX: DMA Tx descriptors + \arg ENET_DMA_RX: DMA Rx descriptors + \param[in] desc_ptptab: pointer to the first descriptor address of PTP Rx descriptor table + \param[out] none + \retval none +*/ +void enet_ptp_normal_descriptors_chain_init(enet_dmadirection_enum direction, enet_descriptors_struct *desc_ptptab) +{ + uint32_t num = 0U, count = 0U, maxsize = 0U; + uint32_t desc_status = 0U, desc_bufsize = 0U; + enet_descriptors_struct *desc, *desc_tab; + uint8_t *buf; + + /* if want to initialize DMA Tx descriptors */ + if(ENET_DMA_TX == direction){ + /* save a copy of the DMA Tx descriptors */ + desc_tab = txdesc_tab; + buf = &tx_buff[0][0]; + count = ENET_TXBUF_NUM; + maxsize = ENET_TXBUF_SIZE; + + /* select chain mode, and enable transmit timestamp function */ + desc_status = ENET_TDES0_TCHM | ENET_TDES0_TTSEN; + + /* configure DMA Tx descriptor table address register */ + ENET_DMA_TDTADDR = (uint32_t)desc_tab; + dma_current_txdesc = desc_tab; + dma_current_ptp_txdesc = desc_ptptab; + }else{ + /* if want to initialize DMA Rx descriptors */ + /* save a copy of the DMA Rx descriptors */ + desc_tab = rxdesc_tab; + buf = &rx_buff[0][0]; + count = ENET_RXBUF_NUM; + maxsize = ENET_RXBUF_SIZE; + + /* enable receiving */ + desc_status = ENET_RDES0_DAV; + /* select receive chained mode and set buffer1 size */ + desc_bufsize = ENET_RDES1_RCHM | (uint32_t)ENET_RXBUF_SIZE; + + /* configure DMA Rx descriptor table address register */ + ENET_DMA_RDTADDR = (uint32_t)desc_tab; + dma_current_rxdesc = desc_tab; + dma_current_ptp_rxdesc = desc_ptptab; + } + + /* configure each descriptor */ + for(num = 0U; num < count; num++){ + /* get the pointer to the next descriptor of the descriptor table */ + desc = desc_tab + num; + + /* configure descriptors */ + desc->status = desc_status; + desc->control_buffer_size = desc_bufsize; + desc->buffer1_addr = (uint32_t)(&buf[num * maxsize]); + + /* if is not the last descriptor */ + if(num < (count - 1U)){ + /* configure the next descriptor address */ + desc->buffer2_next_desc_addr = (uint32_t)(desc_tab + num + 1U); + }else{ + /* when it is the last descriptor, the next descriptor address + equals to first descriptor address in descriptor table */ + desc->buffer2_next_desc_addr = (uint32_t)desc_tab; + } + /* set desc_ptptab equal to desc_tab */ + (&desc_ptptab[num])->buffer1_addr = desc->buffer1_addr; + (&desc_ptptab[num])->buffer2_next_desc_addr = desc->buffer2_next_desc_addr; + } + /* when it is the last ptp descriptor, preserve the first descriptor + address of desc_ptptab in ptp descriptor status */ + (&desc_ptptab[num-1U])->status = (uint32_t)desc_ptptab; +} + +/*! + \brief initialize the DMA Tx/Rx descriptors's parameters in normal ring mode with PTP function + \param[in] direction: the descriptors which users want to init, refer to enet_dmadirection_enum, + only one parameter can be selected which is shown as below + \arg ENET_DMA_TX: DMA Tx descriptors + \arg ENET_DMA_RX: DMA Rx descriptors + \param[in] desc_ptptab: pointer to the first descriptor address of PTP Rx descriptor table + \param[out] none + \retval none +*/ +void enet_ptp_normal_descriptors_ring_init(enet_dmadirection_enum direction, enet_descriptors_struct *desc_ptptab) +{ + uint32_t num = 0U, count = 0U, maxsize = 0U; + uint32_t desc_status = 0U, desc_bufsize = 0U; + enet_descriptors_struct *desc, *desc_tab; + uint8_t *buf; + + /* configure descriptor skip length */ + ENET_DMA_BCTL &= ~ENET_DMA_BCTL_DPSL; + ENET_DMA_BCTL |= DMA_BCTL_DPSL(0); + + /* if want to initialize DMA Tx descriptors */ + if(ENET_DMA_TX == direction){ + /* save a copy of the DMA Tx descriptors */ + desc_tab = txdesc_tab; + buf = &tx_buff[0][0]; + count = ENET_TXBUF_NUM; + maxsize = ENET_TXBUF_SIZE; + + /* select ring mode, and enable transmit timestamp function */ + desc_status = ENET_TDES0_TTSEN; + + /* configure DMA Tx descriptor table address register */ + ENET_DMA_TDTADDR = (uint32_t)desc_tab; + dma_current_txdesc = desc_tab; + dma_current_ptp_txdesc = desc_ptptab; + }else{ + /* if want to initialize DMA Rx descriptors */ + /* save a copy of the DMA Rx descriptors */ + desc_tab = rxdesc_tab; + buf = &rx_buff[0][0]; + count = ENET_RXBUF_NUM; + maxsize = ENET_RXBUF_SIZE; + + /* enable receiving */ + desc_status = ENET_RDES0_DAV; + /* select receive ring mode and set buffer1 size */ + desc_bufsize = (uint32_t)ENET_RXBUF_SIZE; + + /* configure DMA Rx descriptor table address register */ + ENET_DMA_RDTADDR = (uint32_t)desc_tab; + dma_current_rxdesc = desc_tab; + dma_current_ptp_rxdesc = desc_ptptab; + } + + /* configure each descriptor */ + for(num = 0U; num < count; num++){ + /* get the pointer to the next descriptor of the descriptor table */ + desc = desc_tab + num; + + /* configure descriptors */ + desc->status = desc_status; + desc->control_buffer_size = desc_bufsize; + desc->buffer1_addr = (uint32_t)(&buf[num * maxsize]); + + /* when it is the last descriptor */ + if(num == (count - 1U)){ + if (ENET_DMA_TX == direction){ + /* configure transmit end of ring mode */ + desc->status |= ENET_TDES0_TERM; + }else{ + /* configure receive end of ring mode */ + desc->control_buffer_size |= ENET_RDES1_RERM; + } + } + /* set desc_ptptab equal to desc_tab */ + (&desc_ptptab[num])->buffer1_addr = desc->buffer1_addr; + (&desc_ptptab[num])->buffer2_next_desc_addr = desc->buffer2_next_desc_addr; + } + /* when it is the last ptp descriptor, preserve the first descriptor + address of desc_ptptab in ptp descriptor status */ + (&desc_ptptab[num-1U])->status = (uint32_t)desc_ptptab; +} + +/*! + \brief receive a packet data with timestamp values to application buffer, when the DMA is in normal mode + \param[in] bufsize: the size of buffer which is the parameter in function + \param[out] timestamp: pointer to the table which stores the timestamp high and low + \param[out] buffer: pointer to the application buffer + note -- if the input is NULL, user should copy data in application by himself + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus enet_ptpframe_receive_normal_mode(uint8_t *buffer, uint32_t bufsize, uint32_t timestamp[]) +{ + uint32_t offset = 0U, size = 0U; + + /* the descriptor is busy due to own by the DMA */ + if((uint32_t)RESET != (dma_current_rxdesc->status & ENET_RDES0_DAV)){ + return ERROR; + } + + /* if buffer pointer is null, indicates that users has copied data in application */ + if(NULL != buffer){ + /* if no error occurs, and the frame uses only one descriptor */ + if(((uint32_t)RESET == (dma_current_rxdesc->status & ENET_RDES0_ERRS)) && + ((uint32_t)RESET != (dma_current_rxdesc->status & ENET_RDES0_LDES)) && + ((uint32_t)RESET != (dma_current_rxdesc->status & ENET_RDES0_FDES))){ + + /* get the frame length except CRC */ + size = GET_RDES0_FRML(dma_current_rxdesc->status) - 4U; + /* if is a type frame, and CRC is not included in forwarding frame */ + if((RESET != (ENET_MAC_CFG & ENET_MAC_CFG_TFCD)) && (RESET != (dma_current_rxdesc->status & ENET_RDES0_FRMT))){ + size = size + 4U; + } + + /* to avoid situation that the frame size exceeds the buffer length */ + if(size > bufsize){ + return ERROR; + } + + /* copy data from Rx buffer to application buffer */ + for(offset = 0U; offset < size; offset++){ + (*(buffer + offset)) = (*(__IO uint8_t *)(uint32_t)((dma_current_ptp_rxdesc->buffer1_addr) + offset)); + } + + }else{ + return ERROR; + } + } + /* copy timestamp value from Rx descriptor to application array */ + timestamp[0] = dma_current_rxdesc->buffer1_addr; + timestamp[1] = dma_current_rxdesc->buffer2_next_desc_addr; + + dma_current_rxdesc->buffer1_addr = dma_current_ptp_rxdesc ->buffer1_addr ; + dma_current_rxdesc->buffer2_next_desc_addr = dma_current_ptp_rxdesc ->buffer2_next_desc_addr; + + /* enable reception, descriptor is owned by DMA */ + dma_current_rxdesc->status = ENET_RDES0_DAV; + + /* check Rx buffer unavailable flag status */ + if ((uint32_t)RESET != (ENET_DMA_STAT & ENET_DMA_STAT_RBU)){ + /* clear RBU flag */ + ENET_DMA_STAT = ENET_DMA_STAT_RBU; + /* resume DMA reception by writing to the RPEN register*/ + ENET_DMA_RPEN = 0U; + } + + /* update the current RxDMA descriptor pointer to the next decriptor in RxDMA decriptor table */ + /* chained mode */ + if((uint32_t)RESET != (dma_current_rxdesc->control_buffer_size & ENET_RDES1_RCHM)){ + dma_current_rxdesc = (enet_descriptors_struct*) (dma_current_ptp_rxdesc->buffer2_next_desc_addr); + /* if it is the last ptp descriptor */ + if(0U != dma_current_ptp_rxdesc->status){ + /* pointer back to the first ptp descriptor address in the desc_ptptab list address */ + dma_current_ptp_rxdesc = (enet_descriptors_struct*) (dma_current_ptp_rxdesc->status); + }else{ + /* ponter to the next ptp descriptor */ + dma_current_ptp_rxdesc++; + } + }else{ + /* ring mode */ + if((uint32_t)RESET != (dma_current_rxdesc->control_buffer_size & ENET_RDES1_RERM)){ + /* if is the last descriptor in table, the next descriptor is the table header */ + dma_current_rxdesc = (enet_descriptors_struct*) (ENET_DMA_RDTADDR); + /* RDES2 and RDES3 will not be covered by buffer address, so do not need to preserve a new table, + use the same table with RxDMA descriptor */ + dma_current_ptp_rxdesc = (enet_descriptors_struct*) (dma_current_ptp_rxdesc->status); + }else{ + /* the next descriptor is the current address, add the descriptor size, and descriptor skip length */ + dma_current_rxdesc = (enet_descriptors_struct*) (uint32_t)((uint32_t)dma_current_rxdesc + ETH_DMARXDESC_SIZE + GET_DMA_BCTL_DPSL(ENET_DMA_BCTL)); + dma_current_ptp_rxdesc ++; + } + } + + return SUCCESS; +} + +/*! + \brief send data with timestamp values in application buffer as a transmit packet, when the DMA is in normal mode + \param[in] buffer: pointer on the application buffer + note -- if the input is NULL, user should copy data in application by himself + \param[in] length: the length of frame data to be transmitted + \param[out] timestamp: pointer to the table which stores the timestamp high and low + note -- if the input is NULL, timestamp is ignored + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus enet_ptpframe_transmit_normal_mode(uint8_t *buffer, uint32_t length, uint32_t timestamp[]) +{ + uint32_t offset = 0U, timeout = 0U; + uint32_t dma_tbu_flag, dma_tu_flag, tdes0_ttmss_flag; + + /* the descriptor is busy due to own by the DMA */ + if((uint32_t)RESET != (dma_current_txdesc->status & ENET_TDES0_DAV)){ + return ERROR; + } + + /* only frame length no more than ENET_MAX_FRAME_SIZE is allowed */ + if(length > ENET_MAX_FRAME_SIZE){ + return ERROR; + } + + /* if buffer pointer is null, indicates that users has handled data in application */ + if(NULL != buffer){ + /* copy frame data from application buffer to Tx buffer */ + for(offset = 0U; offset < length; offset++){ + (*(__IO uint8_t *) (uint32_t)((dma_current_ptp_txdesc->buffer1_addr) + offset)) = (*(buffer + offset)); + } + } + /* set the frame length */ + dma_current_txdesc->control_buffer_size = (length & (uint32_t)0x1FFF); + /* set the segment of frame, frame is transmitted in one descriptor */ + dma_current_txdesc->status |= ENET_TDES0_LSG | ENET_TDES0_FSG; + /* enable the DMA transmission */ + dma_current_txdesc->status |= ENET_TDES0_DAV; + + /* check Tx buffer unavailable flag status */ + dma_tbu_flag = (ENET_DMA_STAT & ENET_DMA_STAT_TBU); + dma_tu_flag = (ENET_DMA_STAT & ENET_DMA_STAT_TU); + + if((RESET != dma_tbu_flag) || (RESET != dma_tu_flag)){ + /* clear TBU and TU flag */ + ENET_DMA_STAT = (dma_tbu_flag | dma_tu_flag); + /* resume DMA transmission by writing to the TPEN register*/ + ENET_DMA_TPEN = 0U; + } + + /* if timestamp pointer is null, indicates that users don't care timestamp in application */ + if(NULL != timestamp){ + /* wait for ENET_TDES0_TTMSS flag to be set, a timestamp was captured */ + do{ + tdes0_ttmss_flag = (dma_current_txdesc->status & ENET_TDES0_TTMSS); + timeout++; + }while((RESET == tdes0_ttmss_flag) && (timeout < ENET_DELAY_TO)); + + /* return ERROR due to timeout */ + if(ENET_DELAY_TO == timeout){ + return ERROR; + } + + /* clear the ENET_TDES0_TTMSS flag */ + dma_current_txdesc->status &= ~ENET_TDES0_TTMSS; + /* get the timestamp value of the transmit frame */ + timestamp[0] = dma_current_txdesc->buffer1_addr; + timestamp[1] = dma_current_txdesc->buffer2_next_desc_addr; + } + dma_current_txdesc->buffer1_addr = dma_current_ptp_txdesc ->buffer1_addr ; + dma_current_txdesc->buffer2_next_desc_addr = dma_current_ptp_txdesc ->buffer2_next_desc_addr; + + /* update the current TxDMA descriptor pointer to the next decriptor in TxDMA decriptor table */ + /* chained mode */ + if((uint32_t)RESET != (dma_current_txdesc->status & ENET_TDES0_TCHM)){ + dma_current_txdesc = (enet_descriptors_struct*) (dma_current_ptp_txdesc->buffer2_next_desc_addr); + /* if it is the last ptp descriptor */ + if(0U != dma_current_ptp_txdesc->status){ + /* pointer back to the first ptp descriptor address in the desc_ptptab list address */ + dma_current_ptp_txdesc = (enet_descriptors_struct*) (dma_current_ptp_txdesc->status); + }else{ + /* ponter to the next ptp descriptor */ + dma_current_ptp_txdesc++; + } + }else{ + /* ring mode */ + if((uint32_t)RESET != (dma_current_txdesc->status & ENET_TDES0_TERM)){ + /* if is the last descriptor in table, the next descriptor is the table header */ + dma_current_txdesc = (enet_descriptors_struct*) (ENET_DMA_TDTADDR); + /* TDES2 and TDES3 will not be covered by buffer address, so do not need to preserve a new table, + use the same table with TxDMA descriptor */ + dma_current_ptp_txdesc = (enet_descriptors_struct*) (dma_current_ptp_txdesc->status); + }else{ + /* the next descriptor is the current address, add the descriptor size, and descriptor skip length */ + dma_current_txdesc = (enet_descriptors_struct*) (uint32_t)((uint32_t)dma_current_txdesc + ETH_DMATXDESC_SIZE + GET_DMA_BCTL_DPSL(ENET_DMA_BCTL)); + dma_current_ptp_txdesc ++; + } + } + return SUCCESS; +} + +#endif /* SELECT_DESCRIPTORS_ENHANCED_MODE */ + +/*! + \brief wakeup frame filter register pointer reset + \param[in] none + \param[out] none + \retval none +*/ +void enet_wum_filter_register_pointer_reset(void) +{ + ENET_MAC_WUM |= ENET_MAC_WUM_WUFFRPR; +} + +/*! + \brief set the remote wakeup frame registers + \param[in] pdata: pointer to buffer data which is written to remote wakeup frame registers (8 words total) + \param[out] none + \retval none +*/ +void enet_wum_filter_config(uint32_t pdata[]) +{ + uint32_t num = 0U; + + /* configure ENET_MAC_RWFF register */ + for(num = 0U; num < ETH_WAKEUP_REGISTER_LENGTH; num++){ + ENET_MAC_RWFF = pdata[num]; + } +} + +/*! + \brief enable wakeup management features + \param[in] feature: one or more parameters can be selected which are shown as below + \arg ENET_WUM_POWER_DOWN: power down mode + \arg ENET_WUM_MAGIC_PACKET_FRAME: enable a wakeup event due to magic packet reception + \arg ENET_WUM_WAKE_UP_FRAME: enable a wakeup event due to wakeup frame reception + \arg ENET_WUM_GLOBAL_UNICAST: any received unicast frame passed filter is considered to be a wakeup frame + \param[out] none + \retval none +*/ +void enet_wum_feature_enable(uint32_t feature) +{ + ENET_MAC_WUM |= feature; +} + +/*! + \brief disable wakeup management features + \param[in] feature: one or more parameters can be selected which are shown as below + \arg ENET_WUM_MAGIC_PACKET_FRAME: enable a wakeup event due to magic packet reception + \arg ENET_WUM_WAKE_UP_FRAME: enable a wakeup event due to wakeup frame reception + \arg ENET_WUM_GLOBAL_UNICAST: any received unicast frame passed filter is considered to be a wakeup frame + \param[out] none + \retval none +*/ +void enet_wum_feature_disable(uint32_t feature) +{ + ENET_MAC_WUM &= (~feature); +} + +/*! + \brief reset the MAC statistics counters + \param[in] none + \param[out] none + \retval none +*/ +void enet_msc_counters_reset(void) +{ + /* reset all counters */ + ENET_MSC_CTL |= ENET_MSC_CTL_CTR; +} + +/*! + \brief enable the MAC statistics counter features + \param[in] feature: one or more parameters can be selected which are shown as below + \arg ENET_MSC_COUNTER_STOP_ROLLOVER: counter stop rollover + \arg ENET_MSC_RESET_ON_READ: reset on read + \arg ENET_MSC_COUNTERS_FREEZE: MSC counter freeze + \param[out] none + \retval none +*/ +void enet_msc_feature_enable(uint32_t feature) +{ + ENET_MSC_CTL |= feature; +} + +/*! + \brief disable the MAC statistics counter features + \param[in] feature: one or more parameters can be selected which are shown as below + \arg ENET_MSC_COUNTER_STOP_ROLLOVER: counter stop rollover + \arg ENET_MSC_RESET_ON_READ: reset on read + \arg ENET_MSC_COUNTERS_FREEZE: MSC counter freeze + \param[out] none + \retval none +*/ +void enet_msc_feature_disable(uint32_t feature) +{ + ENET_MSC_CTL &= (~feature); +} + +/*! + \brief configure MAC statistics counters preset mode + \param[in] mode: MSC counters preset mode, refer to enet_msc_preset_enum, + only one parameter can be selected which is shown as below + \arg ENET_MSC_PRESET_NONE: do not preset MSC counter + \arg ENET_MSC_PRESET_HALF: preset all MSC counters to almost-half(0x7FFF FFF0) value + \arg ENET_MSC_PRESET_FULL: preset all MSC counters to almost-full(0xFFFF FFF0) value + \param[out] none + \retval none +*/ +void enet_msc_counters_preset_config(enet_msc_preset_enum mode) +{ + ENET_MSC_CTL &= ENET_MSC_PRESET_MASK; + ENET_MSC_CTL |= (uint32_t)mode; +} + +/*! + \brief get MAC statistics counter + \param[in] counter: MSC counters which is selected, refer to enet_msc_counter_enum, + only one parameter can be selected which is shown as below + \arg ENET_MSC_TX_SCCNT: MSC transmitted good frames after a single collision counter + \arg ENET_MSC_TX_MSCCNT: MSC transmitted good frames after more than a single collision counter + \arg ENET_MSC_TX_TGFCNT: MSC transmitted good frames counter + \arg ENET_MSC_RX_RFCECNT: MSC received frames with CRC error counter + \arg ENET_MSC_RX_RFAECNT: MSC received frames with alignment error counter + \arg ENET_MSC_RX_RGUFCNT: MSC received good unicast frames counter + \param[out] none + \retval the MSC counter value +*/ +uint32_t enet_msc_counters_get(enet_msc_counter_enum counter) +{ + uint32_t reval; + + reval = REG32((ENET + (uint32_t)counter)); + + return reval; +} + +/*! + \brief change subsecond to nanosecond + \param[in] subsecond: subsecond value + \param[out] none + \retval the nanosecond value +*/ +uint32_t enet_ptp_subsecond_2_nanosecond(uint32_t subsecond) +{ + uint64_t val = subsecond * 1000000000Ull; + val >>= 31; + return (uint32_t)val; +} + +/*! + \brief change nanosecond to subsecond + \param[in] nanosecond: nanosecond value + \param[out] none + \retval the subsecond value +*/ +uint32_t enet_ptp_nanosecond_2_subsecond(uint32_t nanosecond) +{ + uint64_t val = nanosecond * 0x80000000Ull; + val /= 1000000000U; + return (uint32_t)val; +} + +/*! + \brief enable the PTP features + \param[in] feature: the feature of ENET PTP mode + one or more parameters can be selected which are shown as below + \arg ENET_RXTX_TIMESTAMP: timestamp function for transmit and receive frames + \arg ENET_PTP_TIMESTAMP_INT: timestamp interrupt trigger + \arg ENET_ALL_RX_TIMESTAMP: all received frames are taken snapshot + \arg ENET_NONTYPE_FRAME_SNAPSHOT: take snapshot when received non type frame + \arg ENET_IPV6_FRAME_SNAPSHOT: take snapshot for IPv6 frame + \arg ENET_IPV4_FRAME_SNAPSHOT: take snapshot for IPv4 frame + \arg ENET_PTP_FRAME_USE_MACADDRESS_FILTER: use MAC address1-3 to filter the PTP frame + \param[out] none + \retval none +*/ +void enet_ptp_feature_enable(uint32_t feature) +{ + ENET_PTP_TSCTL |= feature; +} + +/*! + \brief disable the PTP features + \param[in] feature: the feature of ENET PTP mode + one or more parameters can be selected which are shown as below + \arg ENET_RXTX_TIMESTAMP: timestamp function for transmit and receive frames + \arg ENET_PTP_TIMESTAMP_INT: timestamp interrupt trigger + \arg ENET_ALL_RX_TIMESTAMP: all received frames are taken snapshot + \arg ENET_NONTYPE_FRAME_SNAPSHOT: take snapshot when received non type frame + \arg ENET_IPV6_FRAME_SNAPSHOT: take snapshot for IPv6 frame + \arg ENET_IPV4_FRAME_SNAPSHOT: take snapshot for IPv4 frame + \arg ENET_PTP_FRAME_USE_MACADDRESS_FILTER: use MAC address1-3 to filter the PTP frame + \param[out] none + \retval none +*/ +void enet_ptp_feature_disable(uint32_t feature) +{ + ENET_PTP_TSCTL &= ~feature; +} + +/*! + \brief configure the PTP timestamp function + \param[in] func: only one parameter can be selected which is shown as below + \arg ENET_CKNT_ORDINARY: type of ordinary clock node type for timestamp + \arg ENET_CKNT_BOUNDARY: type of boundary clock node type for timestamp + \arg ENET_CKNT_END_TO_END: type of end-to-end transparent clock node type for timestamp + \arg ENET_CKNT_PEER_TO_PEER: type of peer-to-peer transparent clock node type for timestamp + \arg ENET_PTP_ADDEND_UPDATE: addend register update + \arg ENET_PTP_SYSTIME_UPDATE: timestamp update + \arg ENET_PTP_SYSTIME_INIT: timestamp initialize + \arg ENET_PTP_FINEMODE: the system timestamp uses the fine method for updating + \arg ENET_PTP_COARSEMODE: the system timestamp uses the coarse method for updating + \arg ENET_SUBSECOND_DIGITAL_ROLLOVER: digital rollover mode + \arg ENET_SUBSECOND_BINARY_ROLLOVER: binary rollover mode + \arg ENET_SNOOPING_PTP_VERSION_2: version 2 + \arg ENET_SNOOPING_PTP_VERSION_1: version 1 + \arg ENET_EVENT_TYPE_MESSAGES_SNAPSHOT: only event type messages are taken snapshot + \arg ENET_ALL_TYPE_MESSAGES_SNAPSHOT: all type messages are taken snapshot except announce, + management and signaling message + \arg ENET_MASTER_NODE_MESSAGE_SNAPSHOT: snapshot is only take for master node message + \arg ENET_SLAVE_NODE_MESSAGE_SNAPSHOT: snapshot is only taken for slave node message + \param[out] none + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus enet_ptp_timestamp_function_config(enet_ptp_function_enum func) +{ + uint32_t temp_config = 0U, temp_state = 0U; + uint32_t timeout = 0U; + ErrStatus enet_state = SUCCESS; + + switch(func){ + case ENET_CKNT_ORDINARY: + case ENET_CKNT_BOUNDARY: + case ENET_CKNT_END_TO_END: + case ENET_CKNT_PEER_TO_PEER: + ENET_PTP_TSCTL &= ~ENET_PTP_TSCTL_CKNT; + ENET_PTP_TSCTL |= (uint32_t)func; + break; + case ENET_PTP_ADDEND_UPDATE: + /* this bit must be read as zero before application set it */ + do{ + temp_state = ENET_PTP_TSCTL & ENET_PTP_TSCTL_TMSARU; + timeout++; + }while((RESET != temp_state) && (timeout < ENET_DELAY_TO)); + /* return ERROR due to timeout */ + if(ENET_DELAY_TO == timeout){ + enet_state = ERROR; + }else{ + ENET_PTP_TSCTL |= ENET_PTP_TSCTL_TMSARU; + } + break; + case ENET_PTP_SYSTIME_UPDATE: + /* both the TMSSTU and TMSSTI bits must be read as zero before application set this bit */ + do{ + temp_state = ENET_PTP_TSCTL & (ENET_PTP_TSCTL_TMSSTU | ENET_PTP_TSCTL_TMSSTI); + timeout++; + }while((RESET != temp_state) && (timeout < ENET_DELAY_TO)); + /* return ERROR due to timeout */ + if(ENET_DELAY_TO == timeout){ + enet_state = ERROR; + }else{ + ENET_PTP_TSCTL |= ENET_PTP_TSCTL_TMSSTU; + } + break; + case ENET_PTP_SYSTIME_INIT: + /* this bit must be read as zero before application set it */ + do{ + temp_state = ENET_PTP_TSCTL & ENET_PTP_TSCTL_TMSSTI; + timeout++; + }while((RESET != temp_state) && (timeout < ENET_DELAY_TO)); + /* return ERROR due to timeout */ + if(ENET_DELAY_TO == timeout){ + enet_state = ERROR; + }else{ + ENET_PTP_TSCTL |= ENET_PTP_TSCTL_TMSSTI; + } + break; + default: + temp_config = (uint32_t)func & (~BIT(31)); + if(RESET != ((uint32_t)func & BIT(31))){ + ENET_PTP_TSCTL |= temp_config; + }else{ + ENET_PTP_TSCTL &= ~temp_config; + } + break; + } + + return enet_state; +} + +/*! + \brief configure system time subsecond increment value + \param[in] subsecond: the value will be added to the subsecond value of system time, + this value must be between 0 and 0xFF + \param[out] none + \retval none +*/ +void enet_ptp_subsecond_increment_config(uint32_t subsecond) +{ + ENET_PTP_SSINC = PTP_SSINC_STMSSI(subsecond); +} + +/*! + \brief adjusting the clock frequency only in fine update mode + \param[in] add: the value will be added to the accumulator register to achieve time synchronization + \param[out] none + \retval none +*/ +void enet_ptp_timestamp_addend_config(uint32_t add) +{ + ENET_PTP_TSADDEND = add; +} + +/*! + \brief initialize or add/subtract to second of the system time + \param[in] sign: timestamp update positive or negative sign, + only one parameter can be selected which is shown as below + \arg ENET_PTP_ADD_TO_TIME: timestamp update value is added to system time + \arg ENET_PTP_SUBSTRACT_FROM_TIME: timestamp update value is subtracted from system time + \param[in] second: initializing or adding/subtracting to second of the system time + \param[in] subsecond: the current subsecond of the system time + with 0.46 ns accuracy if required accuracy is 20 ns + \param[out] none + \retval none +*/ +void enet_ptp_timestamp_update_config(uint32_t sign, uint32_t second, uint32_t subsecond) +{ + ENET_PTP_TSUH = second; + ENET_PTP_TSUL = sign | PTP_TSUL_TMSUSS(subsecond); +} + +/*! + \brief configure the expected target time + \param[in] second: the expected target second time + \param[in] nanosecond: the expected target nanosecond time (signed) + \param[out] none + \retval none +*/ +void enet_ptp_expected_time_config(uint32_t second, uint32_t nanosecond) +{ + ENET_PTP_ETH = second; + ENET_PTP_ETL = nanosecond; +} + +/*! + \brief get the current system time + \param[in] none + \param[out] systime_struct: pointer to a enet_ptp_systime_struct structure which contains + parameters of PTP system time + members of the structure and the member values are shown as below: + second: 0x0 - 0xFFFF FFFF + nanosecond: 0x0 - 0x7FFF FFFF * 10^9 / 2^31 + sign: ENET_PTP_TIME_POSITIVE, ENET_PTP_TIME_NEGATIVE + \retval none +*/ +void enet_ptp_system_time_get(enet_ptp_systime_struct *systime_struct) +{ + uint32_t temp_sec = 0U, temp_subs = 0U; + + /* get the value of sysytem time registers */ + temp_sec = (uint32_t)ENET_PTP_TSH; + temp_subs = (uint32_t)ENET_PTP_TSL; + + /* get sysytem time and construct the enet_ptp_systime_struct structure */ + systime_struct->second = temp_sec; + systime_struct->nanosecond = GET_PTP_TSL_STMSS(temp_subs); + systime_struct->nanosecond = enet_ptp_subsecond_2_nanosecond(systime_struct->nanosecond); + systime_struct->sign = GET_PTP_TSL_STS(temp_subs); +} + +/*! + \brief configure the PPS output frequency + \param[in] freq: PPS output frequency, + only one parameter can be selected which is shown as below + \arg ENET_PPSOFC_1HZ: PPS output 1Hz frequency + \arg ENET_PPSOFC_2HZ: PPS output 2Hz frequency + \arg ENET_PPSOFC_4HZ: PPS output 4Hz frequency + \arg ENET_PPSOFC_8HZ: PPS output 8Hz frequency + \arg ENET_PPSOFC_16HZ: PPS output 16Hz frequency + \arg ENET_PPSOFC_32HZ: PPS output 32Hz frequency + \arg ENET_PPSOFC_64HZ: PPS output 64Hz frequency + \arg ENET_PPSOFC_128HZ: PPS output 128Hz frequency + \arg ENET_PPSOFC_256HZ: PPS output 256Hz frequency + \arg ENET_PPSOFC_512HZ: PPS output 512Hz frequency + \arg ENET_PPSOFC_1024HZ: PPS output 1024Hz frequency + \arg ENET_PPSOFC_2048HZ: PPS output 2048Hz frequency + \arg ENET_PPSOFC_4096HZ: PPS output 4096Hz frequency + \arg ENET_PPSOFC_8192HZ: PPS output 8192Hz frequency + \arg ENET_PPSOFC_16384HZ: PPS output 16384Hz frequency + \arg ENET_PPSOFC_32768HZ: PPS output 32768Hz frequency + \param[out] none + \retval none +*/ +void enet_ptp_pps_output_frequency_config(uint32_t freq) +{ + ENET_PTP_PPSCTL = freq; +} + +/*! + \brief configure and start PTP timestamp counter + \param[in] updatemethod: method for updating + \arg ENET_PTP_FINEMODE: fine correction method + \arg ENET_PTP_COARSEMODE: coarse correction method + \param[in] init_sec: second value for initializing system time + \param[in] init_subsec: subsecond value for initializing system time + \param[in] carry_cfg: the value to be added to the accumulator register (in fine method is used) + \param[in] accuracy_cfg: the value to be added to the subsecond value of system time + \param[out] none + \retval none +*/ +void enet_ptp_start(int32_t updatemethod, uint32_t init_sec, uint32_t init_subsec, uint32_t carry_cfg, uint32_t accuracy_cfg) +{ + /* mask the timestamp trigger interrupt */ + enet_interrupt_disable(ENET_MAC_INT_TMSTIM); + + /* enable timestamp */ + enet_ptp_feature_enable(ENET_ALL_RX_TIMESTAMP | ENET_RXTX_TIMESTAMP); + + /* configure system time subsecond increment based on the PTP clock frequency */ + enet_ptp_subsecond_increment_config(accuracy_cfg); + + if(ENET_PTP_FINEMODE == updatemethod){ + /* fine correction method: configure the timestamp addend, then update */ + enet_ptp_timestamp_addend_config(carry_cfg); + enet_ptp_timestamp_function_config(ENET_PTP_ADDEND_UPDATE); + /* wait until update is completed */ + while(SET == enet_ptp_flag_get((uint32_t)ENET_PTP_ADDEND_UPDATE)){ + } + } + + /* choose the fine correction method */ + enet_ptp_timestamp_function_config((enet_ptp_function_enum)updatemethod); + + /* initialize the system time */ + enet_ptp_timestamp_update_config(ENET_PTP_ADD_TO_TIME, init_sec, init_subsec); + enet_ptp_timestamp_function_config(ENET_PTP_SYSTIME_INIT); + +#ifdef SELECT_DESCRIPTORS_ENHANCED_MODE + enet_desc_select_enhanced_mode(); +#endif /* SELECT_DESCRIPTORS_ENHANCED_MODE */ +} + +/*! + \brief adjust frequency in fine method by configure addend register + \param[in] carry_cfg: the value to be added to the accumulator register + \param[out] none + \retval none +*/ +void enet_ptp_finecorrection_adjfreq(int32_t carry_cfg) +{ + /* re-configure the timestamp addend, then update */ + enet_ptp_timestamp_addend_config((uint32_t)carry_cfg); + enet_ptp_timestamp_function_config(ENET_PTP_ADDEND_UPDATE); +} + +/*! + \brief update system time in coarse method + \param[in] systime_struct: : pointer to a enet_ptp_systime_struct structure which contains + parameters of PTP system time + members of the structure and the member values are shown as below: + second: 0x0 - 0xFFFF FFFF + nanosecond: 0x0 - 0x7FFF FFFF * 10^9 / 2^31 + sign: ENET_PTP_TIME_POSITIVE, ENET_PTP_TIME_NEGATIVE + \param[out] none + \retval none +*/ +void enet_ptp_coarsecorrection_systime_update(enet_ptp_systime_struct *systime_struct) +{ + uint32_t subsecond_val; + uint32_t carry_cfg; + + subsecond_val = enet_ptp_nanosecond_2_subsecond(systime_struct->nanosecond); + + /* save the carry_cfg value */ + carry_cfg = ENET_PTP_TSADDEND_TMSA; + + /* update the system time */ + enet_ptp_timestamp_update_config(systime_struct->sign, systime_struct->second, subsecond_val); + enet_ptp_timestamp_function_config(ENET_PTP_SYSTIME_UPDATE); + + /* wait until the update is completed */ + while(SET == enet_ptp_flag_get((uint32_t)ENET_PTP_SYSTIME_UPDATE)){ + } + + /* write back the carry_cfg value, then update */ + enet_ptp_timestamp_addend_config(carry_cfg); + enet_ptp_timestamp_function_config(ENET_PTP_ADDEND_UPDATE); +} + +/*! + \brief set system time in fine method + \param[in] systime_struct: : pointer to a enet_ptp_systime_struct structure which contains + parameters of PTP system time + members of the structure and the member values are shown as below: + second: 0x0 - 0xFFFF FFFF + nanosecond: 0x0 - 0x7FFF FFFF * 10^9 / 2^31 + sign: ENET_PTP_TIME_POSITIVE, ENET_PTP_TIME_NEGATIVE + \param[out] none + \retval none +*/ +void enet_ptp_finecorrection_settime(enet_ptp_systime_struct * systime_struct) +{ + uint32_t subsecond_val; + + subsecond_val = enet_ptp_nanosecond_2_subsecond(systime_struct->nanosecond); + + /* initialize the system time */ + enet_ptp_timestamp_update_config(systime_struct->sign, systime_struct->second, subsecond_val); + enet_ptp_timestamp_function_config(ENET_PTP_SYSTIME_INIT); + + /* wait until the system time initialzation finished */ + while(SET == enet_ptp_flag_get((uint32_t)ENET_PTP_SYSTIME_INIT)){ + } +} + +/*! + \brief get the ptp flag status + \param[in] flag: ptp flag status to be checked + \arg ENET_PTP_ADDEND_UPDATE: addend register update + \arg ENET_PTP_SYSTIME_UPDATE: timestamp update + \arg ENET_PTP_SYSTIME_INIT: timestamp initialize + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus enet_ptp_flag_get(uint32_t flag) +{ + FlagStatus bitstatus = RESET; + + if ((uint32_t)RESET != (ENET_PTP_TSCTL & flag)){ + bitstatus = SET; + } + + return bitstatus; +} + +/*! + \brief reset the ENET initpara struct, call it before using enet_initpara_config() + \param[in] none + \param[out] none + \retval none +*/ +void enet_initpara_reset(void) +{ + enet_initpara.option_enable = 0U; + enet_initpara.forward_frame = 0U; + enet_initpara.dmabus_mode = 0U; + enet_initpara.dma_maxburst = 0U; + enet_initpara.dma_arbitration = 0U; + enet_initpara.store_forward_mode = 0U; + enet_initpara.dma_function = 0U; + enet_initpara.vlan_config = 0U; + enet_initpara.flow_control = 0U; + enet_initpara.hashtable_high = 0U; + enet_initpara.hashtable_low = 0U; + enet_initpara.framesfilter_mode = 0U; + enet_initpara.halfduplex_param = 0U; + enet_initpara.timer_config = 0U; + enet_initpara.interframegap = 0U; +} + +/*! + \brief initialize ENET peripheral with generally concerned parameters, call it by enet_init() + \param[in] none + \param[out] none + \retval none +*/ +static void enet_default_init(void) +{ + uint32_t reg_value = 0U; + + /* MAC */ + /* configure ENET_MAC_CFG register */ + reg_value = ENET_MAC_CFG; + reg_value &= MAC_CFG_MASK; + reg_value |= ENET_WATCHDOG_ENABLE | ENET_JABBER_ENABLE | ENET_INTERFRAMEGAP_96BIT \ + | ENET_SPEEDMODE_10M |ENET_MODE_HALFDUPLEX | ENET_LOOPBACKMODE_DISABLE \ + | ENET_CARRIERSENSE_ENABLE | ENET_RECEIVEOWN_ENABLE \ + | ENET_RETRYTRANSMISSION_ENABLE | ENET_BACKOFFLIMIT_10 \ + | ENET_DEFERRALCHECK_DISABLE \ + | ENET_TYPEFRAME_CRC_DROP_DISABLE \ + | ENET_AUTO_PADCRC_DROP_DISABLE \ + | ENET_CHECKSUMOFFLOAD_DISABLE; + ENET_MAC_CFG = reg_value; + + /* configure ENET_MAC_FRMF register */ + ENET_MAC_FRMF = ENET_SRC_FILTER_DISABLE |ENET_DEST_FILTER_INVERSE_DISABLE \ + |ENET_MULTICAST_FILTER_PERFECT |ENET_UNICAST_FILTER_PERFECT \ + |ENET_PCFRM_PREVENT_ALL |ENET_BROADCASTFRAMES_ENABLE \ + |ENET_PROMISCUOUS_DISABLE |ENET_RX_FILTER_ENABLE; + + /* configure ENET_MAC_HLH, ENET_MAC_HLL register */ + ENET_MAC_HLH = 0x0U; + + ENET_MAC_HLL = 0x0U; + + /* configure ENET_MAC_FCTL, ENET_MAC_FCTH register */ + reg_value = ENET_MAC_FCTL; + reg_value &= MAC_FCTL_MASK; + reg_value |= MAC_FCTL_PTM(0) |ENET_ZERO_QUANTA_PAUSE_DISABLE \ + |ENET_PAUSETIME_MINUS4 |ENET_UNIQUE_PAUSEDETECT \ + |ENET_RX_FLOWCONTROL_DISABLE |ENET_TX_FLOWCONTROL_DISABLE; + ENET_MAC_FCTL = reg_value; + + /* configure ENET_MAC_VLT register */ + ENET_MAC_VLT = ENET_VLANTAGCOMPARISON_16BIT |MAC_VLT_VLTI(0); + + /* DMA */ + /* configure ENET_DMA_CTL register */ + reg_value = ENET_DMA_CTL; + reg_value &= DMA_CTL_MASK; + reg_value |= ENET_TCPIP_CKSUMERROR_DROP |ENET_RX_MODE_STOREFORWARD \ + |ENET_FLUSH_RXFRAME_ENABLE |ENET_TX_MODE_STOREFORWARD \ + |ENET_TX_THRESHOLD_64BYTES |ENET_RX_THRESHOLD_64BYTES \ + |ENET_SECONDFRAME_OPT_DISABLE; + ENET_DMA_CTL = reg_value; + + /* configure ENET_DMA_BCTL register */ + reg_value = ENET_DMA_BCTL; + reg_value &= DMA_BCTL_MASK; + reg_value = ENET_ADDRESS_ALIGN_ENABLE |ENET_ARBITRATION_RXTX_2_1 \ + |ENET_RXDP_32BEAT |ENET_PGBL_32BEAT |ENET_RXTX_DIFFERENT_PGBL \ + |ENET_FIXED_BURST_ENABLE |ENET_MIXED_BURST_DISABLE \ + |ENET_NORMAL_DESCRIPTOR; + ENET_DMA_BCTL = reg_value; +} + +#ifndef USE_DELAY +/*! + \brief insert a delay time + \param[in] ncount: specifies the delay time length + \param[out] none + \param[out] none +*/ +static void enet_delay(uint32_t ncount) +{ + __IO uint32_t delay_time = 0U; + + for(delay_time = ncount; delay_time != 0U; delay_time--){ + } +} +#endif /* USE_DELAY */ + +#endif /* GD32F30X_CL */ diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_exmc.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_exmc.c new file mode 100644 index 0000000000..769b99ff5c --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_exmc.c @@ -0,0 +1,677 @@ +/*! + \file gd32f30x_exmc.c + \brief EXMC driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_exmc.h" + +/* EXMC bank0 register reset value */ +#define BANK0_SNCTL_REGION0_RESET ((uint32_t)0x000030DBU) +#define BANK0_SNCTL_REGION1_2_3_RESET ((uint32_t)0x000030D2U) +#define BANK0_SNTCFG_RESET ((uint32_t)0x0FFFFFFFU) +#define BANK0_SNWTCFG_RESET ((uint32_t)0x0FFFFFFFU) + +/* EXMC bank1/2 register reset mask */ +#define BANK1_2_NPCTL_RESET ((uint32_t)0x00000018U) +#define BANK1_2_NPINTEN_RESET ((uint32_t)0x00000042U) +#define BANK1_2_NPCTCFG_RESET ((uint32_t)0xFCFCFCFCU) +#define BANK1_2_NPATCFG_RESET ((uint32_t)0xFCFCFCFCU) + +/* EXMC bank3 register reset mask */ +#define BANK3_NPCTL_RESET ((uint32_t)0x00000018U) +#define BANK3_NPINTEN_RESET ((uint32_t)0x00000043U) +#define BANK3_NPCTCFG_RESET ((uint32_t)0xFCFCFCFCU) +#define BANK3_NPATCFG_RESET ((uint32_t)0xFCFCFCFCU) +#define BANK3_PIOTCFG3_RESET ((uint32_t)0xFCFCFCFCU) + +/* EXMC register bit offset */ +#define SNCTL_NRMUX_OFFSET ((uint32_t)1U) +#define SNCTL_SBRSTEN_OFFSET ((uint32_t)8U) +#define SNCTL_WRAPEN_OFFSET ((uint32_t)10U) +#define SNCTL_WREN_OFFSET ((uint32_t)12U) +#define SNCTL_NRWTEN_OFFSET ((uint32_t)13U) +#define SNCTL_EXMODEN_OFFSET ((uint32_t)14U) +#define SNCTL_ASYNCWAIT_OFFSET ((uint32_t)15U) + +#define SNTCFG_AHLD_OFFSET ((uint32_t)4U) +#define SNTCFG_DSET_OFFSET ((uint32_t)8U) +#define SNTCFG_BUSLAT_OFFSET ((uint32_t)16U) + +#define SNWTCFG_WAHLD_OFFSET ((uint32_t)4U) +#define SNWTCFG_WDSET_OFFSET ((uint32_t)8U) +#define SNWTCFG_WBUSLAT_OFFSET ((uint32_t)16U) + +#define NPCTL_NDWTEN_OFFSET ((uint32_t)1U) +#define NPCTL_ECCEN_OFFSET ((uint32_t)6U) + +#define NPCTCFG_COMWAIT_OFFSET ((uint32_t)8U) +#define NPCTCFG_COMHLD_OFFSET ((uint32_t)16U) +#define NPCTCFG_COMHIZ_OFFSET ((uint32_t)24U) + +#define NPATCFG_ATTWAIT_OFFSET ((uint32_t)8U) +#define NPATCFG_ATTHLD_OFFSET ((uint32_t)16U) +#define NPATCFG_ATTHIZ_OFFSET ((uint32_t)24U) + +#define PIOTCFG_IOWAIT_OFFSET ((uint32_t)8U) +#define PIOTCFG_IOHLD_OFFSET ((uint32_t)16U) +#define PIOTCFG_IOHIZ_OFFSET ((uint32_t)24U) + +#define INTEN_INTS_OFFSET ((uint32_t)3U) + +/*! + \brief deinitialize EXMC NOR/SRAM region + \param[in] exmc_norsram_region: select the region of bank0 + only one parameter can be selected which is shown as below: + \arg EXMC_BANK0_NORSRAM_REGIONx(x=0..3) + \param[out] none + \retval none +*/ +void exmc_norsram_deinit(uint32_t exmc_norsram_region) +{ + /* reset the registers */ + if(EXMC_BANK0_NORSRAM_REGION0 == exmc_norsram_region){ + EXMC_SNCTL(exmc_norsram_region) = BANK0_SNCTL_REGION0_RESET; + }else{ + EXMC_SNCTL(exmc_norsram_region) = BANK0_SNCTL_REGION1_2_3_RESET; + } + EXMC_SNTCFG(exmc_norsram_region) = BANK0_SNTCFG_RESET; + EXMC_SNWTCFG(exmc_norsram_region) = BANK0_SNWTCFG_RESET; +} + +/*! + \brief initialize exmc_norsram_parameter_struct with the default values + \param[in] none + \param[out] exmc_norsram_init_struct: the initialized struct exmc_norsram_parameter_struct pointer + \retval none +*/ +void exmc_norsram_struct_para_init(exmc_norsram_parameter_struct* exmc_norsram_init_struct) +{ + /* configure the structure with default values */ + exmc_norsram_init_struct->norsram_region = EXMC_BANK0_NORSRAM_REGION0; + exmc_norsram_init_struct->address_data_mux = ENABLE; + exmc_norsram_init_struct->memory_type = EXMC_MEMORY_TYPE_SRAM; + exmc_norsram_init_struct->databus_width = EXMC_NOR_DATABUS_WIDTH_8B; + exmc_norsram_init_struct->burst_mode = DISABLE; + exmc_norsram_init_struct->nwait_polarity = EXMC_NWAIT_POLARITY_LOW; + exmc_norsram_init_struct->wrap_burst_mode = DISABLE; + exmc_norsram_init_struct->nwait_config = EXMC_NWAIT_CONFIG_BEFORE; + exmc_norsram_init_struct->memory_write = ENABLE; + exmc_norsram_init_struct->nwait_signal = ENABLE; + exmc_norsram_init_struct->extended_mode = DISABLE; + exmc_norsram_init_struct->asyn_wait = DISABLE; + exmc_norsram_init_struct->write_mode = EXMC_ASYN_WRITE; + + /* read/write timing configure */ + exmc_norsram_init_struct->read_write_timing->asyn_address_setuptime = 0xFU; + exmc_norsram_init_struct->read_write_timing->asyn_address_holdtime = 0xFU; + exmc_norsram_init_struct->read_write_timing->asyn_data_setuptime = 0xFFU; + exmc_norsram_init_struct->read_write_timing->bus_latency = 0xFU; + exmc_norsram_init_struct->read_write_timing->syn_clk_division = EXMC_SYN_CLOCK_RATIO_16_CLK; + exmc_norsram_init_struct->read_write_timing->syn_data_latency = EXMC_DATALAT_17_CLK; + exmc_norsram_init_struct->read_write_timing->asyn_access_mode = EXMC_ACCESS_MODE_A; + + /* write timing configure, when extended mode is used */ + exmc_norsram_init_struct->write_timing->asyn_address_setuptime = 0xFU; + exmc_norsram_init_struct->write_timing->asyn_address_holdtime = 0xFU; + exmc_norsram_init_struct->write_timing->asyn_data_setuptime = 0xFFU; + exmc_norsram_init_struct->write_timing->bus_latency = 0xFU; + exmc_norsram_init_struct->write_timing->asyn_access_mode = EXMC_ACCESS_MODE_A; +} + +/*! + \brief initialize EXMC NOR/SRAM region + \param[in] exmc_norsram_parameter_struct: configure the EXMC NOR/SRAM parameter + norsram_region: EXMC_BANK0_NORSRAM_REGIONx,x=0..3 + write_mode: EXMC_ASYN_WRITE,EXMC_SYN_WRITE + extended_mode: ENABLE or DISABLE + asyn_wait: ENABLE or DISABLE + nwait_signal: ENABLE or DISABLE + memory_write: ENABLE or DISABLE + nwait_config: EXMC_NWAIT_CONFIG_BEFORE,EXMC_NWAIT_CONFIG_DURING + wrap_burst_mode: ENABLE or DISABLE + nwait_polarity: EXMC_NWAIT_POLARITY_LOW,EXMC_NWAIT_POLARITY_HIGH + burst_mode: ENABLE or DISABLE + databus_width: EXMC_NOR_DATABUS_WIDTH_8B,EXMC_NOR_DATABUS_WIDTH_16B + memory_type: EXMC_MEMORY_TYPE_SRAM,EXMC_MEMORY_TYPE_PSRAM,EXMC_MEMORY_TYPE_NOR + address_data_mux: ENABLE or DISABLE + read_write_timing: struct exmc_norsram_timing_parameter_struct set the time + write_timing: struct exmc_norsram_timing_parameter_struct set the time + \param[out] none + \retval none +*/ +void exmc_norsram_init(exmc_norsram_parameter_struct* exmc_norsram_init_struct) +{ + uint32_t snctl = 0x00000000U,sntcfg = 0x00000000U,snwtcfg = 0x00000000U; + + /* get the register value */ + snctl = EXMC_SNCTL(exmc_norsram_init_struct->norsram_region); + + /* clear relative bits */ + snctl &= ((uint32_t)~(EXMC_SNCTL_NRMUX | EXMC_SNCTL_NRTP | EXMC_SNCTL_NRW | EXMC_SNCTL_SBRSTEN | + EXMC_SNCTL_NREN | EXMC_SNCTL_NRWTPOL | EXMC_SNCTL_WRAPEN | EXMC_SNCTL_NRWTCFG | + EXMC_SNCTL_WREN | EXMC_SNCTL_NRWTEN | EXMC_SNCTL_EXMODEN | EXMC_SNCTL_ASYNCWAIT | + EXMC_SNCTL_SYNCWR )); + + snctl |= (uint32_t)(exmc_norsram_init_struct->address_data_mux << SNCTL_NRMUX_OFFSET) | + exmc_norsram_init_struct->memory_type | + exmc_norsram_init_struct->databus_width | + (exmc_norsram_init_struct->burst_mode << SNCTL_SBRSTEN_OFFSET) | + exmc_norsram_init_struct->nwait_polarity | + (exmc_norsram_init_struct->wrap_burst_mode << SNCTL_WRAPEN_OFFSET) | + exmc_norsram_init_struct->nwait_config | + (exmc_norsram_init_struct->memory_write << SNCTL_WREN_OFFSET) | + (exmc_norsram_init_struct->nwait_signal << SNCTL_NRWTEN_OFFSET) | + (exmc_norsram_init_struct->extended_mode << SNCTL_EXMODEN_OFFSET) | + (exmc_norsram_init_struct->asyn_wait << SNCTL_ASYNCWAIT_OFFSET) | + exmc_norsram_init_struct->write_mode; + + sntcfg = (uint32_t)((exmc_norsram_init_struct->read_write_timing->asyn_address_setuptime - 1U ) & EXMC_SNTCFG_ASET )| + (((exmc_norsram_init_struct->read_write_timing->asyn_address_holdtime - 1U ) << SNTCFG_AHLD_OFFSET ) & EXMC_SNTCFG_AHLD ) | + (((exmc_norsram_init_struct->read_write_timing->asyn_data_setuptime - 1U ) << SNTCFG_DSET_OFFSET ) & EXMC_SNTCFG_DSET ) | + (((exmc_norsram_init_struct->read_write_timing->bus_latency - 1U ) << SNTCFG_BUSLAT_OFFSET ) & EXMC_SNTCFG_BUSLAT )| + exmc_norsram_init_struct->read_write_timing->syn_clk_division | + exmc_norsram_init_struct->read_write_timing->syn_data_latency | + exmc_norsram_init_struct->read_write_timing->asyn_access_mode; + + /* nor flash access enable */ + if(EXMC_MEMORY_TYPE_NOR == exmc_norsram_init_struct->memory_type){ + snctl |= (uint32_t)EXMC_SNCTL_NREN; + } + + /* extended mode configure */ + if(ENABLE == exmc_norsram_init_struct->extended_mode){ + snwtcfg = (uint32_t)((exmc_norsram_init_struct->write_timing->asyn_address_setuptime - 1U) & EXMC_SNWTCFG_WASET ) | + (((exmc_norsram_init_struct->write_timing->asyn_address_holdtime -1U ) << SNWTCFG_WAHLD_OFFSET ) & EXMC_SNWTCFG_WAHLD )| + (((exmc_norsram_init_struct->write_timing->asyn_data_setuptime -1U ) << SNWTCFG_WDSET_OFFSET ) & EXMC_SNWTCFG_WDSET )| + (((exmc_norsram_init_struct->write_timing->bus_latency - 1U ) << SNWTCFG_WBUSLAT_OFFSET ) & EXMC_SNWTCFG_WBUSLAT ) | + exmc_norsram_init_struct->write_timing->asyn_access_mode; + }else{ + snwtcfg = BANK0_SNWTCFG_RESET; + } + + /* configure the registers */ + EXMC_SNCTL(exmc_norsram_init_struct->norsram_region) = snctl; + EXMC_SNTCFG(exmc_norsram_init_struct->norsram_region) = sntcfg; + EXMC_SNWTCFG(exmc_norsram_init_struct->norsram_region) = snwtcfg; +} + +/*! + \brief enable EXMC NOR/PSRAM bank region + \param[in] exmc_norsram_region: specifie the region of NOR/PSRAM bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANK0_NORSRAM_REGIONx(x=0..3) + \param[out] none + \retval none +*/ +void exmc_norsram_enable(uint32_t exmc_norsram_region) +{ + EXMC_SNCTL(exmc_norsram_region) |= (uint32_t)EXMC_SNCTL_NRBKEN; +} + +/*! + \brief disable EXMC NOR/PSRAM bank region + \param[in] exmc_norsram_region: specifie the region of NOR/PSRAM Bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANK0_NORSRAM_REGIONx(x=0..3) + \param[out] none + \retval none +*/ +void exmc_norsram_disable(uint32_t exmc_norsram_region) +{ + EXMC_SNCTL(exmc_norsram_region) &= ~(uint32_t)EXMC_SNCTL_NRBKEN; +} + +/*! + \brief deinitialize EXMC NAND bank + \param[in] exmc_nand_bank: select the bank of NAND + only one parameter can be selected which is shown as below: + \arg EXMC_BANKx_NAND(x=1..2) + \param[out] none + \retval none +*/ +void exmc_nand_deinit(uint32_t exmc_nand_bank) +{ + /* EXMC_BANK1_NAND or EXMC_BANK2_NAND */ + EXMC_NPCTL(exmc_nand_bank) = BANK1_2_NPCTL_RESET; + EXMC_NPINTEN(exmc_nand_bank) = BANK1_2_NPINTEN_RESET; + EXMC_NPCTCFG(exmc_nand_bank) = BANK1_2_NPCTCFG_RESET; + EXMC_NPATCFG(exmc_nand_bank) = BANK1_2_NPATCFG_RESET; +} + +/*! + \brief initialize exmc_norsram_parameter_struct with the default values + \param[in] none + \param[out] the initialized struct exmc_norsram_parameter_struct pointer + \retval none +*/ +void exmc_nand_struct_para_init(exmc_nand_parameter_struct* exmc_nand_init_struct) +{ + /* configure the structure with default values */ + exmc_nand_init_struct->nand_bank = EXMC_BANK1_NAND; + exmc_nand_init_struct->wait_feature = DISABLE; + exmc_nand_init_struct->databus_width = EXMC_NAND_DATABUS_WIDTH_8B; + exmc_nand_init_struct->ecc_logic = DISABLE; + exmc_nand_init_struct->ecc_size = EXMC_ECC_SIZE_256BYTES; + exmc_nand_init_struct->ctr_latency = 0x0U; + exmc_nand_init_struct->atr_latency = 0x0U; + exmc_nand_init_struct->common_space_timing->setuptime = 0xFCU; + exmc_nand_init_struct->common_space_timing->waittime = 0xFCU; + exmc_nand_init_struct->common_space_timing->holdtime = 0xFCU; + exmc_nand_init_struct->common_space_timing->databus_hiztime = 0xFCU; + exmc_nand_init_struct->attribute_space_timing->setuptime = 0xFCU; + exmc_nand_init_struct->attribute_space_timing->waittime = 0xFCU; + exmc_nand_init_struct->attribute_space_timing->holdtime = 0xFCU; + exmc_nand_init_struct->attribute_space_timing->databus_hiztime = 0xFCU; +} + +/*! + \brief initialize EXMC NAND bank + \param[in] exmc_nand_parameter_struct: configure the EXMC NAND parameter + nand_bank: EXMC_BANK1_NAND,EXMC_BANK2_NAND + ecc_size: EXMC_ECC_SIZE_xBYTES,x=256,512,1024,2048,4096 + atr_latency: EXMC_ALE_RE_DELAY_x_HCLK,x=1..16 + ctr_latency: EXMC_CLE_RE_DELAY_x_HCLK,x=1..16 + ecc_logic: ENABLE or DISABLE + databus_width: EXMC_NAND_DATABUS_WIDTH_8B,EXMC_NAND_DATABUS_WIDTH_16B + wait_feature: ENABLE or DISABLE + common_space_timing: struct exmc_nand_pccard_timing_parameter_struct set the time + attribute_space_timing: struct exmc_nand_pccard_timing_parameter_struct set the time + \param[out] none + \retval none +*/ +void exmc_nand_init(exmc_nand_parameter_struct* exmc_nand_init_struct) +{ + uint32_t npctl = 0x00000000U, npctcfg = 0x00000000U, npatcfg = 0x00000000U; + + npctl = (uint32_t)(exmc_nand_init_struct->wait_feature << NPCTL_NDWTEN_OFFSET)| + EXMC_NPCTL_NDTP | + exmc_nand_init_struct->databus_width | + (exmc_nand_init_struct->ecc_logic << NPCTL_ECCEN_OFFSET)| + exmc_nand_init_struct->ecc_size | + exmc_nand_init_struct->ctr_latency | + exmc_nand_init_struct->atr_latency; + + npctcfg = (uint32_t)((exmc_nand_init_struct->common_space_timing->setuptime - 1U) & EXMC_NPCTCFG_COMSET ) | + (((exmc_nand_init_struct->common_space_timing->waittime - 1U) << NPCTCFG_COMWAIT_OFFSET) & EXMC_NPCTCFG_COMWAIT ) | + ((exmc_nand_init_struct->common_space_timing->holdtime << NPCTCFG_COMHLD_OFFSET) & EXMC_NPCTCFG_COMHLD ) | + (((exmc_nand_init_struct->common_space_timing->databus_hiztime - 1U) << NPCTCFG_COMHIZ_OFFSET) & EXMC_NPCTCFG_COMHIZ ); + + npatcfg = (uint32_t)((exmc_nand_init_struct->attribute_space_timing->setuptime - 1U) & EXMC_NPATCFG_ATTSET ) | + (((exmc_nand_init_struct->attribute_space_timing->waittime - 1U) << NPATCFG_ATTWAIT_OFFSET) & EXMC_NPATCFG_ATTWAIT ) | + ((exmc_nand_init_struct->attribute_space_timing->holdtime << NPATCFG_ATTHLD_OFFSET) & EXMC_NPATCFG_ATTHLD ) | + (((exmc_nand_init_struct->attribute_space_timing->databus_hiztime -1U) << NPATCFG_ATTHIZ_OFFSET) & EXMC_NPATCFG_ATTHIZ ); + + /* EXMC_BANK1_NAND or EXMC_BANK2_NAND initialize */ + EXMC_NPCTL(exmc_nand_init_struct->nand_bank) = npctl; + EXMC_NPCTCFG(exmc_nand_init_struct->nand_bank) = npctcfg; + EXMC_NPATCFG(exmc_nand_init_struct->nand_bank) = npatcfg; +} + +/*! + \brief enable NAND bank + \param[in] exmc_nand_bank: specifie the NAND bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANKx_NAND(x=1,2) + \param[out] none + \retval none +*/ +void exmc_nand_enable(uint32_t exmc_nand_bank) +{ + EXMC_NPCTL(exmc_nand_bank) |= EXMC_NPCTL_NDBKEN; +} + +/*! + \brief disable NAND bank + \param[in] exmc_nand_bank: specifie the NAND bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANKx_NAND(x=1,2) + \param[out] none + \retval none +*/ +void exmc_nand_disable(uint32_t exmc_nand_bank) +{ + EXMC_NPCTL(exmc_nand_bank) &= (~EXMC_NPCTL_NDBKEN); +} + +/*! + \brief deinitialize EXMC PC card bank + \param[in] none + \param[out] none + \retval none +*/ +void exmc_pccard_deinit(void) +{ + /* EXMC_BANK3_PCCARD */ + EXMC_NPCTL3 = BANK3_NPCTL_RESET; + EXMC_NPINTEN3 = BANK3_NPINTEN_RESET; + EXMC_NPCTCFG3 = BANK3_NPCTCFG_RESET; + EXMC_NPATCFG3 = BANK3_NPATCFG_RESET; + EXMC_PIOTCFG3 = BANK3_PIOTCFG3_RESET; +} + +/*! + \brief initialize exmc_pccard_parameter_struct parameter with the default values + \param[in] none + \param[out] the initialized struct exmc_pccard_parameter_struct pointer + \retval none +*/ +void exmc_pccard_struct_para_init(exmc_pccard_parameter_struct* exmc_pccard_init_struct) +{ + /* configure the structure with default values */ + exmc_pccard_init_struct->wait_feature = DISABLE; + exmc_pccard_init_struct->ctr_latency = 0x0U; + exmc_pccard_init_struct->atr_latency = 0x0U; + exmc_pccard_init_struct->common_space_timing->setuptime = 0xFCU; + exmc_pccard_init_struct->common_space_timing->waittime = 0xFCU; + exmc_pccard_init_struct->common_space_timing->holdtime = 0xFCU; + exmc_pccard_init_struct->common_space_timing->databus_hiztime = 0xFCU; + exmc_pccard_init_struct->attribute_space_timing->setuptime = 0xFCU; + exmc_pccard_init_struct->attribute_space_timing->waittime = 0xFCU; + exmc_pccard_init_struct->attribute_space_timing->holdtime = 0xFCU; + exmc_pccard_init_struct->attribute_space_timing->databus_hiztime = 0xFCU; + exmc_pccard_init_struct->io_space_timing->setuptime = 0xFCU; + exmc_pccard_init_struct->io_space_timing->waittime = 0xFCU; + exmc_pccard_init_struct->io_space_timing->holdtime = 0xFCU; + exmc_pccard_init_struct->io_space_timing->databus_hiztime = 0xFCU; +} + +/*! + \brief initialize EXMC PC card bank + \param[in] exmc_pccard_parameter_struct: configure the EXMC NAND parameter + atr_latency: EXMC_ALE_RE_DELAY_x_HCLK,x=1..16 + ctr_latency: EXMC_CLE_RE_DELAY_x_HCLK,x=1..16 + wait_feature: ENABLE or DISABLE + common_space_timing: struct exmc_nand_pccard_timing_parameter_struct set the time + attribute_space_timing: struct exmc_nand_pccard_timing_parameter_struct set the time + io_space_timing: exmc_nand_pccard_timing_parameter_struct set the time + \param[out] none + \retval none +*/ +void exmc_pccard_init(exmc_pccard_parameter_struct* exmc_pccard_init_struct) +{ + /* configure the EXMC bank3 PC card control register */ + EXMC_NPCTL3 = (uint32_t)(exmc_pccard_init_struct->wait_feature << NPCTL_NDWTEN_OFFSET) | + EXMC_NAND_DATABUS_WIDTH_16B | + exmc_pccard_init_struct->ctr_latency | + exmc_pccard_init_struct->atr_latency ; + + /* configure the EXMC bank3 PC card common space timing configuration register */ + EXMC_NPCTCFG3 = (uint32_t)((exmc_pccard_init_struct->common_space_timing->setuptime - 1U)& EXMC_NPCTCFG_COMSET ) | + (((exmc_pccard_init_struct->common_space_timing->waittime - 1U) << NPCTCFG_COMWAIT_OFFSET) & EXMC_NPCTCFG_COMWAIT ) | + ((exmc_pccard_init_struct->common_space_timing->holdtime << NPCTCFG_COMHLD_OFFSET) & EXMC_NPCTCFG_COMHLD ) | + (((exmc_pccard_init_struct->common_space_timing->databus_hiztime - 1U) << NPCTCFG_COMHIZ_OFFSET) & EXMC_NPCTCFG_COMHIZ ); + + /* configure the EXMC bank3 PC card attribute space timing configuration register */ + EXMC_NPATCFG3 = (uint32_t)((exmc_pccard_init_struct->attribute_space_timing->setuptime - 1U) & EXMC_NPATCFG_ATTSET ) | + (((exmc_pccard_init_struct->attribute_space_timing->waittime - 1U) << NPATCFG_ATTWAIT_OFFSET) & EXMC_NPATCFG_ATTWAIT ) | + ((exmc_pccard_init_struct->attribute_space_timing->holdtime << NPATCFG_ATTHLD_OFFSET) & EXMC_NPATCFG_ATTHLD )| + (((exmc_pccard_init_struct->attribute_space_timing->databus_hiztime -1U) << NPATCFG_ATTHIZ_OFFSET) & EXMC_NPATCFG_ATTHIZ ); + + /* configure the EXMC bank3 PC card io space timing configuration register */ + EXMC_PIOTCFG3 = (uint32_t)((exmc_pccard_init_struct->io_space_timing->setuptime - 1U) & EXMC_PIOTCFG3_IOSET ) | + (((exmc_pccard_init_struct->io_space_timing->waittime - 1U) << PIOTCFG_IOWAIT_OFFSET) & EXMC_PIOTCFG3_IOWAIT ) | + ((exmc_pccard_init_struct->io_space_timing->holdtime << PIOTCFG_IOHLD_OFFSET) & EXMC_PIOTCFG3_IOHLD )| + ((exmc_pccard_init_struct->io_space_timing->databus_hiztime << PIOTCFG_IOHIZ_OFFSET) & EXMC_PIOTCFG3_IOHIZ ); +} + +/*! + \brief enable PC Card Bank + \param[in] none + \param[out] none + \retval none +*/ +void exmc_pccard_enable(void) +{ + EXMC_NPCTL3 |= EXMC_NPCTL_NDBKEN; +} + +/*! + \brief disable PC Card Bank + \param[in] none + \param[out] none + \retval none +*/ +void exmc_pccard_disable(void) +{ + EXMC_NPCTL3 &= (~EXMC_NPCTL_NDBKEN); +} + +/*! + \brief configure CRAM page size + \param[in] exmc_norsram_region: specifie the region of NOR/PSRAM bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANK0_NORSRAM_REGIONx(x=0..3) + \param[in] page_size: CRAM page size + only one parameter can be selected which is shown as below: + \arg EXMC_CRAM_AUTO_SPLIT: the clock is generated only during synchronous access + \arg EXMC_CRAM_PAGE_SIZE_128_BYTES: page size is 128 bytes + \arg EXMC_CRAM_PAGE_SIZE_256_BYTES: page size is 256 bytes + \arg EXMC_CRAM_PAGE_SIZE_512_BYTES: page size is 512 bytes + \arg EXMC_CRAM_PAGE_SIZE_1024_BYTES: page size is 1024 bytes + \param[out] none + \retval none +*/ +void exmc_norsram_page_size_config(uint32_t exmc_norsram_region, uint32_t page_size) +{ + /* reset the bits */ + EXMC_SNCTL(exmc_norsram_region) &= ~EXMC_SNCTL_CPS; + + /* set the CPS bits */ + EXMC_SNCTL(exmc_norsram_region) |= page_size; +} + +/*! + \brief enable or disable the EXMC NAND ECC function + \param[in] exmc_nand_bank: specifie the NAND bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANKx_NAND(x=1,2) + \param[in] newvalue: ENABLE or DISABLE + \param[out] none + \retval none +*/ +void exmc_nand_ecc_config(uint32_t exmc_nand_bank, ControlStatus newvalue) +{ + if (ENABLE == newvalue){ + /* enable the selected NAND bank ECC function */ + EXMC_NPCTL(exmc_nand_bank) |= EXMC_NPCTL_ECCEN; + }else{ + /* disable the selected NAND bank ECC function */ + EXMC_NPCTL(exmc_nand_bank) &= (~EXMC_NPCTL_ECCEN); + } +} + +/*! + \brief get the EXMC ECC value + \param[in] exmc_nand_bank: specifie the NAND bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANKx_NAND(x=1,2) + \param[out] none + \retval the error correction code(ECC) value +*/ +uint32_t exmc_ecc_get(uint32_t exmc_nand_bank) +{ + return (EXMC_NECC(exmc_nand_bank)); +} + +/*! + \brief enable EXMC interrupt + \param[in] exmc_bank: specifies the NAND bank,PC card bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANK1_NAND: the NAND bank1 + \arg EXMC_BANK2_NAND: the NAND bank2 + \arg EXMC_BANK3_PCCARD: the PC card bank + \param[in] interrupt: EXMC interrupt flag + only one parameter can be selected which are shown as below: + \arg EXMC_NAND_PCCARD_INT_FLAG_RISE: rising edge interrupt and flag + \arg EXMC_NAND_PCCARD_INT_FLAG_LEVEL: high-level interrupt and flag + \arg EXMC_NAND_PCCARD_INT_FLAG_FALL: falling edge interrupt and flag + \param[out] none + \retval none +*/ +void exmc_interrupt_enable(uint32_t exmc_bank,uint32_t interrupt) +{ + /* NAND bank1,bank2 or PC card bank3 */ + EXMC_NPINTEN(exmc_bank) |= interrupt; +} + +/*! + \brief disable EXMC interrupt + \param[in] exmc_bank: specifies the NAND bank , PC card bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANK1_NAND: the NAND bank1 + \arg EXMC_BANK2_NAND: the NAND bank2 + \arg EXMC_BANK3_PCCARD: the PC card bank + \param[in] interrupt: EXMC interrupt flag + only one parameter can be selected which are shown as below: + \arg EXMC_NAND_PCCARD_INT_FLAG_RISE: rising edge interrupt and flag + \arg EXMC_NAND_PCCARD_INT_FLAG_LEVEL: high-level interrupt and flag + \arg EXMC_NAND_PCCARD_INT_FLAG_FALL: falling edge interrupt and flag + \param[out] none + \retval none +*/ +void exmc_interrupt_disable(uint32_t exmc_bank,uint32_t interrupt) +{ + /* NAND bank1,bank2 or PC card bank3 */ + EXMC_NPINTEN(exmc_bank) &= (~interrupt); +} + +/*! + \brief get EXMC flag status + \param[in] exmc_bank: specifies the NAND bank , PC card bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANK1_NAND: the NAND bank1 + \arg EXMC_BANK2_NAND: the NAND bank2 + \arg EXMC_BANK3_PCCARD: the PC Card bank + \param[in] flag: EXMC status and flag + only one parameter can be selected which are shown as below: + \arg EXMC_NAND_PCCARD_FLAG_RISE: interrupt rising edge status + \arg EXMC_NAND_PCCARD_FLAG_LEVEL: interrupt high-level status + \arg EXMC_NAND_PCCARD_FLAG_FALL: interrupt falling edge status + \arg EXMC_NAND_PCCARD_FLAG_FIFOE: FIFO empty flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus exmc_flag_get(uint32_t exmc_bank,uint32_t flag) +{ + uint32_t status = 0x00000000U; + + /* NAND bank1,bank2 or PC card bank3 */ + status = EXMC_NPINTEN(exmc_bank); + + if ((status & flag) != (uint32_t)flag ){ + /* flag is reset */ + return RESET; + }else{ + /* flag is set */ + return SET; + } +} + +/*! + \brief clear EXMC flag status + \param[in] exmc_bank: specifie the NAND bank , PCCARD bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANK1_NAND: the NAND bank1 + \arg EXMC_BANK2_NAND: the NAND bank2 + \arg EXMC_BANK3_PCCARD: the PC card bank + \param[in] flag: EXMC status and flag + only one parameter can be selected which are shown as below: + \arg EXMC_NAND_PCCARD_FLAG_RISE: interrupt rising edge status + \arg EXMC_NAND_PCCARD_FLAG_LEVEL: interrupt high-level status + \arg EXMC_NAND_PCCARD_FLAG_FALL: interrupt falling edge status + \arg EXMC_NAND_PCCARD_FLAG_FIFOE: FIFO empty flag + \param[out] none + \retval none +*/ +void exmc_flag_clear(uint32_t exmc_bank,uint32_t flag) +{ + /* NAND bank1,bank2 or PC card bank3 */ + EXMC_NPINTEN(exmc_bank) &= (~flag); +} + +/*! + \brief get EXMC interrupt flag + \param[in] exmc_bank: specifies the NAND bank , PC card bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANK1_NAND: the NAND bank1 + \arg EXMC_BANK2_NAND: the NAND bank2 + \arg EXMC_BANK3_PCCARD: the PC card bank + \param[in] interrupt: EXMC interrupt flag + only one parameter can be selected which are shown as below: + \arg EXMC_NAND_PCCARD_INT_FLAG_RISE: rising edge interrupt and flag + \arg EXMC_NAND_PCCARD_INT_FLAG_LEVEL: high-level interrupt and flag + \arg EXMC_NAND_PCCARD_INT_FLAG_FALL: falling edge interrupt and flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus exmc_interrupt_flag_get(uint32_t exmc_bank,uint32_t interrupt) +{ + uint32_t status = 0x00000000U,interrupt_enable = 0x00000000U,interrupt_state = 0x00000000U; + + /* NAND bank1,bank2 or PC card bank3 */ + status = EXMC_NPINTEN(exmc_bank); + interrupt_state = (status & (interrupt >> INTEN_INTS_OFFSET)); + + interrupt_enable = (status & interrupt); + + if ((interrupt_enable) && (interrupt_state)){ + /* interrupt flag is set */ + return SET; + }else{ + /* interrupt flag is reset */ + return RESET; + } +} + +/*! + \brief clear EXMC interrupt flag + \param[in] exmc_bank: specifies the NAND bank , PC card bank + only one parameter can be selected which is shown as below: + \arg EXMC_BANK1_NAND: the NAND bank1 + \arg EXMC_BANK2_NAND: the NAND bank2 + \arg EXMC_BANK3_PCCARD: the PC card bank + \param[in] interrupt: EXMC interrupt flag + only one parameter can be selected which are shown as below: + \arg EXMC_NAND_PCCARD_INT_FLAG_RISE: rising edge interrupt and flag + \arg EXMC_NAND_PCCARD_INT_FLAG_LEVEL: high-level interrupt and flag + \arg EXMC_NAND_PCCARD_INT_FLAG_FALL: falling edge interrupt and flag + \param[out] none + \retval none +*/ +void exmc_interrupt_flag_clear(uint32_t exmc_bank,uint32_t interrupt) +{ + /* NAND bank1,bank2 or PC card bank3 */ + EXMC_NPINTEN(exmc_bank) &= ~(interrupt >> INTEN_INTS_OFFSET); +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_exti.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_exti.c new file mode 100644 index 0000000000..b027a523f3 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_exti.c @@ -0,0 +1,253 @@ +/*! + \file gd32f30x_exti.c + \brief EXTI driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_exti.h" + +/*! + \brief deinitialize the EXTI + \param[in] none + \param[out] none + \retval none +*/ +void exti_deinit(void) +{ + /* reset the value of all the EXTI registers */ + EXTI_INTEN = (uint32_t)0x00000000U; + EXTI_EVEN = (uint32_t)0x00000000U; + EXTI_RTEN = (uint32_t)0x00000000U; + EXTI_FTEN = (uint32_t)0x00000000U; + EXTI_SWIEV = (uint32_t)0x00000000U; +} + +/*! + \brief initialize the EXTI + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[in] mode: interrupt or event mode, refer to exti_mode_enum + only one parameter can be selected which is shown as below: + \arg EXTI_INTERRUPT: interrupt mode + \arg EXTI_EVENT: event mode + \param[in] trig_type: interrupt trigger type, refer to exti_trig_type_enum + only one parameter can be selected which is shown as below: + \arg EXTI_TRIG_RISING: rising edge trigger + \arg EXTI_TRIG_FALLING: falling trigger + \arg EXTI_TRIG_BOTH: rising and falling trigger + \param[out] none + \retval none +*/ +void exti_init(exti_line_enum linex, exti_mode_enum mode, exti_trig_type_enum trig_type) +{ + /* reset the EXTI line x */ + EXTI_INTEN &= ~(uint32_t)linex; + EXTI_EVEN &= ~(uint32_t)linex; + EXTI_RTEN &= ~(uint32_t)linex; + EXTI_FTEN &= ~(uint32_t)linex; + + /* set the EXTI mode and enable the interrupts or events from EXTI line x */ + switch(mode){ + case EXTI_INTERRUPT: + EXTI_INTEN |= (uint32_t)linex; + break; + case EXTI_EVENT: + EXTI_EVEN |= (uint32_t)linex; + break; + default: + break; + } + + /* set the EXTI trigger type */ + switch(trig_type){ + case EXTI_TRIG_RISING: + EXTI_RTEN |= (uint32_t)linex; + EXTI_FTEN &= ~(uint32_t)linex; + break; + case EXTI_TRIG_FALLING: + EXTI_RTEN &= ~(uint32_t)linex; + EXTI_FTEN |= (uint32_t)linex; + break; + case EXTI_TRIG_BOTH: + EXTI_RTEN |= (uint32_t)linex; + EXTI_FTEN |= (uint32_t)linex; + break; + default: + break; + } +} + +/*! + \brief enable the interrupts from EXTI line x + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[out] none + \retval none +*/ +void exti_interrupt_enable(exti_line_enum linex) +{ + EXTI_INTEN |= (uint32_t)linex; +} + +/*! + \brief enable the events from EXTI line x + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[out] none + \retval none +*/ +void exti_event_enable(exti_line_enum linex) +{ + EXTI_EVEN |= (uint32_t)linex; +} + +/*! + \brief disable the interrupt from EXTI line x + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[out] none + \retval none +*/ +void exti_interrupt_disable(exti_line_enum linex) +{ + EXTI_INTEN &= ~(uint32_t)linex; +} + +/*! + \brief disable the events from EXTI line x + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[out] none + \retval none +*/ +void exti_event_disable(exti_line_enum linex) +{ + EXTI_EVEN &= ~(uint32_t)linex; +} + +/*! + \brief get EXTI lines flag + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[out] none + \retval FlagStatus: status of flag (RESET or SET) +*/ +FlagStatus exti_flag_get(exti_line_enum linex) +{ + if(RESET != (EXTI_PD & (uint32_t)linex)){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear EXTI lines pending flag + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[out] none + \retval none +*/ +void exti_flag_clear(exti_line_enum linex) +{ + EXTI_PD = (uint32_t)linex; +} + +/*! + \brief get EXTI lines flag when the interrupt flag is set + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[out] none + \retval FlagStatus: status of flag (RESET or SET) +*/ +FlagStatus exti_interrupt_flag_get(exti_line_enum linex) +{ + uint32_t flag_left, flag_right; + + flag_left = EXTI_PD & (uint32_t)linex; + flag_right = EXTI_INTEN & (uint32_t)linex; + + if((RESET != flag_left) && (RESET != flag_right)){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear EXTI lines pending flag + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[out] none + \retval none +*/ +void exti_interrupt_flag_clear(exti_line_enum linex) +{ + EXTI_PD = (uint32_t)linex; +} + +/*! + \brief enable EXTI software interrupt event + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[out] none + \retval none +*/ +void exti_software_interrupt_enable(exti_line_enum linex) +{ + EXTI_SWIEV |= (uint32_t)linex; +} + +/*! + \brief disable EXTI software interrupt event + \param[in] linex: EXTI line number, refer to exti_line_enum + only one parameter can be selected which is shown as below: + \arg EXTI_x (x=0..19): EXTI line x + \param[out] none + \retval none +*/ +void exti_software_interrupt_disable(exti_line_enum linex) +{ + EXTI_SWIEV &= ~(uint32_t)linex; +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_fmc.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_fmc.c new file mode 100644 index 0000000000..bce9e99fe6 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_fmc.c @@ -0,0 +1,1009 @@ +/*! + \file gd32f30x_fmc.c + \brief FMC driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + + +#include "gd32f30x_fmc.h" + +/*! + \brief set the wait state counter value + \param[in] wscnt:wait state counter value + \arg WS_WSCNT_0: FMC 0 wait + \arg WS_WSCNT_1: FMC 1 wait + \arg WS_WSCNT_2: FMC 2 wait + \param[out] none + \retval none +*/ +void fmc_wscnt_set(uint32_t wscnt) +{ + uint32_t reg; + + reg = FMC_WS; + /* set the wait state counter value */ + reg &= ~FMC_WS_WSCNT; + FMC_WS = (reg | wscnt); +} + +/*! + \brief unlock the main FMC operation + \param[in] none + \param[out] none + \retval none +*/ +void fmc_unlock(void) +{ + if((RESET != (FMC_CTL0 & FMC_CTL0_LK))){ + /* write the FMC unlock key */ + FMC_KEY0 = UNLOCK_KEY0; + FMC_KEY0 = UNLOCK_KEY1; + } + if(FMC_BANK0_SIZE < FMC_SIZE){ + /* write the FMC unlock key */ + if(RESET != (FMC_CTL1 & FMC_CTL1_LK)){ + FMC_KEY1 = UNLOCK_KEY0; + FMC_KEY1 = UNLOCK_KEY1; + } + } +} + +/*! + \brief unlock the FMC bank0 operation + this function can be used for all GD32F30x devices. + for GD32F30x with flash more than 512KB, this function unlocks bank0. + for GD32F30x with flash no more than 512KB and it is equivalent to fmc_unlock function. + \param[in] none + \param[out] none + \retval none +*/ +void fmc_bank0_unlock(void) +{ + if((RESET != (FMC_CTL0 & FMC_CTL0_LK))){ + /* write the FMC unlock key */ + FMC_KEY0 = UNLOCK_KEY0; + FMC_KEY0 = UNLOCK_KEY1; + } +} + +/*! + \brief unlock the FMC bank1 operation + this function can be used for GD32F30x with flash more than 512KB. + \param[in] none + \param[out] none + \retval none +*/ +void fmc_bank1_unlock(void) +{ + if((RESET != (FMC_CTL1 & FMC_CTL1_LK))){ + /* write the FMC unlock key */ + FMC_KEY1 = UNLOCK_KEY0; + FMC_KEY1 = UNLOCK_KEY1; + } +} + +/*! + \brief lock the main FMC operation + \param[in] none + \param[out] none + \retval none +*/ +void fmc_lock(void) +{ + /* set the LK bit */ + FMC_CTL0 |= FMC_CTL0_LK; + + if(FMC_BANK0_SIZE < FMC_SIZE){ + /* set the LK bit */ + FMC_CTL1 |= FMC_CTL1_LK; + } +} + +/*! + \brief lock the FMC bank0 operation + this function can be used for all GD32F30X devices. + for GD32F30x with flash more than 512KB, this function locks bank0. + for GD32F30x with flash no more than 512KB and it is equivalent to fmc_lock function. + \param[in] none + \param[out] none + \retval none +*/ +void fmc_bank0_lock(void) +{ + /* set the LK bit*/ + FMC_CTL0 |= FMC_CTL0_LK; +} + +/*! + \brief lock the FMC bank1 operation + this function can be used for GD32F30x with flash more than 512KB. + \param[in] none + \param[out] none + \retval none +*/ +void fmc_bank1_lock(void) +{ + /* set the LK bit*/ + FMC_CTL1 |= FMC_CTL1_LK; +} + +/*! + \brief erase page + \param[in] page_address: the page address to be erased. + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum fmc_page_erase(uint32_t page_address) +{ + fmc_state_enum fmc_state; + + if(FMC_BANK0_SIZE < FMC_SIZE){ + if(FMC_BANK0_END_ADDRESS > page_address){ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* if the last operation is completed, start page erase */ + if(FMC_READY == fmc_state){ + FMC_CTL0 |= FMC_CTL0_PER; + FMC_ADDR0 = page_address; + FMC_CTL0 |= FMC_CTL0_START; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PER bit */ + FMC_CTL0 &= ~FMC_CTL0_PER; + } + }else{ + /* wait for the FMC ready */ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + /* if the last operation is completed, start page erase */ + if(FMC_READY == fmc_state){ + FMC_CTL1 |= FMC_CTL1_PER; + FMC_ADDR1 = page_address; + if(FMC_OBSTAT & FMC_OBSTAT_SPC){ + FMC_ADDR0 = page_address; + } + FMC_CTL1 |= FMC_CTL1_START; + /* wait for the FMC ready */ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PER bit */ + FMC_CTL1 &= ~FMC_CTL1_PER; + } + } + }else{ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* if the last operation is completed, start page erase */ + if(FMC_READY == fmc_state){ + FMC_CTL0 |= FMC_CTL0_PER; + FMC_ADDR0 = page_address; + FMC_CTL0 |= FMC_CTL0_START; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PER bit */ + FMC_CTL0 &= ~FMC_CTL0_PER; + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief erase whole chip + \param[in] none + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum fmc_mass_erase(void) +{ + fmc_state_enum fmc_state; + if(FMC_BANK0_SIZE < FMC_SIZE){ + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + if(FMC_READY == fmc_state){ + /* start whole chip erase */ + FMC_CTL0 |= FMC_CTL0_MER; + FMC_CTL0 |= FMC_CTL0_START; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + if(FMC_READY != fmc_state){ + return fmc_state; + } + /* reset the MER bit */ + FMC_CTL0 &= ~FMC_CTL0_MER; + } + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + if(FMC_READY == fmc_state){ + /* start whole chip erase */ + FMC_CTL1 |= FMC_CTL1_MER; + FMC_CTL1 |= FMC_CTL1_START; + /* wait for the FMC ready */ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the MER bit */ + FMC_CTL1 &= ~FMC_CTL1_MER; + } + }else{ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + if(FMC_READY == fmc_state){ + /* start whole chip erase */ + FMC_CTL0 |= FMC_CTL0_MER; + FMC_CTL0 |= FMC_CTL0_START; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the MER bit */ + FMC_CTL0 &= ~FMC_CTL0_MER; + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief erase bank0 + \param[in] none + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum fmc_bank0_erase(void) +{ + fmc_state_enum fmc_state = FMC_READY; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* start FMC bank0 erase */ + FMC_CTL0 |= FMC_CTL0_MER; + FMC_CTL0 |= FMC_CTL0_START; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the MER bit */ + FMC_CTL0 &= ~FMC_CTL0_MER; + } + /* return the fmc state */ + return fmc_state; +} + +/*! + \brief erase bank1 + \param[in] none + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum fmc_bank1_erase(void) +{ + fmc_state_enum fmc_state = FMC_READY; + /* wait for the FMC ready */ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* start FMC bank1 erase */ + FMC_CTL1 |= FMC_CTL1_MER; + FMC_CTL1 |= FMC_CTL1_START; + /* wait for the FMC ready */ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the MER bit */ + FMC_CTL1 &= ~FMC_CTL1_MER; + } + /* return the fmc state */ + return fmc_state; +} + +/*! + \brief program a word at the corresponding address + \param[in] address: address to program + \param[in] data: word to program + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum fmc_word_program(uint32_t address, uint32_t data) +{ + fmc_state_enum fmc_state = FMC_READY; + if(FMC_BANK0_SIZE < FMC_SIZE){ + if(FMC_BANK0_END_ADDRESS > address){ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* set the PG bit to start program */ + FMC_CTL0 |= FMC_CTL0_PG; + REG32(address) = data; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PG bit */ + FMC_CTL0 &= ~FMC_CTL0_PG; + } + }else{ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* set the PG bit to start program */ + FMC_CTL1 |= FMC_CTL1_PG; + REG32(address) = data; + /* wait for the FMC ready */ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PG bit */ + FMC_CTL1 &= ~FMC_CTL1_PG; + } + } + }else{ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* set the PG bit to start program */ + FMC_CTL0 |= FMC_CTL0_PG; + REG32(address) = data; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PG bit */ + FMC_CTL0 &= ~FMC_CTL0_PG; + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief program a half word at the corresponding address + \param[in] address: address to program + \param[in] data: halfword to program + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum fmc_halfword_program(uint32_t address, uint16_t data) +{ + fmc_state_enum fmc_state = FMC_READY; + if(FMC_BANK0_SIZE < FMC_SIZE){ + if(FMC_BANK0_END_ADDRESS > address){ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* set the PG bit to start program */ + FMC_CTL0 |= FMC_CTL0_PG; + REG16(address) = data; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PG bit */ + FMC_CTL0 &= ~FMC_CTL0_PG; + } + }else{ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* set the PG bit to start program */ + FMC_CTL1 |= FMC_CTL1_PG; + REG16(address) = data; + /* wait for the FMC ready */ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PG bit */ + FMC_CTL1 &= ~FMC_CTL1_PG; + } + } + }else{ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* set the PG bit to start program */ + FMC_CTL0 |= FMC_CTL0_PG; + REG16(address) = data; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PG bit */ + FMC_CTL0 &= ~FMC_CTL0_PG; + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief program a word at the corresponding address without erasing + \param[in] address: address to program + \param[in] data: word to program + \param[out] none + \retval fmc_state +*/ +fmc_state_enum fmc_word_reprogram(uint32_t address, uint32_t data) +{ + fmc_state_enum fmc_state = FMC_READY; + if(FMC_BANK0_SIZE < FMC_SIZE){ + if(FMC_BANK0_END_ADDRESS > address){ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + FMC_WSEN |= FMC_WSEN_BPEN; + if(FMC_READY == fmc_state){ + /* set the PG bit to start program */ + FMC_CTL0 |= FMC_CTL0_PG; + REG32(address) = data; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PG bit */ + FMC_CTL0 &= ~FMC_CTL0_PG; + } + }else{ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + FMC_WSEN |= FMC_WSEN_BPEN; + if(FMC_READY == fmc_state){ + /* set the PG bit to start program */ + FMC_CTL1 |= FMC_CTL1_PG; + REG32(address) = data; + /* wait for the FMC ready */ + fmc_state = fmc_bank1_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PG bit */ + FMC_CTL1 &= ~FMC_CTL1_PG; + } + } + }else{ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + FMC_WSEN |= FMC_WSEN_BPEN; + if(FMC_READY == fmc_state){ + /* set the PG bit to start program */ + FMC_CTL0 |= FMC_CTL0_PG; + REG32(address) = data; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + /* reset the PG bit */ + FMC_CTL0 &= ~FMC_CTL0_PG; + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief unlock the option byte operation + \param[in] none + \param[out] none + \retval none +*/ +void ob_unlock(void) +{ + if(RESET == (FMC_CTL0 & FMC_CTL0_OBWEN)){ + /* write the FMC key */ + FMC_OBKEY = UNLOCK_KEY0; + FMC_OBKEY = UNLOCK_KEY1; + } +} + +/*! + \brief lock the option byte operation + \param[in] none + \param[out] none + \retval none +*/ +void ob_lock(void) +{ + /* reset the OBWEN bit */ + FMC_CTL0 &= ~FMC_CTL0_OBWEN; +} + +/*! + \brief erase the FMC option byte + unlock the FMC_CTL0 and option byte before calling this function + \param[in] none + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum ob_erase(void) +{ + uint16_t temp_spc = FMC_NSPC; + + fmc_state_enum fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + /* check the option byte security protection value */ + if(RESET != ob_spc_get()){ + temp_spc = FMC_USPC; + } + + if(FMC_READY == fmc_state){ + + /* start erase the option byte */ + FMC_CTL0 |= FMC_CTL0_OBER; + FMC_CTL0 |= FMC_CTL0_START; + + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* reset the OBER bit */ + FMC_CTL0 &= ~FMC_CTL0_OBER; + /* set the OBPG bit */ + FMC_CTL0 |= FMC_CTL0_OBPG; + /* no security protection */ + OB_SPC = (uint16_t)temp_spc; + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + if(FMC_TOERR != fmc_state){ + /* reset the OBPG bit */ + FMC_CTL0 &= ~FMC_CTL0_OBPG; + } + }else{ + if(FMC_TOERR != fmc_state){ + /* reset the OBPG bit */ + FMC_CTL0 &= ~FMC_CTL0_OBPG; + } + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief enable write protection + \param[in] ob_wp: specify sector to be write protected + \arg OB_WPx(x=0..31): write protect specify sector + \arg OB_WP_ALL: write protect all sector + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum ob_write_protection_enable(uint32_t ob_wp) +{ + uint16_t temp_wp0, temp_wp1, temp_wp2, temp_wp3; + + fmc_state_enum fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + ob_wp = (uint32_t)(~ob_wp); + temp_wp0 = (uint16_t)(ob_wp & OB_WP0_WP0); + temp_wp1 = (uint16_t)((ob_wp & OB_WP1_WP1) >> 8U); + temp_wp2 = (uint16_t)((ob_wp & OB_WP2_WP2) >> 16U); + temp_wp3 = (uint16_t)((ob_wp & OB_WP3_WP3) >> 24U); + + if(FMC_READY == fmc_state){ + + /* set the OBPG bit*/ + FMC_CTL0 |= FMC_CTL0_OBPG; + + if(0xFFU != temp_wp0){ + OB_WP0 = temp_wp0; + + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + } + if((FMC_READY == fmc_state) && (0xFFU != temp_wp1)){ + OB_WP1 = temp_wp1; + + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + } + if((FMC_READY == fmc_state) && (0xFFU != temp_wp2)){ + OB_WP2 = temp_wp2; + + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + } + if((FMC_READY == fmc_state) && (0xFFU != temp_wp3)){ + OB_WP3 = temp_wp3; + + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + } + if(FMC_TOERR != fmc_state){ + /* reset the OBPG bit */ + FMC_CTL0 &= ~FMC_CTL0_OBPG; + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief configure security protection + \param[in] ob_spc: specify security protection + \arg FMC_NSPC: no security protection + \arg FMC_USPC: under security protection + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum ob_security_protection_config(uint8_t ob_spc) +{ + fmc_state_enum fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + FMC_CTL0 |= FMC_CTL0_OBER; + FMC_CTL0 |= FMC_CTL0_START; + + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* reset the OBER bit */ + FMC_CTL0 &= ~FMC_CTL0_OBER; + + /* start the option byte program */ + FMC_CTL0 |= FMC_CTL0_OBPG; + + OB_SPC = (uint16_t)ob_spc; + + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_TOERR != fmc_state){ + /* reset the OBPG bit */ + FMC_CTL0 &= ~FMC_CTL0_OBPG; + } + }else{ + if(FMC_TOERR != fmc_state){ + /* reset the OBER bit */ + FMC_CTL0 &= ~FMC_CTL0_OBER; + } + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief program the FMC user option byte + \param[in] ob_fwdgt: option byte watchdog value + \arg OB_FWDGT_SW: software free watchdog + \arg OB_FWDGT_HW: hardware free watchdog + \param[in] ob_deepsleep: option byte deepsleep reset value + \arg OB_DEEPSLEEP_NRST: no reset when entering deepsleep mode + \arg OB_DEEPSLEEP_RST: generate a reset instead of entering deepsleep mode + \param[in] ob_stdby:option byte standby reset value + \arg OB_STDBY_NRST: no reset when entering standby mode + \arg OB_STDBY_RST: generate a reset instead of entering standby mode + \param[in] ob_boot: specifies the option byte boot bank value + \arg OB_BOOT_B0: boot from bank0 + \arg OB_BOOT_B1: boot from bank1 or bank0 if bank1 is void + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum ob_user_write(uint8_t ob_fwdgt, uint8_t ob_deepsleep, uint8_t ob_stdby, uint8_t ob_boot) +{ + fmc_state_enum fmc_state = FMC_READY; + uint8_t temp; + + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* set the OBPG bit*/ + FMC_CTL0 |= FMC_CTL0_OBPG; + + temp = ((uint8_t)((uint8_t)((uint8_t)(ob_boot | ob_fwdgt) | ob_deepsleep) | ob_stdby) | OB_USER_MASK); + OB_USER = (uint16_t)temp; + + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_TOERR != fmc_state){ + /* reset the OBPG bit */ + FMC_CTL0 &= ~FMC_CTL0_OBPG; + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief program option bytes data + \param[in] address: the option bytes address to be programmed + \param[in] data: the byte to be programmed + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum ob_data_program(uint32_t address, uint8_t data) +{ + fmc_state_enum fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_READY == fmc_state){ + /* set the OBPG bit */ + FMC_CTL0 |= FMC_CTL0_OBPG; + REG16(address) = data; + + /* wait for the FMC ready */ + fmc_state = fmc_bank0_ready_wait(FMC_TIMEOUT_COUNT); + + if(FMC_TOERR != fmc_state){ + /* reset the OBPG bit */ + FMC_CTL0 &= ~FMC_CTL0_OBPG; + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief get the FMC user option byte + \param[in] none + \param[out] none + \retval the FMC user option byte values +*/ +uint8_t ob_user_get(void) +{ + /* return the FMC user option byte value */ + return (uint8_t)(FMC_OBSTAT >> 2U); +} + +/*! + \brief get OB_DATA in register FMC_OBSTAT + \param[in] none + \param[out] none + \retval ob_data +*/ +uint16_t ob_data_get(void) +{ + return (uint16_t)(FMC_OBSTAT >> 10U); +} + +/*! + \brief get the FMC option byte write protection + \param[in] none + \param[out] none + \retval the FMC write protection option byte value +*/ +uint32_t ob_write_protection_get(void) +{ + /* return the FMC write protection option byte value */ + return FMC_WP; +} + +/*! + \brief get the FMC option byte security protection + \param[in] none + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus ob_spc_get(void) +{ + FlagStatus spc_state = RESET; + + if(RESET != (FMC_OBSTAT & FMC_OBSTAT_SPC)){ + spc_state = SET; + }else{ + spc_state = RESET; + } + return spc_state; +} + +/*! + \brief enable FMC interrupt + \param[in] interrupt: the FMC interrupt source + \arg FMC_INT_BANK0_END: FMC bank0 end of program interrupt + \arg FMC_INT_BANK0_ERR: FMC bank0 error interrupt + \arg FMC_INT_BANK1_END: FMC bank1 end of program interrupt + \arg FMC_INT_BANK1_ERR: FMC bank1 error interrupt + \param[out] none + \retval none +*/ +void fmc_interrupt_enable(uint32_t interrupt) +{ + FMC_REG_VAL(interrupt) |= BIT(FMC_BIT_POS(interrupt)); +} + +/*! + \brief disable FMC interrupt + \param[in] interrupt: the FMC interrupt source + \arg FMC_INT_BANK0_END: FMC bank0 end of program interrupt + \arg FMC_INT_BANK0_ERR: FMC bank0 error interrupt + \arg FMC_INT_BANK1_END: FMC bank1 end of program interrupt + \arg FMC_INT_BANK1_ERR: FMC bank1 error interrupt + \param[out] none + \retval none +*/ +void fmc_interrupt_disable(uint32_t interrupt) +{ + FMC_REG_VAL(interrupt) &= ~BIT(FMC_BIT_POS(interrupt)); +} + +/*! + \brief check flag is set or not + \param[in] flag: check FMC flag + only one parameter can be selected which is shown as below: + \arg FMC_FLAG_BANK0_BUSY: FMC bank0 busy flag bit + \arg FMC_FLAG_BANK0_PGERR: FMC bank0 operation error flag bit + \arg FMC_FLAG_BANK0_WPERR: FMC bank0 erase/program protection error flag bit + \arg FMC_FLAG_BANK0_END: FMC bank0 end of operation flag bit + \arg FMC_FLAG_OBERR: FMC option bytes read error flag bit + \arg FMC_FLAG_BANK1_BUSY: FMC bank1 busy flag bit + \arg FMC_FLAG_BANK1_PGERR: FMC bank1 operation error flag bit + \arg FMC_FLAG_BANK1_WPERR: FMC bank1 erase/program protection error flag bit + \arg FMC_FLAG_BANK1_END: FMC bank1 end of operation flag bit + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus fmc_flag_get(uint32_t flag) +{ + if(RESET != (FMC_REG_VAL(flag) & BIT(FMC_BIT_POS(flag)))){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear the FMC flag + \param[in] flag: clear FMC flag + only one parameter can be selected which is shown as below: + \arg FMC_FLAG_BANK0_PGERR: FMC bank0 operation error flag bit + \arg FMC_FLAG_BANK0_WPERR: FMC bank0 erase/program protection error flag bit + \arg FMC_FLAG_BANK0_END: FMC bank0 end of operation flag bit + \arg FMC_FLAG_BANK1_PGERR: FMC bank1 operation error flag bit + \arg FMC_FLAG_BANK1_WPERR: FMC bank1 erase/program protection error flag bit + \arg FMC_FLAG_BANK1_END: FMC bank1 end of operation flag bit + \param[out] none + \retval none +*/ +void fmc_flag_clear(uint32_t flag) +{ + FMC_REG_VAL(flag) |= BIT(FMC_BIT_POS(flag)); +} + +/*! + \brief get FMC interrupt flag state + \param[in] flag: FMC interrupt flags, refer to fmc_interrupt_flag_enum + only one parameter can be selected which is shown as below: + \arg FMC_INT_FLAG_BANK0_PGERR: FMC bank0 operation error interrupt flag bit + \arg FMC_INT_FLAG_BANK0_WPERR: FMC bank0 erase/program protection error interrupt flag bit + \arg FMC_INT_FLAG_BANK0_END: FMC bank0 end of operation interrupt flag bit + \arg FMC_INT_FLAG_BANK1_PGERR: FMC bank1 operation error interrupt flag bit + \arg FMC_INT_FLAG_BANK1_WPERR: FMC bank1 erase/program protection error interrupt flag bit + \arg FMC_INT_FLAG_BANK1_END: FMC bank1 end of operation interrupt flag bit + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus fmc_interrupt_flag_get(fmc_interrupt_flag_enum flag) +{ + FlagStatus ret1 = RESET; + FlagStatus ret2 = RESET; + + if(FMC_STAT0_REG_OFFSET == FMC_REG_OFFSET_GET(flag)){ + /* get the staus of interrupt flag */ + ret1 = (FlagStatus)(FMC_REG_VALS(flag) & BIT(FMC_BIT_POS0(flag))); + /* get the staus of interrupt enale bit */ + ret2 = (FlagStatus)(FMC_CTL0 & BIT(FMC_BIT_POS1(flag))); + }else{ + /* get the staus of interrupt flag */ + ret1 = (FlagStatus)(FMC_REG_VALS(flag) & BIT(FMC_BIT_POS0(flag))); + /* get the staus of interrupt enale bit */ + ret2 = (FlagStatus)(FMC_CTL1 & BIT(FMC_BIT_POS1(flag))); + } + + if(ret1 && ret2){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear FMC interrupt flag state + \param[in] flag: FMC interrupt flags, refer to can_interrupt_flag_enum + only one parameter can be selected which is shown as below: + \arg FMC_INT_FLAG_BANK0_PGERR: FMC bank0 operation error interrupt flag bit + \arg FMC_INT_FLAG_BANK0_WPERR: FMC bank0 erase/program protection error interrupt flag bit + \arg FMC_INT_FLAG_BANK0_END: FMC bank0 end of operation interrupt flag bit + \arg FMC_INT_FLAG_BANK1_PGERR: FMC bank1 operation error interrupt flag bit + \arg FMC_INT_FLAG_BANK1_WPERR: FMC bank1 erase/program protection error interrupt flag bit + \arg FMC_INT_FLAG_BANK1_END: FMC bank1 end of operation interrupt flag bit + \param[out] none + \retval none +*/ +void fmc_interrupt_flag_clear(fmc_interrupt_flag_enum flag) +{ + FMC_REG_VALS(flag) |= BIT(FMC_BIT_POS0(flag)); +} + +/*! + \brief get the FMC bank0 state + \param[in] none + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum fmc_bank0_state_get(void) +{ + fmc_state_enum fmc_state = FMC_READY; + + if((uint32_t)0x00U != (FMC_STAT0 & FMC_STAT0_BUSY)){ + fmc_state = FMC_BUSY; + }else{ + if((uint32_t)0x00U != (FMC_STAT0 & FMC_STAT0_WPERR)){ + fmc_state = FMC_WPERR; + }else{ + if((uint32_t)0x00U != (FMC_STAT0 & (FMC_STAT0_PGERR))){ + fmc_state = FMC_PGERR; + } + } + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief get the FMC bank1 state + \param[in] none + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum fmc_bank1_state_get(void) +{ + fmc_state_enum fmc_state = FMC_READY; + + if((uint32_t)0x00U != (FMC_STAT1 & FMC_STAT1_BUSY)){ + fmc_state = FMC_BUSY; + }else{ + if((uint32_t)0x00U != (FMC_STAT1 & FMC_STAT1_WPERR)){ + fmc_state = FMC_WPERR; + }else{ + if((uint32_t)0x00U != (FMC_STAT1 & FMC_STAT1_PGERR)){ + fmc_state = FMC_PGERR; + } + } + } + + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief check whether FMC bank0 is ready or not + \param[in] timeout: count of loop + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum fmc_bank0_ready_wait(uint32_t timeout) +{ + fmc_state_enum fmc_state = FMC_BUSY; + + /* wait for FMC ready */ + do{ + /* get FMC state */ + fmc_state = fmc_bank0_state_get(); + timeout--; + }while((FMC_BUSY == fmc_state) && (0x00U != timeout)); + + if(FMC_BUSY == fmc_state){ + fmc_state = FMC_TOERR; + } + /* return the FMC state */ + return fmc_state; +} + +/*! + \brief check whether FMC bank1 is ready or not + \param[in] timeout: count of loop + \param[out] none + \retval state of FMC, refer to fmc_state_enum +*/ +fmc_state_enum fmc_bank1_ready_wait(uint32_t timeout) +{ + fmc_state_enum fmc_state = FMC_BUSY; + + /* wait for FMC ready */ + do{ + /* get FMC state */ + fmc_state = fmc_bank1_state_get(); + timeout--; + }while((FMC_BUSY == fmc_state) && (0x00U != timeout)); + + if(FMC_BUSY == fmc_state){ + fmc_state = FMC_TOERR; + } + /* return the FMC state */ + return fmc_state; +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_fwdgt.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_fwdgt.c new file mode 100644 index 0000000000..a4b90e0eb9 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_fwdgt.c @@ -0,0 +1,223 @@ +/*! + \file gd32f30x_fwdgt.c + \brief FWDGT driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_fwdgt.h" + +/* write value to FWDGT_CTL_CMD bit field */ +#define CTL_CMD(regval) (BITS(0,15) & ((uint32_t)(regval) << 0)) +/* write value to FWDGT_RLD_RLD bit field */ +#define RLD_RLD(regval) (BITS(0,11) & ((uint32_t)(regval) << 0)) + +/*! + \brief enable write access to FWDGT_PSC and FWDGT_RLD + \param[in] none + \param[out] none + \retval none +*/ +void fwdgt_write_enable(void) +{ + FWDGT_CTL = FWDGT_WRITEACCESS_ENABLE; +} + +/*! + \brief disable write access to FWDGT_PSC and FWDGT_RLD + \param[in] none + \param[out] none + \retval none +*/ +void fwdgt_write_disable(void) +{ + FWDGT_CTL = FWDGT_WRITEACCESS_DISABLE; +} + +/*! + \brief start the free watchdog timer counter + \param[in] none + \param[out] none + \retval none +*/ +void fwdgt_enable(void) +{ + FWDGT_CTL = FWDGT_KEY_ENABLE; +} + +/*! + \brief configure the free watchdog timer counter prescaler value + \param[in] prescaler_value: specify prescaler value + only one parameter can be selected which is shown as below: + \arg FWDGT_PSC_DIV4: FWDGT prescaler set to 4 + \arg FWDGT_PSC_DIV8: FWDGT prescaler set to 8 + \arg FWDGT_PSC_DIV16: FWDGT prescaler set to 16 + \arg FWDGT_PSC_DIV32: FWDGT prescaler set to 32 + \arg FWDGT_PSC_DIV64: FWDGT prescaler set to 64 + \arg FWDGT_PSC_DIV128: FWDGT prescaler set to 128 + \arg FWDGT_PSC_DIV256: FWDGT prescaler set to 256 + \param[out] none + \retval ErrStatus: ERROR or SUCCESS +*/ +ErrStatus fwdgt_prescaler_value_config(uint16_t prescaler_value) +{ + uint32_t timeout = FWDGT_PSC_TIMEOUT; + uint32_t flag_status = RESET; + + /* enable write access to FWDGT_PSC */ + FWDGT_CTL = FWDGT_WRITEACCESS_ENABLE; + + /* wait until the PUD flag to be reset */ + do { + flag_status = FWDGT_STAT & FWDGT_STAT_PUD; + } while((--timeout > 0U) && ((uint32_t)RESET != flag_status)); + + if((uint32_t)RESET != flag_status) { + return ERROR; + } + + /* configure FWDGT */ + FWDGT_PSC = (uint32_t)prescaler_value; + + return SUCCESS; +} + +/*! + \brief configure the free watchdog timer counter reload value + \param[in] reload_value: specify reload value(0x0000 - 0x0FFF) + \param[out] none + \retval ErrStatus: ERROR or SUCCESS +*/ +ErrStatus fwdgt_reload_value_config(uint16_t reload_value) +{ + uint32_t timeout = FWDGT_RLD_TIMEOUT; + uint32_t flag_status = RESET; + + /* enable write access to FWDGT_RLD */ + FWDGT_CTL = FWDGT_WRITEACCESS_ENABLE; + + /* wait until the RUD flag to be reset */ + do { + flag_status = FWDGT_STAT & FWDGT_STAT_RUD; + } while((--timeout > 0U) && ((uint32_t)RESET != flag_status)); + + if((uint32_t)RESET != flag_status) { + return ERROR; + } + + FWDGT_RLD = RLD_RLD(reload_value); + + return SUCCESS; +} + +/*! + \brief reload the counter of FWDGT + \param[in] none + \param[out] none + \retval none +*/ +void fwdgt_counter_reload(void) +{ + FWDGT_CTL = FWDGT_KEY_RELOAD; +} + +/*! + \brief configure counter reload value, and prescaler divider value + \param[in] reload_value: specify reload value(0x0000 - 0x0FFF) + \param[in] prescaler_div: FWDGT prescaler value + only one parameter can be selected which is shown as below: + \arg FWDGT_PSC_DIV4: FWDGT prescaler set to 4 + \arg FWDGT_PSC_DIV8: FWDGT prescaler set to 8 + \arg FWDGT_PSC_DIV16: FWDGT prescaler set to 16 + \arg FWDGT_PSC_DIV32: FWDGT prescaler set to 32 + \arg FWDGT_PSC_DIV64: FWDGT prescaler set to 64 + \arg FWDGT_PSC_DIV128: FWDGT prescaler set to 128 + \arg FWDGT_PSC_DIV256: FWDGT prescaler set to 256 + \param[out] none + \retval ErrStatus: ERROR or SUCCESS +*/ +ErrStatus fwdgt_config(uint16_t reload_value, uint8_t prescaler_div) +{ + uint32_t timeout = FWDGT_PSC_TIMEOUT; + uint32_t flag_status = RESET; + + /* enable write access to FWDGT_PSC,and FWDGT_RLD */ + FWDGT_CTL = FWDGT_WRITEACCESS_ENABLE; + + /* wait until the PUD flag to be reset */ + do { + flag_status = FWDGT_STAT & FWDGT_STAT_PUD; + } while((--timeout > 0U) && ((uint32_t)RESET != flag_status)); + + if((uint32_t)RESET != flag_status) { + return ERROR; + } + + /* configure FWDGT */ + FWDGT_PSC = (uint32_t)prescaler_div; + + timeout = FWDGT_RLD_TIMEOUT; + /* wait until the RUD flag to be reset */ + do { + flag_status = FWDGT_STAT & FWDGT_STAT_RUD; + } while((--timeout > 0U) && ((uint32_t)RESET != flag_status)); + + if((uint32_t)RESET != flag_status) { + return ERROR; + } + + FWDGT_RLD = RLD_RLD(reload_value); + + /* reload the counter */ + FWDGT_CTL = FWDGT_KEY_RELOAD; + + return SUCCESS; +} + +/*! + \brief get flag state of FWDGT + \param[in] flag: flag to get + only one parameter can be selected which is shown as below: + \arg FWDGT_FLAG_PUD: a write operation to FWDGT_PSC register is on going + \arg FWDGT_FLAG_RUD: a write operation to FWDGT_RLD register is on going + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus fwdgt_flag_get(uint16_t flag) +{ + if(FWDGT_STAT & flag) { + return SET; + } + + return RESET; +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_gpio.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_gpio.c new file mode 100644 index 0000000000..98df185dc9 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_gpio.c @@ -0,0 +1,583 @@ +/*! + \file gd32f30x_gpio.c + \brief GPIO driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_gpio.h" + +#define AFIO_EXTI_SOURCE_MASK ((uint8_t)0x03U) /*!< AFIO exti source selection mask*/ +#define AFIO_EXTI_SOURCE_FIELDS ((uint8_t)0x04U) /*!< select AFIO exti source registers */ +#define LSB_16BIT_MASK ((uint16_t)0xFFFFU) /*!< LSB 16-bit mask */ +#define PCF_POSITION_MASK ((uint32_t)0x000F0000U) /*!< AFIO_PCF register position mask */ +#define PCF_SWJCFG_MASK ((uint32_t)0xF8FFFFFFU) /*!< AFIO_PCF register SWJCFG mask */ +#define PCF_LOCATION1_MASK ((uint32_t)0x00200000U) /*!< AFIO_PCF register location1 mask */ +#define PCF_LOCATION2_MASK ((uint32_t)0x00100000U) /*!< AFIO_PCF register location2 mask */ +#define AFIO_PCF1_FIELDS ((uint32_t)0x80000000U) /*!< select AFIO_PCF1 register */ +#define GPIO_OUTPUT_PORT_OFFSET ((uint32_t)4U) /*!< GPIO event output port offset*/ + +/*! + \brief reset GPIO port + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[out] none + \retval none +*/ +void gpio_deinit(uint32_t gpio_periph) +{ + switch(gpio_periph){ + case GPIOA: + /* reset GPIOA */ + rcu_periph_reset_enable(RCU_GPIOARST); + rcu_periph_reset_disable(RCU_GPIOARST); + break; + case GPIOB: + /* reset GPIOB */ + rcu_periph_reset_enable(RCU_GPIOBRST); + rcu_periph_reset_disable(RCU_GPIOBRST); + break; + case GPIOC: + /* reset GPIOC */ + rcu_periph_reset_enable(RCU_GPIOCRST); + rcu_periph_reset_disable(RCU_GPIOCRST); + break; + case GPIOD: + /* reset GPIOD */ + rcu_periph_reset_enable(RCU_GPIODRST); + rcu_periph_reset_disable(RCU_GPIODRST); + break; + case GPIOE: + /* reset GPIOE */ + rcu_periph_reset_enable(RCU_GPIOERST); + rcu_periph_reset_disable(RCU_GPIOERST); + break; + case GPIOF: + /* reset GPIOF */ + rcu_periph_reset_enable(RCU_GPIOFRST); + rcu_periph_reset_disable(RCU_GPIOFRST); + break; + case GPIOG: + /* reset GPIOG */ + rcu_periph_reset_enable(RCU_GPIOGRST); + rcu_periph_reset_disable(RCU_GPIOGRST); + break; + default: + break; + } +} + +/*! + \brief reset alternate function I/O(AFIO) + \param[in] none + \param[out] none + \retval none +*/ +void gpio_afio_deinit(void) +{ + rcu_periph_reset_enable(RCU_AFRST); + rcu_periph_reset_disable(RCU_AFRST); +} + +/*! + \brief GPIO parameter initialization + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[in] mode: gpio pin mode + only one parameter can be selected which is shown as below: + \arg GPIO_MODE_AIN: analog input mode + \arg GPIO_MODE_IN_FLOATING: floating input mode + \arg GPIO_MODE_IPD: pull-down input mode + \arg GPIO_MODE_IPU: pull-up input mode + \arg GPIO_MODE_OUT_OD: GPIO output with open-drain + \arg GPIO_MODE_OUT_PP: GPIO output with push-pull + \arg GPIO_MODE_AF_OD: AFIO output with open-drain + \arg GPIO_MODE_AF_PP: AFIO output with push-pull + \param[in] speed: gpio output max speed value + only one parameter can be selected which is shown as below: + \arg GPIO_OSPEED_10MHZ: output max speed 10MHz + \arg GPIO_OSPEED_2MHZ: output max speed 2MHz + \arg GPIO_OSPEED_50MHZ: output max speed 50MHz + \arg GPIO_OSPEED_MAX: output max speed more than 50MHz + \param[in] pin: GPIO pin + one or more parameters can be selected which are shown as below: + \arg GPIO_PIN_x(x=0..15), GPIO_PIN_ALL + \param[out] none + \retval none +*/ +void gpio_init(uint32_t gpio_periph, uint32_t mode, uint32_t speed, uint32_t pin) +{ + uint16_t i; + uint32_t temp_mode = 0U; + uint32_t reg = 0U; + + /* GPIO mode configuration */ + temp_mode = (uint32_t)(mode & ((uint32_t)0x0FU)); + + /* GPIO speed configuration */ + if(((uint32_t)0x00U) != ((uint32_t)mode & ((uint32_t)0x10U))){ + /* output mode max speed */ + if(GPIO_OSPEED_MAX == (uint32_t)speed){ + temp_mode |= (uint32_t)0x03U; + /* set the corresponding SPD bit */ + GPIOx_SPD(gpio_periph) |= (uint32_t)pin ; + }else{ + /* output mode max speed:10MHz,2MHz,50MHz */ + temp_mode |= (uint32_t)speed; + } + } + + /* configure the eight low port pins with GPIO_CTL0 */ + for(i = 0U;i < 8U;i++){ + if((1U << i) & pin){ + reg = GPIO_CTL0(gpio_periph); + + /* clear the specified pin mode bits */ + reg &= ~GPIO_MODE_MASK(i); + /* set the specified pin mode bits */ + reg |= GPIO_MODE_SET(i, temp_mode); + + /* set IPD or IPU */ + if(GPIO_MODE_IPD == mode){ + /* reset the corresponding OCTL bit */ + GPIO_BC(gpio_periph) = (uint32_t)((1U << i) & pin); + }else{ + /* set the corresponding OCTL bit */ + if(GPIO_MODE_IPU == mode){ + GPIO_BOP(gpio_periph) = (uint32_t)((1U << i) & pin); + } + } + /* set GPIO_CTL0 register */ + GPIO_CTL0(gpio_periph) = reg; + } + } + /* configure the eight high port pins with GPIO_CTL1 */ + for(i = 8U;i < 16U;i++){ + if((1U << i) & pin){ + reg = GPIO_CTL1(gpio_periph); + + /* clear the specified pin mode bits */ + reg &= ~GPIO_MODE_MASK(i - 8U); + /* set the specified pin mode bits */ + reg |= GPIO_MODE_SET(i - 8U, temp_mode); + + /* set IPD or IPU */ + if(GPIO_MODE_IPD == mode){ + /* reset the corresponding OCTL bit */ + GPIO_BC(gpio_periph) = (uint32_t)((1U << i) & pin); + }else{ + /* set the corresponding OCTL bit */ + if(GPIO_MODE_IPU == mode){ + GPIO_BOP(gpio_periph) = (uint32_t)((1U << i) & pin); + } + } + /* set GPIO_CTL1 register */ + GPIO_CTL1(gpio_periph) = reg; + } + } +} + +/*! + \brief set GPIO pin + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[in] pin: GPIO pin + one or more parameters can be selected which are shown as below: + \arg GPIO_PIN_x(x=0..15), GPIO_PIN_ALL + \param[out] none + \retval none +*/ +void gpio_bit_set(uint32_t gpio_periph,uint32_t pin) +{ + GPIO_BOP(gpio_periph) = (uint32_t)pin; +} + +/*! + \brief reset GPIO pin + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[in] pin: GPIO pin + one or more parameters can be selected which are shown as below: + \arg GPIO_PIN_x(x=0..15), GPIO_PIN_ALL + \param[out] none + \retval none +*/ +void gpio_bit_reset(uint32_t gpio_periph,uint32_t pin) +{ + GPIO_BC(gpio_periph) = (uint32_t)pin; +} + +/*! + \brief write data to the specified GPIO pin + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[in] pin: GPIO pin + one or more parameters can be selected which are shown as below: + \arg GPIO_PIN_x(x=0..15), GPIO_PIN_ALL + \param[in] bit_value: SET or RESET + \arg RESET: clear the port pin + \arg SET: set the port pin + \param[out] none + \retval none +*/ +void gpio_bit_write(uint32_t gpio_periph,uint32_t pin,bit_status bit_value) +{ + if(RESET != bit_value){ + GPIO_BOP(gpio_periph) = (uint32_t)pin; + }else{ + GPIO_BC(gpio_periph) = (uint32_t)pin; + } +} + +/*! + \brief write data to the specified GPIO port + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[in] data: specify the value to be written to the port output data register + \param[out] none + \retval none +*/ +void gpio_port_write(uint32_t gpio_periph,uint16_t data) +{ + GPIO_OCTL(gpio_periph) = (uint32_t)data; +} + +/*! + \brief get GPIO pin input status + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[in] pin: GPIO pin + only one parameter can be selected which are shown as below: + \arg GPIO_PIN_x(x=0..15), GPIO_PIN_ALL + \param[out] none + \retval input status of gpio pin: SET or RESET +*/ +FlagStatus gpio_input_bit_get(uint32_t gpio_periph,uint32_t pin) +{ + if((uint32_t)RESET != (GPIO_ISTAT(gpio_periph)&(pin))){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief get GPIO port input status + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[out] none + \retval input status of gpio all pins +*/ +uint16_t gpio_input_port_get(uint32_t gpio_periph) +{ + return (uint16_t)(GPIO_ISTAT(gpio_periph)); +} + +/*! + \brief get GPIO pin output status + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[in] pin: GPIO pin + only one parameter can be selected which are shown as below: + \arg GPIO_PIN_x(x=0..15), GPIO_PIN_ALL + \param[out] none + \retval output status of gpio pin: SET or RESET +*/ +FlagStatus gpio_output_bit_get(uint32_t gpio_periph,uint32_t pin) +{ + if((uint32_t)RESET !=(GPIO_OCTL(gpio_periph)&(pin))){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief get GPIO port output status + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[out] none + \retval output status of gpio all pins +*/ +uint16_t gpio_output_port_get(uint32_t gpio_periph) +{ + return ((uint16_t)GPIO_OCTL(gpio_periph)); +} + +/*! + \brief configure GPIO pin remap + \param[in] gpio_remap: select the pin to remap + only one parameter can be selected which are shown as below: + \arg GPIO_SPI0_REMAP: SPI0 remapping + \arg GPIO_I2C0_REMAP: I2C0 remapping + \arg GPIO_USART0_REMAP: USART0 remapping + \arg GPIO_USART1_REMAP: USART1 remapping + \arg GPIO_USART2_PARTIAL_REMAP: USART2 partial remapping + \arg GPIO_USART2_FULL_REMAP: USART2 full remapping + \arg GPIO_TIMER0_PARTIAL_REMAP: TIMER0 partial remapping + \arg GPIO_TIMER0_FULL_REMAP: TIMER0 full remapping + \arg GPIO_TIMER1_PARTIAL_REMAP0: TIMER1 partial remapping + \arg GPIO_TIMER1_PARTIAL_REMAP1: TIMER1 partial remapping + \arg GPIO_TIMER1_FULL_REMAP: TIMER1 full remapping + \arg GPIO_TIMER2_PARTIAL_REMAP: TIMER2 partial remapping + \arg GPIO_TIMER2_FULL_REMAP: TIMER2 full remapping + \arg GPIO_TIMER3_REMAP: TIMER3 remapping + \arg GPIO_CAN_PARTIAL_REMAP: CAN partial remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) + \arg GPIO_CAN_FULL_REMAP: CAN full remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) + \arg GPIO_CAN0_PARTIAL_REMAP: CAN0 partial remapping(only for GD32F30X_CL devices) + \arg GPIO_CAN0_FULL_REMAP: CAN0 full remapping(only for GD32F30X_CL devices) + \arg GPIO_PD01_REMAP: PD01 remapping + \arg GPIO_TIMER4CH3_IREMAP: TIMER4 channel3 internal remapping + \arg GPIO_ADC0_ETRGINS_REMAP: ADC0 external trigger inserted conversion remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) + \arg GPIO_ADC0_ETRGREG_REMAP: ADC0 external trigger regular conversion remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) + \arg GPIO_ADC1_ETRGINS_REMAP: ADC1 external trigger inserted conversion remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) + \arg GPIO_ADC1_ETRGREG_REMAP: ADC1 external trigger regular conversion remapping(only for GD32F30X_HD devices and GD32F30X_XD devices) + \arg GPIO_ENET_REMAP: ENET remapping(only for GD32F30X_CL devices) + \arg GPIO_CAN1_REMAP: CAN1 remapping(only for GD32F30X_CL devices) + \arg GPIO_SWJ_NONJTRST_REMAP: full SWJ(JTAG-DP + SW-DP),but without NJTRST + \arg GPIO_SWJ_SWDPENABLE_REMAP: JTAG-DP disabled and SW-DP enabled + \arg GPIO_SWJ_DISABLE_REMAP: JTAG-DP disabled and SW-DP disabled + \arg GPIO_SPI2_REMAP: SPI2 remapping + \arg GPIO_TIMER1ITR0_REMAP: TIMER1 internal trigger 0 remapping(only for GD32F30X_CL devices) + \arg GPIO_PTP_PPS_REMAP: ethernet PTP PPS remapping(only for GD32F30X_CL devices) + \arg GPIO_TIMER8_REMAP: TIMER8 remapping + \arg GPIO_TIMER9_REMAP: TIMER9 remapping + \arg GPIO_TIMER10_REMAP: TIMER10 remapping + \arg GPIO_TIMER12_REMAP: TIMER12 remapping + \arg GPIO_TIMER13_REMAP: TIMER13 remapping + \arg GPIO_EXMC_NADV_REMAP: EXMC_NADV connect/disconnect + \arg GPIO_CTC_REMAP0: CTC remapping(PD15) + \arg GPIO_CTC_REMAP1: CTC remapping(PF0) + \param[in] newvalue: ENABLE or DISABLE + \param[out] none + \retval none +*/ +void gpio_pin_remap_config(uint32_t remap, ControlStatus newvalue) +{ + uint32_t remap1 = 0U, remap2 = 0U, temp_reg = 0U, temp_mask = 0U; + + if(((uint32_t)0x80000000U) == (remap & 0x80000000U)){ + /* get AFIO_PCF1 regiter value */ + temp_reg = AFIO_PCF1; + }else{ + /* get AFIO_PCF0 regiter value */ + temp_reg = AFIO_PCF0; + } + + temp_mask = (remap & PCF_POSITION_MASK) >> 0x10U; + remap1 = remap & LSB_16BIT_MASK; + + /* judge pin remap type */ + if((PCF_LOCATION1_MASK | PCF_LOCATION2_MASK) == (remap & (PCF_LOCATION1_MASK | PCF_LOCATION2_MASK))){ + temp_reg &= PCF_SWJCFG_MASK; + AFIO_PCF0 &= PCF_SWJCFG_MASK; + }else if(PCF_LOCATION2_MASK == (remap & PCF_LOCATION2_MASK)){ + remap2 = ((uint32_t)0x03U) << temp_mask; + temp_reg &= ~remap2; + temp_reg |= ~PCF_SWJCFG_MASK; + }else{ + temp_reg &= ~(remap1 << ((remap >> 0x15U)*0x10U)); + temp_reg |= ~PCF_SWJCFG_MASK; + } + + /* set pin remap value */ + if(DISABLE != newvalue){ + temp_reg |= (remap1 << ((remap >> 0x15U)*0x10U)); + } + + if(AFIO_PCF1_FIELDS == (remap & AFIO_PCF1_FIELDS)){ + /* set AFIO_PCF1 regiter value */ + AFIO_PCF1 = temp_reg; + }else{ + /* set AFIO_PCF0 regiter value */ + AFIO_PCF0 = temp_reg; + } +} + +#ifdef GD32F30X_CL +/*! + \brief select ethernet MII or RMII PHY + \param[in] enet_sel: ethernet MII or RMII PHY selection + \arg GPIO_ENET_PHY_MII: configure ethernet MAC for connection with an MII PHY + \arg GPIO_ENET_PHY_RMII: configure ethernet MAC for connection with an RMII PHY + \param[out] none + \retval none +*/ +void gpio_ethernet_phy_select(uint32_t enet_sel) +{ + /* clear AFIO_PCF0_ENET_PHY_SEL bit */ + AFIO_PCF0 &= (uint32_t)(~AFIO_PCF0_ENET_PHY_SEL); + + /* select MII or RMII PHY */ + AFIO_PCF0 |= (uint32_t)enet_sel; +} +#endif /* GD32F30X_CL */ + +/*! + \brief select GPIO pin exti sources + \param[in] output_port: gpio event output port + only one parameter can be selected which are shown as below: + \arg GPIO_PORT_SOURCE_GPIOA: output port source A + \arg GPIO_PORT_SOURCE_GPIOB: output port source B + \arg GPIO_PORT_SOURCE_GPIOC: output port source C + \arg GPIO_PORT_SOURCE_GPIOD: output port source D + \arg GPIO_PORT_SOURCE_GPIOE: output port source E + \arg GPIO_PORT_SOURCE_GPIOF: output port source F + \arg GPIO_PORT_SOURCE_GPIOG: output port source G + \param[in] output_pin: GPIO output pin source + only one parameter can be selected which are shown as below: + \arg GPIO_PIN_SOURCE_x(x=0..15) + \param[out] none + \retval none +*/ +void gpio_exti_source_select(uint8_t output_port, uint8_t output_pin) +{ + uint32_t source = 0U; + source = ((uint32_t)0x0FU) << (AFIO_EXTI_SOURCE_FIELDS * (output_pin & AFIO_EXTI_SOURCE_MASK)); + + /* select EXTI sources */ + if(GPIO_PIN_SOURCE_4 > output_pin){ + /* select EXTI0/EXTI1/EXTI2/EXTI3 */ + AFIO_EXTISS0 &= ~source; + AFIO_EXTISS0 |= (((uint32_t)output_port) << (AFIO_EXTI_SOURCE_FIELDS * (output_pin & AFIO_EXTI_SOURCE_MASK))); + }else if(GPIO_PIN_SOURCE_8 > output_pin){ + /* select EXTI4/EXTI5/EXTI6/EXTI7 */ + AFIO_EXTISS1 &= ~source; + AFIO_EXTISS1 |= (((uint32_t)output_port) << (AFIO_EXTI_SOURCE_FIELDS * (output_pin & AFIO_EXTI_SOURCE_MASK))); + }else if(GPIO_PIN_SOURCE_12 > output_pin){ + /* select EXTI8/EXTI9/EXTI10/EXTI11 */ + AFIO_EXTISS2 &= ~source; + AFIO_EXTISS2 |= (((uint32_t)output_port) << (AFIO_EXTI_SOURCE_FIELDS * (output_pin & AFIO_EXTI_SOURCE_MASK))); + }else{ + /* select EXTI12/EXTI13/EXTI14/EXTI15 */ + AFIO_EXTISS3 &= ~source; + AFIO_EXTISS3 |= (((uint32_t)output_port) << (AFIO_EXTI_SOURCE_FIELDS * (output_pin & AFIO_EXTI_SOURCE_MASK))); + } +} + +/*! + \brief configure GPIO pin event output + \param[in] output_port: gpio event output port + only one parameter can be selected which are shown as below: + \arg GPIO_EVENT_PORT_GPIOA: event output port A + \arg GPIO_EVENT_PORT_GPIOB: event output port B + \arg GPIO_EVENT_PORT_GPIOC: event output port C + \arg GPIO_EVENT_PORT_GPIOD: event output port D + \arg GPIO_EVENT_PORT_GPIOE: event output port E + \param[in] output_pin: GPIO event output pin + only one parameter can be selected which are shown as below: + \arg GPIO_EVENT_PIN_x(x=0..15) + \param[out] none + \retval none +*/ +void gpio_event_output_config(uint8_t output_port, uint8_t output_pin) +{ + uint32_t reg = 0U; + reg = AFIO_EC; + + /* clear AFIO_EC_PORT and AFIO_EC_PIN bits */ + reg &= (uint32_t)(~(AFIO_EC_PORT|AFIO_EC_PIN)); + + reg |= (uint32_t)((uint32_t)output_port << GPIO_OUTPUT_PORT_OFFSET); + reg |= (uint32_t)output_pin; + + AFIO_EC = reg; +} + +/*! + \brief enable GPIO pin event output + \param[in] none + \param[out] none + \retval none +*/ +void gpio_event_output_enable(void) +{ + AFIO_EC |= AFIO_EC_EOE; +} + +/*! + \brief disable GPIO pin event output + \param[in] none + \param[out] none + \retval none +*/ +void gpio_event_output_disable(void) +{ + AFIO_EC &= (uint32_t)(~AFIO_EC_EOE); +} + +/*! + \brief lock GPIO pin + \param[in] gpio_periph: GPIOx(x = A,B,C,D,E,F,G) + \param[in] pin: GPIO pin + one or more parameters can be selected which are shown as below: + \arg GPIO_PIN_x(x=0..15), GPIO_PIN_ALL + \param[out] none + \retval none +*/ +void gpio_pin_lock(uint32_t gpio_periph,uint32_t pin) +{ + uint32_t lock = 0x00010000U; + lock |= pin; + + /* lock key writing sequence: write 1 -> write 0 -> write 1 -> read 0 -> read 1 */ + GPIO_LOCK(gpio_periph) = (uint32_t)lock; + GPIO_LOCK(gpio_periph) = (uint32_t)pin; + GPIO_LOCK(gpio_periph) = (uint32_t)lock; + lock = GPIO_LOCK(gpio_periph); + lock = GPIO_LOCK(gpio_periph); +} + +/*! + \brief configure the I/O compensation cell + \param[in] compensation: specifies the I/O compensation cell mode + only one parameter can be selected which are shown as below: + \arg GPIO_COMPENSATION_ENABLE: I/O compensation cell is enabled + \arg GPIO_COMPENSATION_DISABLE: I/O compensation cell is disabled + \param[out] none + \retval none +*/ +void gpio_compensation_config(uint32_t compensation) +{ + uint32_t reg; + reg = AFIO_CPSCTL; + + /* reset the AFIO_CPSCTL_CPS_EN bit and set according to gpio_compensation */ + reg &= ~AFIO_CPSCTL_CPS_EN; + AFIO_CPSCTL = (reg | compensation); +} + +/*! + \brief check the I/O compensation cell is ready or not + \param[in] none + \param[out] none + \retval FlagStatus: SET or RESET + */ +FlagStatus gpio_compensation_flag_get(void) +{ + if(((uint32_t)RESET) != (AFIO_CPSCTL & AFIO_CPSCTL_CPS_RDY)){ + return SET; + }else{ + return RESET; + } +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_i2c.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_i2c.c new file mode 100644 index 0000000000..ebf6ef09f5 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_i2c.c @@ -0,0 +1,738 @@ +/*! + \file gd32f30x_i2c.c + \brief I2C driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2019-04-16, V2.0.1, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_i2c.h" + +#define I2C_ERROR_HANDLE(s) do{}while(1) + +#define I2CCLK_MAX ((uint32_t)0x0000003CU) /*!< i2cclk maximum value */ +#define I2CCLK_MIN ((uint32_t)0x00000002U) /*!< i2cclk minimum value */ +#define I2C_FLAG_MASK ((uint32_t)0x0000FFFFU) /*!< i2c flag mask */ +#define I2C_ADDRESS_MASK ((uint32_t)0x000003FFU) /*!< i2c address mask */ +#define I2C_ADDRESS2_MASK ((uint32_t)0x000000FEU) /*!< the second i2c address mask */ + +/* I2C register bit offset */ +#define STAT1_PECV_OFFSET ((uint32_t)0x00000008U) /* bit offset of PECV in I2C_STAT1 */ + +/*! + \brief reset I2C + \param[in] i2c_periph: I2Cx(x=0,1) + \param[out] none + \retval none +*/ +void i2c_deinit(uint32_t i2c_periph) +{ + switch(i2c_periph){ + case I2C0: + /* reset I2C0 */ + rcu_periph_reset_enable(RCU_I2C0RST); + rcu_periph_reset_disable(RCU_I2C0RST); + break; + case I2C1: + /* reset I2C1 */ + rcu_periph_reset_enable(RCU_I2C1RST); + rcu_periph_reset_disable(RCU_I2C1RST); + break; + default: + break; + } +} + +/*! + \brief configure I2C clock + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] clkspeed: I2C clock speed, supports standard mode (up to 100 kHz), fast mode (up to 400 kHz) + and fast mode plus (up to 1MHz) + \param[in] dutycyc: duty cycle in fast mode or fast mode plus + only one parameter can be selected which is shown as below: + \arg I2C_DTCY_2: T_low/T_high=2 + \arg I2C_DTCY_16_9: T_low/T_high=16/9 + \param[out] none + \retval none +*/ +void i2c_clock_config(uint32_t i2c_periph, uint32_t clkspeed, uint32_t dutycyc) +{ + uint32_t pclk1, clkc, freq, risetime; + uint32_t temp; + + /* check the clkspeed value */ + if(0U == clkspeed){ + I2C_ERROR_HANDLE("the parameter can not be 0 \r\n"); + } + + pclk1 = rcu_clock_freq_get(CK_APB1); + /* I2C peripheral clock frequency */ + freq = (uint32_t)(pclk1/1000000U); + if(freq >= I2CCLK_MAX){ + freq = I2CCLK_MAX; + } + temp = I2C_CTL1(i2c_periph); + temp &= ~I2C_CTL1_I2CCLK; + temp |= freq; + + I2C_CTL1(i2c_periph) = temp; + + if(100000U >= clkspeed){ + /* the maximum SCL rise time is 1000ns in standard mode */ + risetime = (uint32_t)((pclk1/1000000U)+1U); + if(risetime >= I2CCLK_MAX){ + I2C_RT(i2c_periph) = I2CCLK_MAX; + }else if(risetime <= I2CCLK_MIN){ + I2C_RT(i2c_periph) = I2CCLK_MIN; + }else{ + I2C_RT(i2c_periph) = risetime; + } + clkc = (uint32_t)(pclk1/(clkspeed*2U)); + if(clkc < 0x04U){ + /* the CLKC in standard mode minmum value is 4 */ + clkc = 0x04U; + } + I2C_CKCFG(i2c_periph) |= (I2C_CKCFG_CLKC & clkc); + + }else if(400000U >= clkspeed){ + /* the maximum SCL rise time is 300ns in fast mode */ + I2C_RT(i2c_periph) = (uint32_t)(((freq*(uint32_t)300U)/(uint32_t)1000U)+(uint32_t)1U); + if(I2C_DTCY_2 == dutycyc){ + /* I2C duty cycle is 2 */ + clkc = (uint32_t)(pclk1/(clkspeed*3U)); + I2C_CKCFG(i2c_periph) &= ~I2C_CKCFG_DTCY; + }else{ + /* I2C duty cycle is 16/9 */ + clkc = (uint32_t)(pclk1/(clkspeed*25U)); + I2C_CKCFG(i2c_periph) |= I2C_CKCFG_DTCY; + } + if(0U == (clkc & I2C_CKCFG_CLKC)){ + /* the CLKC in fast mode minmum value is 1 */ + clkc |= 0x0001U; + } + I2C_CKCFG(i2c_periph) |= I2C_CKCFG_FAST; + I2C_CKCFG(i2c_periph) |= clkc; + }else{ + /* fast mode plus, the maximum SCL rise time is 120ns */ + I2C_RT(i2c_periph) = (uint32_t)(((freq*(uint32_t)120U)/(uint32_t)1000U)+(uint32_t)1U); + if(I2C_DTCY_2 == dutycyc){ + /* I2C duty cycle is 2 */ + clkc = (uint32_t)(pclk1/(clkspeed*3U)); + I2C_CKCFG(i2c_periph) &= ~I2C_CKCFG_DTCY; + }else{ + /* I2C duty cycle is 16/9 */ + clkc = (uint32_t)(pclk1/(clkspeed*25U)); + I2C_CKCFG(i2c_periph) |= I2C_CKCFG_DTCY; + } + /* enable fast mode */ + I2C_CKCFG(i2c_periph) |= I2C_CKCFG_FAST; + I2C_CKCFG(i2c_periph) |= clkc; + /* enable I2C fast mode plus */ + I2C_FMPCFG(i2c_periph) = I2C_FMPCFG_FMPEN; + } +} + +/*! + \brief configure I2C address + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] mode: + only one parameter can be selected which is shown as below: + \arg I2C_I2CMODE_ENABLE: I2C mode + \arg I2C_SMBUSMODE_ENABLE: SMBus mode + \param[in] addformat: 7bits or 10bits + only one parameter can be selected which is shown as below: + \arg I2C_ADDFORMAT_7BITS: address format is 7bits + \arg I2C_ADDFORMAT_10BITS: address format is 10bits + \param[in] addr: I2C address + \param[out] none + \retval none +*/ +void i2c_mode_addr_config(uint32_t i2c_periph, uint32_t mode, uint32_t addformat, uint32_t addr) +{ + /* SMBus/I2C mode selected */ + uint32_t ctl = 0U; + + ctl = I2C_CTL0(i2c_periph); + ctl &= ~(I2C_CTL0_SMBEN); + ctl |= mode; + I2C_CTL0(i2c_periph) = ctl; + /* configure address */ + addr = addr & I2C_ADDRESS_MASK; + I2C_SADDR0(i2c_periph) = (addformat | addr); +} + +/*! + \brief select SMBus type + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] type: + only one parameter can be selected which is shown as below: + \arg I2C_SMBUS_DEVICE: device + \arg I2C_SMBUS_HOST: host + \param[out] none + \retval none +*/ +void i2c_smbus_type_config(uint32_t i2c_periph, uint32_t type) +{ + if(I2C_SMBUS_HOST == type){ + I2C_CTL0(i2c_periph) |= I2C_CTL0_SMBSEL; + }else{ + I2C_CTL0(i2c_periph) &= ~(I2C_CTL0_SMBSEL); + } +} + +/*! + \brief whether or not to send an ACK + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] ack: + only one parameter can be selected which is shown as below: + \arg I2C_ACK_ENABLE: ACK will be sent + \arg I2C_ACK_DISABLE: ACK will not be sent + \param[out] none + \retval none +*/ +void i2c_ack_config(uint32_t i2c_periph, uint32_t ack) +{ + uint32_t ctl = 0U; + + ctl = I2C_CTL0(i2c_periph); + ctl &= ~(I2C_CTL0_ACKEN); + ctl |= ack; + I2C_CTL0(i2c_periph) = ctl; +} + +/*! + \brief configure I2C POAP position + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] pos: + only one parameter can be selected which is shown as below: + \arg I2C_ACKPOS_CURRENT: ACKEN bit decides whether or not to send ACK or not for the current byte + \arg I2C_ACKPOS_NEXT: ACKEN bit decides whether or not to send ACK for the next byte + \param[out] none + \retval none +*/ +void i2c_ackpos_config(uint32_t i2c_periph, uint32_t pos) +{ + uint32_t ctl = 0U; + /* configure I2C POAP position */ + ctl = I2C_CTL0(i2c_periph); + ctl &= ~(I2C_CTL0_POAP); + ctl |= pos; + I2C_CTL0(i2c_periph) = ctl; +} + +/*! + \brief master sends slave address + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] addr: slave address + \param[in] trandirection: transmitter or receiver + only one parameter can be selected which is shown as below: + \arg I2C_TRANSMITTER: transmitter + \arg I2C_RECEIVER: receiver + \param[out] none + \retval none +*/ +void i2c_master_addressing(uint32_t i2c_periph, uint32_t addr, uint32_t trandirection) +{ + /* master is a transmitter or a receiver */ + if(I2C_TRANSMITTER == trandirection){ + addr = addr & I2C_TRANSMITTER; + }else{ + addr = addr | I2C_RECEIVER; + } + /* send slave address */ + I2C_DATA(i2c_periph) = addr; +} + +/*! + \brief enable dual-address mode + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] dualaddr: the second address in dual-address mode + \param[out] none + \retval none +*/ +void i2c_dualaddr_enable(uint32_t i2c_periph, uint32_t dualaddr) +{ + /* configure address */ + dualaddr = dualaddr & I2C_ADDRESS2_MASK; + I2C_SADDR1(i2c_periph) = (I2C_SADDR1_DUADEN | dualaddr); +} + +/*! + \brief disable dual-address mode + \param[in] i2c_periph: I2Cx(x=0,1) + \param[out] none + \retval none +*/ +void i2c_dualaddr_disable(uint32_t i2c_periph) +{ + I2C_SADDR1(i2c_periph) &= ~(I2C_SADDR1_DUADEN); +} + +/*! + \brief enable I2C + \param[in] i2c_periph: I2Cx(x=0,1) + \param[out] none + \retval none +*/ +void i2c_enable(uint32_t i2c_periph) +{ + I2C_CTL0(i2c_periph) |= I2C_CTL0_I2CEN; +} + +/*! + \brief disable I2C + \param[in] i2c_periph: I2Cx(x=0,1) + \param[out] none + \retval none +*/ +void i2c_disable(uint32_t i2c_periph) +{ + I2C_CTL0(i2c_periph) &= ~(I2C_CTL0_I2CEN); +} + +/*! + \brief generate a START condition on I2C bus + \param[in] i2c_periph: I2Cx(x=0,1) + \param[out] none + \retval none +*/ +void i2c_start_on_bus(uint32_t i2c_periph) +{ + I2C_CTL0(i2c_periph) |= I2C_CTL0_START; +} + +/*! + \brief generate a STOP condition on I2C bus + \param[in] i2c_periph: I2Cx(x=0,1) + \param[out] none + \retval none +*/ +void i2c_stop_on_bus(uint32_t i2c_periph) +{ + I2C_CTL0(i2c_periph) |= I2C_CTL0_STOP; +} + +/*! + \brief I2C transmit data function + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] data: data of transmission + \param[out] none + \retval none +*/ +void i2c_data_transmit(uint32_t i2c_periph, uint8_t data) +{ + I2C_DATA(i2c_periph) = DATA_TRANS(data); +} + +/*! + \brief I2C receive data function + \param[in] i2c_periph: I2Cx(x=0,1) + \param[out] none + \retval data of received +*/ +uint8_t i2c_data_receive(uint32_t i2c_periph) +{ + return (uint8_t)DATA_RECV(I2C_DATA(i2c_periph)); +} + +/*! + \brief configure I2C DMA mode + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] dmastate: + only one parameter can be selected which is shown as below: + \arg I2C_DMA_ON: enable DMA mode + \arg I2C_DMA_OFF: disable DMA mode + \param[out] none + \retval none +*/ +void i2c_dma_config(uint32_t i2c_periph, uint32_t dmastate) +{ + /* configure I2C DMA function */ + uint32_t ctl = 0U; + + ctl = I2C_CTL1(i2c_periph); + ctl &= ~(I2C_CTL1_DMAON); + ctl |= dmastate; + I2C_CTL1(i2c_periph) = ctl; +} + +/*! + \brief configure whether next DMA EOT is DMA last transfer or not + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] dmalast: + only one parameter can be selected which is shown as below: + \arg I2C_DMALST_ON: next DMA EOT is the last transfer + \arg I2C_DMALST_OFF: next DMA EOT is not the last transfer + \param[out] none + \retval none +*/ +void i2c_dma_last_transfer_config(uint32_t i2c_periph, uint32_t dmalast) +{ + /* configure DMA last transfer */ + uint32_t ctl = 0U; + + ctl = I2C_CTL1(i2c_periph); + ctl &= ~(I2C_CTL1_DMALST); + ctl |= dmalast; + I2C_CTL1(i2c_periph) = ctl; +} + +/*! + \brief whether to stretch SCL low when data is not ready in slave mode + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] stretchpara: + only one parameter can be selected which is shown as below: + \arg I2C_SCLSTRETCH_ENABLE: enable SCL stretching + \arg I2C_SCLSTRETCH_DISABLE: disable SCL stretching + \param[out] none + \retval none +*/ +void i2c_stretch_scl_low_config(uint32_t i2c_periph, uint32_t stretchpara) +{ + /* configure I2C SCL strerching */ + uint32_t ctl = 0U; + + ctl = I2C_CTL0(i2c_periph); + ctl &= ~(I2C_CTL0_SS); + ctl |= stretchpara; + I2C_CTL0(i2c_periph) = ctl; +} + +/*! + \brief whether or not to response to a general call + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] gcallpara: + only one parameter can be selected which is shown as below: + \arg I2C_GCEN_ENABLE: slave will response to a general call + \arg I2C_GCEN_DISABLE: slave will not response to a general call + \param[out] none + \retval none +*/ +void i2c_slave_response_to_gcall_config(uint32_t i2c_periph, uint32_t gcallpara) +{ + /* configure slave response to a general call enable or disable */ + uint32_t ctl = 0U; + + ctl = I2C_CTL0(i2c_periph); + ctl &= ~(I2C_CTL0_GCEN); + ctl |= gcallpara; + I2C_CTL0(i2c_periph) = ctl; +} + +/*! + \brief configure software reset of I2C + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] sreset: + only one parameter can be selected which is shown as below: + \arg I2C_SRESET_SET: I2C is under reset + \arg I2C_SRESET_RESET: I2C is not under reset + \param[out] none + \retval none +*/ +void i2c_software_reset_config(uint32_t i2c_periph, uint32_t sreset) +{ + /* modify CTL0 and configure software reset I2C state */ + uint32_t ctl = 0U; + + ctl = I2C_CTL0(i2c_periph); + ctl &= ~(I2C_CTL0_SRESET); + ctl |= sreset; + I2C_CTL0(i2c_periph) = ctl; +} + +/*! + \brief configure I2C PEC calculation + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] pecpara: + only one parameter can be selected which is shown as below: + \arg I2C_PEC_ENABLE: PEC calculation on + \arg I2C_PEC_DISABLE: PEC calculation off + \param[out] none + \retval none +*/ +void i2c_pec_config(uint32_t i2c_periph, uint32_t pecstate) +{ + /* on/off PEC calculation */ + uint32_t ctl = 0U; + + ctl = I2C_CTL0(i2c_periph); + ctl &= ~(I2C_CTL0_PECEN); + ctl |= pecstate; + I2C_CTL0(i2c_periph) = ctl; +} + +/*! + \brief configure whether to transfer PEC value + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] pecpara: + only one parameter can be selected which is shown as below: + \arg I2C_PECTRANS_ENABLE: transfer PEC + \arg I2C_PECTRANS_DISABLE: not transfer PEC + \param[out] none + \retval none +*/ +void i2c_pec_transfer_config(uint32_t i2c_periph, uint32_t pecpara) +{ + /* whether to transfer PEC */ + uint32_t ctl = 0U; + + ctl = I2C_CTL0(i2c_periph); + ctl &= ~(I2C_CTL0_PECTRANS); + ctl |= pecpara; + I2C_CTL0(i2c_periph) = ctl; +} + +/*! + \brief get packet error checking value + \param[in] i2c_periph: I2Cx(x=0,1) + \param[out] none + \retval PEC value +*/ +uint8_t i2c_pec_value_get(uint32_t i2c_periph) +{ + return (uint8_t)((I2C_STAT1(i2c_periph) & I2C_STAT1_PECV)>>STAT1_PECV_OFFSET); +} + +/*! + \brief configure I2C alert through SMBA pin + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] smbuspara: + only one parameter can be selected which is shown as below: + \arg I2C_SALTSEND_ENABLE: issue alert through SMBA pin + \arg I2C_SALTSEND_DISABLE: not issue alert through SMBA pin + \param[out] none + \retval none +*/ +void i2c_smbus_alert_config(uint32_t i2c_periph, uint32_t smbuspara) +{ + /* issue alert through SMBA pin configure*/ + uint32_t ctl = 0U; + + ctl = I2C_CTL0(i2c_periph); + ctl &= ~(I2C_CTL0_SALT); + ctl |= smbuspara; + I2C_CTL0(i2c_periph) = ctl; +} + +/*! + \brief configure I2C ARP protocol in SMBus + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] smbuspara: + only one parameter can be selected which is shown as below: + \arg I2C_ARP_ENABLE: enable ARP + \arg I2C_ARP_DISABLE: disable ARP + \param[out] none + \retval none +*/ +void i2c_smbus_arp_config(uint32_t i2c_periph, uint32_t arpstate) +{ + /* enable or disable I2C ARP protocol*/ + uint32_t ctl = 0U; + + ctl = I2C_CTL0(i2c_periph); + ctl &= ~(I2C_CTL0_ARPEN); + ctl |= arpstate; + I2C_CTL0(i2c_periph) = ctl; +} + +/*! + \brief get I2C flag status + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] flag: I2C flags, refer to i2c_flag_enum + only one parameter can be selected which is shown as below: + \arg I2C_FLAG_SBSEND: start condition sent out in master mode + \arg I2C_FLAG_ADDSEND: address is sent in master mode or received and matches in slave mode + \arg I2C_FLAG_BTC: byte transmission finishes + \arg I2C_FLAG_ADD10SEND: header of 10-bit address is sent in master mode + \arg I2C_FLAG_STPDET: stop condition detected in slave mode + \arg I2C_FLAG_RBNE: I2C_DATA is not empty during receiving + \arg I2C_FLAG_TBE: I2C_DATA is empty during transmitting + \arg I2C_FLAG_BERR: a bus error occurs indication a unexpected start or stop condition on I2C bus + \arg I2C_FLAG_LOSTARB: arbitration lost in master mode + \arg I2C_FLAG_AERR: acknowledge error + \arg I2C_FLAG_OUERR: overrun or underrun situation occurs in slave mode + \arg I2C_FLAG_PECERR: PEC error when receiving data + \arg I2C_FLAG_SMBTO: timeout signal in SMBus mode + \arg I2C_FLAG_SMBALT: SMBus alert status + \arg I2C_FLAG_MASTER: a flag indicating whether I2C block is in master or slave mode + \arg I2C_FLAG_I2CBSY: busy flag + \arg I2C_FLAG_TRS: whether the I2C is a transmitter or a receiver + \arg I2C_FLAG_RXGC: general call address (00h) received + \arg I2C_FLAG_DEFSMB: default address of SMBus device + \arg I2C_FLAG_HSTSMB: SMBus host header detected in slave mode + \arg I2C_FLAG_DUMOD: dual flag in slave mode indicating which address is matched in dual-address mode + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus i2c_flag_get(uint32_t i2c_periph, i2c_flag_enum flag) +{ + if(RESET != (I2C_REG_VAL(i2c_periph, flag) & BIT(I2C_BIT_POS(flag)))){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear I2C flag status + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] flag: I2C flags, refer to i2c_flag_enum + only one parameter can be selected which is shown as below: + \arg I2C_FLAG_SMBALT: SMBus alert status + \arg I2C_FLAG_SMBTO: timeout signal in SMBus mode + \arg I2C_FLAG_PECERR: PEC error when receiving data + \arg I2C_FLAG_OUERR: over-run or under-run situation occurs in slave mode + \arg I2C_FLAG_AERR: acknowledge error + \arg I2C_FLAG_LOSTARB: arbitration lost in master mode + \arg I2C_FLAG_BERR: a bus error occurs indication a unexpected start or stop condition on I2C bus + \arg I2C_FLAG_ADDSEND: address is sent in master mode or received and matches in slave mode + \param[out] none + \retval none +*/ +void i2c_flag_clear(uint32_t i2c_periph, i2c_flag_enum flag) +{ + if(I2C_FLAG_ADDSEND == flag){ + /* read I2C_STAT0 and then read I2C_STAT1 to clear ADDSEND */ + I2C_STAT0(i2c_periph); + I2C_STAT1(i2c_periph); + }else{ + I2C_REG_VAL(i2c_periph, flag) &= ~BIT(I2C_BIT_POS(flag)); + } +} + +/*! + \brief enable I2C interrupt + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] interrupt: I2C interrupts, refer to i2c_interrupt_enum + only one parameter can be selected which is shown as below: + \arg I2C_INT_ERR: error interrupt + \arg I2C_INT_EV: event interrupt + \arg I2C_INT_BUF: buffer interrupt + \param[out] none + \retval none +*/ +void i2c_interrupt_enable(uint32_t i2c_periph, i2c_interrupt_enum interrupt) +{ + I2C_REG_VAL(i2c_periph, interrupt) |= BIT(I2C_BIT_POS(interrupt)); +} + +/*! + \brief disable I2C interrupt + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] interrupt: I2C interrupts, refer to i2c_flag_enum + only one parameter can be selected which is shown as below: + \arg I2C_INT_ERR: error interrupt enable + \arg I2C_INT_EV: event interrupt enable + \arg I2C_INT_BUF: buffer interrupt enable + \param[out] none + \retval none +*/ +void i2c_interrupt_disable(uint32_t i2c_periph, i2c_interrupt_enum interrupt) +{ + I2C_REG_VAL(i2c_periph, interrupt) &= ~BIT(I2C_BIT_POS(interrupt)); +} + +/*! + \brief get I2C interrupt flag status + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] int_flag: I2C interrupt flags, refer to i2c_interrupt_flag_enum + only one parameter can be selected which is shown as below: + \arg I2C_INT_FLAG_SBSEND: start condition sent out in master mode interrupt flag + \arg I2C_INT_FLAG_ADDSEND: address is sent in master mode or received and matches in slave mode interrupt flag + \arg I2C_INT_FLAG_BTC: byte transmission finishes + \arg I2C_INT_FLAG_ADD10SEND: header of 10-bit address is sent in master mode interrupt flag + \arg I2C_INT_FLAG_STPDET: etop condition detected in slave mode interrupt flag + \arg I2C_INT_FLAG_RBNE: I2C_DATA is not Empty during receiving interrupt flag + \arg I2C_INT_FLAG_TBE: I2C_DATA is empty during transmitting interrupt flag + \arg I2C_INT_FLAG_BERR: a bus error occurs indication a unexpected start or stop condition on I2C bus interrupt flag + \arg I2C_INT_FLAG_LOSTARB: arbitration lost in master mode interrupt flag + \arg I2C_INT_FLAG_AERR: acknowledge error interrupt flag + \arg I2C_INT_FLAG_OUERR: over-run or under-run situation occurs in slave mode interrupt flag + \arg I2C_INT_FLAG_PECERR: PEC error when receiving data interrupt flag + \arg I2C_INT_FLAG_SMBTO: timeout signal in SMBus mode interrupt flag + \arg I2C_INT_FLAG_SMBALT: SMBus alert status interrupt flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus i2c_interrupt_flag_get(uint32_t i2c_periph, i2c_interrupt_flag_enum int_flag) +{ + uint32_t intenable = 0U, flagstatus = 0U, bufie; + + /* check BUFIE */ + bufie = I2C_CTL1(i2c_periph)&I2C_CTL1_BUFIE; + + /* get the interrupt enable bit status */ + intenable = (I2C_REG_VAL(i2c_periph, int_flag) & BIT(I2C_BIT_POS(int_flag))); + /* get the corresponding flag bit status */ + flagstatus = (I2C_REG_VAL2(i2c_periph, int_flag) & BIT(I2C_BIT_POS2(int_flag))); + + if((I2C_INT_FLAG_RBNE == int_flag) || (I2C_INT_FLAG_TBE == int_flag)){ + if(intenable && bufie){ + intenable = 1U; + }else{ + intenable = 0U; + } + } + if((0U != flagstatus) && (0U != intenable)){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear I2C interrupt flag status + \param[in] i2c_periph: I2Cx(x=0,1) + \param[in] intflag: I2C interrupt flags, refer to i2c_interrupt_flag_enum + only one parameter can be selected which is shown as below: + \arg I2C_INT_FLAG_ADDSEND: address is sent in master mode or received and matches in slave mode interrupt flag + \arg I2C_INT_FLAG_BERR: a bus error occurs indication a unexpected start or stop condition on I2C bus interrupt flag + \arg I2C_INT_FLAG_LOSTARB: arbitration lost in master mode interrupt flag + \arg I2C_INT_FLAG_AERR: acknowledge error interrupt flag + \arg I2C_INT_FLAG_OUERR: over-run or under-run situation occurs in slave mode interrupt flag + \arg I2C_INT_FLAG_PECERR: PEC error when receiving data interrupt flag + \arg I2C_INT_FLAG_SMBTO: timeout signal in SMBus mode interrupt flag + \arg I2C_INT_FLAG_SMBALT: SMBus alert status interrupt flag + \param[out] none + \retval none +*/ +void i2c_interrupt_flag_clear(uint32_t i2c_periph, i2c_interrupt_flag_enum int_flag) +{ + if(I2C_INT_FLAG_ADDSEND == int_flag){ + /* read I2C_STAT0 and then read I2C_STAT1 to clear ADDSEND */ + I2C_STAT0(i2c_periph); + I2C_STAT1(i2c_periph); + }else{ + I2C_REG_VAL2(i2c_periph, int_flag) &= ~BIT(I2C_BIT_POS2(int_flag)); + } +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_misc.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_misc.c new file mode 100644 index 0000000000..a90e87eb56 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_misc.c @@ -0,0 +1,176 @@ +/*! + \file gd32f30x_misc.c + \brief MISC driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_misc.h" + +/*! + \brief set the priority group + \param[in] nvic_prigroup: the NVIC priority group + \arg NVIC_PRIGROUP_PRE0_SUB4:0 bits for pre-emption priority 4 bits for subpriority + \arg NVIC_PRIGROUP_PRE1_SUB3:1 bits for pre-emption priority 3 bits for subpriority + \arg NVIC_PRIGROUP_PRE2_SUB2:2 bits for pre-emption priority 2 bits for subpriority + \arg NVIC_PRIGROUP_PRE3_SUB1:3 bits for pre-emption priority 1 bits for subpriority + \arg NVIC_PRIGROUP_PRE4_SUB0:4 bits for pre-emption priority 0 bits for subpriority + \param[out] none + \retval none +*/ +void nvic_priority_group_set(uint32_t nvic_prigroup) +{ + /* set the priority group value */ + SCB->AIRCR = NVIC_AIRCR_VECTKEY_MASK | nvic_prigroup; +} + +/*! + \brief enable NVIC request + \param[in] nvic_irq: the NVIC interrupt request, detailed in IRQn_Type + \param[in] nvic_irq_pre_priority: the pre-emption priority needed to set + \param[in] nvic_irq_sub_priority: the subpriority needed to set + \param[out] none + \retval none +*/ +void nvic_irq_enable(uint8_t nvic_irq, uint8_t nvic_irq_pre_priority, + uint8_t nvic_irq_sub_priority) +{ + uint32_t temp_priority = 0x00U, temp_pre = 0x00U, temp_sub = 0x00U; + /* use the priority group value to get the temp_pre and the temp_sub */ + if(((SCB->AIRCR) & (uint32_t)0x700U)==NVIC_PRIGROUP_PRE0_SUB4){ + temp_pre=0U; + temp_sub=0x4U; + }else if(((SCB->AIRCR) & (uint32_t)0x700U)==NVIC_PRIGROUP_PRE1_SUB3){ + temp_pre=1U; + temp_sub=0x3U; + }else if(((SCB->AIRCR) & (uint32_t)0x700U)==NVIC_PRIGROUP_PRE2_SUB2){ + temp_pre=2U; + temp_sub=0x2U; + }else if(((SCB->AIRCR) & (uint32_t)0x700U)==NVIC_PRIGROUP_PRE3_SUB1){ + temp_pre=3U; + temp_sub=0x1U; + }else if(((SCB->AIRCR) & (uint32_t)0x700U)==NVIC_PRIGROUP_PRE4_SUB0){ + temp_pre=4U; + temp_sub=0x0U; + }else{ + nvic_priority_group_set(NVIC_PRIGROUP_PRE2_SUB2); + temp_pre=2U; + temp_sub=0x2U; + } + /* get the temp_priority to fill the NVIC->IP register */ + temp_priority = (uint32_t)nvic_irq_pre_priority << (0x4U - temp_pre); + temp_priority |= nvic_irq_sub_priority &(0x0FU >> (0x4U - temp_sub)); + temp_priority = temp_priority << 0x04U; + NVIC->IP[nvic_irq] = (uint8_t)temp_priority; + /* enable the selected IRQ */ + NVIC->ISER[nvic_irq >> 0x05U] = (uint32_t)0x01U << (nvic_irq & (uint8_t)0x1FU); +} + +/*! + \brief disable NVIC request + \param[in] nvic_irq: the NVIC interrupt request, detailed in IRQn_Type + \param[out] none + \retval none +*/ +void nvic_irq_disable(uint8_t nvic_irq) +{ + /* disable the selected IRQ.*/ + NVIC->ICER[nvic_irq >> 0x05] = (uint32_t)0x01 << (nvic_irq & (uint8_t)0x1F); +} + +/*! + \brief set the NVIC vector table base address + \param[in] nvic_vict_tab: the RAM or FLASH base address + \arg NVIC_VECTTAB_RAM: RAM base address + \are NVIC_VECTTAB_FLASH: Flash base address + \param[in] offset: Vector Table offset + \param[out] none + \retval none +*/ +void nvic_vector_table_set(uint32_t nvic_vict_tab, uint32_t offset) +{ + SCB->VTOR = nvic_vict_tab | (offset & NVIC_VECTTAB_OFFSET_MASK); + __DSB(); +} + +/*! + \brief set the state of the low power mode + \param[in] lowpower_mode: the low power mode state + \arg SCB_LPM_SLEEP_EXIT_ISR: if chose this para, the system always enter low power + mode by exiting from ISR + \arg SCB_LPM_DEEPSLEEP: if chose this para, the system will enter the DEEPSLEEP mode + \arg SCB_LPM_WAKE_BY_ALL_INT: if chose this para, the lowpower mode can be woke up + by all the enable and disable interrupts + \param[out] none + \retval none +*/ +void system_lowpower_set(uint8_t lowpower_mode) +{ + SCB->SCR |= (uint32_t)lowpower_mode; +} + +/*! + \brief reset the state of the low power mode + \param[in] lowpower_mode: the low power mode state + \arg SCB_LPM_SLEEP_EXIT_ISR: if chose this para, the system will exit low power + mode by exiting from ISR + \arg SCB_LPM_DEEPSLEEP: if chose this para, the system will enter the SLEEP mode + \arg SCB_LPM_WAKE_BY_ALL_INT: if chose this para, the lowpower mode only can be + woke up by the enable interrupts + \param[out] none + \retval none +*/ +void system_lowpower_reset(uint8_t lowpower_mode) +{ + SCB->SCR &= (~(uint32_t)lowpower_mode); +} + +/*! + \brief set the systick clock source + \param[in] systick_clksource: the systick clock source needed to choose + \arg SYSTICK_CLKSOURCE_HCLK: systick clock source is from HCLK + \arg SYSTICK_CLKSOURCE_HCLK_DIV8: systick clock source is from HCLK/8 + \param[out] none + \retval none +*/ + +void systick_clksource_set(uint32_t systick_clksource) +{ + if(SYSTICK_CLKSOURCE_HCLK == systick_clksource ){ + /* set the systick clock source from HCLK */ + SysTick->CTRL |= SYSTICK_CLKSOURCE_HCLK; + }else{ + /* set the systick clock source from HCLK/8 */ + SysTick->CTRL &= SYSTICK_CLKSOURCE_HCLK_DIV8; + } +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_pmu.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_pmu.c new file mode 100644 index 0000000000..5b0c36d122 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_pmu.c @@ -0,0 +1,400 @@ +/*! + \file gd32f30x_pmu.c + \brief PMU driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + + +#include "gd32f30x_pmu.h" + +/*! + \brief reset PMU register + \param[in] none + \param[out] none + \retval none +*/ +void pmu_deinit(void) +{ + /* reset PMU */ + rcu_periph_reset_enable(RCU_PMURST); + rcu_periph_reset_disable(RCU_PMURST); +} + +/*! + \brief select low voltage detector threshold + \param[in] lvdt_n: + \arg PMU_LVDT_0: voltage threshold is 2.1V + \arg PMU_LVDT_1: voltage threshold is 2.3V + \arg PMU_LVDT_2: voltage threshold is 2.4V + \arg PMU_LVDT_3: voltage threshold is 2.6V + \arg PMU_LVDT_4: voltage threshold is 2.7V + \arg PMU_LVDT_5: voltage threshold is 2.9V + \arg PMU_LVDT_6: voltage threshold is 3.0V + \arg PMU_LVDT_7: voltage threshold is 3.1V + \param[out] none + \retval none +*/ +void pmu_lvd_select(uint32_t lvdt_n) +{ + /* disable LVD */ + PMU_CTL &= ~PMU_CTL_LVDEN; + /* clear LVDT bits */ + PMU_CTL &= ~PMU_CTL_LVDT; + /* set LVDT bits according to lvdt_n */ + PMU_CTL |= lvdt_n; + /* enable LVD */ + PMU_CTL |= PMU_CTL_LVDEN; +} + +/*! + \brief select LDO output voltage + this bit set by software when the main PLL closed, before closing PLL, change the system clock to IRC16M or HXTAL + \param[in] ldo_output: + \arg PMU_LDOVS_LOW: LDO output voltage low mode + \arg PMU_LDOVS_MID: LDO output voltage mid mode + \arg PMU_LDOVS_HIGH: LDO output voltage high mode + \param[out] none + \retval none +*/ +void pmu_ldo_output_select(uint32_t ldo_output) +{ + PMU_CTL &= ~PMU_CTL_LDOVS; + PMU_CTL |= ldo_output; +} + +/*! + \brief disable PMU lvd + \param[in] none + \param[out] none + \retval none +*/ +void pmu_lvd_disable(void) +{ + /* disable LVD */ + PMU_CTL &= ~PMU_CTL_LVDEN; +} + +/*! + \brief switch high-driver mode + this bit set by software only when IRC16M or HXTAL used as system clock + \param[in] highdr_switch: + \arg PMU_HIGHDR_SWITCH_NONE: disable high-driver mode switch + \arg PMU_HIGHDR_SWITCH_EN: enable high-driver mode switch + \param[out] none + \retval none +*/ +void pmu_highdriver_switch_select(uint32_t highdr_switch) +{ + /* wait for HDRF flag set */ + while(SET != pmu_flag_get(PMU_FLAG_HDRF)) { + } + PMU_CTL &= ~PMU_CTL_HDS; + PMU_CTL |= highdr_switch; +} + +/*! + \brief enable high-driver mode + this bit set by software only when IRC16M or HXTAL used as system clock + \param[in] none + \param[out] none + \retval none +*/ +void pmu_highdriver_mode_enable(void) +{ + PMU_CTL |= PMU_CTL_HDEN; +} + +/*! + \brief disable high-driver mode + \param[in] none + \param[out] none + \retval none +*/ +void pmu_highdriver_mode_disable(void) +{ + PMU_CTL &= ~PMU_CTL_HDEN; +} + +/*! + \brief enable low-driver mode in deep-sleep mode + \param[in] none + \param[out] none + \retval none +*/ +void pmu_lowdriver_mode_enable(void) +{ + PMU_CTL |= PMU_CTL_LDEN; +} + +/*! + \brief disable low-driver mode in deep-sleep mode + \param[in] none + \param[out] none + \retval none +*/ +void pmu_lowdriver_mode_disable(void) +{ + PMU_CTL &= ~PMU_CTL_LDEN; +} + +/*! + \brief driver mode when use low power LDO + \param[in] mode: + \arg PMU_NORMALDR_LOWPWR: normal driver when use low power LDO + \arg PMU_LOWDR_LOWPWR: low-driver mode enabled when LDEN is 11 and use low power LDO + \param[out] none + \retval none +*/ +void pmu_lowpower_driver_config(uint32_t mode) +{ + PMU_CTL &= ~PMU_CTL_LDLP; + PMU_CTL |= mode; +} + +/*! + \brief driver mode when use normal power LDO + \param[in] mode: + \arg PMU_NORMALDR_NORMALPWR: normal driver when use normal power LDO + \arg PMU_LOWDR_NORMALPWR: low-driver mode enabled when LDEN is 11 and use normal power LDO + \param[out] none + \retval none +*/ +void pmu_normalpower_driver_config(uint32_t mode) +{ + PMU_CTL &= ~PMU_CTL_LDNP; + PMU_CTL |= mode; +} + +/*! + \brief PMU work in sleep mode + \param[in] sleepmodecmd: + \arg WFI_CMD: use WFI command + \arg WFE_CMD: use WFE command + \param[out] none + \retval none +*/ +void pmu_to_sleepmode(uint8_t sleepmodecmd) +{ + /* clear sleepdeep bit of Cortex-M4 system control register */ + SCB->SCR &= ~((uint32_t)SCB_SCR_SLEEPDEEP_Msk); + + /* select WFI or WFE command to enter sleep mode */ + if(WFI_CMD == sleepmodecmd) { + __WFI(); + } else { + __WFE(); + } +} + +/*! + \brief PMU work in deepsleep mode + \param[in] ldo: + only one parameter can be selected which is shown as below: + \arg PMU_LDO_NORMAL: LDO work in normal power mode when pmu enter deepsleep mode + \arg PMU_LDO_LOWPOWER: LDO work in low power mode when pmu enter deepsleep mode + \param[in] lowdrive: + only one parameter can be selected which is shown as below: + \arg PMU_LOWDRIVER_ENABLE: low-driver mode enable in deep-sleep mode + \arg PMU_LOWDRIVER_DISABLE: low-driver mode disable in deep-sleep mode + \param[in] deepsleepmodecmd: + only one parameter can be selected which is shown as below: + \arg WFI_CMD: use WFI command + \arg WFE_CMD: use WFE command + \param[out] none + \retval none +*/ +void pmu_to_deepsleepmode(uint32_t ldo, uint32_t lowdrive, uint8_t deepsleepmodecmd) +{ + static uint32_t reg_snap[ 4 ]; + /* clear stbmod and ldolp bits */ + PMU_CTL &= ~((uint32_t)(PMU_CTL_STBMOD | PMU_CTL_LDOLP | PMU_CTL_LDEN | PMU_CTL_LDNP | PMU_CTL_LDLP)); + + /* set ldolp bit according to pmu_ldo */ + PMU_CTL |= ldo; + + /* low drive mode config in deep-sleep mode */ + if(PMU_LOWDRIVER_ENABLE == lowdrive) { + if(PMU_LDO_NORMAL == ldo) { + PMU_CTL |= (uint32_t)(PMU_CTL_LDEN | PMU_CTL_LDNP); + } else { + PMU_CTL |= (uint32_t)(PMU_CTL_LDEN | PMU_CTL_LDLP); + } + } + + /* set sleepdeep bit of Cortex-M4 system control register */ + SCB->SCR |= SCB_SCR_SLEEPDEEP_Msk; + + reg_snap[ 0 ] = REG32(0xE000E010U); + reg_snap[ 1 ] = REG32(0xE000E100U); + reg_snap[ 2 ] = REG32(0xE000E104U); + reg_snap[ 3 ] = REG32(0xE000E108U); + + REG32(0xE000E010U) &= 0x00010004U; + REG32(0xE000E180U) = 0XFF7FF83DU; + REG32(0xE000E184U) = 0XFFFFF8FFU; + REG32(0xE000E188U) = 0xFFFFFFFFU; + + /* select WFI or WFE command to enter deepsleep mode */ + if(WFI_CMD == deepsleepmodecmd) { + __WFI(); + } else { + __SEV(); + __WFE(); + __WFE(); + } + + REG32(0xE000E010U) = reg_snap[ 0 ] ; + REG32(0xE000E100U) = reg_snap[ 1 ] ; + REG32(0xE000E104U) = reg_snap[ 2 ] ; + REG32(0xE000E108U) = reg_snap[ 3 ] ; + + /* reset sleepdeep bit of Cortex-M4 system control register */ + SCB->SCR &= ~((uint32_t)SCB_SCR_SLEEPDEEP_Msk); +} + +/*! + \brief pmu work in standby mode + \param[in] none + \param[out] none + \retval none +*/ +void pmu_to_standbymode(void) +{ + /* set stbmod bit */ + PMU_CTL |= PMU_CTL_STBMOD; + + /* reset wakeup flag */ + PMU_CTL |= PMU_CTL_WURST; + + /* set sleepdeep bit of Cortex-M4 system control register */ + SCB->SCR |= SCB_SCR_SLEEPDEEP_Msk; + + REG32(0xE000E010U) &= 0x00010004U; + REG32(0xE000E180U) = 0XFFFFFFF7U; + REG32(0xE000E184U) = 0XFFFFFDFFU; + REG32(0xE000E188U) = 0xFFFFFFFFU; + + /* select WFI or WFE command to enter standby mode */ + __WFI(); +} + +/*! + \brief enable backup domain write + \param[in] none + \param[out] none + \retval none +*/ +void pmu_backup_write_enable(void) +{ + PMU_CTL |= PMU_CTL_BKPWEN; +} + +/*! + \brief disable backup domain write + \param[in] none + \param[out] none + \retval none +*/ +void pmu_backup_write_disable(void) +{ + PMU_CTL &= ~PMU_CTL_BKPWEN; +} + +/*! + \brief enable wakeup pin + \param[in] none + \param[out] none + \retval none +*/ +void pmu_wakeup_pin_enable(void) +{ + PMU_CS |= PMU_CS_WUPEN; +} + +/*! + \brief disable wakeup pin + \param[in] none + \param[out] none + \retval none +*/ +void pmu_wakeup_pin_disable(void) +{ + PMU_CS &= ~PMU_CS_WUPEN; +} + +/*! + \brief get flag state + \param[in] flag: + \arg PMU_FLAG_WAKEUP: wakeup flag + \arg PMU_FLAG_STANDBY: standby flag + \arg PMU_FLAG_LVD: lvd flag + \arg PMU_FLAG_LDOVSRF: LDO voltage select ready flag + \arg PMU_FLAG_HDRF: high-driver ready flag + \arg PMU_FLAG_HDSRF: high-driver switch ready flag + \arg PMU_FLAG_LDRF: low-driver mode ready flag + \param[out] none + \retval FlagStatus SET or RESET +*/ +FlagStatus pmu_flag_get(uint32_t flag) +{ + if(PMU_CS & flag) { + return SET; + } else { + return RESET; + } +} + +/*! + \brief clear flag bit + \param[in] flag: + \arg PMU_FLAG_RESET_WAKEUP: reset wakeup flag + \arg PMU_FLAG_RESET_STANDBY: reset standby flag + \param[out] none + \retval none +*/ +void pmu_flag_clear(uint32_t flag) +{ + switch(flag) { + case PMU_FLAG_RESET_WAKEUP: + /* reset wakeup flag */ + PMU_CTL |= PMU_CTL_WURST; + break; + case PMU_FLAG_RESET_STANDBY: + /* reset standby flag */ + PMU_CTL |= PMU_CTL_STBRST; + break; + default : + break; + } +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_rcu.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_rcu.c new file mode 100644 index 0000000000..470e1950d1 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_rcu.c @@ -0,0 +1,1332 @@ +/*! + \file gd32f30x_rcu.c + \brief RCU driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_rcu.h" + +/* define clock source */ +#define SEL_IRC8M ((uint16_t)0U) /* IRC8M is selected as CK_SYS */ +#define SEL_HXTAL ((uint16_t)1U) /* HXTAL is selected as CK_SYS */ +#define SEL_PLL ((uint16_t)2U) /* PLL is selected as CK_SYS */ + +/* define startup timeout count */ +#define OSC_STARTUP_TIMEOUT ((uint32_t)0x000FFFFFU) +#define LXTAL_STARTUP_TIMEOUT ((uint32_t)0x03FFFFFFU) + +/* ADC clock prescaler offset */ +#define RCU_ADC_PSC_OFFSET ((uint32_t)14U) + +/* RCU IRC8M adjust value mask and offset*/ +#define RCU_IRC8M_ADJUST_MASK ((uint8_t)0x1FU) +#define RCU_IRC8M_ADJUST_OFFSET ((uint32_t)3U) + +/* RCU PLL1 clock multiplication factor offset */ +#define RCU_CFG1_PLL1MF_OFFSET ((uint32_t)8U) +/* RCU PREDV1 division factor offset*/ +#define RCU_CFG1_PREDV1_OFFSET ((uint32_t)4U) + + +/*! + \brief deinitialize the RCU + \param[in] none + \param[out] none + \retval none +*/ +void rcu_deinit(void) +{ + /* enable IRC8M */ + RCU_CTL |= RCU_CTL_IRC8MEN; + rcu_osci_stab_wait(RCU_IRC8M); + + RCU_CFG0 &= ~RCU_CFG0_SCS; + + /* reset CTL register */ + RCU_CTL &= ~(RCU_CTL_HXTALEN | RCU_CTL_CKMEN | RCU_CTL_PLLEN); + RCU_CTL &= ~RCU_CTL_HXTALBPS; + + /* reset CFG0 register */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + RCU_CFG0 &= ~(RCU_CFG0_SCS | RCU_CFG0_AHBPSC | RCU_CFG0_APB1PSC | RCU_CFG0_APB2PSC | + RCU_CFG0_ADCPSC | RCU_CFG0_PLLSEL | RCU_CFG0_PREDV0 | RCU_CFG0_PLLMF | + RCU_CFG0_USBDPSC | RCU_CFG0_CKOUT0SEL | RCU_CFG0_PLLMF_4 | RCU_CFG0_ADCPSC_2 | RCU_CFG0_PLLMF_5 | RCU_CFG0_USBDPSC_2); +#elif defined(GD32F30X_CL) + RCU_CFG0 &= ~(RCU_CFG0_SCS | RCU_CFG0_AHBPSC | RCU_CFG0_APB1PSC | RCU_CFG0_APB2PSC | + RCU_CFG0_ADCPSC | RCU_CFG0_PLLSEL | RCU_CFG0_PREDV0_LSB | RCU_CFG0_PLLMF | + RCU_CFG0_USBFSPSC | RCU_CFG0_CKOUT0SEL | RCU_CFG0_ADCPSC_2 | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5 | RCU_CFG0_USBFSPSC_2); +#endif /* GD32F30X_HD and GD32F30X_XD */ + /* reset CTL register */ + RCU_CTL &= ~(RCU_CTL_HXTALEN | RCU_CTL_CKMEN | RCU_CTL_PLLEN); + RCU_CTL &= ~RCU_CTL_HXTALBPS; +#ifdef GD32F30X_CL + RCU_CTL &= ~(RCU_CTL_PLL1EN | RCU_CTL_PLL2EN); +#endif /* GD32F30X_CL */ + + /* reset INT and CFG1 register */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + RCU_INT = 0x009f0000U; + RCU_CFG1 &= ~(RCU_CFG1_ADCPSC_3 | RCU_CFG1_PLLPRESEL); +#elif defined(GD32F30X_CL) + RCU_INT = 0x00ff0000U; + RCU_CFG1 &= ~(RCU_CFG1_PREDV0 | RCU_CFG1_PREDV1 | RCU_CFG1_PLL1MF | RCU_CFG1_PLL2MF | + RCU_CFG1_PREDV0SEL | RCU_CFG1_I2S1SEL | RCU_CFG1_I2S2SEL | RCU_CFG1_ADCPSC_3 | + RCU_CFG1_PLLPRESEL | RCU_CFG1_PLL2MF_4); +#endif /* GD32F30X_HD and GD32F30X_XD */ +} + +/*! + \brief enable the peripherals clock + \param[in] periph: RCU peripherals, refer to rcu_periph_enum + only one parameter can be selected which is shown as below: + \arg RCU_GPIOx (x = A,B,C,D,E,F,G): GPIO ports clock + \arg RCU_AF : alternate function clock + \arg RCU_CRC: CRC clock + \arg RCU_DMAx (x = 0,1): DMA clock + \arg RCU_ENET: ENET clock(CL series available) + \arg RCU_ENETTX: ENETTX clock(CL series available) + \arg RCU_ENETRX: ENETRX clock(CL series available) + \arg RCU_USBD: USBD clock(HD,XD series available) + \arg RCU_USBFS: USBFS clock(CL series available) + \arg RCU_EXMC: EXMC clock + \arg RCU_TIMERx (x = 0,1,2,3,4,5,6,7,8,9,10,11,12,13,TIMER8..13 are not available for HD series): TIMER clock + \arg RCU_WWDGT: WWDGT clock + \arg RCU_SPIx (x = 0,1,2): SPI clock + \arg RCU_USARTx (x = 0,1,2): USART clock + \arg RCU_UARTx (x = 3,4): UART clock + \arg RCU_I2Cx (x = 0,1): I2C clock + \arg RCU_CANx (x = 0,1,CAN1 is only available for CL series): CAN clock + \arg RCU_PMU: PMU clock + \arg RCU_DAC: DAC clock + \arg RCU_RTC: RTC clock + \arg RCU_ADCx (x = 0,1,2,ADC2 is not available for CL series): ADC clock + \arg RCU_SDIO: SDIO clock(not available for CL series) + \arg RCU_CTC: CTC clock + \arg RCU_BKPI: BKP interface clock + \param[out] none + \retval none +*/ +void rcu_periph_clock_enable(rcu_periph_enum periph) +{ + RCU_REG_VAL(periph) |= BIT(RCU_BIT_POS(periph)); +} + +/*! + \brief disable the peripherals clock + \param[in] periph: RCU peripherals, refer to rcu_periph_enum + only one parameter can be selected which is shown as below: + \arg RCU_GPIOx (x = A,B,C,D,E,F,G): GPIO ports clock + \arg RCU_AF: alternate function clock + \arg RCU_CRC: CRC clock + \arg RCU_DMAx (x = 0,1): DMA clock + \arg RCU_ENET: ENET clock(CL series available) + \arg RCU_ENETTX: ENETTX clock(CL series available) + \arg RCU_ENETRX: ENETRX clock(CL series available) + \arg RCU_USBD: USBD clock(HD,XD series available) + \arg RCU_USBFS: USBFS clock(CL series available) + \arg RCU_EXMC: EXMC clock + \arg RCU_TIMERx (x = 0,1,2,3,4,5,6,7,8,9,10,11,12,13,TIMER8..13 are not available for HD series): TIMER clock + \arg RCU_WWDGT: WWDGT clock + \arg RCU_SPIx (x = 0,1,2): SPI clock + \arg RCU_USARTx (x = 0,1,2): USART clock + \arg RCU_UARTx (x = 3,4): UART clock + \arg RCU_I2Cx (x = 0,1): I2C clock + \arg RCU_CANx (x = 0,1,CAN1 is only available for CL series): CAN clock + \arg RCU_PMU: PMU clock + \arg RCU_DAC: DAC clock + \arg RCU_RTC: RTC clock + \arg RCU_ADCx (x = 0,1,2,ADC2 is not available for CL series): ADC clock + \arg RCU_SDIO: SDIO clock(not available for CL series) + \arg RCU_CTC: CTC clock + \arg RCU_BKPI: BKP interface clock + \param[out] none + \retval none +*/ +void rcu_periph_clock_disable(rcu_periph_enum periph) +{ + RCU_REG_VAL(periph) &= ~BIT(RCU_BIT_POS(periph)); +} + +/*! + \brief enable the peripherals clock when sleep mode + \param[in] periph: RCU peripherals, refer to rcu_periph_sleep_enum + only one parameter can be selected which is shown as below: + \arg RCU_FMC_SLP: FMC clock + \arg RCU_SRAM_SLP: SRAM clock + \param[out] none + \retval none +*/ +void rcu_periph_clock_sleep_enable(rcu_periph_sleep_enum periph) +{ + RCU_REG_VAL(periph) |= BIT(RCU_BIT_POS(periph)); +} + +/*! + \brief disable the peripherals clock when sleep mode + \param[in] periph: RCU peripherals, refer to rcu_periph_sleep_enum + only one parameter can be selected which is shown as below: + \arg RCU_FMC_SLP: FMC clock + \arg RCU_SRAM_SLP: SRAM clock + \param[out] none + \retval none +*/ +void rcu_periph_clock_sleep_disable(rcu_periph_sleep_enum periph) +{ + RCU_REG_VAL(periph) &= ~BIT(RCU_BIT_POS(periph)); +} + +/*! + \brief reset the peripherals + \param[in] periph_reset: RCU peripherals reset, refer to rcu_periph_reset_enum + only one parameter can be selected which is shown as below: + \arg RCU_GPIOxRST (x = A,B,C,D,E,F,G): reset GPIO ports + \arg RCU_AFRST : reset alternate function clock + \arg RCU_ENETRST: reset ENET(CL series available) + \arg RCU_USBDRST: reset USBD(HD,XD series available) + \arg RCU_USBFSRST: reset USBFS(CL series available) + \arg RCU_TIMERxRST (x = 0,1,2,3,4,5,6,7,8,9,10,11,12,13,TIMER8..13 are not available for HD series): reset TIMER + \arg RCU_WWDGTRST: reset WWDGT + \arg RCU_SPIxRST (x = 0,1,2): reset SPI + \arg RCU_USARTxRST (x = 0,1,2): reset USART + \arg RCU_UARTxRST (x = 3,4): reset UART + \arg RCU_I2CxRST (x = 0,1): reset I2C + \arg RCU_CANxRST (x = 0,1,CAN1 is only available for CL series): reset CAN + \arg RCU_PMURST: reset PMU + \arg RCU_DACRST: reset DAC + \arg RCU_ADCRST (x = 0,1,2,ADC2 is not available for CL series): reset ADC + \arg RCU_CTCRST: reset CTC + \arg RCU_BKPIRST: reset BKPI + \param[out] none + \retval none +*/ +void rcu_periph_reset_enable(rcu_periph_reset_enum periph_reset) +{ + RCU_REG_VAL(periph_reset) |= BIT(RCU_BIT_POS(periph_reset)); +} + +/*! + \brief disable reset the peripheral + \param[in] periph_reset: RCU peripherals reset, refer to rcu_periph_reset_enum + only one parameter can be selected which is shown as below: + \arg RCU_GPIOxRST (x = A,B,C,D,E,F,G): reset GPIO ports + \arg RCU_AFRST : reset alternate function clock + \arg RCU_ENETRST: reset ENET(CL series available) + \arg RCU_USBDRST: reset USBD(HD,XD series available) + \arg RCU_USBFSRST: reset USBFS(CL series available) + \arg RCU_TIMERxRST (x = 0,1,2,3,4,5,6,7,8,9,10,11,12,13,TIMER8..13 are not available for HD series): reset TIMER + \arg RCU_WWDGTRST: reset WWDGT + \arg RCU_SPIxRST (x = 0,1,2): reset SPI + \arg RCU_USARTxRST (x = 0,1,2): reset USART + \arg RCU_UARTxRST (x = 3,4): reset UART + \arg RCU_I2CxRST (x = 0,1): reset I2C + \arg RCU_CANxRST (x = 0,1,CAN1 is only available for CL series): reset CAN + \arg RCU_PMURST: reset PMU + \arg RCU_DACRST: reset DAC + \arg RCU_ADCRST (x = 0,1,2,ADC2 is not available for CL series): reset ADC + \arg RCU_CTCRST: reset CTC + \arg RCU_BKPIRST: reset BKPI + \param[out] none + \retval none +*/ +void rcu_periph_reset_disable(rcu_periph_reset_enum periph_reset) +{ + RCU_REG_VAL(periph_reset) &= ~BIT(RCU_BIT_POS(periph_reset)); +} + +/*! + \brief reset the BKP domain + \param[in] none + \param[out] none + \retval none +*/ +void rcu_bkp_reset_enable(void) +{ + RCU_BDCTL |= RCU_BDCTL_BKPRST; +} + +/*! + \brief disable the BKP domain reset + \param[in] none + \param[out] none + \retval none +*/ +void rcu_bkp_reset_disable(void) +{ + RCU_BDCTL &= ~RCU_BDCTL_BKPRST; +} + +/*! + \brief configure the system clock source + \param[in] ck_sys: system clock source select + only one parameter can be selected which is shown as below: + \arg RCU_CKSYSSRC_IRC8M: select CK_IRC8M as the CK_SYS source + \arg RCU_CKSYSSRC_HXTAL: select CK_HXTAL as the CK_SYS source + \arg RCU_CKSYSSRC_PLL: select CK_PLL as the CK_SYS source + \param[out] none + \retval none +*/ +void rcu_system_clock_source_config(uint32_t ck_sys) +{ + uint32_t reg; + + reg = RCU_CFG0; + /* reset the SCS bits and set according to ck_sys */ + reg &= ~RCU_CFG0_SCS; + RCU_CFG0 = (reg | ck_sys); +} + +/*! + \brief get the system clock source + \param[in] none + \param[out] none + \retval which clock is selected as CK_SYS source + \arg RCU_SCSS_IRC8M: CK_IRC8M is selected as the CK_SYS source + \arg RCU_SCSS_HXTAL: CK_HXTAL is selected as the CK_SYS source + \arg RCU_SCSS_PLL: CK_PLL is selected as the CK_SYS source +*/ +uint32_t rcu_system_clock_source_get(void) +{ + return (RCU_CFG0 & RCU_CFG0_SCSS); +} + +/*! + \brief configure the AHB clock prescaler selection + \param[in] ck_ahb: AHB clock prescaler selection + only one parameter can be selected which is shown as below: + \arg RCU_AHB_CKSYS_DIVx(x = 1, 2, 4, 8, 16, 64, 128, 256, 512): select CK_SYS / x as CK_AHB + \param[out] none + \retval none +*/ +void rcu_ahb_clock_config(uint32_t ck_ahb) +{ + uint32_t reg; + + reg = RCU_CFG0; + + /* reset the AHBPSC bits and set according to ck_ahb */ + reg &= ~RCU_CFG0_AHBPSC; + RCU_CFG0 = (reg | ck_ahb); +} + +/*! + \brief configure the APB1 clock prescaler selection + \param[in] ck_apb1: APB1 clock prescaler selection + only one parameter can be selected which is shown as below: + \arg RCU_APB1_CKAHB_DIV1: select CK_AHB as CK_APB1 + \arg RCU_APB1_CKAHB_DIV2: select CK_AHB / 2 as CK_APB1 + \arg RCU_APB1_CKAHB_DIV4: select CK_AHB / 4 as CK_APB1 + \arg RCU_APB1_CKAHB_DIV8: select CK_AHB / 8 as CK_APB1 + \arg RCU_APB1_CKAHB_DIV16: select CK_AHB / 16 as CK_APB1 + \param[out] none + \retval none +*/ +void rcu_apb1_clock_config(uint32_t ck_apb1) +{ + uint32_t reg; + + reg = RCU_CFG0; + + /* reset the APB1PSC and set according to ck_apb1 */ + reg &= ~RCU_CFG0_APB1PSC; + RCU_CFG0 = (reg | ck_apb1); +} + +/*! + \brief configure the APB2 clock prescaler selection + \param[in] ck_apb2: APB2 clock prescaler selection + only one parameter can be selected which is shown as below: + \arg RCU_APB2_CKAHB_DIV1: select CK_AHB as CK_APB2 + \arg RCU_APB2_CKAHB_DIV2: select CK_AHB / 2 as CK_APB2 + \arg RCU_APB2_CKAHB_DIV4: select CK_AHB / 4 as CK_APB2 + \arg RCU_APB2_CKAHB_DIV8: select CK_AHB / 8 as CK_APB2 + \arg RCU_APB2_CKAHB_DIV16: select CK_AHB / 16 as CK_APB2 + \param[out] none + \retval none +*/ +void rcu_apb2_clock_config(uint32_t ck_apb2) +{ + uint32_t reg; + + reg = RCU_CFG0; + + /* reset the APB2PSC and set according to ck_apb2 */ + reg &= ~RCU_CFG0_APB2PSC; + RCU_CFG0 = (reg | ck_apb2); +} + +/*! + \brief configure the CK_OUT0 clock source + \param[in] ckout0_src: CK_OUT0 clock source selection + only one parameter can be selected which is shown as below: + \arg RCU_CKOUT0SRC_NONE: no clock selected + \arg RCU_CKOUT0SRC_CKSYS: system clock selected + \arg RCU_CKOUT0SRC_IRC8M: high speed 8M internal oscillator clock selected + \arg RCU_CKOUT0SRC_HXTAL: HXTAL selected + \arg RCU_CKOUT0SRC_CKPLL_DIV2: CK_PLL / 2 selected + \arg RCU_CKOUT0SRC_CKPLL1: CK_PLL1 selected + \arg RCU_CKOUT0SRC_CKPLL2_DIV2: CK_PLL2 / 2 selected + \arg RCU_CKOUT0SRC_EXT1: EXT1 selected + \arg RCU_CKOUT0SRC_CKPLL2: PLL selected + \param[out] none + \retval none +*/ +void rcu_ckout0_config(uint32_t ckout0_src) +{ + uint32_t reg; + + reg = RCU_CFG0; + + /* reset the CKOUT0SRC, set according to ckout0_src */ + reg &= ~RCU_CFG0_CKOUT0SEL; + RCU_CFG0 = (reg | ckout0_src); +} + +/*! + \brief configure the main PLL clock + \param[in] pll_src: PLL clock source selection + only one parameter can be selected which is shown as below: + \arg RCU_PLLSRC_IRC8M_DIV2: IRC8M / 2 clock selected as source clock of PLL + \arg RCU_PLLSRC_HXTAL_IRC48M: HXTAL or IRC48M selected as source clock of PLL + \param[in] pll_mul: PLL clock multiplication factor + only one parameter can be selected which is shown as below: + \arg RCU_PLL_MULx (XD series x = 2..63, CL series x = 2..14, 16..63, 6.5): PLL clock * x + \param[out] none + \retval none +*/ +void rcu_pll_config(uint32_t pll_src, uint32_t pll_mul) +{ + uint32_t reg = 0U; + + reg = RCU_CFG0; + + /* PLL clock source and multiplication factor configuration */ + reg &= ~(RCU_CFG0_PLLSEL | RCU_CFG0_PLLMF | RCU_CFG0_PLLMF_4 | RCU_CFG0_PLLMF_5); + reg |= (pll_src | pll_mul); + + RCU_CFG0 = reg; +} + +/*! + \brief configure the PLL clock source preselection + \param[in] pll_presel: PLL clock source preselection + only one parameter can be selected which is shown as below: + \arg RCU_PLLPRESRC_HXTAL: HXTAL selected as PLL source clock + \arg RCU_PLLPRESRC_IRC48M: CK_PLL selected as PREDV0 input source clock + \param[out] none + \retval none +*/ +void rcu_pllpresel_config(uint32_t pll_presel) +{ + uint32_t reg = 0U; + + reg = RCU_CFG1; + + /* PLL clock source preselection */ + reg &= ~RCU_CFG1_PLLPRESEL; + reg |= pll_presel; + + RCU_CFG1 = reg; +} + +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) +/*! + \brief configure the PREDV0 division factor + \param[in] predv0_div: PREDV0 division factor + \arg RCU_PREDV0_DIVx (x = 1, 2): PREDV0 input source clock is divided x + \param[out] none + \retval none +*/ +void rcu_predv0_config(uint32_t predv0_div) +{ + uint32_t reg = 0U; + + reg = RCU_CFG0; + /* reset PREDV0 bit */ + reg &= ~RCU_CFG0_PREDV0; + if(RCU_PREDV0_DIV2 == predv0_div){ + /* set the PREDV0 bit */ + reg |= RCU_CFG0_PREDV0; + } + + RCU_CFG0 = reg; +} +#elif defined(GD32F30X_CL) +/*! + \brief configure the PREDV0 division factor and clock source + \param[in] predv0_source: PREDV0 input clock source selection + only one parameter can be selected which is shown as below: + \arg RCU_PREDV0SRC_HXTAL_IRC48M: HXTAL or IRC48M selected as PREDV0 input source clock + \arg RCU_PREDV0SRC_CKPLL1: CK_PLL1 selected as PREDV0 input source clock + \param[in] predv0_div: PREDV0 division factor + only one parameter can be selected which is shown as below: + \arg RCU_PREDV0_DIVx (x = 1..16): PREDV0 input source clock is divided x + \param[out] none + \retval none +*/ +void rcu_predv0_config(uint32_t predv0_source, uint32_t predv0_div) +{ + uint32_t reg = 0U; + + reg = RCU_CFG1; + /* reset PREDV0SEL and PREDV0 bits */ + reg &= ~(RCU_CFG1_PREDV0SEL | RCU_CFG1_PREDV0); + /* set the PREDV0SEL and PREDV0 division factor */ + reg |= (predv0_source | predv0_div); + + RCU_CFG1 = reg; +} + +/*! + \brief configure the PREDV1 division factor + \param[in] predv1_div: PREDV1 division factor + only one parameter can be selected which is shown as below: + \arg RCU_PREDV1_DIVx (x = 1..16): PREDV1 input source clock is divided x + \param[out] none + \retval none +*/ +void rcu_predv1_config(uint32_t predv1_div) +{ + uint32_t reg = 0U; + + reg = RCU_CFG1; + /* reset the PREDV1 bits */ + reg &= ~RCU_CFG1_PREDV1; + /* set the PREDV1 division factor */ + reg |= predv1_div; + + RCU_CFG1 = reg; +} + +/*! + \brief configure the PLL1 clock + \param[in] pll_mul: PLL clock multiplication factor + only one parameter can be selected which is shown as below: + \arg RCU_PLL1_MULx (x = 8..14,16,20): PLL1 clock * x + \param[out] none + \retval none +*/ +void rcu_pll1_config(uint32_t pll_mul) +{ + RCU_CFG1 &= ~RCU_CFG1_PLL1MF; + RCU_CFG1 |= pll_mul; +} + +/*! + \brief configure the PLL2 clock + \param[in] pll_mul: PLL clock multiplication factor + only one parameter can be selected which is shown as below: + \arg RCU_PLL2_MULx (x = 8..14,16,20,18..32,40): PLL2 clock * x + \param[out] none + \retval none +*/ +void rcu_pll2_config(uint32_t pll_mul) +{ + RCU_CFG1 &= ~RCU_CFG1_PLL2MF; + RCU_CFG1 |= pll_mul; +} +#endif /* GD32F30X_HD and GD32F30X_XD */ + +/*! + \brief configure the ADC prescaler factor + \param[in] adc_psc: ADC prescaler factor + only one parameter can be selected which is shown as below: + \arg RCU_CKADC_CKAPB2_DIV2: ADC prescaler select CK_APB2 / 2 + \arg RCU_CKADC_CKAPB2_DIV4: ADC prescaler select CK_APB2 / 4 + \arg RCU_CKADC_CKAPB2_DIV6: ADC prescaler select CK_APB2 / 6 + \arg RCU_CKADC_CKAPB2_DIV8: ADC prescaler select CK_APB2 / 8 + \arg RCU_CKADC_CKAPB2_DIV12: ADC prescaler select CK_APB2 / 12 + \arg RCU_CKADC_CKAPB2_DIV16: ADC prescaler select CK_APB2 / 16 + \arg RCU_CKADC_CKAHB_DIV5: ADC prescaler select CK_AHB / 5 + \arg RCU_CKADC_CKAHB_DIV6: ADC prescaler select CK_AHB / 6 + \arg RCU_CKADC_CKAHB_DIV10: ADC prescaler select CK_AHB / 10 + \arg RCU_CKADC_CKAHB_DIV20: ADC prescaler select CK_AHB / 20 + \param[out] none + \retval none +*/ +void rcu_adc_clock_config(uint32_t adc_psc) +{ + uint32_t reg0,reg1; + + /* reset the ADCPSC bits */ + reg0 = RCU_CFG0; + reg0 &= ~(RCU_CFG0_ADCPSC_2 | RCU_CFG0_ADCPSC); + reg1 = RCU_CFG1; + reg1 &= ~RCU_CFG1_ADCPSC_3; + + /* set the ADC prescaler factor */ + switch(adc_psc){ + case RCU_CKADC_CKAPB2_DIV2: + case RCU_CKADC_CKAPB2_DIV4: + case RCU_CKADC_CKAPB2_DIV6: + case RCU_CKADC_CKAPB2_DIV8: + reg0 |= (adc_psc << RCU_ADC_PSC_OFFSET); + break; + + case RCU_CKADC_CKAPB2_DIV12: + case RCU_CKADC_CKAPB2_DIV16: + adc_psc &= ~BIT(2); + reg0 |= ((adc_psc << RCU_ADC_PSC_OFFSET) | RCU_CFG0_ADCPSC_2); + break; + + case RCU_CKADC_CKAHB_DIV5: + case RCU_CKADC_CKAHB_DIV6: + case RCU_CKADC_CKAHB_DIV10: + case RCU_CKADC_CKAHB_DIV20: + adc_psc &= ~BITS(2,3); + reg0 |= (adc_psc << RCU_ADC_PSC_OFFSET); + reg1 |= RCU_CFG1_ADCPSC_3; + break; + + default: + break; + } + + /* set the register */ + RCU_CFG0 = reg0; + RCU_CFG1 = reg1; +} + +/*! + \brief configure the USBD / USBFS prescaler factor + \param[in] usb_psc: USB prescaler factor + only one parameter can be selected which is shown as below: + \arg RCU_CKUSB_CKPLL_DIV1_5: USBD / USBFS prescaler select CK_PLL / 1.5 + \arg RCU_CKUSB_CKPLL_DIV1: USBD / USBFS prescaler select CK_PLL / 1 + \arg RCU_CKUSB_CKPLL_DIV2_5: USBD / USBFS prescaler select CK_PLL / 2.5 + \arg RCU_CKUSB_CKPLL_DIV2: USBD / USBFS prescaler select CK_PLL / 2 + \arg RCU_CKUSB_CKPLL_DIV3: USBD / USBFS prescaler select CK_PLL / 3 + \arg RCU_CKUSB_CKPLL_DIV3_5: USBD / USBFS prescaler select CK_PLL / 3.5 + \arg RCU_CKUSB_CKPLL_DIV4: USBD / USBFS prescaler select CK_PLL / 4 + \param[out] none + \retval none +*/ +void rcu_usbfs_trng_clock_config(uint32_t usb_psc) +{ + uint32_t reg; + + reg = RCU_CFG0; + + /* configure the USBD / USBFS prescaler factor */ +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + reg &= ~RCU_CFG0_USBDPSC; +#elif defined(GD32F30X_CL) + reg &= ~RCU_CFG0_USBFSPSC; +#endif /* GD32F30X_HD and GD32F30X_XD */ + + RCU_CFG0 = (reg | usb_psc); +} + +/*! + \brief configure the RTC clock source selection + \param[in] rtc_clock_source: RTC clock source selection + only one parameter can be selected which is shown as below: + \arg RCU_RTCSRC_NONE: no clock selected + \arg RCU_RTCSRC_LXTAL: CK_LXTAL selected as RTC source clock + \arg RCU_RTCSRC_IRC40K: CK_IRC40K selected as RTC source clock + \arg RCU_RTCSRC_HXTAL_DIV_128: CK_HXTAL / 128 selected as RTC source clock + \param[out] none + \retval none +*/ +void rcu_rtc_clock_config(uint32_t rtc_clock_source) +{ + uint32_t reg; + + reg = RCU_BDCTL; + /* reset the RTCSRC bits and set according to rtc_clock_source */ + reg &= ~RCU_BDCTL_RTCSRC; + RCU_BDCTL = (reg | rtc_clock_source); +} + +#ifdef GD32F30X_CL +/*! + \brief configure the I2S1 clock source selection + \param[in] i2s_clock_source: I2S1 clock source selection + only one parameter can be selected which is shown as below: + \arg RCU_I2S1SRC_CKSYS: System clock selected as I2S1 source clock + \arg RCU_I2S1SRC_CKPLL2_MUL2: CK_PLL2x2 selected as I2S1 source clock + \param[out] none + \retval none +*/ +void rcu_i2s1_clock_config(uint32_t i2s_clock_source) +{ + uint32_t reg; + + reg = RCU_CFG1; + /* reset the I2S1SEL bit and set according to i2s_clock_source */ + reg &= ~RCU_CFG1_I2S1SEL; + RCU_CFG1 = (reg | i2s_clock_source); +} + +/*! + \brief configure the I2S2 clock source selection + \param[in] i2s_clock_source: I2S2 clock source selection + only one parameter can be selected which is shown as below: + \arg RCU_I2S2SRC_CKSYS: system clock selected as I2S2 source clock + \arg RCU_I2S2SRC_CKPLL2_MUL2: CK_PLL2x2 selected as I2S2 source clock + \param[out] none + \retval none +*/ +void rcu_i2s2_clock_config(uint32_t i2s_clock_source) +{ + uint32_t reg; + + reg = RCU_CFG1; + /* reset the I2S2SEL bit and set according to i2s_clock_source */ + reg &= ~RCU_CFG1_I2S2SEL; + RCU_CFG1 = (reg | i2s_clock_source); +} +#endif /* GD32F30X_CL */ + +/*! + \brief configure the CK48M clock source selection + \param[in] ck48m_clock_source: CK48M clock source selection + only one parameter can be selected which is shown as below: + \arg RCU_CK48MSRC_CKPLL: CK_PLL selected as CK48M source clock + \arg RCU_CK48MSRC_IRC48M: CK_IRC48M selected as CK48M source clock + \param[out] none + \retval none +*/ +void rcu_ck48m_clock_config(uint32_t ck48m_clock_source) +{ + uint32_t reg; + + reg = RCU_ADDCTL; + /* reset the CK48MSEL bit and set according to ck48m_clock_source */ + reg &= ~RCU_ADDCTL_CK48MSEL; + RCU_ADDCTL = (reg | ck48m_clock_source); +} + +/*! + \brief configure the LXTAL drive capability + \param[in] lxtal_dricap: drive capability of LXTAL + only one parameter can be selected which is shown as below: + \arg RCU_LXTAL_LOWDRI: lower driving capability + \arg RCU_LXTAL_MED_LOWDRI: medium low driving capability + \arg RCU_LXTAL_MED_HIGHDRI: medium high driving capability + \arg RCU_LXTAL_HIGHDRI: higher driving capability + \param[out] none + \retval none +*/ +void rcu_lxtal_drive_capability_config(uint32_t lxtal_dricap) +{ + uint32_t reg; + + reg = RCU_BDCTL; + + /* reset the LXTALDRI bits and set according to lxtal_dricap */ + reg &= ~RCU_BDCTL_LXTALDRI; + RCU_BDCTL = (reg | lxtal_dricap); +} + +/*! + \brief wait for oscillator stabilization flags is SET or oscillator startup is timeout + \param[in] osci: oscillator types, refer to rcu_osci_type_enum + only one parameter can be selected which is shown as below: + \arg RCU_HXTAL: high speed crystal oscillator(HXTAL) + \arg RCU_LXTAL: low speed crystal oscillator(LXTAL) + \arg RCU_IRC8M: internal 8M RC oscillators(IRC8M) + \arg RCU_IRC48M: internal 48M RC oscillators(IRC48M) + \arg RCU_IRC40K: internal 40K RC oscillator(IRC40K) + \arg RCU_PLL_CK: phase locked loop(PLL) + \arg RCU_PLL1_CK: phase locked loop 1(CL series only) + \arg RCU_PLL2_CK: phase locked loop 2(CL series only) + \param[out] none + \retval ErrStatus: SUCCESS or ERROR +*/ +ErrStatus rcu_osci_stab_wait(rcu_osci_type_enum osci) +{ + uint32_t stb_cnt = 0U; + ErrStatus reval = ERROR; + FlagStatus osci_stat = RESET; + + switch(osci){ + /* wait HXTAL stable */ + case RCU_HXTAL: + while((RESET == osci_stat) && (HXTAL_STARTUP_TIMEOUT != stb_cnt)){ + osci_stat = rcu_flag_get(RCU_FLAG_HXTALSTB); + stb_cnt++; + } + + /* check whether flag is set or not */ + if(RESET != rcu_flag_get(RCU_FLAG_HXTALSTB)){ + reval = SUCCESS; + } + break; + + /* wait LXTAL stable */ + case RCU_LXTAL: + while((RESET == osci_stat) && (LXTAL_STARTUP_TIMEOUT != stb_cnt)){ + osci_stat = rcu_flag_get(RCU_FLAG_LXTALSTB); + stb_cnt++; + } + + /* check whether flag is set or not */ + if(RESET != rcu_flag_get(RCU_FLAG_LXTALSTB)){ + reval = SUCCESS; + } + break; + + /* wait IRC8M stable */ + case RCU_IRC8M: + while((RESET == osci_stat) && (IRC8M_STARTUP_TIMEOUT != stb_cnt)){ + osci_stat = rcu_flag_get(RCU_FLAG_IRC8MSTB); + stb_cnt++; + } + + /* check whether flag is set or not */ + if(RESET != rcu_flag_get(RCU_FLAG_IRC8MSTB)){ + reval = SUCCESS; + } + break; + + /* wait IRC48M stable */ + case RCU_IRC48M: + while((RESET == osci_stat) && (OSC_STARTUP_TIMEOUT != stb_cnt)){ + osci_stat = rcu_flag_get(RCU_FLAG_IRC48MSTB); + stb_cnt++; + } + + /* check whether flag is set or not */ + if (RESET != rcu_flag_get(RCU_FLAG_IRC48MSTB)){ + reval = SUCCESS; + } + break; + + /* wait IRC40K stable */ + case RCU_IRC40K: + while((RESET == osci_stat) && (OSC_STARTUP_TIMEOUT != stb_cnt)){ + osci_stat = rcu_flag_get(RCU_FLAG_IRC40KSTB); + stb_cnt++; + } + + /* check whether flag is set or not */ + if(RESET != rcu_flag_get(RCU_FLAG_IRC40KSTB)){ + reval = SUCCESS; + } + break; + + /* wait PLL stable */ + case RCU_PLL_CK: + while((RESET == osci_stat) && (OSC_STARTUP_TIMEOUT != stb_cnt)){ + osci_stat = rcu_flag_get(RCU_FLAG_PLLSTB); + stb_cnt++; + } + + /* check whether flag is set or not */ + if(RESET != rcu_flag_get(RCU_FLAG_PLLSTB)){ + reval = SUCCESS; + } + break; + +#ifdef GD32F30X_CL + /* wait PLL1 stable */ + case RCU_PLL1_CK: + while((RESET == osci_stat) && (OSC_STARTUP_TIMEOUT != stb_cnt)){ + osci_stat = rcu_flag_get(RCU_FLAG_PLL1STB); + stb_cnt++; + } + + /* check whether flag is set or not */ + if(RESET != rcu_flag_get(RCU_FLAG_PLL1STB)){ + reval = SUCCESS; + } + break; + /* wait PLL2 stable */ + case RCU_PLL2_CK: + while((RESET == osci_stat) && (OSC_STARTUP_TIMEOUT != stb_cnt)){ + osci_stat = rcu_flag_get(RCU_FLAG_PLL2STB); + stb_cnt++; + } + + /* check whether flag is set or not */ + if(RESET != rcu_flag_get(RCU_FLAG_PLL2STB)){ + reval = SUCCESS; + } + break; +#endif /* GD32F30X_CL */ + + default: + break; + } + + /* return value */ + return reval; +} + +/*! + \brief turn on the oscillator + \param[in] osci: oscillator types, refer to rcu_osci_type_enum + only one parameter can be selected which is shown as below: + \arg RCU_HXTAL: high speed crystal oscillator(HXTAL) + \arg RCU_LXTAL: low speed crystal oscillator(LXTAL) + \arg RCU_IRC8M: internal 8M RC oscillators(IRC8M) + \arg RCU_IRC48M: internal 48M RC oscillators(IRC48M) + \arg RCU_IRC40K: internal 40K RC oscillator(IRC40K) + \arg RCU_PLL_CK: phase locked loop(PLL) + \arg RCU_PLL1_CK: phase locked loop 1(CL series only) + \arg RCU_PLL2_CK: phase locked loop 2(CL series only) + \param[out] none + \retval none +*/ +void rcu_osci_on(rcu_osci_type_enum osci) +{ + RCU_REG_VAL(osci) |= BIT(RCU_BIT_POS(osci)); +} + +/*! + \brief turn off the oscillator + \param[in] osci: oscillator types, refer to rcu_osci_type_enum + only one parameter can be selected which is shown as below: + \arg RCU_HXTAL: high speed crystal oscillator(HXTAL) + \arg RCU_LXTAL: low speed crystal oscillator(LXTAL) + \arg RCU_IRC8M: internal 8M RC oscillators(IRC8M) + \arg RCU_IRC48M: internal 48M RC oscillators(IRC48M) + \arg RCU_IRC40K: internal 40K RC oscillator(IRC40K) + \arg RCU_PLL_CK: phase locked loop(PLL) + \arg RCU_PLL1_CK: phase locked loop 1(CL series only) + \arg RCU_PLL2_CK: phase locked loop 2(CL series only) + \param[out] none + \retval none +*/ +void rcu_osci_off(rcu_osci_type_enum osci) +{ + RCU_REG_VAL(osci) &= ~BIT(RCU_BIT_POS(osci)); +} + +/*! + \brief enable the oscillator bypass mode, HXTALEN or LXTALEN must be reset before it + \param[in] osci: oscillator types, refer to rcu_osci_type_enum + only one parameter can be selected which is shown as below: + \arg RCU_HXTAL: high speed crystal oscillator(HXTAL) + \arg RCU_LXTAL: low speed crystal oscillator(LXTAL) + \param[out] none + \retval none +*/ +void rcu_osci_bypass_mode_enable(rcu_osci_type_enum osci) +{ + uint32_t reg; + + switch(osci){ + /* enable HXTAL to bypass mode */ + case RCU_HXTAL: + reg = RCU_CTL; + RCU_CTL &= ~RCU_CTL_HXTALEN; + RCU_CTL = (reg | RCU_CTL_HXTALBPS); + break; + /* enable LXTAL to bypass mode */ + case RCU_LXTAL: + reg = RCU_BDCTL; + RCU_BDCTL &= ~RCU_BDCTL_LXTALEN; + RCU_BDCTL = (reg | RCU_BDCTL_LXTALBPS); + break; + case RCU_IRC8M: + case RCU_IRC48M: + case RCU_IRC40K: + case RCU_PLL_CK: +#ifdef GD32F30X_CL + case RCU_PLL1_CK: + case RCU_PLL2_CK: +#endif /* GD32F30X_CL */ + break; + default: + break; + } +} + +/*! + \brief disable the oscillator bypass mode, HXTALEN or LXTALEN must be reset before it + \param[in] osci: oscillator types, refer to rcu_osci_type_enum + only one parameter can be selected which is shown as below: + \arg RCU_HXTAL: high speed crystal oscillator(HXTAL) + \arg RCU_LXTAL: low speed crystal oscillator(LXTAL) + \param[out] none + \retval none +*/ +void rcu_osci_bypass_mode_disable(rcu_osci_type_enum osci) +{ + uint32_t reg; + + switch(osci){ + /* disable HXTAL to bypass mode */ + case RCU_HXTAL: + reg = RCU_CTL; + RCU_CTL &= ~RCU_CTL_HXTALEN; + RCU_CTL = (reg & ~RCU_CTL_HXTALBPS); + break; + /* disable LXTAL to bypass mode */ + case RCU_LXTAL: + reg = RCU_BDCTL; + RCU_BDCTL &= ~RCU_BDCTL_LXTALEN; + RCU_BDCTL = (reg & ~RCU_BDCTL_LXTALBPS); + break; + case RCU_IRC8M: + case RCU_IRC48M: + case RCU_IRC40K: + case RCU_PLL_CK: +#ifdef GD32F30X_CL + case RCU_PLL1_CK: + case RCU_PLL2_CK: +#endif /* GD32F30X_CL */ + break; + default: + break; + } +} + +/*! + \brief set the IRC8M adjust value + \param[in] irc8m_adjval: IRC8M adjust value, must be between 0 and 0x1F + \arg 0x00 - 0x1F + \param[out] none + \retval none +*/ +void rcu_irc8m_adjust_value_set(uint32_t irc8m_adjval) +{ + uint32_t reg; + + reg = RCU_CTL; + /* reset the IRC8MADJ bits and set according to irc8m_adjval */ + reg &= ~RCU_CTL_IRC8MADJ; + RCU_CTL = (reg | ((irc8m_adjval & RCU_IRC8M_ADJUST_MASK) << RCU_IRC8M_ADJUST_OFFSET)); +} + +/*! + \brief enable the HXTAL clock monitor + \param[in] none + \param[out] none + \retval none +*/ + +void rcu_hxtal_clock_monitor_enable(void) +{ + RCU_CTL |= RCU_CTL_CKMEN; +} + +/*! + \brief disable the HXTAL clock monitor + \param[in] none + \param[out] none + \retval none +*/ +void rcu_hxtal_clock_monitor_disable(void) +{ + RCU_CTL &= ~RCU_CTL_CKMEN; +} + +/*! + \brief deep-sleep mode voltage select + \param[in] dsvol: deep sleep mode voltage + only one parameter can be selected which is shown as below: + \arg RCU_DEEPSLEEP_V_0: the core voltage is default value + \arg RCU_DEEPSLEEP_V_1: the core voltage is (default value-0.1)V(customers are not recommended to use it) + \arg RCU_DEEPSLEEP_V_2: the core voltage is (default value-0.2)V(customers are not recommended to use it) + \arg RCU_DEEPSLEEP_V_3: the core voltage is (default value-0.3)V(customers are not recommended to use it) + \param[out] none + \retval none +*/ +void rcu_deepsleep_voltage_set(uint32_t dsvol) +{ + dsvol &= RCU_DSV_DSLPVS; + RCU_DSV = dsvol; +} + +/*! + \brief get the system clock, bus and peripheral clock frequency + \param[in] clock: the clock frequency which to get + only one parameter can be selected which is shown as below: + \arg CK_SYS: system clock frequency + \arg CK_AHB: AHB clock frequency + \arg CK_APB1: APB1 clock frequency + \arg CK_APB2: APB2 clock frequency + \param[out] none + \retval clock frequency of system, AHB, APB1, APB2 +*/ +uint32_t rcu_clock_freq_get(rcu_clock_freq_enum clock) +{ + uint32_t sws, ck_freq = 0U; + uint32_t cksys_freq, ahb_freq, apb1_freq, apb2_freq; + uint32_t pllsel, pllpresel, predv0sel, pllmf,ck_src, idx, clk_exp; +#ifdef GD32F30X_CL + uint32_t predv0, predv1, pll1mf; +#endif /* GD32F30X_CL */ + + /* exponent of AHB, APB1 and APB2 clock divider */ + uint8_t ahb_exp[16] = {0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 6, 7, 8, 9}; + uint8_t apb1_exp[8] = {0, 0, 0, 0, 1, 2, 3, 4}; + uint8_t apb2_exp[8] = {0, 0, 0, 0, 1, 2, 3, 4}; + + sws = GET_BITS(RCU_CFG0, 2, 3); + switch(sws){ + /* IRC8M is selected as CK_SYS */ + case SEL_IRC8M: + cksys_freq = IRC8M_VALUE; + break; + /* HXTAL is selected as CK_SYS */ + case SEL_HXTAL: + cksys_freq = HXTAL_VALUE; + break; + /* PLL is selected as CK_SYS */ + case SEL_PLL: + /* PLL clock source selection, HXTAL, IRC48M or IRC8M / 2 */ + pllsel = (RCU_CFG0 & RCU_CFG0_PLLSEL); + + if(RCU_PLLSRC_HXTAL_IRC48M == pllsel) { + /* PLL clock source is HXTAL or IRC48M */ + pllpresel = (RCU_CFG1 & RCU_CFG1_PLLPRESEL); + + if(RCU_PLLPRESRC_HXTAL == pllpresel){ + /* PLL clock source is HXTAL */ + ck_src = HXTAL_VALUE; + }else{ + /* PLL clock source is IRC48 */ + ck_src = IRC48M_VALUE; + } + +#if (defined(GD32F30X_HD) || defined(GD32F30X_XD)) + predv0sel = (RCU_CFG0 & RCU_CFG0_PREDV0); + /* PREDV0 input source clock divided by 2 */ + if(RCU_CFG0_PREDV0 == predv0sel){ + ck_src /= 2U; + } +#elif defined(GD32F30X_CL) + predv0sel = (RCU_CFG1 & RCU_CFG1_PREDV0SEL); + /* source clock use PLL1 */ + if(RCU_PREDV0SRC_CKPLL1 == predv0sel){ + predv1 = ((RCU_CFG1 & RCU_CFG1_PREDV1) >> RCU_CFG1_PREDV1_OFFSET) + 1U; + pll1mf = (uint32_t)((RCU_CFG1 & RCU_CFG1_PLL1MF) >> RCU_CFG1_PLL1MF_OFFSET) + 2U; + if(17U == pll1mf){ + pll1mf = 20U; + } + ck_src = (ck_src / predv1)*pll1mf; + } + predv0 = (RCU_CFG1 & RCU_CFG1_PREDV0) + 1U; + ck_src /= predv0; +#endif /* GD32F30X_HD and GD32F30X_XD */ + }else{ + /* PLL clock source is IRC8M / 2 */ + ck_src = IRC8M_VALUE / 2U; + } + + /* PLL multiplication factor */ + pllmf = GET_BITS(RCU_CFG0, 18, 21); + if((RCU_CFG0 & RCU_CFG0_PLLMF_4)){ + pllmf |= 0x10U; + } + if((RCU_CFG0 & RCU_CFG0_PLLMF_5)){ + pllmf |= 0x20U; + } + if(pllmf < 15U){ + pllmf += 2U; + }else if((pllmf >= 15U) && (pllmf <= 62U)){ + pllmf += 1U; + }else{ + pllmf = 63U; + } + cksys_freq = ck_src*pllmf; + #ifdef GD32F30X_CL + if(15U == pllmf){ + cksys_freq = ck_src*6U + ck_src / 2U; + } + #endif /* GD32F30X_CL */ + + break; + /* IRC8M is selected as CK_SYS */ + default: + cksys_freq = IRC8M_VALUE; + break; + } + + /* calculate AHB clock frequency */ + idx = GET_BITS(RCU_CFG0, 4, 7); + clk_exp = ahb_exp[idx]; + ahb_freq = cksys_freq >> clk_exp; + + /* calculate APB1 clock frequency */ + idx = GET_BITS(RCU_CFG0, 8, 10); + clk_exp = apb1_exp[idx]; + apb1_freq = ahb_freq >> clk_exp; + + /* calculate APB2 clock frequency */ + idx = GET_BITS(RCU_CFG0, 11, 13); + clk_exp = apb2_exp[idx]; + apb2_freq = ahb_freq >> clk_exp; + + /* return the clocks frequency */ + switch(clock){ + case CK_SYS: + ck_freq = cksys_freq; + break; + case CK_AHB: + ck_freq = ahb_freq; + break; + case CK_APB1: + ck_freq = apb1_freq; + break; + case CK_APB2: + ck_freq = apb2_freq; + break; + default: + break; + } + return ck_freq; +} + +/*! + \brief get the clock stabilization and periphral reset flags + \param[in] flag: the clock stabilization and periphral reset flags, refer to rcu_flag_enum + only one parameter can be selected which is shown as below: + \arg RCU_FLAG_IRC8MSTB: IRC8M stabilization flag + \arg RCU_FLAG_HXTALSTB: HXTAL stabilization flag + \arg RCU_FLAG_PLLSTB: PLL stabilization flag + \arg RCU_FLAG_PLL1STB: PLL1 stabilization flag(CL series only) + \arg RCU_FLAG_PLL2STB: PLL2 stabilization flag(CL series only) + \arg RCU_FLAG_LXTALSTB: LXTAL stabilization flag + \arg RCU_FLAG_IRC40KSTB: IRC40K stabilization flag + \arg RCU_FLAG_IRC48MSTB: IRC48M stabilization flag + \arg RCU_FLAG_EPRST: external PIN reset flag + \arg RCU_FLAG_PORRST: power reset flag + \arg RCU_FLAG_SWRST: software reset flag + \arg RCU_FLAG_FWDGTRST: free watchdog timer reset flag + \arg RCU_FLAG_WWDGTRST: window watchdog timer reset flag + \arg RCU_FLAG_LPRST: low-power reset flag + \param[out] none + \retval none +*/ +FlagStatus rcu_flag_get(rcu_flag_enum flag) +{ + /* get the rcu flag */ + if(RESET != (RCU_REG_VAL(flag) & BIT(RCU_BIT_POS(flag)))){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear all the reset flag + \param[in] none + \param[out] none + \retval none +*/ +void rcu_all_reset_flag_clear(void) +{ + RCU_RSTSCK |= RCU_RSTSCK_RSTFC; +} + +/*! + \brief get the clock stabilization interrupt and ckm flags + \param[in] int_flag: interrupt and ckm flags, refer to rcu_int_flag_enum + only one parameter can be selected which is shown as below: + \arg RCU_INT_FLAG_IRC40KSTB: IRC40K stabilization interrupt flag + \arg RCU_INT_FLAG_LXTALSTB: LXTAL stabilization interrupt flag + \arg RCU_INT_FLAG_IRC8MSTB: IRC8M stabilization interrupt flag + \arg RCU_INT_FLAG_HXTALSTB: HXTAL stabilization interrupt flag + \arg RCU_INT_FLAG_PLLSTB: PLL stabilization interrupt flag + \arg RCU_INT_FLAG_PLL1STB: PLL1 stabilization interrupt flag(CL series only) + \arg RCU_INT_FLAG_PLL2STB: PLL2 stabilization interrupt flag(CL series only) + \arg RCU_INT_FLAG_CKM: HXTAL clock stuck interrupt flag + \arg RCU_INT_FLAG_IRC48MSTB: IRC48M stabilization interrupt flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus rcu_interrupt_flag_get(rcu_int_flag_enum int_flag) +{ + /* get the rcu interrupt flag */ + if(RESET != (RCU_REG_VAL(int_flag) & BIT(RCU_BIT_POS(int_flag)))){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear the interrupt flags + \param[in] int_flag: clock stabilization and stuck interrupt flags clear, refer to rcu_int_flag_clear_enum + only one parameter can be selected which is shown as below: + \arg RCU_INT_FLAG_IRC40KSTB_CLR: IRC40K stabilization interrupt flag clear + \arg RCU_INT_FLAG_LXTALSTB_CLR: LXTAL stabilization interrupt flag clear + \arg RCU_INT_FLAG_IRC8MSTB_CLR: IRC8M stabilization interrupt flag clear + \arg RCU_INT_FLAG_HXTALSTB_CLR: HXTAL stabilization interrupt flag clear + \arg RCU_INT_FLAG_PLLSTB_CLR: PLL stabilization interrupt flag clear + \arg RCU_INT_FLAG_PLL1STB_CLR: PLL1 stabilization interrupt flag clear(CL series only) + \arg RCU_INT_FLAG_PLL2STB_CLR: PLL2 stabilization interrupt flag clear(CL series only) + \arg RCU_INT_FLAG_CKM_CLR: clock stuck interrupt flag clear + \arg RCU_INT_FLAG_IRC48MSTB_CLR: IRC48M stabilization interrupt flag clear + \param[out] none + \retval none +*/ +void rcu_interrupt_flag_clear(rcu_int_flag_clear_enum int_flag) +{ + RCU_REG_VAL(int_flag) |= BIT(RCU_BIT_POS(int_flag)); +} + +/*! + \brief enable the stabilization interrupt + \param[in] interrupt clock stabilization interrupt, refer to rcu_int_enum + only one parameter can be selected which is shown as below: + \arg RCU_INT_IRC40KSTB: IRC40K stabilization interrupt enable + \arg RCU_INT_LXTALSTB: LXTAL stabilization interrupt enable + \arg RCU_INT_IRC8MSTB: IRC8M stabilization interrupt enable + \arg RCU_INT_HXTALSTB: HXTAL stabilization interrupt enable + \arg RCU_INT_PLLSTB: PLL stabilization interrupt enable + \arg RCU_INT_PLL1STB: PLL1 stabilization interrupt enable(CL series only) + \arg RCU_INT_PLL2STB: PLL2 stabilization interrupt enable(CL series only) + \arg RCU_INT_IRC48MSTB: IRC48M stabilization interrupt enable + \param[out] none + \retval none +*/ +void rcu_interrupt_enable(rcu_int_enum interrupt) +{ + RCU_REG_VAL(interrupt) |= BIT(RCU_BIT_POS(interrupt)); +} + +/*! + \brief disable the stabilization interrupt + \param[in] interrupt clock stabilization interrupt, refer to rcu_int_enum + only one parameter can be selected which is shown as below: + \arg RCU_INT_IRC40KSTB: IRC40K stabilization interrupt enable + \arg RCU_INT_LXTALSTB: LXTAL stabilization interrupt enable + \arg RCU_INT_IRC8MSTB: IRC8M stabilization interrupt enable + \arg RCU_INT_HXTALSTB: HXTAL stabilization interrupt enable + \arg RCU_INT_PLLSTB: PLL stabilization interrupt enable + \arg RCU_INT_PLL1STB: PLL1 stabilization interrupt enable(CL series only) + \arg RCU_INT_PLL2STB: PLL2 stabilization interrupt enable(CL series only) + \arg RCU_INT_IRC48MSTB: IRC48M stabilization interrupt enable + \param[out] none + \retval none +*/ +void rcu_interrupt_disable(rcu_int_enum interrupt) +{ + RCU_REG_VAL(interrupt) &= ~BIT(RCU_BIT_POS(interrupt)); +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_rtc.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_rtc.c new file mode 100644 index 0000000000..b6e323bf9a --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_rtc.c @@ -0,0 +1,230 @@ +/*! + \file gd32f30x_rtc.c + \brief RTC driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + + +#include "gd32f30x_rtc.h" + +/*! + \brief enable RTC interrupt + \param[in] interrupt: specify which interrupt to enbale + \arg RTC_INT_SECOND: second interrupt + \arg RTC_INT_ALARM: alarm interrupt + \arg RTC_INT_OVERFLOW: overflow interrupt + \param[out] none + \retval none +*/ +void rtc_interrupt_enable(uint32_t interrupt) +{ + RTC_INTEN |= interrupt; +} + +/*! + \brief disable RTC interrupt + \param[in] interrupt: specify which interrupt to disbale + \arg RTC_INT_SECOND: second interrupt + \arg RTC_INT_ALARM: alarm interrupt + \arg RTC_INT_OVERFLOW: overflow interrupt + \param[out] none + \retval none +*/ +void rtc_interrupt_disable(uint32_t interrupt) +{ + RTC_INTEN &= ~interrupt; +} + +/*! + \brief enter RTC configuration mode + \param[in] none + \param[out] none + \retval none +*/ +void rtc_configuration_mode_enter(void) +{ + RTC_CTL |= RTC_CTL_CMF; +} + +/*! + \brief exit RTC configuration mode + \param[in] none + \param[out] none + \retval none +*/ +void rtc_configuration_mode_exit(void) +{ + RTC_CTL &= ~RTC_CTL_CMF; +} + +/*! + \brief wait RTC last write operation finished flag set + \param[in] none + \param[out] none + \retval none +*/ +void rtc_lwoff_wait(void) +{ + /* loop until LWOFF flag is set */ + while (RESET == (RTC_CTL & RTC_CTL_LWOFF)){ + } +} + +/*! + \brief wait RTC registers synchronized flag set + \param[in] none + \param[out] none + \retval none +*/ +void rtc_register_sync_wait(void) +{ + /* clear RSYNF flag */ + RTC_CTL &= ~RTC_CTL_RSYNF; + /* loop until RSYNF flag is set */ + while (RESET == (RTC_CTL & RTC_CTL_RSYNF)){ + } +} + +/*! + \brief get RTC counter value + \param[in] none + \param[out] none + \retval RTC counter value +*/ +uint32_t rtc_counter_get(void) +{ + uint32_t temp = 0x0U; + temp = RTC_CNTL; + temp |= (RTC_CNTH << 16); + return temp; +} + +/*! + \brief set RTC counter value + \param[in] cnt: RTC counter value + \param[out] none + \retval none +*/ +void rtc_counter_set(uint32_t cnt) +{ + rtc_configuration_mode_enter(); + /* set the RTC counter high bits */ + RTC_CNTH = cnt >> 16; + /* set the RTC counter low bits */ + RTC_CNTL = (cnt & RTC_LOW_VALUE); + rtc_configuration_mode_exit(); +} + +/*! + \brief set RTC prescaler value + \param[in] psc: RTC prescaler value + \param[out] none + \retval none +*/ +void rtc_prescaler_set(uint32_t psc) +{ + rtc_configuration_mode_enter(); + /* set the RTC prescaler high bits */ + RTC_PSCH = (psc & RTC_HIGH_VALUE) >> 16; + /* set the RTC prescaler low bits */ + RTC_PSCL = (psc & RTC_LOW_VALUE); + rtc_configuration_mode_exit(); +} + +/*! + \brief set RTC alarm value + \param[in] alarm: RTC alarm value + \param[out] none + \retval none +*/ +void rtc_alarm_config(uint32_t alarm) +{ + rtc_configuration_mode_enter(); + /* set the alarm high bits */ + RTC_ALRMH = alarm >> 16; + /* set the alarm low bits */ + RTC_ALRML = (alarm & RTC_LOW_VALUE); + rtc_configuration_mode_exit(); +} + +/*! + \brief get RTC divider value + \param[in] none + \param[out] none + \retval RTC divider value +*/ +uint32_t rtc_divider_get(void) +{ + uint32_t temp = 0x00U; + temp = (RTC_DIVH & RTC_DIVH_DIV) << 16; + temp |= RTC_DIVL; + return temp; +} + +/*! + \brief get RTC flag status + \param[in] flag: specify which flag status to get + \arg RTC_FLAG_SECOND: second interrupt flag + \arg RTC_FLAG_ALARM: alarm interrupt flag + \arg RTC_FLAG_OVERFLOW: overflow interrupt flag + \arg RTC_FLAG_RSYN: registers synchronized flag + \arg RTC_FLAG_LWOF: last write operation finished flag + \param[out] none + \retval SET or RESET +*/ +FlagStatus rtc_flag_get(uint32_t flag) +{ + if(RESET != (RTC_CTL & flag)){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear RTC flag status + \param[in] flag: specify which flag status to clear + \arg RTC_FLAG_SECOND: second interrupt flag + \arg RTC_FLAG_ALARM: alarm interrupt flag + \arg RTC_FLAG_OVERFLOW: overflow interrupt flag + \arg RTC_FLAG_RSYN: registers synchronized flag + \param[out] none + \retval none +*/ +void rtc_flag_clear(uint32_t flag) +{ + /* clear RTC flag */ + RTC_CTL &= ~flag; +} + diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_sdio.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_sdio.c new file mode 100644 index 0000000000..ab95caf8b6 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_sdio.c @@ -0,0 +1,809 @@ +/*! + \file gd32f30x_sdio.c + \brief SDIO driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_sdio.h" + +#define DEFAULT_RESET_VALUE 0x00000000U + +/*! + \brief deinitialize the SDIO + \param[in] none + \param[out] none + \retval none +*/ +void sdio_deinit(void) +{ + SDIO_PWRCTL = DEFAULT_RESET_VALUE; + SDIO_CLKCTL = DEFAULT_RESET_VALUE; + SDIO_CMDAGMT = DEFAULT_RESET_VALUE; + SDIO_CMDCTL = DEFAULT_RESET_VALUE; + SDIO_DATATO = DEFAULT_RESET_VALUE; + SDIO_DATALEN = DEFAULT_RESET_VALUE; + SDIO_DATACTL = DEFAULT_RESET_VALUE; + SDIO_INTC = DEFAULT_RESET_VALUE; + SDIO_INTEN = DEFAULT_RESET_VALUE; +} + +/*! + \brief configure the SDIO clock + \param[in] clock_edge: SDIO_CLK clock edge + only one parameter can be selected which is shown as below: + \arg SDIO_SDIOCLKEDGE_RISING: select the rising edge of the SDIOCLK to generate SDIO_CLK + \arg SDIO_SDIOCLKEDGE_FALLING: select the falling edge of the SDIOCLK to generate SDIO_CLK + \param[in] clock_bypass: clock bypass + only one parameter can be selected which is shown as below: + \arg SDIO_CLOCKBYPASS_ENABLE: clock bypass + \arg SDIO_CLOCKBYPASS_DISABLE: no bypass + \param[in] clock_powersave: SDIO_CLK clock dynamic switch on/off for power saving + only one parameter can be selected which is shown as below: + \arg SDIO_CLOCKPWRSAVE_ENABLE: SDIO_CLK closed when bus is idle + \arg SDIO_CLOCKPWRSAVE_DISABLE: SDIO_CLK clock is always on + \param[in] clock_division: clock division, less than 512 + \param[out] none + \retval none +*/ +void sdio_clock_config(uint32_t clock_edge, uint32_t clock_bypass, uint32_t clock_powersave, uint16_t clock_division) +{ + uint32_t clock_config = 0U; + clock_config = SDIO_CLKCTL; + /* reset the CLKEDGE, CLKBYP, CLKPWRSAV, DIV */ + clock_config &= ~(SDIO_CLKCTL_CLKEDGE | SDIO_CLKCTL_CLKBYP | SDIO_CLKCTL_CLKPWRSAV | SDIO_CLKCTL_DIV8 | SDIO_CLKCTL_DIV); + /* if the clock division is greater or equal to 256, set the DIV[8] */ + if(clock_division >= 256U){ + clock_config |= SDIO_CLKCTL_DIV8; + clock_division -= 256U; + } + /* configure the SDIO_CLKCTL according to the parameters */ + clock_config |= (clock_edge | clock_bypass | clock_powersave | clock_division); + SDIO_CLKCTL = clock_config; +} + +/*! + \brief enable hardware clock control + \param[in] none + \param[out] none + \retval none +*/ +void sdio_hardware_clock_enable(void) +{ + SDIO_CLKCTL |= SDIO_CLKCTL_HWCLKEN; +} + +/*! + \brief disable hardware clock control + \param[in] none + \param[out] none + \retval none +*/ +void sdio_hardware_clock_disable(void) +{ + SDIO_CLKCTL &= ~SDIO_CLKCTL_HWCLKEN; +} + +/*! + \brief set different SDIO card bus mode + \param[in] bus_mode: SDIO card bus mode + only one parameter can be selected which is shown as below: + \arg SDIO_BUSMODE_1BIT: 1-bit SDIO card bus mode + \arg SDIO_BUSMODE_4BIT: 4-bit SDIO card bus mode + \arg SDIO_BUSMODE_8BIT: 8-bit SDIO card bus mode + \param[out] none + \retval none +*/ +void sdio_bus_mode_set(uint32_t bus_mode) +{ + /* reset the SDIO card bus mode bits and set according to bus_mode */ + SDIO_CLKCTL &= ~SDIO_CLKCTL_BUSMODE; + SDIO_CLKCTL |= bus_mode; +} + +/*! + \brief set the SDIO power state + \param[in] power_state: SDIO power state + only one parameter can be selected which is shown as below: + \arg SDIO_POWER_ON: SDIO power on + \arg SDIO_POWER_OFF: SDIO power off + \param[out] none + \retval none +*/ +void sdio_power_state_set(uint32_t power_state) +{ + SDIO_PWRCTL = power_state; +} + +/*! + \brief get the SDIO power state + \param[in] none + \param[out] none + \retval SDIO power state + \arg SDIO_POWER_ON: SDIO power on + \arg SDIO_POWER_OFF: SDIO power off +*/ +uint32_t sdio_power_state_get(void) +{ + return SDIO_PWRCTL; +} + +/*! + \brief enable SDIO_CLK clock output + \param[in] none + \param[out] none + \retval none +*/ +void sdio_clock_enable(void) +{ + SDIO_CLKCTL |= SDIO_CLKCTL_CLKEN; +} + +/*! + \brief disable SDIO_CLK clock output + \param[in] none + \param[out] none + \retval none +*/ +void sdio_clock_disable(void) +{ + SDIO_CLKCTL &= ~SDIO_CLKCTL_CLKEN; +} + +/*! + \brief configure the command and response + \param[in] cmd_index: command index, refer to the related specifications + \param[in] cmd_argument: command argument, refer to the related specifications + \param[in] response_type: response type + only one parameter can be selected which is shown as below: + \arg SDIO_RESPONSETYPE_NO: no response + \arg SDIO_RESPONSETYPE_SHORT: short response + \arg SDIO_RESPONSETYPE_LONG: long response + \param[out] none + \retval none +*/ +void sdio_command_response_config(uint32_t cmd_index, uint32_t cmd_argument, uint32_t response_type) +{ + uint32_t cmd_config = 0U; + /* reset the command index, command argument and response type */ + SDIO_CMDAGMT &= ~SDIO_CMDAGMT_CMDAGMT; + SDIO_CMDAGMT = cmd_argument; + cmd_config = SDIO_CMDCTL; + cmd_config &= ~(SDIO_CMDCTL_CMDIDX | SDIO_CMDCTL_CMDRESP); + /* configure SDIO_CMDCTL and SDIO_CMDAGMT according to the parameters */ + cmd_config |= (cmd_index | response_type); + SDIO_CMDCTL = cmd_config; +} + +/*! + \brief set the command state machine wait type + \param[in] wait_type: wait type + only one parameter can be selected which is shown as below: + \arg SDIO_WAITTYPE_NO: not wait interrupt + \arg SDIO_WAITTYPE_INTERRUPT: wait interrupt + \arg SDIO_WAITTYPE_DATAEND: wait the end of data transfer + \param[out] none + \retval none +*/ +void sdio_wait_type_set(uint32_t wait_type) +{ + /* reset INTWAIT and WAITDEND */ + SDIO_CMDCTL &= ~(SDIO_CMDCTL_INTWAIT | SDIO_CMDCTL_WAITDEND); + /* set the wait type according to wait_type */ + SDIO_CMDCTL |= wait_type; +} + +/*! + \brief enable the CSM(command state machine) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_csm_enable(void) +{ + SDIO_CMDCTL |= SDIO_CMDCTL_CSMEN; +} + +/*! + \brief disable the CSM(command state machine) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_csm_disable(void) +{ + SDIO_CMDCTL &= ~SDIO_CMDCTL_CSMEN; +} + +/*! + \brief get the last response command index + \param[in] none + \param[out] none + \retval last response command index +*/ +uint8_t sdio_command_index_get(void) +{ + return (uint8_t)SDIO_RSPCMDIDX; +} + +/*! + \brief get the response for the last received command + \param[in] responsex: SDIO response + only one parameter can be selected which is shown as below: + \arg SDIO_RESPONSE0: card response[31:0]/card response[127:96] + \arg SDIO_RESPONSE1: card response[95:64] + \arg SDIO_RESPONSE2: card response[63:32] + \arg SDIO_RESPONSE3: card response[31:1], plus bit 0 + \param[out] none + \retval response for the last received command +*/ +uint32_t sdio_response_get(uint32_t responsex) +{ + uint32_t resp_content = 0U; + switch(responsex){ + case SDIO_RESPONSE0: + resp_content = SDIO_RESP0; + break; + case SDIO_RESPONSE1: + resp_content = SDIO_RESP1; + break; + case SDIO_RESPONSE2: + resp_content = SDIO_RESP2; + break; + case SDIO_RESPONSE3: + resp_content = SDIO_RESP3; + break; + default: + break; + } + return resp_content; +} + +/*! + \brief configure the data timeout, data length and data block size + \param[in] data_timeout: data timeout period in card bus clock periods + \param[in] data_length: number of data bytes to be transferred + \param[in] data_blocksize: size of data block for block transfer + only one parameter can be selected which is shown as below: + \arg SDIO_DATABLOCKSIZE_1BYTE: block size = 1 byte + \arg SDIO_DATABLOCKSIZE_2BYTES: block size = 2 bytes + \arg SDIO_DATABLOCKSIZE_4BYTES: block size = 4 bytes + \arg SDIO_DATABLOCKSIZE_8BYTES: block size = 8 bytes + \arg SDIO_DATABLOCKSIZE_16BYTES: block size = 16 bytes + \arg SDIO_DATABLOCKSIZE_32BYTES: block size = 32 bytes + \arg SDIO_DATABLOCKSIZE_64BYTES: block size = 64 bytes + \arg SDIO_DATABLOCKSIZE_128BYTES: block size = 128 bytes + \arg SDIO_DATABLOCKSIZE_256BYTES: block size = 256 bytes + \arg SDIO_DATABLOCKSIZE_512BYTES: block size = 512 bytes + \arg SDIO_DATABLOCKSIZE_1024BYTES: block size = 1024 bytes + \arg SDIO_DATABLOCKSIZE_2048BYTES: block size = 2048 bytes + \arg SDIO_DATABLOCKSIZE_4096BYTES: block size = 4096 bytes + \arg SDIO_DATABLOCKSIZE_8192BYTES: block size = 8192 bytes + \arg SDIO_DATABLOCKSIZE_16384BYTES: block size = 16384 bytes + \param[out] none + \retval none +*/ +void sdio_data_config(uint32_t data_timeout, uint32_t data_length, uint32_t data_blocksize) +{ + /* reset data timeout, data length and data block size */ + SDIO_DATATO &= ~SDIO_DATATO_DATATO; + SDIO_DATALEN &= ~SDIO_DATALEN_DATALEN; + SDIO_DATACTL &= ~SDIO_DATACTL_BLKSZ; + /* configure the related parameters of data */ + SDIO_DATATO = data_timeout; + SDIO_DATALEN = data_length; + SDIO_DATACTL |= data_blocksize; +} + +/*! + \brief configure the data transfer mode and direction + \param[in] transfer_mode: mode of data transfer + only one parameter can be selected which is shown as below: + \arg SDIO_TRANSMODE_BLOCK: block transfer + \arg SDIO_TRANSMODE_STREAM: stream transfer or SDIO multibyte transfer + \param[in] transfer_direction: data transfer direction, read or write + only one parameter can be selected which is shown as below: + \arg SDIO_TRANSDIRECTION_TOCARD: write data to card + \arg SDIO_TRANSDIRECTION_TOSDIO: read data from card + \param[out] none + \retval none +*/ +void sdio_data_transfer_config(uint32_t transfer_mode, uint32_t transfer_direction) +{ + uint32_t data_trans = 0U; + /* reset the data transfer mode, transfer direction and set according to the parameters */ + data_trans = SDIO_DATACTL; + data_trans &= ~(SDIO_DATACTL_TRANSMOD | SDIO_DATACTL_DATADIR); + data_trans |= (transfer_mode | transfer_direction); + SDIO_DATACTL = data_trans; +} + +/*! + \brief enable the DSM(data state machine) for data transfer + \param[in] none + \param[out] none + \retval none +*/ +void sdio_dsm_enable(void) +{ + SDIO_DATACTL |= SDIO_DATACTL_DATAEN; +} + +/*! + \brief disable the DSM(data state machine) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_dsm_disable(void) +{ + SDIO_DATACTL &= ~SDIO_DATACTL_DATAEN; +} + +/*! + \brief write data(one word) to the transmit FIFO + \param[in] data: 32-bit data write to card + \param[out] none + \retval none +*/ +void sdio_data_write(uint32_t data) +{ + SDIO_FIFO = data; +} + +/*! + \brief read data(one word) from the receive FIFO + \param[in] none + \param[out] none + \retval received data +*/ +uint32_t sdio_data_read(void) +{ + return SDIO_FIFO; +} + +/*! + \brief get the number of remaining data bytes to be transferred to card + \param[in] none + \param[out] none + \retval number of remaining data bytes to be transferred +*/ +uint32_t sdio_data_counter_get(void) +{ + return SDIO_DATACNT; +} + +/*! + \brief get the number of words remaining to be written or read from FIFO + \param[in] none + \param[out] none + \retval remaining number of words +*/ +uint32_t sdio_fifo_counter_get(void) +{ + return SDIO_FIFOCNT; +} + +/*! + \brief enable the DMA request for SDIO + \param[in] none + \param[out] none + \retval none +*/ +void sdio_dma_enable(void) +{ + SDIO_DATACTL |= SDIO_DATACTL_DMAEN; +} + +/*! + \brief disable the DMA request for SDIO + \param[in] none + \param[out] none + \retval none +*/ +void sdio_dma_disable(void) +{ + SDIO_DATACTL &= ~SDIO_DATACTL_DMAEN; +} + +/*! + \brief get the flags state of SDIO + \param[in] flag: flags state of SDIO + one or more parameters can be selected which are shown as below: + \arg SDIO_FLAG_CCRCERR: command response received (CRC check failed) flag + \arg SDIO_FLAG_DTCRCERR: data block sent/received (CRC check failed) flag + \arg SDIO_FLAG_CMDTMOUT: command response timeout flag + \arg SDIO_FLAG_DTTMOUT: data timeout flag + \arg SDIO_FLAG_TXURE: transmit FIFO underrun error occurs flag + \arg SDIO_FLAG_RXORE: received FIFO overrun error occurs flag + \arg SDIO_FLAG_CMDRECV: command response received (CRC check passed) flag + \arg SDIO_FLAG_CMDSEND: command sent (no response required) flag + \arg SDIO_FLAG_DTEND: data end (data counter, SDIO_DATACNT, is zero) flag + \arg SDIO_FLAG_STBITE: start bit error in the bus flag + \arg SDIO_FLAG_DTBLKEND: data block sent/received (CRC check passed) flag + \arg SDIO_FLAG_CMDRUN: command transmission in progress flag + \arg SDIO_FLAG_TXRUN: data transmission in progress flag + \arg SDIO_FLAG_RXRUN: data reception in progress flag + \arg SDIO_FLAG_TFH: transmit FIFO is half empty flag: at least 8 words can be written into the FIFO + \arg SDIO_FLAG_RFH: receive FIFO is half full flag: at least 8 words can be read in the FIFO + \arg SDIO_FLAG_TFF: transmit FIFO is full flag + \arg SDIO_FLAG_RFF: receive FIFO is full flag + \arg SDIO_FLAG_TFE: transmit FIFO is empty flag + \arg SDIO_FLAG_RFE: receive FIFO is empty flag + \arg SDIO_FLAG_TXDTVAL: data is valid in transmit FIFO flag + \arg SDIO_FLAG_RXDTVAL: data is valid in receive FIFO flag + \arg SDIO_FLAG_SDIOINT: SD I/O interrupt received flag + \arg SDIO_FLAG_ATAEND: CE-ATA command completion signal received (only for CMD61) flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus sdio_flag_get(uint32_t flag) +{ + if(RESET != (SDIO_STAT & flag)){ + return SET; + } + return RESET; +} + +/*! + \brief clear the pending flags of SDIO + \param[in] flag: flags state of SDIO + one or more parameters can be selected which are shown as below: + \arg SDIO_FLAG_CCRCERR: command response received (CRC check failed) flag + \arg SDIO_FLAG_DTCRCERR: data block sent/received (CRC check failed) flag + \arg SDIO_FLAG_CMDTMOUT: command response timeout flag + \arg SDIO_FLAG_DTTMOUT: data timeout flag + \arg SDIO_FLAG_TXURE: transmit FIFO underrun error occurs flag + \arg SDIO_FLAG_RXORE: received FIFO overrun error occurs flag + \arg SDIO_FLAG_CMDRECV: command response received (CRC check passed) flag + \arg SDIO_FLAG_CMDSEND: command sent (no response required) flag + \arg SDIO_FLAG_DTEND: data end (data counter, SDIO_DATACNT, is zero) flag + \arg SDIO_FLAG_STBITE: start bit error in the bus flag + \arg SDIO_FLAG_DTBLKEND: data block sent/received (CRC check passed) flag + \arg SDIO_FLAG_SDIOINT: SD I/O interrupt received flag + \arg SDIO_FLAG_ATAEND: CE-ATA command completion signal received (only for CMD61) flag + \param[out] none + \retval none +*/ +void sdio_flag_clear(uint32_t flag) +{ + SDIO_INTC = flag; +} + +/*! + \brief enable the SDIO interrupt + \param[in] int_flag: interrupt flags state of SDIO + one or more parameters can be selected which are shown as below: + \arg SDIO_INT_CCRCERR: SDIO CCRCERR interrupt + \arg SDIO_INT_DTCRCERR: SDIO DTCRCERR interrupt + \arg SDIO_INT_CMDTMOUT: SDIO CMDTMOUT interrupt + \arg SDIO_INT_DTTMOUT: SDIO DTTMOUT interrupt + \arg SDIO_INT_TXURE: SDIO TXURE interrupt + \arg SDIO_INT_RXORE: SDIO RXORE interrupt + \arg SDIO_INT_CMDRECV: SDIO CMDRECV interrupt + \arg SDIO_INT_CMDSEND: SDIO CMDSEND interrupt + \arg SDIO_INT_DTEND: SDIO DTEND interrupt + \arg SDIO_INT_STBITE: SDIO STBITE interrupt + \arg SDIO_INT_DTBLKEND: SDIO DTBLKEND interrupt + \arg SDIO_INT_CMDRUN: SDIO CMDRUN interrupt + \arg SDIO_INT_TXRUN: SDIO TXRUN interrupt + \arg SDIO_INT_RXRUN: SDIO RXRUN interrupt + \arg SDIO_INT_TFH: SDIO TFH interrupt + \arg SDIO_INT_RFH: SDIO RFH interrupt + \arg SDIO_INT_TFF: SDIO TFF interrupt + \arg SDIO_INT_RFF: SDIO RFF interrupt + \arg SDIO_INT_TFE: SDIO TFE interrupt + \arg SDIO_INT_RFE: SDIO RFE interrupt + \arg SDIO_INT_TXDTVAL: SDIO TXDTVAL interrupt + \arg SDIO_INT_RXDTVAL: SDIO RXDTVAL interrupt + \arg SDIO_INT_SDIOINT: SDIO SDIOINT interrupt + \arg SDIO_INT_ATAEND: SDIO ATAEND interrupt + \param[out] none + \retval none +*/ +void sdio_interrupt_enable(uint32_t int_flag) +{ + SDIO_INTEN |= int_flag; +} + +/*! + \brief disable the SDIO interrupt + \param[in] int_flag: interrupt flags state of SDIO + one or more parameters can be selected which are shown as below: + \arg SDIO_INT_CCRCERR: SDIO CCRCERR interrupt + \arg SDIO_INT_DTCRCERR: SDIO DTCRCERR interrupt + \arg SDIO_INT_CMDTMOUT: SDIO CMDTMOUT interrupt + \arg SDIO_INT_DTTMOUT: SDIO DTTMOUT interrupt + \arg SDIO_INT_TXURE: SDIO TXURE interrupt + \arg SDIO_INT_RXORE: SDIO RXORE interrupt + \arg SDIO_INT_CMDRECV: SDIO CMDRECV interrupt + \arg SDIO_INT_CMDSEND: SDIO CMDSEND interrupt + \arg SDIO_INT_DTEND: SDIO DTEND interrupt + \arg SDIO_INT_STBITE: SDIO STBITE interrupt + \arg SDIO_INT_DTBLKEND: SDIO DTBLKEND interrupt + \arg SDIO_INT_CMDRUN: SDIO CMDRUN interrupt + \arg SDIO_INT_TXRUN: SDIO TXRUN interrupt + \arg SDIO_INT_RXRUN: SDIO RXRUN interrupt + \arg SDIO_INT_TFH: SDIO TFH interrupt + \arg SDIO_INT_RFH: SDIO RFH interrupt + \arg SDIO_INT_TFF: SDIO TFF interrupt + \arg SDIO_INT_RFF: SDIO RFF interrupt + \arg SDIO_INT_TFE: SDIO TFE interrupt + \arg SDIO_INT_RFE: SDIO RFE interrupt + \arg SDIO_INT_TXDTVAL: SDIO TXDTVAL interrupt + \arg SDIO_INT_RXDTVAL: SDIO RXDTVAL interrupt + \arg SDIO_INT_SDIOINT: SDIO SDIOINT interrupt + \arg SDIO_INT_ATAEND: SDIO ATAEND interrupt + \param[out] none + \retval none +*/ +void sdio_interrupt_disable(uint32_t int_flag) +{ + SDIO_INTEN &= ~int_flag; +} + +/*! + \brief get the interrupt flags state of SDIO + \param[in] int_flag: interrupt flags state of SDIO + one or more parameters can be selected which are shown as below: + \arg SDIO_INT_FLAG_CCRCERR: SDIO CCRCERR interrupt flag + \arg SDIO_INT_FLAG_DTCRCERR: SDIO DTCRCERR interrupt flag + \arg SDIO_INT_FLAG_CMDTMOUT: SDIO CMDTMOUT interrupt flag + \arg SDIO_INT_FLAG_DTTMOUT: SDIO DTTMOUT interrupt flag + \arg SDIO_INT_FLAG_TXURE: SDIO TXURE interrupt flag + \arg SDIO_INT_FLAG_RXORE: SDIO RXORE interrupt flag + \arg SDIO_INT_FLAG_CMDRECV: SDIO CMDRECV interrupt flag + \arg SDIO_INT_FLAG_CMDSEND: SDIO CMDSEND interrupt flag + \arg SDIO_INT_FLAG_DTEND: SDIO DTEND interrupt flag + \arg SDIO_INT_FLAG_STBITE: SDIO STBITE interrupt flag + \arg SDIO_INT_FLAG_DTBLKEND: SDIO DTBLKEND interrupt flag + \arg SDIO_INT_FLAG_CMDRUN: SDIO CMDRUN interrupt flag + \arg SDIO_INT_FLAG_TXRUN: SDIO TXRUN interrupt flag + \arg SDIO_INT_FLAG_RXRUN: SDIO RXRUN interrupt flag + \arg SDIO_INT_FLAG_TFH: SDIO TFH interrupt flag + \arg SDIO_INT_FLAG_RFH: SDIO RFH interrupt flag + \arg SDIO_INT_FLAG_TFF: SDIO TFF interrupt flag + \arg SDIO_INT_FLAG_RFF: SDIO RFF interrupt flag + \arg SDIO_INT_FLAG_TFE: SDIO TFE interrupt flag + \arg SDIO_INT_FLAG_RFE: SDIO RFE interrupt flag + \arg SDIO_INT_FLAG_TXDTVAL: SDIO TXDTVAL interrupt flag + \arg SDIO_INT_FLAG_RXDTVAL: SDIO RXDTVAL interrupt flag + \arg SDIO_INT_FLAG_SDIOINT: SDIO SDIOINT interrupt flag + \arg SDIO_INT_FLAG_ATAEND: SDIO ATAEND interrupt flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus sdio_interrupt_flag_get(uint32_t int_flag) +{ + if(RESET != (SDIO_STAT & int_flag)){ + return SET; + } + return RESET; +} + +/*! + \brief clear the interrupt pending flags of SDIO + \param[in] int_flag: interrupt flags state of SDIO + one or more parameters can be selected which are shown as below: + \arg SDIO_INT_FLAG_CCRCERR: command response received (CRC check failed) flag + \arg SDIO_INT_FLAG_DTCRCERR: data block sent/received (CRC check failed) flag + \arg SDIO_INT_FLAG_CMDTMOUT: command response timeout flag + \arg SDIO_INT_FLAG_DTTMOUT: data timeout flag + \arg SDIO_INT_FLAG_TXURE: transmit FIFO underrun error occurs flag + \arg SDIO_INT_FLAG_RXORE: received FIFO overrun error occurs flag + \arg SDIO_INT_FLAG_CMDRECV: command response received (CRC check passed) flag + \arg SDIO_INT_FLAG_CMDSEND: command sent (no response required) flag + \arg SDIO_INT_FLAG_DTEND: data end (data counter, SDIO_DATACNT, is zero) flag + \arg SDIO_INT_FLAG_STBITE: start bit error in the bus flag + \arg SDIO_INT_FLAG_DTBLKEND: data block sent/received (CRC check passed) flag + \arg SDIO_INT_FLAG_SDIOINT: SD I/O interrupt received flag + \arg SDIO_INT_FLAG_ATAEND: CE-ATA command completion signal received (only for CMD61) flag + \param[out] none + \retval none +*/ +void sdio_interrupt_flag_clear(uint32_t int_flag) +{ + SDIO_INTC = int_flag; +} + +/*! + \brief enable the read wait mode(SD I/O only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_readwait_enable(void) +{ + SDIO_DATACTL |= SDIO_DATACTL_RWEN; +} + +/*! + \brief disable the read wait mode(SD I/O only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_readwait_disable(void) +{ + SDIO_DATACTL &= ~SDIO_DATACTL_RWEN; +} + +/*! + \brief enable the function that stop the read wait process(SD I/O only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_stop_readwait_enable(void) +{ + SDIO_DATACTL |= SDIO_DATACTL_RWSTOP; +} + +/*! + \brief disable the function that stop the read wait process(SD I/O only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_stop_readwait_disable(void) +{ + SDIO_DATACTL &= ~SDIO_DATACTL_RWSTOP; +} + +/*! + \brief set the read wait type(SD I/O only) + \param[in] readwait_type: SD I/O read wait type + only one parameter can be selected which is shown as below: + \arg SDIO_READWAITTYPE_CLK: read wait control by stopping SDIO_CLK + \arg SDIO_READWAITTYPE_DAT2: read wait control using SDIO_DAT[2] + \param[out] none + \retval none +*/ +void sdio_readwait_type_set(uint32_t readwait_type) +{ + if(SDIO_READWAITTYPE_CLK == readwait_type){ + SDIO_DATACTL |= SDIO_DATACTL_RWTYPE; + }else{ + SDIO_DATACTL &= ~SDIO_DATACTL_RWTYPE; + } +} + +/*! + \brief enable the SD I/O mode specific operation(SD I/O only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_operation_enable(void) +{ + SDIO_DATACTL |= SDIO_DATACTL_IOEN; +} + +/*! + \brief disable the SD I/O mode specific operation(SD I/O only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_operation_disable(void) +{ + SDIO_DATACTL &= ~SDIO_DATACTL_IOEN; +} + +/*! + \brief enable the SD I/O suspend operation(SD I/O only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_suspend_enable(void) +{ + SDIO_CMDCTL |= SDIO_CMDCTL_SUSPEND; +} + +/*! + \brief disable the SD I/O suspend operation(SD I/O only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_suspend_disable(void) +{ + SDIO_CMDCTL &= ~SDIO_CMDCTL_SUSPEND; +} + +/*! + \brief enable the CE-ATA command(CE-ATA only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_ceata_command_enable(void) +{ + SDIO_CMDCTL |= SDIO_CMDCTL_ATAEN; +} + +/*! + \brief disable the CE-ATA command(CE-ATA only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_ceata_command_disable(void) +{ + SDIO_CMDCTL &= ~SDIO_CMDCTL_ATAEN; +} + +/*! + \brief enable the CE-ATA interrupt(CE-ATA only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_ceata_interrupt_enable(void) +{ + SDIO_CMDCTL &= ~SDIO_CMDCTL_NINTEN; +} + +/*! + \brief disable the CE-ATA interrupt(CE-ATA only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_ceata_interrupt_disable(void) +{ + SDIO_CMDCTL |= SDIO_CMDCTL_NINTEN; +} + +/*! + \brief enable the CE-ATA command completion signal(CE-ATA only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_ceata_command_completion_enable(void) +{ + SDIO_CMDCTL |= SDIO_CMDCTL_ENCMDC; +} + +/*! + \brief disable the CE-ATA command completion signal(CE-ATA only) + \param[in] none + \param[out] none + \retval none +*/ +void sdio_ceata_command_completion_disable(void) +{ + SDIO_CMDCTL &= ~SDIO_CMDCTL_ENCMDC; +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_spi.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_spi.c new file mode 100644 index 0000000000..c1df21f259 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_spi.c @@ -0,0 +1,859 @@ +/*! + \file gd32f30x_spi.c + \brief SPI driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_spi.h" + +#define SPI_ERROR_HANDLE(s) do{}while(1) + +/* SPI/I2S parameter initialization mask */ +#define SPI_INIT_MASK ((uint32_t)0x00003040U) /*!< SPI parameter initialization mask */ +#define I2S_INIT_MASK ((uint32_t)0x0000F047U) /*!< I2S parameter initialization mask */ + +/* default value */ +#define SPI_I2SPSC_DEFAULT_VALUE ((uint32_t)0x00000002U) /*!< default value of SPI_I2SPSC register */ + +/* I2S clock source selection, multiplication and division mask */ +#define I2S1_CLOCK_SEL ((uint32_t)0x00020000U) /*!< I2S1 clock source selection */ +#define I2S2_CLOCK_SEL ((uint32_t)0x00040000U) /*!< I2S2 clock source selection */ +#define I2S_CLOCK_MUL_MASK ((uint32_t)0x0000F000U) /*!< I2S clock multiplication mask */ +#define I2S_CLOCK_DIV_MASK ((uint32_t)0x000000F0U) /*!< I2S clock division mask */ + +/*! + \brief reset SPI and I2S + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_i2s_deinit(uint32_t spi_periph) +{ + switch(spi_periph){ + case SPI0: + /* reset SPI0 */ + rcu_periph_reset_enable(RCU_SPI0RST); + rcu_periph_reset_disable(RCU_SPI0RST); + break; + case SPI1: + /* reset SPI1 and I2S1 */ + rcu_periph_reset_enable(RCU_SPI1RST); + rcu_periph_reset_disable(RCU_SPI1RST); + break; + case SPI2: + /* reset SPI2 and I2S2 */ + rcu_periph_reset_enable(RCU_SPI2RST); + rcu_periph_reset_disable(RCU_SPI2RST); + break; + default : + break; + } +} + +/*! + \brief initialize the parameters of SPI struct with default values + \param[in] none + \param[out] spi_parameter_struct: the initialized struct spi_parameter_struct pointer + \retval none +*/ +void spi_struct_para_init(spi_parameter_struct *spi_struct) +{ + /* configure the structure with default value */ + spi_struct->device_mode = SPI_SLAVE; + spi_struct->trans_mode = SPI_TRANSMODE_FULLDUPLEX; + spi_struct->frame_size = SPI_FRAMESIZE_8BIT; + spi_struct->nss = SPI_NSS_HARD; + spi_struct->clock_polarity_phase = SPI_CK_PL_LOW_PH_1EDGE; + spi_struct->prescale = SPI_PSC_2; + spi_struct->endian = SPI_ENDIAN_MSB; +} + +/*! + \brief initialize SPI parameter + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] spi_struct: SPI parameter initialization stuct members of the structure + and the member values are shown as below: + device_mode: SPI_MASTER, SPI_SLAVE + trans_mode: SPI_TRANSMODE_FULLDUPLEX, SPI_TRANSMODE_RECEIVEONLY, + SPI_TRANSMODE_BDRECEIVE, SPI_TRANSMODE_BDTRANSMIT + frame_size: SPI_FRAMESIZE_16BIT, SPI_FRAMESIZE_8BIT + nss: SPI_NSS_SOFT, SPI_NSS_HARD + endian: SPI_ENDIAN_MSB, SPI_ENDIAN_LSB + clock_polarity_phase: SPI_CK_PL_LOW_PH_1EDGE, SPI_CK_PL_HIGH_PH_1EDGE + SPI_CK_PL_LOW_PH_2EDGE, SPI_CK_PL_HIGH_PH_2EDGE + prescale: SPI_PSC_n (n=2,4,8,16,32,64,128,256) + \param[out] none + \retval none +*/ +void spi_init(uint32_t spi_periph, spi_parameter_struct* spi_struct) +{ + uint32_t reg = 0U; + reg = SPI_CTL0(spi_periph); + reg &= SPI_INIT_MASK; + + /* select SPI as master or slave */ + reg |= spi_struct->device_mode; + /* select SPI transfer mode */ + reg |= spi_struct->trans_mode; + /* select SPI frame size */ + reg |= spi_struct->frame_size; + /* select SPI NSS use hardware or software */ + reg |= spi_struct->nss; + /* select SPI LSB or MSB */ + reg |= spi_struct->endian; + /* select SPI polarity and phase */ + reg |= spi_struct->clock_polarity_phase; + /* select SPI prescale to adjust transmit speed */ + reg |= spi_struct->prescale; + + /* write to SPI_CTL0 register */ + SPI_CTL0(spi_periph) = (uint32_t)reg; + + SPI_I2SCTL(spi_periph) &= (uint32_t)(~SPI_I2SCTL_I2SSEL); +} + +/*! + \brief enable SPI + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_enable(uint32_t spi_periph) +{ + SPI_CTL0(spi_periph) |= (uint32_t)SPI_CTL0_SPIEN; +} + +/*! + \brief disable SPI + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_disable(uint32_t spi_periph) +{ + SPI_CTL0(spi_periph) &= (uint32_t)(~SPI_CTL0_SPIEN); +} + +/*! + \brief initialize I2S parameter + \param[in] spi_periph: SPIx(x=1,2) + \param[in] i2s_mode: I2S operation mode + only one parameter can be selected which is shown as below: + \arg I2S_MODE_SLAVETX: I2S slave transmit mode + \arg I2S_MODE_SLAVERX: I2S slave receive mode + \arg I2S_MODE_MASTERTX: I2S master transmit mode + \arg I2S_MODE_MASTERRX: I2S master receive mode + \param[in] i2s_standard: I2S standard + only one parameter can be selected which is shown as below: + \arg I2S_STD_PHILLIPS: I2S phillips standard + \arg I2S_STD_MSB: I2S MSB standard + \arg I2S_STD_LSB: I2S LSB standard + \arg I2S_STD_PCMSHORT: I2S PCM short standard + \arg I2S_STD_PCMLONG: I2S PCM long standard + \param[in] i2s_ckpl: I2S idle state clock polarity + only one parameter can be selected which is shown as below: + \arg I2S_CKPL_LOW: I2S clock polarity low level + \arg I2S_CKPL_HIGH: I2S clock polarity high level + \param[out] none + \retval none +*/ +void i2s_init(uint32_t spi_periph, uint32_t i2s_mode, uint32_t i2s_standard, uint32_t i2s_ckpl) +{ + uint32_t reg= 0U; + reg = SPI_I2SCTL(spi_periph); + reg &= I2S_INIT_MASK; + + /* enable I2S mode */ + reg |= (uint32_t)SPI_I2SCTL_I2SSEL; + /* select I2S mode */ + reg |= (uint32_t)i2s_mode; + /* select I2S standard */ + reg |= (uint32_t)i2s_standard; + /* select I2S polarity */ + reg |= (uint32_t)i2s_ckpl; + + /* write to SPI_I2SCTL register */ + SPI_I2SCTL(spi_periph) = (uint32_t)reg; +} + +/*! + \brief configure I2S prescaler + \param[in] spi_periph: SPIx(x=1,2) + \param[in] i2s_audiosample: I2S audio sample rate + only one parameter can be selected which is shown as below: + \arg I2S_AUDIOSAMPLE_8K: audio sample rate is 8KHz + \arg I2S_AUDIOSAMPLE_11K: audio sample rate is 11KHz + \arg I2S_AUDIOSAMPLE_16K: audio sample rate is 16KHz + \arg I2S_AUDIOSAMPLE_22K: audio sample rate is 22KHz + \arg I2S_AUDIOSAMPLE_32K: audio sample rate is 32KHz + \arg I2S_AUDIOSAMPLE_44K: audio sample rate is 44KHz + \arg I2S_AUDIOSAMPLE_48K: audio sample rate is 48KHz + \arg I2S_AUDIOSAMPLE_96K: audio sample rate is 96KHz + \arg I2S_AUDIOSAMPLE_192K: audio sample rate is 192KHz + \param[in] i2s_frameformat: I2S data length and channel length + only one parameter can be selected which is shown as below: + \arg I2S_FRAMEFORMAT_DT16B_CH16B: I2S data length is 16 bit and channel length is 16 bit + \arg I2S_FRAMEFORMAT_DT16B_CH32B: I2S data length is 16 bit and channel length is 32 bit + \arg I2S_FRAMEFORMAT_DT24B_CH32B: I2S data length is 24 bit and channel length is 32 bit + \arg I2S_FRAMEFORMAT_DT32B_CH32B: I2S data length is 32 bit and channel length is 32 bit + \param[in] i2s_mckout: I2S master clock output + only one parameter can be selected which is shown as below: + \arg I2S_MCKOUT_ENABLE: I2S master clock output enable + \arg I2S_MCKOUT_DISABLE: I2S master clock output disable + \param[out] none + \retval none +*/ +void i2s_psc_config(uint32_t spi_periph, uint32_t i2s_audiosample, uint32_t i2s_frameformat, uint32_t i2s_mckout) +{ + uint32_t i2sdiv = 2U, i2sof = 0U; + uint32_t clks = 0U; + uint32_t i2sclock = 0U; + +#ifdef GD32F30X_CL + uint32_t pll2mf_4 = 0U; +#endif /* GD32F30X_CL */ + + /* judge whether the audiosample is 0 */ + if(0U == i2s_audiosample){ + SPI_ERROR_HANDLE("the parameter can not be 0 \r\n"); + } + /* deinit SPI_I2SPSC register */ + SPI_I2SPSC(spi_periph) = SPI_I2SPSC_DEFAULT_VALUE; + +#ifdef GD32F30X_CL + /* get the I2S clock source */ + if(((uint32_t)spi_periph) == SPI1){ + /* I2S1 clock source selection */ + clks = I2S1_CLOCK_SEL; + }else{ + /* I2S2 clock source selection */ + clks = I2S2_CLOCK_SEL; + } + + if(0U != (RCU_CFG1 & clks)){ + /* get RCU PLL2 clock multiplication factor */ + clks = (uint32_t)((RCU_CFG1 & I2S_CLOCK_MUL_MASK) >> 12U); + + pll2mf_4 = RCU_CFG1 & RCU_CFG1_PLL2MF_4; + + if( 0U == pll2mf_4){ + if((clks > 5U) && (clks < 15U)){ + /* multiplier is between 8 and 16 */ + clks += 2U; + }else{ + if(15U == clks){ + /* multiplier is 20 */ + clks = 20U; + } + } + }else{ + if(clks < 15U){ + /* multiplier is between 18 and 32 */ + clks += 18U; + }else{ + if(15U == clks){ + /* multiplier is 40 */ + clks = 40U; + } + } + } + + /* get the PREDV1 value */ + i2sclock = (uint32_t)(((RCU_CFG1 & I2S_CLOCK_DIV_MASK) >> 4U) + 1U); + /* calculate i2sclock based on PLL2 and PREDV1 */ + i2sclock = (uint32_t)((HXTAL_VALUE / i2sclock) * clks * 2U); + }else{ + /* get system clock */ + i2sclock = rcu_clock_freq_get(CK_SYS); + } +#else + /* get system clock */ + i2sclock = rcu_clock_freq_get(CK_SYS); +#endif /* GD32F30X_CL */ + + /* config the prescaler depending on the mclk output state, the frame format and audio sample rate */ + if(I2S_MCKOUT_ENABLE == i2s_mckout){ + clks = (uint32_t)(((i2sclock / 256U) * 10U) / i2s_audiosample); + }else{ + if(I2S_FRAMEFORMAT_DT16B_CH16B == i2s_frameformat){ + clks = (uint32_t)(((i2sclock / 32U) *10U ) / i2s_audiosample); + }else{ + clks = (uint32_t)(((i2sclock / 64U) *10U ) / i2s_audiosample); + } + } + + /* remove the floating point */ + clks = (clks + 5U) / 10U; + i2sof = (clks & 0x00000001U); + i2sdiv = ((clks - i2sof) / 2U); + i2sof = (i2sof << 8U); + + /* set the default values */ + if((i2sdiv < 2U) || (i2sdiv > 255U)){ + i2sdiv = 2U; + i2sof = 0U; + } + + /* configure SPI_I2SPSC */ + SPI_I2SPSC(spi_periph) = (uint32_t)(i2sdiv | i2sof | i2s_mckout); + + /* clear SPI_I2SCTL_DTLEN and SPI_I2SCTL_CHLEN bits */ + SPI_I2SCTL(spi_periph) &= (uint32_t)(~(SPI_I2SCTL_DTLEN | SPI_I2SCTL_CHLEN)); + /* configure data frame format */ + SPI_I2SCTL(spi_periph) |= (uint32_t)i2s_frameformat; +} + +/*! + \brief enable I2S + \param[in] spi_periph: SPIx(x=1,2) + \param[out] none + \retval none +*/ +void i2s_enable(uint32_t spi_periph) +{ + SPI_I2SCTL(spi_periph) |= (uint32_t)SPI_I2SCTL_I2SEN; +} + +/*! + \brief disable I2S + \param[in] spi_periph: SPIx(x=1,2) + \param[out] none + \retval none +*/ +void i2s_disable(uint32_t spi_periph) +{ + SPI_I2SCTL(spi_periph) &= (uint32_t)(~SPI_I2SCTL_I2SEN); +} + +/*! + \brief enable SPI NSS output + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_nss_output_enable(uint32_t spi_periph) +{ + SPI_CTL1(spi_periph) |= (uint32_t)SPI_CTL1_NSSDRV; +} + +/*! + \brief disable SPI NSS output + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_nss_output_disable(uint32_t spi_periph) +{ + SPI_CTL1(spi_periph) &= (uint32_t)(~SPI_CTL1_NSSDRV); +} + +/*! + \brief SPI NSS pin high level in software mode + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_nss_internal_high(uint32_t spi_periph) +{ + SPI_CTL0(spi_periph) |= (uint32_t)SPI_CTL0_SWNSS; +} + +/*! + \brief SPI NSS pin low level in software mode + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_nss_internal_low(uint32_t spi_periph) +{ + SPI_CTL0(spi_periph) &= (uint32_t)(~SPI_CTL0_SWNSS); +} + +/*! + \brief enable SPI DMA send or receive + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] dma: SPI DMA mode + only one parameter can be selected which is shown as below: + \arg SPI_DMA_TRANSMIT: SPI transmit data use DMA + \arg SPI_DMA_RECEIVE: SPI receive data use DMA + \param[out] none + \retval none +*/ +void spi_dma_enable(uint32_t spi_periph, uint8_t dma) +{ + if(SPI_DMA_TRANSMIT == dma){ + SPI_CTL1(spi_periph) |= (uint32_t)SPI_CTL1_DMATEN; + }else{ + SPI_CTL1(spi_periph) |= (uint32_t)SPI_CTL1_DMAREN; + } +} + +/*! + \brief disable SPI DMA send or receive + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] dma: SPI DMA mode + only one parameter can be selected which is shown as below: + \arg SPI_DMA_TRANSMIT: SPI transmit data use DMA + \arg SPI_DMA_RECEIVE: SPI receive data use DMA + \param[out] none + \retval none +*/ +void spi_dma_disable(uint32_t spi_periph, uint8_t dma) +{ + if(SPI_DMA_TRANSMIT == dma){ + SPI_CTL1(spi_periph) &= (uint32_t)(~SPI_CTL1_DMATEN); + }else{ + SPI_CTL1(spi_periph) &= (uint32_t)(~SPI_CTL1_DMAREN); + } +} + +/*! + \brief configure SPI/I2S data frame format + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] frame_format: SPI frame size + only one parameter can be selected which is shown as below: + \arg SPI_FRAMESIZE_16BIT: SPI frame size is 16 bits + \arg SPI_FRAMESIZE_8BIT: SPI frame size is 8 bits + \param[out] none + \retval none +*/ +void spi_i2s_data_frame_format_config(uint32_t spi_periph, uint16_t frame_format) +{ + /* clear SPI_CTL0_FF16 bit */ + SPI_CTL0(spi_periph) &= (uint32_t)(~SPI_CTL0_FF16); + /* confige SPI_CTL0_FF16 bit */ + SPI_CTL0(spi_periph) |= (uint32_t)frame_format; +} + +/*! + \brief SPI transmit data + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] data: 16-bit data + \param[out] none + \retval none +*/ +void spi_i2s_data_transmit(uint32_t spi_periph, uint16_t data) +{ + SPI_DATA(spi_periph) = (uint32_t)data; +} + +/*! + \brief SPI receive data + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval 16-bit data +*/ +uint16_t spi_i2s_data_receive(uint32_t spi_periph) +{ + return ((uint16_t)SPI_DATA(spi_periph)); +} + +/*! + \brief configure SPI bidirectional transfer direction + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] transfer_direction: SPI transfer direction + only one parameter can be selected which is shown as below: + \arg SPI_BIDIRECTIONAL_TRANSMIT: SPI work in transmit-only mode + \arg SPI_BIDIRECTIONAL_RECEIVE: SPI work in receive-only mode + \retval none +*/ +void spi_bidirectional_transfer_config(uint32_t spi_periph, uint32_t transfer_direction) +{ + if(SPI_BIDIRECTIONAL_TRANSMIT == transfer_direction){ + /* set the transmit only mode */ + SPI_CTL0(spi_periph) |= (uint32_t)SPI_BIDIRECTIONAL_TRANSMIT; + }else{ + /* set the receive only mode */ + SPI_CTL0(spi_periph) &= SPI_BIDIRECTIONAL_RECEIVE; + } +} + +/*! + \brief set SPI CRC polynomial + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] crc_poly: CRC polynomial value + \param[out] none + \retval none +*/ +void spi_crc_polynomial_set(uint32_t spi_periph,uint16_t crc_poly) +{ + /* set SPI CRC polynomial */ + SPI_CRCPOLY(spi_periph) = (uint32_t)crc_poly; +} + +/*! + \brief get SPI CRC polynomial + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval 16-bit CRC polynomial +*/ +uint16_t spi_crc_polynomial_get(uint32_t spi_periph) +{ + return ((uint16_t)SPI_CRCPOLY(spi_periph)); +} + +/* + \brief turn on CRC function + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_crc_on(uint32_t spi_periph) +{ + SPI_CTL0(spi_periph) |= (uint32_t)SPI_CTL0_CRCEN; +} + +/*! + \brief turn off CRC function + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_crc_off(uint32_t spi_periph) +{ + SPI_CTL0(spi_periph) &= (uint32_t)(~SPI_CTL0_CRCEN); +} + +/*! + \brief SPI next data is CRC value + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_crc_next(uint32_t spi_periph) +{ + SPI_CTL0(spi_periph) |= (uint32_t)SPI_CTL0_CRCNT; +} + +/*! + \brief get SPI CRC send value or receive value + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] crc: SPI crc value + only one parameter can be selected which is shown as below: + \arg SPI_CRC_TX: get transmit crc value + \arg SPI_CRC_RX: get receive crc value + \param[out] none + \retval 16-bit CRC value +*/ +uint16_t spi_crc_get(uint32_t spi_periph,uint8_t crc) +{ + if(SPI_CRC_TX == crc){ + return ((uint16_t)(SPI_TCRC(spi_periph))); + }else{ + return ((uint16_t)(SPI_RCRC(spi_periph))); + } +} + +/*! + \brief enable SPI TI mode + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_ti_mode_enable(uint32_t spi_periph) +{ + SPI_CTL1(spi_periph) |= (uint32_t)SPI_CTL1_TMOD; +} + +/*! + \brief disable SPI TI mode + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_ti_mode_disable(uint32_t spi_periph) +{ + SPI_CTL1(spi_periph) &= (uint32_t)(~SPI_CTL1_TMOD); +} + +/*! + \brief enable SPI NSS pulse mode + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_nssp_mode_enable(uint32_t spi_periph) +{ + SPI_CTL1(spi_periph) |= (uint32_t)SPI_CTL1_NSSP; +} + +/*! + \brief disable SPI NSS pulse mode + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_nssp_mode_disable(uint32_t spi_periph) +{ + SPI_CTL1(spi_periph) &= (uint32_t)(~SPI_CTL1_NSSP); +} + +/*! + \brief enable quad wire SPI + \param[in] spi_periph: SPIx(only x=0) + \param[out] none + \retval none +*/ +void spi_quad_enable(uint32_t spi_periph) +{ + SPI_QCTL(spi_periph) |= (uint32_t)SPI_QCTL_QMOD; +} + +/*! + \brief disable quad wire SPI + \param[in] spi_periph: SPIx(only x=0) + \param[out] none + \retval none +*/ +void spi_quad_disable(uint32_t spi_periph) +{ + SPI_QCTL(spi_periph) &= (uint32_t)(~SPI_QCTL_QMOD); +} + +/*! + \brief enable quad wire SPI write + \param[in] spi_periph: SPIx(only x=0) + \param[out] none + \retval none +*/ +void spi_quad_write_enable(uint32_t spi_periph) +{ + SPI_QCTL(spi_periph) &= (uint32_t)(~SPI_QCTL_QRD); +} + +/*! + \brief enable quad wire SPI read + \param[in] spi_periph: SPIx(only x=0) + \param[out] none + \retval none +*/ +void spi_quad_read_enable(uint32_t spi_periph) +{ + SPI_QCTL(spi_periph) |= (uint32_t)SPI_QCTL_QRD; +} + +/*! + \brief enable SPI_IO2 and SPI_IO3 pin output + \param[in] spi_periph: SPIx(only x=0) + \param[out] none + \retval none +*/ +void spi_quad_io23_output_enable(uint32_t spi_periph) +{ + SPI_QCTL(spi_periph) |= (uint32_t)SPI_QCTL_IO23_DRV; +} + + /*! + \brief disable SPI_IO2 and SPI_IO3 pin output + \param[in] spi_periph: SPIx(only x=0) + \param[out] none + \retval none +*/ + void spi_quad_io23_output_disable(uint32_t spi_periph) +{ + SPI_QCTL(spi_periph) &= (uint32_t)(~SPI_QCTL_IO23_DRV); +} + +/*! + \brief enable SPI and I2S interrupt + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] interrupt: SPI/I2S interrupt + only one parameter can be selected which is shown as below: + \arg SPI_I2S_INT_TBE: transmit buffer empty interrupt + \arg SPI_I2S_INT_RBNE: receive buffer not empty interrupt + \arg SPI_I2S_INT_ERR: CRC error,configuration error,reception overrun error, + transmission underrun error and format error interrupt + \param[out] none + \retval none +*/ +void spi_i2s_interrupt_enable(uint32_t spi_periph, uint8_t interrupt) +{ + switch(interrupt){ + /* SPI/I2S transmit buffer empty interrupt */ + case SPI_I2S_INT_TBE: + SPI_CTL1(spi_periph) |= (uint32_t)SPI_CTL1_TBEIE; + break; + /* SPI/I2S receive buffer not empty interrupt */ + case SPI_I2S_INT_RBNE: + SPI_CTL1(spi_periph) |= (uint32_t)SPI_CTL1_RBNEIE; + break; + /* SPI/I2S error */ + case SPI_I2S_INT_ERR: + SPI_CTL1(spi_periph) |= (uint32_t)SPI_CTL1_ERRIE; + break; + default: + break; + } +} + +/*! + \brief disable SPI and I2S interrupt + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] interrupt: SPI/I2S interrupt + only one parameter can be selected which is shown as below: + \arg SPI_I2S_INT_TBE: transmit buffer empty interrupt + \arg SPI_I2S_INT_RBNE: receive buffer not empty interrupt + \arg SPI_I2S_INT_ERR: CRC error,configuration error,reception overrun error, + transmission underrun error and format error interrupt + \param[out] none + \retval none +*/ +void spi_i2s_interrupt_disable(uint32_t spi_periph, uint8_t interrupt) +{ + switch(interrupt){ + /* SPI/I2S transmit buffer empty interrupt */ + case SPI_I2S_INT_TBE: + SPI_CTL1(spi_periph) &= (uint32_t)(~SPI_CTL1_TBEIE); + break; + /* SPI/I2S receive buffer not empty interrupt */ + case SPI_I2S_INT_RBNE: + SPI_CTL1(spi_periph) &= (uint32_t)(~SPI_CTL1_RBNEIE); + break; + /* SPI/I2S error */ + case SPI_I2S_INT_ERR: + SPI_CTL1(spi_periph) &= (uint32_t)(~SPI_CTL1_ERRIE); + break; + default : + break; + } +} + +/*! + \brief get SPI and I2S interrupt flag status + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] interrupt: SPI/I2S interrupt flag status + only one parameter can be selected which is shown as below: + \arg SPI_I2S_INT_FLAG_TBE: transmit buffer empty interrupt flag + \arg SPI_I2S_INT_FLAG_RBNE: receive buffer not empty interrupt flag + \arg SPI_I2S_INT_FLAG_RXORERR: overrun interrupt flag + \arg SPI_INT_FLAG_CONFERR: config error interrupt flag + \arg SPI_INT_FLAG_CRCERR: CRC error interrupt flag + \arg I2S_INT_FLAG_TXURERR: underrun error interrupt flag + \arg SPI_I2S_INT_FLAG_FERR: format error interrupt flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus spi_i2s_interrupt_flag_get(uint32_t spi_periph, uint8_t interrupt) +{ + uint32_t reg1 = SPI_STAT(spi_periph); + uint32_t reg2 = SPI_CTL1(spi_periph); + + switch(interrupt){ + /* SPI/I2S transmit buffer empty interrupt */ + case SPI_I2S_INT_FLAG_TBE: + reg1 = reg1 & SPI_STAT_TBE; + reg2 = reg2 & SPI_CTL1_TBEIE; + break; + /* SPI/I2S receive buffer not empty interrupt */ + case SPI_I2S_INT_FLAG_RBNE: + reg1 = reg1 & SPI_STAT_RBNE; + reg2 = reg2 & SPI_CTL1_RBNEIE; + break; + /* SPI/I2S overrun interrupt */ + case SPI_I2S_INT_FLAG_RXORERR: + reg1 = reg1 & SPI_STAT_RXORERR; + reg2 = reg2 & SPI_CTL1_ERRIE; + break; + /* SPI config error interrupt */ + case SPI_INT_FLAG_CONFERR: + reg1 = reg1 & SPI_STAT_CONFERR; + reg2 = reg2 & SPI_CTL1_ERRIE; + break; + /* SPI CRC error interrupt */ + case SPI_INT_FLAG_CRCERR: + reg1 = reg1 & SPI_STAT_CRCERR; + reg2 = reg2 & SPI_CTL1_ERRIE; + break; + /* I2S underrun error interrupt */ + case I2S_INT_FLAG_TXURERR: + reg1 = reg1 & SPI_STAT_TXURERR; + reg2 = reg2 & SPI_CTL1_ERRIE; + break; + /* SPI/I2S format error interrupt */ + case SPI_I2S_INT_FLAG_FERR: + reg1 = reg1 & SPI_STAT_FERR; + reg2 = reg2 & SPI_CTL1_ERRIE; + break; + default : + break; + } + /*get SPI/I2S interrupt flag status */ + if(reg1 && reg2){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief get SPI and I2S flag status + \param[in] spi_periph: SPIx(x=0,1,2) + \param[in] flag: SPI/I2S flag status + only one parameter can be selected which is shown as below: + \arg SPI_FLAG_TBE: transmit buffer empty flag + \arg SPI_FLAG_RBNE: receive buffer not empty flag + \arg SPI_FLAG_TRANS: transmit on-going flag + \arg SPI_FLAG_RXORERR: receive overrun error flag + \arg SPI_FLAG_CONFERR: mode config error flag + \arg SPI_FLAG_CRCERR: CRC error flag + \arg SPI_FLAG_FERR: format error flag + \arg I2S_FLAG_TBE: transmit buffer empty flag + \arg I2S_FLAG_RBNE: receive buffer not empty flag + \arg I2S_FLAG_TRANS: transmit on-going flag + \arg I2S_FLAG_RXORERR: overrun error flag + \arg I2S_FLAG_TXURERR: underrun error flag + \arg I2S_FLAG_CH: channel side flag + \arg I2S_FLAG_FERR: format error flag + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus spi_i2s_flag_get(uint32_t spi_periph, uint32_t flag) +{ + if(SPI_STAT(spi_periph) & flag){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear SPI CRC error flag status + \param[in] spi_periph: SPIx(x=0,1,2) + \param[out] none + \retval none +*/ +void spi_crc_error_clear(uint32_t spi_periph) +{ + SPI_STAT(spi_periph) &= (uint32_t)(~SPI_FLAG_CRCERR); +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_timer.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_timer.c new file mode 100644 index 0000000000..456062f8ab --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_timer.c @@ -0,0 +1,2042 @@ +/*! + \file gd32f30x_timer.c + \brief TIMER driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_timer.h" + +/*! + \brief deinit a TIMER + \param[in] timer_periph: TIMERx(x=0..13) + \param[out] none + \retval none +*/ +void timer_deinit(uint32_t timer_periph) +{ + switch(timer_periph){ + case TIMER0: + /* reset TIMER0 */ + rcu_periph_reset_enable(RCU_TIMER0RST); + rcu_periph_reset_disable(RCU_TIMER0RST); + break; + case TIMER1: + /* reset TIMER1 */ + rcu_periph_reset_enable(RCU_TIMER1RST); + rcu_periph_reset_disable(RCU_TIMER1RST); + break; + case TIMER2: + /* reset TIMER2 */ + rcu_periph_reset_enable(RCU_TIMER2RST); + rcu_periph_reset_disable(RCU_TIMER2RST); + break; + case TIMER3: + /* reset TIMER3 */ + rcu_periph_reset_enable(RCU_TIMER3RST); + rcu_periph_reset_disable(RCU_TIMER3RST); + break; + case TIMER4: + /* reset TIMER4 */ + rcu_periph_reset_enable(RCU_TIMER4RST); + rcu_periph_reset_disable(RCU_TIMER4RST); + break; + case TIMER5: + /* reset TIMER5 */ + rcu_periph_reset_enable(RCU_TIMER5RST); + rcu_periph_reset_disable(RCU_TIMER5RST); + break; + case TIMER6: + /* reset TIMER6 */ + rcu_periph_reset_enable(RCU_TIMER6RST); + rcu_periph_reset_disable(RCU_TIMER6RST); + break; + case TIMER7: + /* reset TIMER7 */ + rcu_periph_reset_enable(RCU_TIMER7RST); + rcu_periph_reset_disable(RCU_TIMER7RST); + break; +#ifndef GD32F30X_HD + case TIMER8: + /* reset TIMER8 */ + rcu_periph_reset_enable(RCU_TIMER8RST); + rcu_periph_reset_disable(RCU_TIMER8RST); + break; + case TIMER9: + /* reset TIMER9 */ + rcu_periph_reset_enable(RCU_TIMER9RST); + rcu_periph_reset_disable(RCU_TIMER9RST); + break; + case TIMER10: + /* reset TIMER10 */ + rcu_periph_reset_enable(RCU_TIMER10RST); + rcu_periph_reset_disable(RCU_TIMER10RST); + break; + case TIMER11: + /* reset TIMER11 */ + rcu_periph_reset_enable(RCU_TIMER11RST); + rcu_periph_reset_disable(RCU_TIMER11RST); + break; + case TIMER12: + /* reset TIMER12 */ + rcu_periph_reset_enable(RCU_TIMER12RST); + rcu_periph_reset_disable(RCU_TIMER12RST); + break; + case TIMER13: + /* reset TIMER13 */ + rcu_periph_reset_enable(RCU_TIMER13RST); + rcu_periph_reset_disable(RCU_TIMER13RST); + break; +#endif /* GD32F30X_HD */ + default: + break; + } +} + +/*! + \brief initialize TIMER init parameter struct with a default value + \param[in] initpara: init parameter struct + \param[out] none + \retval none +*/ +void timer_struct_para_init(timer_parameter_struct* initpara) +{ + /* initialize the init parameter struct member with the default value */ + initpara->prescaler = 0U; + initpara->alignedmode = TIMER_COUNTER_EDGE; + initpara->counterdirection = TIMER_COUNTER_UP; + initpara->period = 65535U; + initpara->clockdivision = TIMER_CKDIV_DIV1; + initpara->repetitioncounter = 0U; +} + +/*! + \brief initialize TIMER counter + \param[in] timer_periph: TIMERx(x=0..13) + \param[in] initpara: init parameter struct + prescaler: prescaler value of the counter clock, 0~65535 + alignedmode: TIMER_COUNTER_EDGE, TIMER_COUNTER_CENTER_DOWN, TIMER_COUNTER_CENTER_UP, TIMER_COUNTER_CENTER_BOTH + counterdirection: TIMER_COUNTER_UP, TIMER_COUNTER_DOWN + period: counter auto reload value, 0~65535 + clockdivision: TIMER_CKDIV_DIV1, TIMER_CKDIV_DIV2, TIMER_CKDIV_DIV4 + repetitioncounter: counter repetition value, 0~255 + \param[out] none + \retval none +*/ +void timer_init(uint32_t timer_periph, timer_parameter_struct* initpara) +{ + /* configure the counter prescaler value */ + TIMER_PSC(timer_periph) = (uint16_t)initpara->prescaler; + + /* configure the counter direction and aligned mode */ + if((TIMER0 == timer_periph) || (TIMER1 == timer_periph) || (TIMER2 == timer_periph) + || (TIMER3 == timer_periph) || (TIMER4 == timer_periph) || (TIMER7 == timer_periph)){ + TIMER_CTL0(timer_periph) &= ~(uint32_t)(TIMER_CTL0_DIR|TIMER_CTL0_CAM); + TIMER_CTL0(timer_periph) |= (uint32_t)initpara->alignedmode; + TIMER_CTL0(timer_periph) |= (uint32_t)initpara->counterdirection; + } + + /* configure the autoreload value */ + TIMER_CAR(timer_periph) = (uint32_t)initpara->period; + + if((TIMER5 != timer_periph) && (TIMER6 != timer_periph)){ + /* reset the CKDIV bit */ + TIMER_CTL0(timer_periph) &= ~(uint32_t)TIMER_CTL0_CKDIV; + TIMER_CTL0(timer_periph) |= (uint32_t)initpara->clockdivision; + } + + if((TIMER0 == timer_periph) || (TIMER7 == timer_periph)){ + /* configure the repetition counter value */ + TIMER_CREP(timer_periph) = (uint32_t)initpara->repetitioncounter; + } + + /* generate an update event */ + TIMER_SWEVG(timer_periph) |= (uint32_t)TIMER_SWEVG_UPG; +} + +/*! + \brief enable a TIMER + \param[in] timer_periph: TIMERx(x=0..13) + \param[out] none + \retval none +*/ +void timer_enable(uint32_t timer_periph) +{ + TIMER_CTL0(timer_periph) |= (uint32_t)TIMER_CTL0_CEN; +} + +/*! + \brief disable a TIMER + \param[in] timer_periph: TIMERx(x=0..13) + \param[out] none + \retval none +*/ +void timer_disable(uint32_t timer_periph) +{ + TIMER_CTL0(timer_periph) &= ~(uint32_t)TIMER_CTL0_CEN; +} + +/*! + \brief enable the auto reload shadow function + \param[in] timer_periph: TIMERx(x=0..13) + \param[out] none + \retval none +*/ +void timer_auto_reload_shadow_enable(uint32_t timer_periph) +{ + TIMER_CTL0(timer_periph) |= (uint32_t)TIMER_CTL0_ARSE; +} + +/*! + \brief disable the auto reload shadow function + \param[in] timer_periph: TIMERx(x=0..13) + \param[out] none + \retval none +*/ +void timer_auto_reload_shadow_disable(uint32_t timer_periph) +{ + TIMER_CTL0(timer_periph) &= ~(uint32_t)TIMER_CTL0_ARSE; +} + +/*! + \brief enable the update event + \param[in] timer_periph: TIMERx(x=0..13) + \param[out] none + \retval none +*/ +void timer_update_event_enable(uint32_t timer_periph) +{ + TIMER_CTL0(timer_periph) &= ~(uint32_t)TIMER_CTL0_UPDIS; +} + +/*! + \brief disable the update event + \param[in] timer_periph: TIMERx(x=0..13) + \param[out] none + \retval none +*/ +void timer_update_event_disable(uint32_t timer_periph) +{ + TIMER_CTL0(timer_periph) |= (uint32_t) TIMER_CTL0_UPDIS; +} + +/*! + \brief set TIMER counter alignment mode + \param[in] timer_periph: TIMERx(x=0..4,7) + \param[in] aligned: + only one parameter can be selected which is shown as below: + \arg TIMER_COUNTER_EDGE: edge-aligned mode + \arg TIMER_COUNTER_CENTER_DOWN: center-aligned and counting down assert mode + \arg TIMER_COUNTER_CENTER_UP: center-aligned and counting up assert mode + \arg TIMER_COUNTER_CENTER_BOTH: center-aligned and counting up/down assert mode + \param[out] none + \retval none +*/ +void timer_counter_alignment(uint32_t timer_periph, uint16_t aligned) +{ + TIMER_CTL0(timer_periph) &= ~(uint32_t)TIMER_CTL0_CAM; + TIMER_CTL0(timer_periph) |= (uint32_t)aligned; +} + +/*! + \brief set TIMER counter up direction + \param[in] timer_periph: TIMERx(x=0..4,7) + \param[out] none + \retval none +*/ +void timer_counter_up_direction(uint32_t timer_periph) +{ + TIMER_CTL0(timer_periph) &= ~(uint32_t)TIMER_CTL0_DIR; +} + +/*! + \brief set TIMER counter down direction + \param[in] timer_periph: TIMERx(x=0..4,7) + \param[out] none + \retval none +*/ +void timer_counter_down_direction(uint32_t timer_periph) +{ + TIMER_CTL0(timer_periph) |= (uint32_t)TIMER_CTL0_DIR; +} + +/*! + \brief configure TIMER prescaler + \param[in] timer_periph: TIMERx(x=0..13) + \param[in] prescaler: prescaler value,0~65535 + \param[in] pscreload: prescaler reload mode + only one parameter can be selected which is shown as below: + \arg TIMER_PSC_RELOAD_NOW: the prescaler is loaded right now + \arg TIMER_PSC_RELOAD_UPDATE: the prescaler is loaded at the next update event + \param[out] none + \retval none +*/ +void timer_prescaler_config(uint32_t timer_periph, uint16_t prescaler, uint8_t pscreload) +{ + TIMER_PSC(timer_periph) = (uint32_t)prescaler; + + if(TIMER_PSC_RELOAD_NOW == pscreload){ + TIMER_SWEVG(timer_periph) |= (uint32_t)TIMER_SWEVG_UPG; + } +} + +/*! + \brief configure TIMER repetition register value + \param[in] timer_periph: TIMERx(x=0,7) + \param[in] repetition: the counter repetition value,0~255 + \param[out] none + \retval none +*/ +void timer_repetition_value_config(uint32_t timer_periph, uint16_t repetition) +{ + TIMER_CREP(timer_periph) = (uint32_t)repetition; +} + +/*! + \brief configure TIMER autoreload register value + \param[in] timer_periph: TIMERx(x=0..13) + \param[in] autoreload: the counter auto-reload value,0~65535 + \param[out] none + \retval none +*/ +void timer_autoreload_value_config(uint32_t timer_periph, uint16_t autoreload) +{ + TIMER_CAR(timer_periph) = (uint32_t)autoreload; +} + +/*! + \brief configure TIMER counter register value + \param[in] timer_periph: TIMERx(x=0..13) + \param[in] counter: the counter value,0~65535 + \param[out] none + \retval none +*/ +void timer_counter_value_config(uint32_t timer_periph, uint16_t counter) +{ + TIMER_CNT(timer_periph) = (uint32_t)counter; +} + +/*! + \brief read TIMER counter value + \param[in] timer_periph: TIMERx(x=0..13) + \param[out] none + \retval counter value +*/ +uint32_t timer_counter_read(uint32_t timer_periph) +{ + uint32_t count_value = 0U; + count_value = TIMER_CNT(timer_periph); + return (count_value); +} + +/*! + \brief read TIMER prescaler value + \param[in] timer_periph: TIMERx(x=0..13) + \param[out] none + \retval prescaler register value +*/ +uint16_t timer_prescaler_read(uint32_t timer_periph) +{ + uint16_t prescaler_value = 0U; + prescaler_value = (uint16_t)(TIMER_PSC(timer_periph)); + return (prescaler_value); +} + +/*! + \brief configure TIMER single pulse mode + \param[in] timer_periph: TIMERx(x=0..8,11) + \param[in] spmode: + only one parameter can be selected which is shown as below: + \arg TIMER_SP_MODE_SINGLE: single pulse mode + \arg TIMER_SP_MODE_REPETITIVE: repetitive pulse mode + \param[out] none + \retval none +*/ +void timer_single_pulse_mode_config(uint32_t timer_periph, uint32_t spmode) +{ + if(TIMER_SP_MODE_SINGLE == spmode){ + TIMER_CTL0(timer_periph) |= (uint32_t)TIMER_CTL0_SPM; + }else if(TIMER_SP_MODE_REPETITIVE == spmode){ + TIMER_CTL0(timer_periph) &= ~((uint32_t)TIMER_CTL0_SPM); + }else{ + /* illegal parameters */ + } +} + +/*! + \brief configure TIMER update source + \param[in] timer_periph: TIMERx(x=0..13) + \param[in] update: + only one parameter can be selected which is shown as below: + \arg TIMER_UPDATE_SRC_GLOBAL: update generate by setting of UPG bit or the counter overflow/underflow,or the slave mode controller trigger + \arg TIMER_UPDATE_SRC_REGULAR: update generate only by counter overflow/underflow + \param[out] none + \retval none +*/ +void timer_update_source_config(uint32_t timer_periph, uint32_t update) +{ + if(TIMER_UPDATE_SRC_REGULAR == update){ + TIMER_CTL0(timer_periph) |= (uint32_t)TIMER_CTL0_UPS; + }else if(TIMER_UPDATE_SRC_GLOBAL == update){ + TIMER_CTL0(timer_periph) &= ~(uint32_t)TIMER_CTL0_UPS; + }else{ + /* illegal parameters */ + } +} + +/*! + \brief enable the TIMER interrupt + \param[in] timer_periph: please refer to the following parameters + \param[in] interrupt: timer interrupt enable source + only one parameter can be selected which is shown as below: + \arg TIMER_INT_UP: update interrupt enable, TIMERx(x=0..13) + \arg TIMER_INT_CH0: channel 0 interrupt enable, TIMERx(x=0..4,7..13) + \arg TIMER_INT_CH1: channel 1 interrupt enable, TIMERx(x=0..4,7,8,11) + \arg TIMER_INT_CH2: channel 2 interrupt enable, TIMERx(x=0..4,7) + \arg TIMER_INT_CH3: channel 3 interrupt enable , TIMERx(x=0..4,7) + \arg TIMER_INT_CMT: commutation interrupt enable, TIMERx(x=0,7) + \arg TIMER_INT_TRG: trigger interrupt enable, TIMERx(x=0..4,7,8,11) + \arg TIMER_INT_BRK: break interrupt enable, TIMERx(x=0,7) + \param[out] none + \retval none +*/ +void timer_interrupt_enable(uint32_t timer_periph, uint32_t interrupt) +{ + TIMER_DMAINTEN(timer_periph) |= (uint32_t) interrupt; +} + +/*! + \brief disable the TIMER interrupt + \param[in] timer_periph: please refer to the following parameters + \param[in] interrupt: timer interrupt source disable + only one parameter can be selected which is shown as below: + \arg TIMER_INT_UP: update interrupt disable, TIMERx(x=0..13) + \arg TIMER_INT_CH0: channel 0 interrupt disable, TIMERx(x=0..4,7..13) + \arg TIMER_INT_CH1: channel 1 interrupt disable, TIMERx(x=0..4,7,8,11) + \arg TIMER_INT_CH2: channel 2 interrupt disable, TIMERx(x=0..4,7) + \arg TIMER_INT_CH3: channel 3 interrupt disable , TIMERx(x=0..4,7) + \arg TIMER_INT_CMT: commutation interrupt disable, TIMERx(x=0,7) + \arg TIMER_INT_TRG: trigger interrupt disable, TIMERx(x=0..4,7,8,11) + \arg TIMER_INT_BRK: break interrupt disable, TIMERx(x=0,7) + \param[out] none + \retval none +*/ +void timer_interrupt_disable(uint32_t timer_periph, uint32_t interrupt) +{ + TIMER_DMAINTEN(timer_periph) &= (~(uint32_t)interrupt); +} + +/*! + \brief get timer interrupt flag + \param[in] timer_periph: please refer to the following parameters + \param[in] interrupt: the timer interrupt bits + only one parameter can be selected which is shown as below: + \arg TIMER_INT_FLAG_UP: update interrupt flag,TIMERx(x=0..13) + \arg TIMER_INT_FLAG_CH0: channel 0 interrupt flag,TIMERx(x=0..4,7..13) + \arg TIMER_INT_FLAG_CH1: channel 1 interrupt flag,TIMERx(x=0..4,7,8,11) + \arg TIMER_INT_FLAG_CH2: channel 2 interrupt flag,TIMERx(x=0..4,7) + \arg TIMER_INT_FLAG_CH3: channel 3 interrupt flag,TIMERx(x=0..4,7) + \arg TIMER_INT_FLAG_CMT: channel commutation interrupt flag,TIMERx(x=0,7) + \arg TIMER_INT_FLAG_TRG: trigger interrupt flag,TIMERx(x=0,7,8,11) + \arg TIMER_INT_FLAG_BRK: break interrupt flag,TIMERx(x=0,7) + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus timer_interrupt_flag_get(uint32_t timer_periph, uint32_t interrupt) +{ + uint32_t val; + val = (TIMER_DMAINTEN(timer_periph) & interrupt); + if((RESET != (TIMER_INTF(timer_periph) & interrupt) ) && (RESET != val)){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear TIMER interrupt flag + \param[in] timer_periph: please refer to the following parameters + \param[in] interrupt: the timer interrupt bits + only one parameter can be selected which is shown as below: + \arg TIMER_INT_FLAG_UP: update interrupt flag,TIMERx(x=0..13) + \arg TIMER_INT_FLAG_CH0: channel 0 interrupt flag,TIMERx(x=0..4,7..13) + \arg TIMER_INT_FLAG_CH1: channel 1 interrupt flag,TIMERx(x=0..4,7,8,11) + \arg TIMER_INT_FLAG_CH2: channel 2 interrupt flag,TIMERx(x=0..4,7) + \arg TIMER_INT_FLAG_CH3: channel 3 interrupt flag,TIMERx(x=0..4,7) + \arg TIMER_INT_FLAG_CMT: channel commutation interrupt flag,TIMERx(x=0,7) + \arg TIMER_INT_FLAG_TRG: trigger interrupt flag,TIMERx(x=0,7,8,11) + \arg TIMER_INT_FLAG_BRK: break interrupt flag,TIMERx(x=0,7) + \param[out] none + \retval none +*/ +void timer_interrupt_flag_clear(uint32_t timer_periph, uint32_t interrupt) +{ + TIMER_INTF(timer_periph) = (~(uint32_t)interrupt); +} + +/*! + \brief get TIMER flags + \param[in] timer_periph: please refer to the following parameters + \param[in] flag: the timer interrupt flags + only one parameter can be selected which is shown as below: + \arg TIMER_FLAG_UP: update flag,TIMERx(x=0..13) + \arg TIMER_FLAG_CH0: channel 0 flag,TIMERx(x=0..4,7..13) + \arg TIMER_FLAG_CH1: channel 1 flag,TIMERx(x=0..4,7,8,11) + \arg TIMER_FLAG_CH2: channel 2 flag,TIMERx(x=0..4,7) + \arg TIMER_FLAG_CH3: channel 3 flag,TIMERx(x=0..4,7) + \arg TIMER_FLAG_CMT: channel control update flag,TIMERx(x=0,7) + \arg TIMER_FLAG_TRG: trigger flag,TIMERx(x=0,7,8,11) + \arg TIMER_FLAG_BRK: break flag,TIMERx(x=0,7) + \arg TIMER_FLAG_CH0O: channel 0 overcapture flag,TIMERx(x=0..4,7..11) + \arg TIMER_FLAG_CH1O: channel 1 overcapture flag,TIMERx(x=0..4,7,8,11) + \arg TIMER_FLAG_CH2O: channel 2 overcapture flag,TIMERx(x=0..4,7) + \arg TIMER_FLAG_CH3O: channel 3 overcapture flag,TIMERx(x=0..4,7) + \param[out] none + \retval FlagStatus: SET or RESET +*/ +FlagStatus timer_flag_get(uint32_t timer_periph, uint32_t flag) +{ + if(RESET != (TIMER_INTF(timer_periph) & flag)){ + return SET; + }else{ + return RESET; + } +} + +/*! + \brief clear TIMER flags + \param[in] timer_periph: please refer to the following parameters + \param[in] flag: the timer interrupt flags + only one parameter can be selected which is shown as below: + \arg TIMER_FLAG_UP: update flag,TIMERx(x=0..13) + \arg TIMER_FLAG_CH0: channel 0 flag,TIMERx(x=0..4,7..13) + \arg TIMER_FLAG_CH1: channel 1 flag,TIMERx(x=0..4,7,8,11) + \arg TIMER_FLAG_CH2: channel 2 flag,TIMERx(x=0..4,7) + \arg TIMER_FLAG_CH3: channel 3 flag,TIMERx(x=0..4,7) + \arg TIMER_FLAG_CMT: channel control update flag,TIMERx(x=0,7) + \arg TIMER_FLAG_TRG: trigger flag,TIMERx(x=0,7,8,11) + \arg TIMER_FLAG_BRK: break flag,TIMERx(x=0,7) + \arg TIMER_FLAG_CH0O: channel 0 overcapture flag,TIMERx(x=0..4,7..11) + \arg TIMER_FLAG_CH1O: channel 1 overcapture flag,TIMERx(x=0..4,7,8,11) + \arg TIMER_FLAG_CH2O: channel 2 overcapture flag,TIMERx(x=0..4,7) + \arg TIMER_FLAG_CH3O: channel 3 overcapture flag,TIMERx(x=0..4,7) + \param[out] none + \retval none +*/ +void timer_flag_clear(uint32_t timer_periph, uint32_t flag) +{ + TIMER_INTF(timer_periph) = (~(uint32_t)flag); +} + +/*! + \brief enable the TIMER DMA + \param[in] timer_periph: please refer to the following parameters + \param[in] dma: specify which DMA to enable + only one parameter can be selected which is shown as below: + \arg TIMER_DMA_UPD: update DMA enable,TIMERx(x=0..7) + \arg TIMER_DMA_CH0D: channel 0 DMA enable,TIMERx(x=0..4,7) + \arg TIMER_DMA_CH1D: channel 1 DMA enable,TIMERx(x=0..4,7) + \arg TIMER_DMA_CH2D: channel 2 DMA enable,TIMERx(x=0..4,7) + \arg TIMER_DMA_CH3D: channel 3 DMA enable,TIMERx(x=0..4,7) + \arg TIMER_DMA_CMTD: commutation DMA request enable,TIMERx(x=0,7) + \arg TIMER_DMA_TRGD: trigger DMA enable,TIMERx(x=0..4,7) + \param[out] none + \retval none +*/ +void timer_dma_enable(uint32_t timer_periph, uint16_t dma) +{ + TIMER_DMAINTEN(timer_periph) |= (uint32_t) dma; +} + +/*! + \brief disable the TIMER DMA + \param[in] timer_periph: please refer to the following parameters + \param[in] dma: specify which DMA to enable + one or more parameters can be selected which are shown as below: + \arg TIMER_DMA_UPD: update DMA ,TIMERx(x=0..7) + \arg TIMER_DMA_CH0D: channel 0 DMA request,TIMERx(x=0..4,7) + \arg TIMER_DMA_CH1D: channel 1 DMA request,TIMERx(x=0..4,7) + \arg TIMER_DMA_CH2D: channel 2 DMA request,TIMERx(x=0..4,7) + \arg TIMER_DMA_CH3D: channel 3 DMA request,TIMERx(x=0..4,7) + \arg TIMER_DMA_CMTD: commutation DMA request ,TIMERx(x=0,7) + \arg TIMER_DMA_TRGD: trigger DMA request,TIMERx(x=0..4,7) + \param[out] none + \retval none +*/ +void timer_dma_disable(uint32_t timer_periph, uint16_t dma) +{ + TIMER_DMAINTEN(timer_periph) &= (~(uint32_t)(dma)); +} + +/*! + \brief channel DMA request source selection + \param[in] timer_periph: TIMERx(x=0..4,7) + \param[in] dma_request: channel DMA request source selection + only one parameter can be selected which is shown as below: + \arg TIMER_DMAREQUEST_CHANNELEVENT: DMA request of channel y is sent when channel y event occurs + \arg TIMER_DMAREQUEST_UPDATEEVENT: DMA request of channel y is sent when update event occurs + \param[out] none + \retval none +*/ +void timer_channel_dma_request_source_select(uint32_t timer_periph, uint8_t dma_request) +{ + if(TIMER_DMAREQUEST_UPDATEEVENT == dma_request){ + TIMER_CTL1(timer_periph) |= (uint32_t)TIMER_CTL1_DMAS; + }else if(TIMER_DMAREQUEST_CHANNELEVENT == dma_request){ + TIMER_CTL1(timer_periph) &= ~(uint32_t)TIMER_CTL1_DMAS; + }else{ + /* illegal parameters */ + } +} + +/*! + \brief configure the TIMER DMA transfer + \param[in] timer_periph: please refer to the following parameters + \param[in] dma_baseaddr: + only one parameter can be selected which is shown as below: + \arg TIMER_DMACFG_DMATA_CTL0: DMA transfer address is TIMER_CTL0,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CTL1: DMA transfer address is TIMER_CTL1,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_SMCFG: DMA transfer address is TIMER_SMCFG,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_DMAINTEN: DMA transfer address is TIMER_DMAINTEN,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_INTF: DMA transfer address is TIMER_INTF,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_SWEVG: DMA transfer address is TIMER_SWEVG,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CHCTL0: DMA transfer address is TIMER_CHCTL0,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CHCTL1: DMA transfer address is TIMER_CHCTL1,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CHCTL2: DMA transfer address is TIMER_CHCTL2,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CNT: DMA transfer address is TIMER_CNT,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_PSC: DMA transfer address is TIMER_PSC,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CAR: DMA transfer address is TIMER_CAR,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CREP: DMA transfer address is TIMER_CREP,TIMERx(x=0,7) + \arg TIMER_DMACFG_DMATA_CH0CV: DMA transfer address is TIMER_CH0CV,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CH1CV: DMA transfer address is TIMER_CH1CV,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CH2CV: DMA transfer address is TIMER_CH2CV,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CH3CV: DMA transfer address is TIMER_CH3CV,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_CCHP: DMA transfer address is TIMER_CCHP,TIMERx(x=0,7) + \arg TIMER_DMACFG_DMATA_DMACFG: DMA transfer address is TIMER_DMACFG,TIMERx(x=0..4,7) + \arg TIMER_DMACFG_DMATA_DMATB: DMA transfer address is TIMER_DMATB,TIMERx(x=0..4,7) + \param[in] dma_lenth: + only one parameter can be selected which is shown as below: + \arg TIMER_DMACFG_DMATC_xTRANSFER(x=1..18): DMA transfer x time + \param[out] none + \retval none +*/ +void timer_dma_transfer_config(uint32_t timer_periph, uint32_t dma_baseaddr, uint32_t dma_lenth) +{ + TIMER_DMACFG(timer_periph) &= (~(uint32_t)(TIMER_DMACFG_DMATA | TIMER_DMACFG_DMATC)); + TIMER_DMACFG(timer_periph) |= (uint32_t)(dma_baseaddr | dma_lenth); +} + +/*! + \brief software generate events + \param[in] timer_periph: please refer to the following parameters + \param[in] event: the timer software event generation sources + one or more parameters can be selected which are shown as below: + \arg TIMER_EVENT_SRC_UPG: update event,TIMERx(x=0..13) + \arg TIMER_EVENT_SRC_CH0G: channel 0 capture or compare event generation,TIMERx(x=0..4,7..13) + \arg TIMER_EVENT_SRC_CH1G: channel 1 capture or compare event generation,TIMERx(x=0..4,7,8,11) + \arg TIMER_EVENT_SRC_CH2G: channel 2 capture or compare event generation,TIMERx(x=0..4,7) + \arg TIMER_EVENT_SRC_CH3G: channel 3 capture or compare event generation,TIMERx(x=0..4,7) + \arg TIMER_EVENT_SRC_CMTG: channel commutation event generation,TIMERx(x=0,7) + \arg TIMER_EVENT_SRC_TRGG: trigger event generation,TIMERx(x=0..4,7,8,11) + \arg TIMER_EVENT_SRC_BRKG: break event generation,TIMERx(x=0,7) + \param[out] none + \retval none +*/ +void timer_event_software_generate(uint32_t timer_periph, uint16_t event) +{ + TIMER_SWEVG(timer_periph) |= (uint32_t)event; +} + +/*! + \brief initialize TIMER break parameter struct with a default value + \param[in] breakpara: TIMER break parameter struct + \param[out] none + \retval none +*/ +void timer_break_struct_para_init(timer_break_parameter_struct* breakpara) +{ + /* initialize the break parameter struct member with the default value */ + breakpara->runoffstate = TIMER_ROS_STATE_DISABLE; + breakpara->ideloffstate = TIMER_IOS_STATE_DISABLE; + breakpara->deadtime = 0U; + breakpara->breakpolarity = TIMER_BREAK_POLARITY_LOW; + breakpara->outputautostate = TIMER_OUTAUTO_DISABLE; + breakpara->protectmode = TIMER_CCHP_PROT_OFF; + breakpara->breakstate = TIMER_BREAK_DISABLE; +} + +/*! + \brief configure TIMER break function + \param[in] timer_periph: TIMERx(x=0,7) + \param[in] breakpara: TIMER break parameter struct + runoffstate: TIMER_ROS_STATE_ENABLE,TIMER_ROS_STATE_DISABLE + ideloffstate: TIMER_IOS_STATE_ENABLE,TIMER_IOS_STATE_DISABLE + deadtime: 0~255 + breakpolarity: TIMER_BREAK_POLARITY_LOW,TIMER_BREAK_POLARITY_HIGH + outputautostate: TIMER_OUTAUTO_ENABLE,TIMER_OUTAUTO_DISABLE + protectmode: TIMER_CCHP_PROT_OFF,TIMER_CCHP_PROT_0,TIMER_CCHP_PROT_1,TIMER_CCHP_PROT_2 + breakstate: TIMER_BREAK_ENABLE,TIMER_BREAK_DISABLE + \param[out] none + \retval none +*/ +void timer_break_config(uint32_t timer_periph, timer_break_parameter_struct* breakpara) +{ + TIMER_CCHP(timer_periph) = (uint32_t)(((uint32_t)(breakpara->runoffstate))| + ((uint32_t)(breakpara->ideloffstate))| + ((uint32_t)(breakpara->deadtime))| + ((uint32_t)(breakpara->breakpolarity))| + ((uint32_t)(breakpara->outputautostate)) | + ((uint32_t)(breakpara->protectmode))| + ((uint32_t)(breakpara->breakstate))) ; +} + +/*! + \brief enable TIMER break function + \param[in] timer_periph: TIMERx(x=0,7) + \param[out] none + \retval none +*/ +void timer_break_enable(uint32_t timer_periph) +{ + TIMER_CCHP(timer_periph) |= (uint32_t)TIMER_CCHP_BRKEN; +} + +/*! + \brief disable TIMER break function + \param[in] timer_periph: TIMERx(x=0,7) + \param[out] none + \retval none +*/ +void timer_break_disable(uint32_t timer_periph) +{ + TIMER_CCHP(timer_periph) &= ~(uint32_t)TIMER_CCHP_BRKEN; +} + +/*! + \brief enable TIMER output automatic function + \param[in] timer_periph: TIMERx(x=0,7) + \param[out] none + \retval none +*/ +void timer_automatic_output_enable(uint32_t timer_periph) +{ + TIMER_CCHP(timer_periph) |= (uint32_t)TIMER_CCHP_OAEN; +} + +/*! + \brief disable TIMER output automatic function + \param[in] timer_periph: TIMERx(x=0,7) + \param[out] none + \retval none +*/ +void timer_automatic_output_disable(uint32_t timer_periph) +{ + TIMER_CCHP(timer_periph) &= ~(uint32_t)TIMER_CCHP_OAEN; +} + +/*! + \brief configure TIMER primary output function + \param[in] timer_periph: TIMERx(x=0,7) + \param[in] newvalue: ENABLE or DISABLE + \param[out] none + \retval none +*/ +void timer_primary_output_config(uint32_t timer_periph, ControlStatus newvalue) +{ + if(ENABLE == newvalue){ + TIMER_CCHP(timer_periph) |= (uint32_t)TIMER_CCHP_POEN; + }else{ + TIMER_CCHP(timer_periph) &= (~(uint32_t)TIMER_CCHP_POEN); + } +} + +/*! + \brief enable or disable channel capture/compare control shadow register + \param[in] timer_periph: TIMERx(x=0,7) + \param[in] newvalue: ENABLE or DISABLE + \param[out] none + \retval none +*/ +void timer_channel_control_shadow_config(uint32_t timer_periph, ControlStatus newvalue) +{ + if(ENABLE == newvalue){ + TIMER_CTL1(timer_periph) |= (uint32_t)TIMER_CTL1_CCSE; + }else{ + TIMER_CTL1(timer_periph) &= (~(uint32_t)TIMER_CTL1_CCSE); + } +} + +/*! + \brief configure TIMER channel control shadow register update control + \param[in] timer_periph: TIMERx(x=0,7) + \param[in] ccuctl: channel control shadow register update control + only one parameter can be selected which is shown as below: + \arg TIMER_UPDATECTL_CCU: the shadow registers update by when CMTG bit is set + \arg TIMER_UPDATECTL_CCUTRI: the shadow registers update by when CMTG bit is set or an rising edge of TRGI occurs + \param[out] none + \retval none +*/ +void timer_channel_control_shadow_update_config(uint32_t timer_periph, uint8_t ccuctl) +{ + if(TIMER_UPDATECTL_CCU == ccuctl){ + TIMER_CTL1(timer_periph) &= (~(uint32_t)TIMER_CTL1_CCUC); + }else if(TIMER_UPDATECTL_CCUTRI == ccuctl){ + TIMER_CTL1(timer_periph) |= (uint32_t)TIMER_CTL1_CCUC; + }else{ + /* illegal parameters */ + } +} + +/*! + \brief initialize TIMER channel output parameter struct with a default value + \param[in] ocpara: TIMER channel n output parameter struct + \param[out] none + \retval none +*/ +void timer_channel_output_struct_para_init(timer_oc_parameter_struct* ocpara) +{ + /* initialize the channel output parameter struct member with the default value */ + ocpara->outputstate = (uint16_t)TIMER_CCX_DISABLE; + ocpara->outputnstate = TIMER_CCXN_DISABLE; + ocpara->ocpolarity = TIMER_OC_POLARITY_HIGH; + ocpara->ocnpolarity = TIMER_OCN_POLARITY_HIGH; + ocpara->ocidlestate = TIMER_OC_IDLE_STATE_LOW; + ocpara->ocnidlestate = TIMER_OCN_IDLE_STATE_LOW; +} + +/*! + \brief configure TIMER channel output function + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel 0(TIMERx(x=0..4,7..13)) + \arg TIMER_CH_1: TIMER channel 1(TIMERx(x=0..4,7,8,11)) + \arg TIMER_CH_2: TIMER channel 2(TIMERx(x=0..4,7)) + \arg TIMER_CH_3: TIMER channel 3(TIMERx(x=0..4,7)) + \param[in] ocpara: TIMER channeln output parameter struct + outputstate: TIMER_CCX_ENABLE,TIMER_CCX_DISABLE + outputnstate: TIMER_CCXN_ENABLE,TIMER_CCXN_DISABLE + ocpolarity: TIMER_OC_POLARITY_HIGH,TIMER_OC_POLARITY_LOW + ocnpolarity: TIMER_OCN_POLARITY_HIGH,TIMER_OCN_POLARITY_LOW + ocidlestate: TIMER_OC_IDLE_STATE_LOW,TIMER_OC_IDLE_STATE_HIGH + ocnidlestate: TIMER_OCN_IDLE_STATE_LOW,TIMER_OCN_IDLE_STATE_HIGH + \param[out] none + \retval none +*/ +void timer_channel_output_config(uint32_t timer_periph, uint16_t channel, timer_oc_parameter_struct* ocpara) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + /* reset the CH0EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0EN); + TIMER_CHCTL0(timer_periph) &= ~(uint32_t)TIMER_CHCTL0_CH0MS; + /* set the CH0EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)ocpara->outputstate; + /* reset the CH0P bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0P); + /* set the CH0P bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)ocpara->ocpolarity; + + if((TIMER0 == timer_periph) || (TIMER7 == timer_periph)){ + /* reset the CH0NEN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0NEN); + /* set the CH0NEN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)ocpara->outputnstate; + /* reset the CH0NP bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0NP); + /* set the CH0NP bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)ocpara->ocnpolarity; + /* reset the ISO0 bit */ + TIMER_CTL1(timer_periph) &= (~(uint32_t)TIMER_CTL1_ISO0); + /* set the ISO0 bit */ + TIMER_CTL1(timer_periph) |= (uint32_t)ocpara->ocidlestate; + /* reset the ISO0N bit */ + TIMER_CTL1(timer_periph) &= (~(uint32_t)TIMER_CTL1_ISO0N); + /* set the ISO0N bit */ + TIMER_CTL1(timer_periph) |= (uint32_t)ocpara->ocnidlestate; + } + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + /* reset the CH1EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1EN); + TIMER_CHCTL0(timer_periph) &= ~(uint32_t)TIMER_CHCTL0_CH1MS; + /* set the CH1EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)ocpara->outputstate << 4U); + /* reset the CH1P bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1P); + /* set the CH1P bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(ocpara->ocpolarity) << 4U); + + if((TIMER0 == timer_periph) || (TIMER7 == timer_periph)){ + /* reset the CH1NEN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1NEN); + /* set the CH1NEN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(ocpara->outputnstate) << 4U); + /* reset the CH1NP bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1NP); + /* set the CH1NP bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(ocpara->ocnpolarity) << 4U); + /* reset the ISO1 bit */ + TIMER_CTL1(timer_periph) &= (~(uint32_t)TIMER_CTL1_ISO1); + /* set the ISO1 bit */ + TIMER_CTL1(timer_periph) |= (uint32_t)((uint32_t)(ocpara->ocidlestate) << 2U); + /* reset the ISO1N bit */ + TIMER_CTL1(timer_periph) &= (~(uint32_t)TIMER_CTL1_ISO1N); + /* set the ISO1N bit */ + TIMER_CTL1(timer_periph) |= (uint32_t)((uint32_t)(ocpara->ocnidlestate) << 2U); + } + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + /* reset the CH2EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH2EN); + TIMER_CHCTL1(timer_periph) &= ~(uint32_t)TIMER_CHCTL1_CH2MS; + /* set the CH2EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)ocpara->outputstate << 8U); + /* reset the CH2P bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH2P); + /* set the CH2P bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(ocpara->ocpolarity) << 8U); + + if((TIMER0 == timer_periph) || (TIMER7 == timer_periph)){ + /* reset the CH2NEN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH2NEN); + /* set the CH2NEN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(ocpara->outputnstate) << 8U); + /* reset the CH2NP bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH2NP); + /* set the CH2NP bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(ocpara->ocnpolarity) << 8U); + /* reset the ISO2 bit */ + TIMER_CTL1(timer_periph) &= (~(uint32_t)TIMER_CTL1_ISO2); + /* set the ISO2 bit */ + TIMER_CTL1(timer_periph) |= (uint32_t)((uint32_t)(ocpara->ocidlestate) << 4U); + /* reset the ISO2N bit */ + TIMER_CTL1(timer_periph) &= (~(uint32_t)TIMER_CTL1_ISO2N); + /* set the ISO2N bit */ + TIMER_CTL1(timer_periph) |= (uint32_t)((uint32_t)(ocpara->ocnidlestate) << 4U); + } + break; + /* configure TIMER_CH_3 */ + case TIMER_CH_3: + /* reset the CH3EN bit */ + TIMER_CHCTL2(timer_periph) &=(~(uint32_t)TIMER_CHCTL2_CH3EN); + TIMER_CHCTL1(timer_periph) &= ~(uint32_t)TIMER_CHCTL1_CH3MS; + /* set the CH3EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)ocpara->outputstate << 12U); + /* reset the CH3P bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH3P); + /* set the CH3P bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(ocpara->ocpolarity) << 12U); + + if((TIMER0 == timer_periph) || (TIMER7 == timer_periph)){ + /* reset the ISO3 bit */ + TIMER_CTL1(timer_periph) &= (~(uint32_t)TIMER_CTL1_ISO3); + /* set the ISO3 bit */ + TIMER_CTL1(timer_periph) |= (uint32_t)((uint32_t)(ocpara->ocidlestate) << 6U); + } + break; + default: + break; + } +} + +/*! + \brief configure TIMER channel output compare mode + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0..4,7..13)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0..4,7,8,11)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0..4,7)) + \arg TIMER_CH_3: TIMER channel3(TIMERx(x=0..4,7)) + \param[in] ocmode: channel output compare mode + only one parameter can be selected which is shown as below: + \arg TIMER_OC_MODE_TIMING: timing mode + \arg TIMER_OC_MODE_ACTIVE: active mode + \arg TIMER_OC_MODE_INACTIVE: inactive mode + \arg TIMER_OC_MODE_TOGGLE: toggle mode + \arg TIMER_OC_MODE_LOW: force low mode + \arg TIMER_OC_MODE_HIGH: force high mode + \arg TIMER_OC_MODE_PWM0: PWM0 mode + \arg TIMER_OC_MODE_PWM1: PWM1 mode + \param[out] none + \retval none +*/ +void timer_channel_output_mode_config(uint32_t timer_periph, uint16_t channel, uint16_t ocmode) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0COMCTL); + TIMER_CHCTL0(timer_periph) |= (uint32_t)ocmode; + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1COMCTL); + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)(ocmode) << 8U); + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH2COMCTL); + TIMER_CHCTL1(timer_periph) |= (uint32_t)ocmode; + break; + /* configure TIMER_CH_3 */ + case TIMER_CH_3: + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH3COMCTL); + TIMER_CHCTL1(timer_periph) |= (uint32_t)((uint32_t)(ocmode) << 8U); + break; + default: + break; + } +} + +/*! + \brief configure TIMER channel output pulse value + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0..4,7..13)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0..4,7,8,11)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0..4,7)) + \arg TIMER_CH_3: TIMER channel3(TIMERx(x=0..4,7)) + \param[in] pulse: channel output pulse value,0~65535 + \param[out] none + \retval none +*/ +void timer_channel_output_pulse_value_config(uint32_t timer_periph, uint16_t channel, uint32_t pulse) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + TIMER_CH0CV(timer_periph) = (uint32_t)pulse; + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + TIMER_CH1CV(timer_periph) = (uint32_t)pulse; + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + TIMER_CH2CV(timer_periph) = (uint32_t)pulse; + break; + /* configure TIMER_CH_3 */ + case TIMER_CH_3: + TIMER_CH3CV(timer_periph) = (uint32_t)pulse; + break; + default: + break; + } +} + +/*! + \brief configure TIMER channel output shadow function + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0..4,7..13)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0..4,7,8,11)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0..4,7)) + \arg TIMER_CH_3: TIMER channel3(TIMERx(x=0..4,7)) + \param[in] ocshadow: channel output shadow state + only one parameter can be selected which is shown as below: + \arg TIMER_OC_SHADOW_ENABLE: channel output shadow state enable + \arg TIMER_OC_SHADOW_DISABLE: channel output shadow state disable + \param[out] none + \retval none +*/ +void timer_channel_output_shadow_config(uint32_t timer_periph, uint16_t channel, uint16_t ocshadow) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0COMSEN); + TIMER_CHCTL0(timer_periph) |= (uint32_t)ocshadow; + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1COMSEN); + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)(ocshadow) << 8U); + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH2COMSEN); + TIMER_CHCTL1(timer_periph) |= (uint32_t)ocshadow; + break; + /* configure TIMER_CH_3 */ + case TIMER_CH_3: + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH3COMSEN); + TIMER_CHCTL1(timer_periph) |= (uint32_t)((uint32_t)(ocshadow) << 8U); + break; + default: + break; + } +} + +/*! + \brief configure TIMER channel output fast function + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0..4,7..13)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0..4,7,8,11)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0..4,7)) + \arg TIMER_CH_3: TIMER channel3(TIMERx(x=0..4,7)) + \param[in] ocfast: channel output fast function + only one parameter can be selected which is shown as below: + \arg TIMER_OC_FAST_ENABLE: channel output fast function enable + \arg TIMER_OC_FAST_DISABLE: channel output fast function disable + \param[out] none + \retval none +*/ +void timer_channel_output_fast_config(uint32_t timer_periph, uint16_t channel, uint16_t ocfast) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0COMFEN); + TIMER_CHCTL0(timer_periph) |= (uint32_t)ocfast; + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1COMFEN); + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)ocfast << 8U); + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH2COMFEN); + TIMER_CHCTL1(timer_periph) |= (uint32_t)ocfast; + break; + /* configure TIMER_CH_3 */ + case TIMER_CH_3: + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH3COMFEN); + TIMER_CHCTL1(timer_periph) |= (uint32_t)((uint32_t)ocfast << 8U); + break; + default: + break; + } +} + +/*! + \brief configure TIMER channel output clear function + \param[in] timer_periph: TIMERx(x=0..4,7) + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0 + \arg TIMER_CH_1: TIMER channel1 + \arg TIMER_CH_2: TIMER channel2 + \arg TIMER_CH_3: TIMER channel3 + \param[in] occlear: channel output clear function + only one parameter can be selected which is shown as below: + \arg TIMER_OC_CLEAR_ENABLE: channel output clear function enable + \arg TIMER_OC_CLEAR_DISABLE: channel output clear function disable + \param[out] none + \retval none +*/ +void timer_channel_output_clear_config(uint32_t timer_periph, uint16_t channel, uint16_t occlear) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0COMCEN); + TIMER_CHCTL0(timer_periph) |= (uint32_t)occlear; + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1COMCEN); + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)occlear << 8U); + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH2COMCEN); + TIMER_CHCTL1(timer_periph) |= (uint32_t)occlear; + break; + /* configure TIMER_CH_3 */ + case TIMER_CH_3: + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH3COMCEN); + TIMER_CHCTL1(timer_periph) |= (uint32_t)((uint32_t)occlear << 8U); + break; + default: + break; + } +} + +/*! + \brief configure TIMER channel output polarity + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0..4,7..13)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0..4,7,8,11)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0..4,7)) + \arg TIMER_CH_3: TIMER channel3(TIMERx(x=0..4,7)) + \param[in] ocpolarity: channel output polarity + only one parameter can be selected which is shown as below: + \arg TIMER_OC_POLARITY_HIGH: channel output polarity is high + \arg TIMER_OC_POLARITY_LOW: channel output polarity is low + \param[out] none + \retval none +*/ +void timer_channel_output_polarity_config(uint32_t timer_periph, uint16_t channel, uint16_t ocpolarity) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0P); + TIMER_CHCTL2(timer_periph) |= (uint32_t)ocpolarity; + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1P); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)ocpolarity << 4U); + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH2P); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)ocpolarity << 8U); + break; + /* configure TIMER_CH_3 */ + case TIMER_CH_3: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH3P); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)ocpolarity << 12U); + break; + default: + break; + } +} + +/*! + \brief configure TIMER channel complementary output polarity + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0,7..13)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0,7,8,11)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0,7)) + \param[in] ocnpolarity: channel complementary output polarity + only one parameter can be selected which is shown as below: + \arg TIMER_OCN_POLARITY_HIGH: channel complementary output polarity is high + \arg TIMER_OCN_POLARITY_LOW: channel complementary output polarity is low + \param[out] none + \retval none +*/ +void timer_channel_complementary_output_polarity_config(uint32_t timer_periph, uint16_t channel, uint16_t ocnpolarity) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0NP); + TIMER_CHCTL2(timer_periph) |= (uint32_t)ocnpolarity; + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1NP); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)ocnpolarity << 4U); + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH2NP); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)ocnpolarity << 8U); + break; + default: + break; + } +} + +/*! + \brief configure TIMER channel enable state + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0..4,7..13)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0..4,7,8,11)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0..4,7)) + \arg TIMER_CH_3: TIMER channel3(TIMERx(x=0..4,7)) + \param[in] state: TIMER channel enable state + only one parameter can be selected which is shown as below: + \arg TIMER_CCX_ENABLE: channel enable + \arg TIMER_CCX_DISABLE: channel disable + \param[out] none + \retval none +*/ +void timer_channel_output_state_config(uint32_t timer_periph, uint16_t channel, uint32_t state) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0EN); + TIMER_CHCTL2(timer_periph) |= (uint32_t)state; + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1EN); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)state << 4U); + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH2EN); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)state << 8U); + break; + /* configure TIMER_CH_3 */ + case TIMER_CH_3: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH3EN); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)state << 12U); + break; + default: + break; + } +} + +/*! + \brief configure TIMER channel complementary output enable state + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0,7)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0,7)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0,7)) + \param[in] ocnstate: TIMER channel complementary output enable state + only one parameter can be selected which is shown as below: + \arg TIMER_CCXN_ENABLE: channel complementary enable + \arg TIMER_CCXN_DISABLE: channel complementary disable + \param[out] none + \retval none +*/ +void timer_channel_complementary_output_state_config(uint32_t timer_periph, uint16_t channel, uint16_t ocnstate) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0NEN); + TIMER_CHCTL2(timer_periph) |= (uint32_t)ocnstate; + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1NEN); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)ocnstate << 4U); + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH2NEN); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)ocnstate << 8U); + break; + default: + break; + } +} + +/*! + \brief initialize TIMER channel input parameter struct with a default value + \param[in] icpara: TIMER channel intput parameter struct + \param[out] none + \retval none +*/ +void timer_channel_input_struct_para_init(timer_ic_parameter_struct* icpara) +{ + /* initialize the channel input parameter struct member with the default value */ + icpara->icpolarity = TIMER_IC_POLARITY_RISING; + icpara->icselection = TIMER_IC_SELECTION_DIRECTTI; + icpara->icprescaler = TIMER_IC_PSC_DIV1; + icpara->icfilter = 0U; +} + +/*! + \brief configure TIMER input capture parameter + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0..4,7..13)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0..4,7,8,11)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0..4,7)) + \arg TIMER_CH_3: TIMER channel3(TIMERx(x=0..4,7)) + \param[in] icpara: TIMER channel intput parameter struct + icpolarity: TIMER_IC_POLARITY_RISING,TIMER_IC_POLARITY_FALLING + icselection: TIMER_IC_SELECTION_DIRECTTI,TIMER_IC_SELECTION_INDIRECTTI,TIMER_IC_SELECTION_ITS + icprescaler: TIMER_IC_PSC_DIV1,TIMER_IC_PSC_DIV2,TIMER_IC_PSC_DIV4,TIMER_IC_PSC_DIV8 + icfilter: 0~15 + \param[out] none + \retval none +*/ +void timer_input_capture_config(uint32_t timer_periph,uint16_t channel, timer_ic_parameter_struct* icpara) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + /* reset the CH0EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0EN); + + /* reset the CH0P and CH0NP bits */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH0P | TIMER_CHCTL2_CH0NP)); + TIMER_CHCTL2(timer_periph) |= (uint32_t)(icpara->icpolarity); + /* reset the CH0MS bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0MS); + TIMER_CHCTL0(timer_periph) |= (uint32_t)(icpara->icselection); + /* reset the CH0CAPFLT bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0CAPFLT); + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)(icpara->icfilter) << 4U); + + /* set the CH0EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)TIMER_CHCTL2_CH0EN; + break; + + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + /* reset the CH1EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1EN); + + /* reset the CH1P and CH1NP bits */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH1P | TIMER_CHCTL2_CH1NP)); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(icpara->icpolarity) << 4U); + /* reset the CH1MS bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1MS); + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)(icpara->icselection) << 8U); + /* reset the CH1CAPFLT bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1CAPFLT); + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)(icpara->icfilter) << 12U); + + /* set the CH1EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)TIMER_CHCTL2_CH1EN; + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + /* reset the CH2EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH2EN); + + /* reset the CH2P and CH2NP bits */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH2P|TIMER_CHCTL2_CH2NP)); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(icpara->icpolarity) << 8U); + + /* reset the CH2MS bit */ + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH2MS); + TIMER_CHCTL1(timer_periph) |= (uint32_t)((uint32_t)(icpara->icselection)); + + /* reset the CH2CAPFLT bit */ + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH2CAPFLT); + TIMER_CHCTL1(timer_periph) |= (uint32_t)((uint32_t)(icpara->icfilter) << 4U); + + /* set the CH2EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)TIMER_CHCTL2_CH2EN; + break; + /* configure TIMER_CH_3 */ + case TIMER_CH_3: + /* reset the CH3EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH3EN); + + /* reset the CH3P bits */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH3P)); + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(icpara->icpolarity) << 12U); + + /* reset the CH3MS bit */ + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH3MS); + TIMER_CHCTL1(timer_periph) |= (uint32_t)((uint32_t)(icpara->icselection) << 8U); + + /* reset the CH3CAPFLT bit */ + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH3CAPFLT); + TIMER_CHCTL1(timer_periph) |= (uint32_t)((uint32_t)(icpara->icfilter) << 12U); + + /* set the CH3EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)TIMER_CHCTL2_CH3EN; + break; + default: + break; + } + /* configure TIMER channel input capture prescaler value */ + timer_channel_input_capture_prescaler_config(timer_periph, channel, (uint16_t)(icpara->icprescaler)); +} + +/*! + \brief configure TIMER channel input capture prescaler value + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0..4,7..13)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0..4,7,8,11)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0..4,7)) + \arg TIMER_CH_3: TIMER channel3(TIMERx(x=0..4,7)) + \param[in] prescaler: channel input capture prescaler value + only one parameter can be selected which is shown as below: + \arg TIMER_IC_PSC_DIV1: no prescaler + \arg TIMER_IC_PSC_DIV2: divided by 2 + \arg TIMER_IC_PSC_DIV4: divided by 4 + \arg TIMER_IC_PSC_DIV8: divided by 8 + \param[out] none + \retval none +*/ +void timer_channel_input_capture_prescaler_config(uint32_t timer_periph, uint16_t channel, uint16_t prescaler) +{ + switch(channel){ + /* configure TIMER_CH_0 */ + case TIMER_CH_0: + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0CAPPSC); + TIMER_CHCTL0(timer_periph) |= (uint32_t)prescaler; + break; + /* configure TIMER_CH_1 */ + case TIMER_CH_1: + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1CAPPSC); + TIMER_CHCTL0(timer_periph) |= ((uint32_t)prescaler << 8U); + break; + /* configure TIMER_CH_2 */ + case TIMER_CH_2: + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH2CAPPSC); + TIMER_CHCTL1(timer_periph) |= (uint32_t)prescaler; + break; + /* configure TIMER_CH_3 */ + case TIMER_CH_3: + TIMER_CHCTL1(timer_periph) &= (~(uint32_t)TIMER_CHCTL1_CH3CAPPSC); + TIMER_CHCTL1(timer_periph) |= ((uint32_t)prescaler << 8U); + break; + default: + break; + } +} + +/*! + \brief read TIMER channel capture compare register value + \param[in] timer_periph: please refer to the following parameters + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0(TIMERx(x=0..4,7..13)) + \arg TIMER_CH_1: TIMER channel1(TIMERx(x=0..4,7,8,11)) + \arg TIMER_CH_2: TIMER channel2(TIMERx(x=0..4,7)) + \arg TIMER_CH_3: TIMER channel3(TIMERx(x=0..4,7)) + \param[out] none + \retval channel capture compare register value +*/ +uint32_t timer_channel_capture_value_register_read(uint32_t timer_periph, uint16_t channel) +{ + uint32_t count_value = 0U; + + switch(channel){ + /* read TIMER channel 0 capture compare register value */ + case TIMER_CH_0: + count_value = TIMER_CH0CV(timer_periph); + break; + /* read TIMER channel 1 capture compare register value */ + case TIMER_CH_1: + count_value = TIMER_CH1CV(timer_periph); + break; + /* read TIMER channel 2 capture compare register value */ + case TIMER_CH_2: + count_value = TIMER_CH2CV(timer_periph); + break; + /* read TIMER channel 3 capture compare register value */ + case TIMER_CH_3: + count_value = TIMER_CH3CV(timer_periph); + break; + default: + break; + } + return (count_value); +} + +/*! + \brief configure TIMER input pwm capture function + \param[in] timer_periph: TIMERx(x=0..4,7,8,11) + \param[in] channel: + only one parameter can be selected which is shown as below: + \arg TIMER_CH_0: TIMER channel0 + \arg TIMER_CH_1: TIMER channel1 + \param[in] icpwm:TIMER channel intput pwm parameter struct + icpolarity: TIMER_IC_POLARITY_RISING,TIMER_IC_POLARITY_FALLING + icselection: TIMER_IC_SELECTION_DIRECTTI,TIMER_IC_SELECTION_INDIRECTTI + icprescaler: TIMER_IC_PSC_DIV1,TIMER_IC_PSC_DIV2,TIMER_IC_PSC_DIV4,TIMER_IC_PSC_DIV8 + icfilter: 0~15 + \param[out] none + \retval none +*/ +void timer_input_pwm_capture_config(uint32_t timer_periph, uint16_t channel, timer_ic_parameter_struct* icpwm) +{ + uint16_t icpolarity = 0x0U; + uint16_t icselection = 0x0U; + + /* Set channel input polarity */ + if(TIMER_IC_POLARITY_RISING == icpwm->icpolarity){ + icpolarity = TIMER_IC_POLARITY_FALLING; + }else{ + icpolarity = TIMER_IC_POLARITY_RISING; + } + + /* Set channel input mode selection */ + if(TIMER_IC_SELECTION_DIRECTTI == icpwm->icselection){ + icselection = TIMER_IC_SELECTION_INDIRECTTI; + }else{ + icselection = TIMER_IC_SELECTION_DIRECTTI; + } + + if(TIMER_CH_0 == channel){ + /* reset the CH0EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0EN); + /* reset the CH0P and CH0NP bits */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH0P|TIMER_CHCTL2_CH0NP)); + /* set the CH0P and CH0NP bits */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)(icpwm->icpolarity); + /* reset the CH0MS bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0MS); + /* set the CH0MS bit */ + TIMER_CHCTL0(timer_periph) |= (uint32_t)(icpwm->icselection); + /* reset the CH0CAPFLT bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0CAPFLT); + /* set the CH0CAPFLT bit */ + TIMER_CHCTL0(timer_periph) |= ((uint32_t)(icpwm->icfilter) << 4U); + /* set the CH0EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)TIMER_CHCTL2_CH0EN; + /* configure TIMER channel input capture prescaler value */ + timer_channel_input_capture_prescaler_config(timer_periph,TIMER_CH_0,(uint16_t)(icpwm->icprescaler)); + + /* reset the CH1EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1EN); + /* reset the CH1P and CH1NP bits */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH1P|TIMER_CHCTL2_CH1NP)); + /* set the CH1P and CH1NP bits */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)icpolarity << 4U); + /* reset the CH1MS bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1MS); + /* set the CH1MS bit */ + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)icselection << 8U); + /* reset the CH1CAPFLT bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1CAPFLT); + /* set the CH1CAPFLT bit */ + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)(icpwm->icfilter) << 12U); + /* set the CH1EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)TIMER_CHCTL2_CH1EN; + /* configure TIMER channel input capture prescaler value */ + timer_channel_input_capture_prescaler_config(timer_periph,TIMER_CH_1,(uint16_t)(icpwm->icprescaler)); + }else{ + /* reset the CH1EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1EN); + /* reset the CH1P and CH1NP bits */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH1P|TIMER_CHCTL2_CH1NP)); + /* set the CH1P and CH1NP bits */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)(icpwm->icpolarity) << 4U); + /* reset the CH1MS bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1MS); + /* set the CH1MS bit */ + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)(icpwm->icselection) << 8U); + /* reset the CH1CAPFLT bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1CAPFLT); + /* set the CH1CAPFLT bit */ + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)(icpwm->icfilter) << 12U); + /* set the CH1EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)TIMER_CHCTL2_CH1EN; + /* configure TIMER channel input capture prescaler value */ + timer_channel_input_capture_prescaler_config(timer_periph, TIMER_CH_1, (uint16_t)(icpwm->icprescaler)); + + /* reset the CH0EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0EN); + /* reset the CH0P and CH0NP bits */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH0P|TIMER_CHCTL2_CH0NP)); + /* set the CH0P and CH0NP bits */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)icpolarity; + /* reset the CH0MS bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0MS); + /* set the CH0MS bit */ + TIMER_CHCTL0(timer_periph) |= (uint32_t)icselection; + /* reset the CH0CAPFLT bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0CAPFLT); + /* set the CH0CAPFLT bit */ + TIMER_CHCTL0(timer_periph) |= ((uint32_t)(icpwm->icfilter) << 4U); + /* set the CH0EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)TIMER_CHCTL2_CH0EN; + /* configure TIMER channel input capture prescaler value */ + timer_channel_input_capture_prescaler_config(timer_periph, TIMER_CH_0, (uint16_t)(icpwm->icprescaler)); + } +} + +/*! + \brief configure TIMER hall sensor mode + \param[in] timer_periph: TIMERx(x=0..4,7) + \param[in] hallmode: + only one parameter can be selected which is shown as below: + \arg TIMER_HALLINTERFACE_ENABLE: TIMER hall sensor mode enable + \arg TIMER_HALLINTERFACE_DISABLE: TIMER hall sensor mode disable + \param[out] none + \retval none +*/ +void timer_hall_mode_config(uint32_t timer_periph, uint32_t hallmode) +{ + if(TIMER_HALLINTERFACE_ENABLE == hallmode){ + TIMER_CTL1(timer_periph) |= (uint32_t)TIMER_CTL1_TI0S; + }else if(TIMER_HALLINTERFACE_DISABLE == hallmode){ + TIMER_CTL1(timer_periph) &= ~(uint32_t)TIMER_CTL1_TI0S; + }else{ + /* illegal parameters */ + } +} + +/*! + \brief select TIMER input trigger source + \param[in] timer_periph: TIMERx(x=0..4,7,8,11) + \param[in] intrigger: + only one parameter can be selected which is shown as below: + \arg TIMER_SMCFG_TRGSEL_ITI0: internal trigger 0 + \arg TIMER_SMCFG_TRGSEL_ITI1: internal trigger 1 + \arg TIMER_SMCFG_TRGSEL_ITI2: internal trigger 2 + \arg TIMER_SMCFG_TRGSEL_ITI3: internal trigger 3 + \arg TIMER_SMCFG_TRGSEL_CI0F_ED: TI0 edge detector + \arg TIMER_SMCFG_TRGSEL_CI0FE0: filtered TIMER input 0 + \arg TIMER_SMCFG_TRGSEL_CI1FE1: filtered TIMER input 1 + \arg TIMER_SMCFG_TRGSEL_ETIFP: external trigger(x=0..4,7) + \param[out] none + \retval none +*/ +void timer_input_trigger_source_select(uint32_t timer_periph, uint32_t intrigger) +{ + TIMER_SMCFG(timer_periph) &= (~(uint32_t)TIMER_SMCFG_TRGS); + TIMER_SMCFG(timer_periph) |= (uint32_t)intrigger; +} + +/*! + \brief select TIMER master mode output trigger source + \param[in] timer_periph: TIMERx(x=0..7) + \param[in] outrigger: + only one parameter can be selected which is shown as below: + \arg TIMER_TRI_OUT_SRC_RESET: the UPG bit as trigger output + \arg TIMER_TRI_OUT_SRC_ENABLE: the counter enable signal TIMER_CTL0_CEN as trigger output + \arg TIMER_TRI_OUT_SRC_UPDATE: update event as trigger output + \arg TIMER_TRI_OUT_SRC_CH0: a capture or a compare match occurred in channal0 as trigger output TRGO + \arg TIMER_TRI_OUT_SRC_O0CPRE: O0CPRE as trigger output + \arg TIMER_TRI_OUT_SRC_O1CPRE: O1CPRE as trigger output + \arg TIMER_TRI_OUT_SRC_O2CPRE: O2CPRE as trigger output + \arg TIMER_TRI_OUT_SRC_O3CPRE: O3CPRE as trigger output + \param[out] none + \retval none +*/ +void timer_master_output_trigger_source_select(uint32_t timer_periph, uint32_t outrigger) +{ + TIMER_CTL1(timer_periph) &= (~(uint32_t)TIMER_CTL1_MMC); + TIMER_CTL1(timer_periph) |= (uint32_t)outrigger; +} + +/*! + \brief select TIMER slave mode + \param[in] timer_periph: TIMERx(x=0..4,7,8,11) + \param[in] slavemode: + only one parameter can be selected which is shown as below: + \arg TIMER_SLAVE_MODE_DISABLE: slave mode disable + \arg TIMER_ENCODER_MODE0: encoder mode 0 + \arg TIMER_ENCODER_MODE1: encoder mode 1 + \arg TIMER_ENCODER_MODE2: encoder mode 2 + \arg TIMER_SLAVE_MODE_RESTART: restart mode + \arg TIMER_SLAVE_MODE_PAUSE: pause mode + \arg TIMER_SLAVE_MODE_EVENT: event mode + \arg TIMER_SLAVE_MODE_EXTERNAL0: external clock mode 0. + \param[out] none + \retval none +*/ + +void timer_slave_mode_select(uint32_t timer_periph, uint32_t slavemode) +{ + TIMER_SMCFG(timer_periph) &= (~(uint32_t)TIMER_SMCFG_SMC); + + TIMER_SMCFG(timer_periph) |= (uint32_t)slavemode; +} + +/*! + \brief configure TIMER master slave mode + \param[in] timer_periph: TIMERx(x=0..4,7,8,11) + \param[in] masterslave: + only one parameter can be selected which is shown as below: + \arg TIMER_MASTER_SLAVE_MODE_ENABLE: master slave mode enable + \arg TIMER_MASTER_SLAVE_MODE_DISABLE: master slave mode disable + \param[out] none + \retval none +*/ +void timer_master_slave_mode_config(uint32_t timer_periph, uint32_t masterslave) +{ + if(TIMER_MASTER_SLAVE_MODE_ENABLE == masterslave){ + TIMER_SMCFG(timer_periph) |= (uint32_t)TIMER_SMCFG_MSM; + }else if(TIMER_MASTER_SLAVE_MODE_DISABLE == masterslave){ + TIMER_SMCFG(timer_periph) &= ~(uint32_t)TIMER_SMCFG_MSM; + }else{ + /* illegal parameters */ + } +} + +/*! + \brief configure TIMER external trigger input + \param[in] timer_periph: TIMERx(x=0..4,7) + \param[in] extprescaler: + only one parameter can be selected which is shown as below: + \arg TIMER_EXT_TRI_PSC_OFF: no divided + \arg TIMER_EXT_TRI_PSC_DIV2: divided by 2 + \arg TIMER_EXT_TRI_PSC_DIV4: divided by 4 + \arg TIMER_EXT_TRI_PSC_DIV8: divided by 8 + \param[in] extpolarity: + only one parameter can be selected which is shown as below: + \arg TIMER_ETP_FALLING: active low or falling edge active + \arg TIMER_ETP_RISING: active high or rising edge active + \param[in] extfilter: a value between 0 and 15 + \param[out] none + \retval none +*/ +void timer_external_trigger_config(uint32_t timer_periph, uint32_t extprescaler, + uint32_t extpolarity, uint32_t extfilter) +{ + TIMER_SMCFG(timer_periph) &= (~(uint32_t)(TIMER_SMCFG_ETP | TIMER_SMCFG_ETPSC | TIMER_SMCFG_ETFC)); + TIMER_SMCFG(timer_periph) |= (uint32_t)(extprescaler | extpolarity); + TIMER_SMCFG(timer_periph) |= (uint32_t)(extfilter << 8U); +} + +/*! + \brief configure TIMER quadrature decoder mode + \param[in] timer_periph: TIMERx(x=0..4,7) + \param[in] decomode: + only one parameter can be selected which is shown as below: + \arg TIMER_ENCODER_MODE0: counter counts on CI0FE0 edge depending on CI1FE1 level + \arg TIMER_ENCODER_MODE1: counter counts on CI1FE1 edge depending on CI0FE0 level + \arg TIMER_ENCODER_MODE2: counter counts on both CI0FE0 and CI1FE1 edges depending on the level of the other input + \param[in] ic0polarity: + only one parameter can be selected which is shown as below: + \arg TIMER_IC_POLARITY_RISING: capture rising edge + \arg TIMER_IC_POLARITY_FALLING: capture falling edge + \param[in] ic1polarity: + only one parameter can be selected which is shown as below: + \arg TIMER_IC_POLARITY_RISING: capture rising edge + \arg TIMER_IC_POLARITY_FALLING: capture falling edge + \param[out] none + \retval none +*/ +void timer_quadrature_decoder_mode_config(uint32_t timer_periph, uint32_t decomode, + uint16_t ic0polarity, uint16_t ic1polarity) +{ + TIMER_SMCFG(timer_periph) &= (~(uint32_t)TIMER_SMCFG_SMC); + TIMER_SMCFG(timer_periph) |= (uint32_t)decomode; + + TIMER_CHCTL0(timer_periph) &= (uint32_t)(((~(uint32_t)TIMER_CHCTL0_CH0MS))&((~(uint32_t)TIMER_CHCTL0_CH1MS))); + TIMER_CHCTL0(timer_periph) |= (uint32_t)(TIMER_IC_SELECTION_DIRECTTI|((uint32_t)TIMER_IC_SELECTION_DIRECTTI << 8U)); + + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH0P|TIMER_CHCTL2_CH0NP)); + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH1P|TIMER_CHCTL2_CH1NP)); + TIMER_CHCTL2(timer_periph) |= ((uint32_t)ic0polarity|((uint32_t)ic1polarity << 4U)); +} + +/*! + \brief configure TIMER internal clock mode + \param[in] timer_periph: TIMERx(x=0..4,7,8,11) + \param[out] none + \retval none +*/ +void timer_internal_clock_config(uint32_t timer_periph) +{ + TIMER_SMCFG(timer_periph) &= ~(uint32_t)TIMER_SMCFG_SMC; +} + +/*! + \brief configure TIMER the internal trigger as external clock input + \param[in] timer_periph: TIMERx(x=0..4,7,8,11) + \param[in] intrigger: + only one parameter can be selected which is shown as below: + \arg TIMER_SMCFG_TRGSEL_ITI0: internal trigger 0 + \arg TIMER_SMCFG_TRGSEL_ITI1: internal trigger 1 + \arg TIMER_SMCFG_TRGSEL_ITI2: internal trigger 2 + \arg TIMER_SMCFG_TRGSEL_ITI3: internal trigger 3 + \param[out] none + \retval none +*/ +void timer_internal_trigger_as_external_clock_config(uint32_t timer_periph, uint32_t intrigger) +{ + timer_input_trigger_source_select(timer_periph, intrigger); + TIMER_SMCFG(timer_periph) &= ~(uint32_t)TIMER_SMCFG_SMC; + TIMER_SMCFG(timer_periph) |= (uint32_t)TIMER_SLAVE_MODE_EXTERNAL0; +} + +/*! + \brief configure TIMER the external trigger as external clock input + \param[in] timer_periph: TIMERx(x=0..4,7,8,11) + \param[in] extrigger: + only one parameter can be selected which is shown as below: + \arg TIMER_SMCFG_TRGSEL_CI0F_ED: TI0 edge detector + \arg TIMER_SMCFG_TRGSEL_CI0FE0: filtered TIMER input 0 + \arg TIMER_SMCFG_TRGSEL_CI1FE1: filtered TIMER input 1 + \param[in] extpolarity: + only one parameter can be selected which is shown as below: + \arg TIMER_IC_POLARITY_RISING: active high or rising edge active + \arg TIMER_IC_POLARITY_FALLING: active low or falling edge active + \param[in] extfilter: a value between 0 and 15 + \param[out] none + \retval none +*/ +void timer_external_trigger_as_external_clock_config(uint32_t timer_periph, uint32_t extrigger, + uint16_t extpolarity, uint32_t extfilter) +{ + if(TIMER_SMCFG_TRGSEL_CI1FE1 == extrigger){ + /* reset the CH1EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH1EN); + /* reset the CH1NP bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH1P|TIMER_CHCTL2_CH1NP)); + /* set the CH1NP bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)((uint32_t)extpolarity << 4U); + /* reset the CH1MS bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1MS); + /* set the CH1MS bit */ + TIMER_CHCTL0(timer_periph) |= (uint32_t)((uint32_t)TIMER_IC_SELECTION_DIRECTTI << 8U); + /* reset the CH1CAPFLT bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH1CAPFLT); + /* set the CH1CAPFLT bit */ + TIMER_CHCTL0(timer_periph) |= (uint32_t)(extfilter << 12U); + /* set the CH1EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)TIMER_CHCTL2_CH1EN; + }else{ + /* reset the CH0EN bit */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)TIMER_CHCTL2_CH0EN); + /* reset the CH0P and CH0NP bits */ + TIMER_CHCTL2(timer_periph) &= (~(uint32_t)(TIMER_CHCTL2_CH0P|TIMER_CHCTL2_CH0NP)); + /* set the CH0P and CH0NP bits */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)extpolarity; + /* reset the CH0MS bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0MS); + /* set the CH0MS bit */ + TIMER_CHCTL0(timer_periph) |= (uint32_t)TIMER_IC_SELECTION_DIRECTTI; + /* reset the CH0CAPFLT bit */ + TIMER_CHCTL0(timer_periph) &= (~(uint32_t)TIMER_CHCTL0_CH0CAPFLT); + /* reset the CH0CAPFLT bit */ + TIMER_CHCTL0(timer_periph) |= (uint32_t)(extfilter << 4U); + /* set the CH0EN bit */ + TIMER_CHCTL2(timer_periph) |= (uint32_t)TIMER_CHCTL2_CH0EN; + } + /* select TIMER input trigger source */ + timer_input_trigger_source_select(timer_periph,extrigger); + /* reset the SMC bit */ + TIMER_SMCFG(timer_periph) &= (~(uint32_t)TIMER_SMCFG_SMC); + /* set the SMC bit */ + TIMER_SMCFG(timer_periph) |= (uint32_t)TIMER_SLAVE_MODE_EXTERNAL0; +} + +/*! + \brief configure TIMER the external clock mode0 + \param[in] timer_periph: TIMERx(x=0..4,7,8,11) + \param[in] extprescaler: + only one parameter can be selected which is shown as below: + \arg TIMER_EXT_TRI_PSC_OFF: no divided + \arg TIMER_EXT_TRI_PSC_DIV2: divided by 2 + \arg TIMER_EXT_TRI_PSC_DIV4: divided by 4 + \arg TIMER_EXT_TRI_PSC_DIV8: divided by 8 + \param[in] extpolarity: + only one parameter can be selected which is shown as below: + \arg TIMER_ETP_FALLING: active low or falling edge active + \arg TIMER_ETP_RISING: active high or rising edge active + \param[in] extfilter: a value between 0 and 15 + \param[out] none + \retval none +*/ +void timer_external_clock_mode0_config(uint32_t timer_periph, uint32_t extprescaler, + uint32_t extpolarity, uint32_t extfilter) +{ + /* configure TIMER external trigger input */ + timer_external_trigger_config(timer_periph, extprescaler, extpolarity, extfilter); + + /* reset the SMC bit,TRGS bit */ + TIMER_SMCFG(timer_periph) &= (~(uint32_t)(TIMER_SMCFG_SMC | TIMER_SMCFG_TRGS)); + /* set the SMC bit,TRGS bit */ + TIMER_SMCFG(timer_periph) |= (uint32_t)(TIMER_SLAVE_MODE_EXTERNAL0 | TIMER_SMCFG_TRGSEL_ETIFP); +} + +/*! + \brief configure TIMER the external clock mode1 + \param[in] timer_periph: TIMERx(x=0..4,7) + \param[in] extprescaler: + only one parameter can be selected which is shown as below: + \arg TIMER_EXT_TRI_PSC_OFF: no divided + \arg TIMER_EXT_TRI_PSC_DIV2: divided by 2 + \arg TIMER_EXT_TRI_PSC_DIV4: divided by 4 + \arg TIMER_EXT_TRI_PSC_DIV8: divided by 8 + \param[in] extpolarity: + only one parameter can be selected which is shown as below: + \arg TIMER_ETP_FALLING: active low or falling edge active + \arg TIMER_ETP_RISING: active high or rising edge active + \param[in] extfilter: a value between 0 and 15 + \param[out] none + \retval none +*/ +void timer_external_clock_mode1_config(uint32_t timer_periph, uint32_t extprescaler, + uint32_t extpolarity, uint32_t extfilter) +{ + /* configure TIMER external trigger input */ + timer_external_trigger_config(timer_periph, extprescaler, extpolarity, extfilter); + + TIMER_SMCFG(timer_periph) |= (uint32_t)TIMER_SMCFG_SMC1; +} + +/*! + \brief disable TIMER the external clock mode1 + \param[in] timer_periph: TIMERx(x=0..4,7) + \param[out] none + \retval none +*/ +void timer_external_clock_mode1_disable(uint32_t timer_periph) +{ + TIMER_SMCFG(timer_periph) &= ~(uint32_t)TIMER_SMCFG_SMC1; +} + +/*! + \brief configure TIMER write CHxVAL register selection + \param[in] timer_periph: TIMERx(x=0..4,7..13) + \param[in] ccsel: + only one parameter can be selected which is shown as below: + \arg TIMER_CHVSEL_DISABLE: no effect + \arg TIMER_CHVSEL_ENABLE: when write the CHxVAL register, if the write value is same as the CHxVAL value, the write access is ignored + \param[out] none + \retval none +*/ +void timer_write_chxval_register_config(uint32_t timer_periph, uint16_t ccsel) +{ + if(TIMER_CHVSEL_ENABLE == ccsel){ + TIMER_CFG(timer_periph) |= (uint32_t)TIMER_CFG_CHVSEL; + }else if(TIMER_CHVSEL_DISABLE == ccsel){ + TIMER_CFG(timer_periph) &= ~(uint32_t)TIMER_CFG_CHVSEL; + }else{ + /* illegal parameters */ + } +} + +/*! + \brief configure TIMER output value selection + \param[in] timer_periph: TIMERx(x=0,7) + \param[in] outsel: + only one parameter can be selected which is shown as below: + \arg TIMER_OUTSEL_DISABLE: no effect + \arg TIMER_OUTSEL_ENABLE: if POEN and IOS is 0, the output disabled + \param[out] none + \retval none +*/ +void timer_output_value_selection_config(uint32_t timer_periph, uint16_t outsel) +{ + if(TIMER_OUTSEL_ENABLE == outsel){ + TIMER_CFG(timer_periph) |= (uint32_t)TIMER_CFG_OUTSEL; + }else if(TIMER_OUTSEL_DISABLE == outsel){ + TIMER_CFG(timer_periph) &= ~(uint32_t)TIMER_CFG_OUTSEL; + }else{ + /* illegal parameters */ + } +} diff --git a/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_usart.c b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_usart.c new file mode 100644 index 0000000000..719f565174 --- /dev/null +++ b/TFT/src/Libraries/fwlib/gd32f30x/scr/gd32f30x_usart.c @@ -0,0 +1,909 @@ +/*! + \file gd32f30x_usart.c + \brief USART driver + + \version 2017-02-10, V1.0.0, firmware for GD32F30x + \version 2018-10-10, V1.1.0, firmware for GD32F30x + \version 2018-12-25, V2.0.0, firmware for GD32F30x + \version 2020-09-30, V2.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2020, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "gd32f30x_usart.h" + +/* USART register bit offset */ +#define GP_GUAT_OFFSET ((uint32_t)8U) /* bit offset of GUAT in USART_GP */ +#define CTL3_SCRTNUM_OFFSET ((uint32_t)1U) /* bit offset of SCRTNUM in USART_CTL3 */ +#define RT_BL_OFFSET ((uint32_t)24U) /* bit offset of BL in USART_RT */ + +/*! + \brief reset USART/UART + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_deinit(uint32_t usart_periph) +{ + switch(usart_periph){ + case USART0: + /* reset USART0 */ + rcu_periph_reset_enable(RCU_USART0RST); + rcu_periph_reset_disable(RCU_USART0RST); + break; + case USART1: + /* reset USART1 */ + rcu_periph_reset_enable(RCU_USART1RST); + rcu_periph_reset_disable(RCU_USART1RST); + break; + case USART2: + /* reset USART2 */ + rcu_periph_reset_enable(RCU_USART2RST); + rcu_periph_reset_disable(RCU_USART2RST); + break; + case UART3: + /* reset UART3 */ + rcu_periph_reset_enable(RCU_UART3RST); + rcu_periph_reset_disable(RCU_UART3RST); + break; + case UART4: + /* reset UART4 */ + rcu_periph_reset_enable(RCU_UART4RST); + rcu_periph_reset_disable(RCU_UART4RST); + break; + default: + break; + } +} + +/*! + \brief configure USART baud rate value + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[in] baudval: baud rate value + \param[out] none + \retval none +*/ +void usart_baudrate_set(uint32_t usart_periph, uint32_t baudval) +{ + uint32_t uclk=0U, intdiv=0U, fradiv=0U, udiv=0U; + switch(usart_periph){ + /* get clock frequency */ + case USART0: + /* get USART0 clock */ + uclk = rcu_clock_freq_get(CK_APB2); + break; + case USART1: + /* get USART1 clock */ + uclk = rcu_clock_freq_get(CK_APB1); + break; + case USART2: + /* get USART2 clock */ + uclk = rcu_clock_freq_get(CK_APB1); + break; + case UART3: + /* get UART3 clock */ + uclk = rcu_clock_freq_get(CK_APB1); + break; + case UART4: + /* get UART4 clock */ + uclk = rcu_clock_freq_get(CK_APB1); + break; + default: + break; + } + /* oversampling by 16, configure the value of USART_BAUD */ + udiv = (uclk+baudval/2U)/baudval; + intdiv = udiv & 0xfff0U; + fradiv = udiv & 0xfU; + USART_BAUD(usart_periph) = ((USART_BAUD_FRADIV | USART_BAUD_INTDIV) & (intdiv | fradiv)); +} + +/*! + \brief configure USART parity + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[in] paritycfg: configure USART parity + only one parameter can be selected which is shown as below: + \arg USART_PM_NONE: no parity + \arg USART_PM_ODD: odd parity + \arg USART_PM_EVEN: even parity + \param[out] none + \retval none +*/ +void usart_parity_config(uint32_t usart_periph, uint32_t paritycfg) +{ + /* clear USART_CTL0 PM,PCEN bits */ + USART_CTL0(usart_periph) &= ~(USART_CTL0_PM | USART_CTL0_PCEN); + /* configure USART parity mode */ + USART_CTL0(usart_periph) |= paritycfg ; +} + +/*! + \brief configure USART word length + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[in] wlen: USART word length configure + only one parameter can be selected which is shown as below: + \arg USART_WL_8BIT: 8 bits + \arg USART_WL_9BIT: 9 bits + \param[out] none + \retval none +*/ +void usart_word_length_set(uint32_t usart_periph, uint32_t wlen) +{ + /* clear USART_CTL0 WL bit */ + USART_CTL0(usart_periph) &= ~USART_CTL0_WL; + /* configure USART word length */ + USART_CTL0(usart_periph) |= wlen; +} + +/*! + \brief configure USART stop bit length + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[in] stblen: USART stop bit configure + only one parameter can be selected which is shown as below: + \arg USART_STB_1BIT: 1 bit + \arg USART_STB_0_5BIT: 0.5 bit, not available for UARTx(x=3,4) + \arg USART_STB_2BIT: 2 bits + \arg USART_STB_1_5BIT: 1.5 bits, not available for UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_stop_bit_set(uint32_t usart_periph, uint32_t stblen) +{ + /* clear USART_CTL1 STB bits */ + USART_CTL1(usart_periph) &= ~USART_CTL1_STB; + /* configure USART stop bits */ + USART_CTL1(usart_periph) |= stblen; +} + +/*! + \brief enable USART + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_enable(uint32_t usart_periph) +{ + USART_CTL0(usart_periph) |= USART_CTL0_UEN; +} + +/*! + \brief disable USART + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_disable(uint32_t usart_periph) +{ + USART_CTL0(usart_periph) &= ~(USART_CTL0_UEN); +} + +/*! + \brief configure USART transmitter + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[in] txconfig: enable or disable USART transmitter + only one parameter can be selected which is shown as below: + \arg USART_TRANSMIT_ENABLE: enable USART transmission + \arg USART_TRANSMIT_DISABLE: enable USART transmission + \param[out] none + \retval none +*/ +void usart_transmit_config(uint32_t usart_periph, uint32_t txconfig) +{ + uint32_t ctl = 0U; + + ctl = USART_CTL0(usart_periph); + ctl &= ~USART_CTL0_TEN; + ctl |= txconfig; + /* configure transfer mode */ + USART_CTL0(usart_periph) = ctl; +} + +/*! + \brief configure USART receiver + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[in] rxconfig: enable or disable USART receiver + only one parameter can be selected which is shown as below: + \arg USART_RECEIVE_ENABLE: enable USART reception + \arg USART_RECEIVE_DISABLE: disable USART reception + \param[out] none + \retval none +*/ +void usart_receive_config(uint32_t usart_periph, uint32_t rxconfig) +{ + uint32_t ctl = 0U; + + ctl = USART_CTL0(usart_periph); + ctl &= ~USART_CTL0_REN; + ctl |= rxconfig; + /* configure transfer mode */ + USART_CTL0(usart_periph) = ctl; +} + +/*! + \brief data is transmitted/received with the LSB/MSB first + \param[in] usart_periph: USARTx(x=0,1,2) + \param[in] msbf: LSB/MSB + only one parameter can be selected which is shown as below: + \arg USART_MSBF_LSB: LSB first + \arg USART_MSBF_MSB: MSB first + \param[out] none + \retval none +*/ +void usart_data_first_config(uint32_t usart_periph, uint32_t msbf) +{ + USART_CTL3(usart_periph) &= ~(USART_CTL3_MSBF); + USART_CTL3(usart_periph) |= msbf; +} + +/*! + \brief configure USART inversion + \param[in] usart_periph: USARTx(x=0,1,2) + \param[in] invertpara: refer to enum usart_invert_enum + only one parameter can be selected which is shown as below: + \arg USART_DINV_ENABLE: data bit level inversion + \arg USART_DINV_DISABLE: data bit level not inversion + \arg USART_TXPIN_ENABLE: TX pin level inversion + \arg USART_TXPIN_DISABLE: TX pin level not inversion + \arg USART_RXPIN_ENABLE: RX pin level inversion + \arg USART_RXPIN_DISABLE: RX pin level not inversion + \param[out] none + \retval none +*/ +void usart_invert_config(uint32_t usart_periph, usart_invert_enum invertpara) +{ + /* inverted or not the specified siginal */ + switch(invertpara){ + case USART_DINV_ENABLE: + /* data bit level inversion */ + USART_CTL3(usart_periph) |= USART_CTL3_DINV; + break; + case USART_TXPIN_ENABLE: + /* TX pin level inversion */ + USART_CTL3(usart_periph) |= USART_CTL3_TINV; + break; + case USART_RXPIN_ENABLE: + /* RX pin level inversion */ + USART_CTL3(usart_periph) |= USART_CTL3_RINV; + break; + case USART_DINV_DISABLE: + /* data bit level not inversion */ + USART_CTL3(usart_periph) &= ~(USART_CTL3_DINV); + break; + case USART_TXPIN_DISABLE: + /* TX pin level not inversion */ + USART_CTL3(usart_periph) &= ~(USART_CTL3_TINV); + break; + case USART_RXPIN_DISABLE: + /* RX pin level not inversion */ + USART_CTL3(usart_periph) &= ~(USART_CTL3_RINV); + break; + default: + break; + } +} + +/*! + \brief enable receiver timeout of USART + \param[in] usart_periph: USARTx(x=0,1,2) + \param[out] none + \retval none +*/ +void usart_receiver_timeout_enable(uint32_t usart_periph) +{ + USART_CTL3(usart_periph) |= USART_CTL3_RTEN; +} + +/*! + \brief disable receiver timeout of USART + \param[in] usart_periph: USARTx(x=0,1,2) + \param[out] none + \retval none +*/ +void usart_receiver_timeout_disable(uint32_t usart_periph) +{ + USART_CTL3(usart_periph) &= ~(USART_CTL3_RTEN); +} + +/*! + \brief set the receiver timeout threshold of USART + \param[in] usart_periph: USARTx(x=0,1,2) + \param[in] rtimeout: 0-0xFFFFFF + \param[out] none + \retval none +*/ +void usart_receiver_timeout_threshold_config(uint32_t usart_periph, uint32_t rtimeout) +{ + USART_RT(usart_periph) &= ~(USART_RT_RT); + USART_RT(usart_periph) |= rtimeout; +} + +/*! + \brief USART transmit data function + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[in] data: data of transmission + \param[out] none + \retval none +*/ +void usart_data_transmit(uint32_t usart_periph, uint32_t data) +{ + USART_DATA(usart_periph) = ((uint16_t)USART_DATA_DATA & data); +} + +/*! + \brief USART receive data function + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval data of received +*/ +uint16_t usart_data_receive(uint32_t usart_periph) +{ + return (uint16_t)(GET_BITS(USART_DATA(usart_periph), 0U, 8U)); +} + +/*! + \brief configure the address of the USART in wake up by address match mode + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[in] addr: address of USART/UART + \param[out] none + \retval none +*/ +void usart_address_config(uint32_t usart_periph, uint8_t addr) +{ + USART_CTL1(usart_periph) &= ~(USART_CTL1_ADDR); + USART_CTL1(usart_periph) |= (USART_CTL1_ADDR & addr); +} + +/*! + \brief receiver in mute mode + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_mute_mode_enable(uint32_t usart_periph) +{ + USART_CTL0(usart_periph) |= USART_CTL0_RWU; +} + +/*! + \brief receiver in active mode + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_mute_mode_disable(uint32_t usart_periph) +{ + USART_CTL0(usart_periph) &= ~(USART_CTL0_RWU); +} + +/*! + \brief configure wakeup method in mute mode + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[in] wmethod: two methods be used to enter or exit the mute mode + only one parameter can be selected which is shown as below: + \arg USART_WM_IDLE: idle line + \arg USART_WM_ADDR: address mask + \param[out] none + \retval none +*/ +void usart_mute_mode_wakeup_config(uint32_t usart_periph, uint32_t wmethod) +{ + USART_CTL0(usart_periph) &= ~(USART_CTL0_WM); + USART_CTL0(usart_periph) |= wmethod; +} + +/*! + \brief enable LIN mode + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_lin_mode_enable(uint32_t usart_periph) +{ + USART_CTL1(usart_periph) |= USART_CTL1_LMEN; +} + +/*! + \brief disable LIN mode + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_lin_mode_disable(uint32_t usart_periph) +{ + USART_CTL1(usart_periph) &= ~(USART_CTL1_LMEN); +} + +/*! + \brief configure lin break frame length + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[in] lblen: lin break frame length + only one parameter can be selected which is shown as below: + \arg USART_LBLEN_10B: 10 bits + \arg USART_LBLEN_11B: 11 bits + \param[out] none + \retval none +*/ +void usart_lin_break_detection_length_config(uint32_t usart_periph, uint32_t lblen) +{ + USART_CTL1(usart_periph) &= ~(USART_CTL1_LBLEN); + USART_CTL1(usart_periph) |= (USART_CTL1_LBLEN & lblen); +} + +/*! + \brief send break frame + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_send_break(uint32_t usart_periph) +{ + USART_CTL0(usart_periph) |= USART_CTL0_SBKCMD; +} + +/*! + \brief enable half duplex mode + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_halfduplex_enable(uint32_t usart_periph) +{ + USART_CTL2(usart_periph) |= USART_CTL2_HDEN; +} + +/*! + \brief disable half duplex mode + \param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4) + \param[out] none + \retval none +*/ +void usart_halfduplex_disable(uint32_t usart_periph) +{ + USART_CTL2(usart_periph) &= ~(USART_CTL2_HDEN); +} + +/*! + \brief enable CK pin in synchronous mode + \param[in] usart_periph: USARTx(x=0,1,2) + \param[out] none + \retval none +*/ +void usart_synchronous_clock_enable(uint32_t usart_periph) +{ + USART_CTL1(usart_periph) |= USART_CTL1_CKEN; +} + +/*! + \brief disable CK pin in synchronous mode + \param[in] usart_periph: USARTx(x=0,1,2) + \param[out] none + \retval none +*/ +void usart_synchronous_clock_disable(uint32_t usart_periph) +{ + USART_CTL1(usart_periph) &= ~(USART_CTL1_CKEN); +} + +/*! + \brief configure USART synchronous mode parameters + \param[in] usart_periph: USARTx(x=0,1,2) + \param[in] clen: CK length + only one parameter can be selected which is shown as below: + \arg USART_CLEN_NONE: there are 7 CK pulses for an 8 bit frame and 8 CK pulses for a 9 bit frame + \arg USART_CLEN_EN: there are 8 CK pulses for an 8 bit frame and 9 CK pulses for a 9 bit frame + \param[in] cph: clock phase + only one parameter can be selected which is shown as below: + \arg USART_CPH_1CK: first clock transition is the first data capture edge + \arg USART_CPH_2CK: second clock transition is the first data capture edge + \param[in] cpl: clock polarity + only one parameter can be selected which is shown as below: + \arg USART_CPL_LOW: steady low value on CK pin + \arg USART_CPL_HIGH: steady high value on CK pin + \param[out] none + \retval none +*/ +void usart_synchronous_clock_config(uint32_t usart_periph, uint32_t clen, uint32_t cph, uint32_t cpl) +{ + uint32_t ctl = 0U; + + /* read USART_CTL1 register */ + ctl = USART_CTL1(usart_periph); + ctl &= ~(USART_CTL1_CLEN | USART_CTL1_CPH | USART_CTL1_CPL); + /* set CK length, CK phase, CK polarity */ + ctl |= (USART_CTL1_CLEN & clen) | (USART_CTL1_CPH & cph) | (USART_CTL1_CPL & cpl); + + USART_CTL1(usart_periph) = ctl; +} + +/*! + \brief configure guard time value in smartcard mode + \param[in] usart_periph: USARTx(x=0,1,2) + \param[in] guat: guard time value, 0-0xFF + \param[out] none + \retval none +*/ +void usart_guard_time_config(uint32_t usart_periph,uint32_t guat) +{ + USART_GP(usart_periph) &= ~(USART_GP_GUAT); + USART_GP(usart_periph) |= (USART_GP_GUAT & ((guat)<rccClocks); #else RCC_GetClocksFreq(&clk->rccClocks); @@ -27,7 +27,7 @@ void HW_GetClocksFreq(CLOCKS *clk) void HW_Init(void) { HW_GetClocksFreq(&mcuClocks); -#ifdef GD32F2XX +#if defined GD32F2XX || defined GD32F3XX nvic_priority_group_set(NVIC_PRIGROUP_PRE2_SUB2); #else NVIC_PriorityGroupConfig(NVIC_PriorityGroup_2); @@ -42,9 +42,14 @@ void HW_Init(void) DISABLE_DEBUG(); // disable JTAG & SWD #endif - #if defined(MKS_TFT) && !defined (MKS_TFT35_V1_0) // not used by MKS_TFT35_V1_0 - RCC_APB2PeriphClockCmd(RCC_APB2Periph_AFIO, ENABLE); - GPIO_PinRemapConfig(GPIO_Remap_USART2, ENABLE); + #if defined(MKS_TFT) && !defined (MKS_TFT35_V1_0) // not used by MKS_TFT35_V1_0 + #if defined (GD32F3XX) + rcu_periph_clock_enable(RCU_AF); + gpio_pin_remap_config(GPIO_USART1_REMAP, ENABLE); + #else + RCC_APB2PeriphClockCmd(RCC_APB2Periph_AFIO, ENABLE); + GPIO_PinRemapConfig(GPIO_Remap_USART2, ENABLE); + #endif #endif XPT2046_Init(); diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_core.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_core.h new file mode 100644 index 0000000000..ad5dccb66a --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_core.h @@ -0,0 +1,163 @@ +/*! + \file drv_usb_core.h + \brief USB core low level driver header file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __DRV_USB_CORE_H +#define __DRV_USB_CORE_H + +#include "drv_usb_regs.h" +#include "usb_ch9_std.h" + +#define USB_FS_EP0_MAX_LEN 64U /*!< maximum packet size of endpoint 0 */ +#define HC_MAX_PACKET_COUNT 140U /*!< maximum packet count */ + +#define EP_ID(x) ((uint8_t)((x) & 0x7FU)) /*!< endpoint number */ +#define EP_DIR(x) ((uint8_t)((x) >> 7)) /*!< endpoint direction */ + +enum _usb_mode { + DEVICE_MODE = 0U, /*!< device mode */ + HOST_MODE, /*!< host mode */ + OTG_MODE /*!< OTG mode */ +}; + +enum _usb_eptype { + USB_EPTYPE_CTRL = 0U, /*!< control endpoint type */ + USB_EPTYPE_ISOC = 1U, /*!< isochronous endpoint type */ + USB_EPTYPE_BULK = 2U, /*!< bulk endpoint type */ + USB_EPTYPE_INTR = 3U, /*!< interrupt endpoint type */ + USB_EPTYPE_MASK = 3U /*!< endpoint type mask */ +}; + +typedef enum +{ + USB_OTG_OK = 0U, /*!< USB OTG status OK*/ + USB_OTG_FAIL /*!< USB OTG status fail*/ +} usb_otg_status; + +typedef enum +{ + USB_OK = 0U, /*!< USB status OK*/ + USB_FAIL /*!< USB status fail*/ +} usb_status; + +typedef enum +{ + USB_USE_FIFO, /*!< USB use FIFO transfer mode */ +} usb_transfer_mode; + +typedef struct +{ + uint8_t core_enum; /*!< USB core type */ + uint8_t core_speed; /*!< USB core speed */ + uint8_t num_pipe; /*!< USB host channel numbers */ + uint8_t num_ep; /*!< USB device endpoint numbers */ + uint8_t transfer_mode; /*!< USB transfer mode */ + uint8_t phy_itf; /*!< USB core PHY interface */ + uint8_t sof_enable; /*!< USB SOF output */ + uint8_t low_power; /*!< USB low power */ + uint8_t lpm_enable; /*!< USB link power mode(LPM) */ + uint8_t vbus_sensing_enable; /*!< USB VBUS sensing feature */ + uint8_t use_dedicated_ep1; /*!< USB dedicated endpoint1 interrupt */ + uint8_t use_external_vbus; /*!< enable or disable the use of the external VBUS */ + uint32_t base_reg; /*!< base register address */ +} usb_core_basic; + +/* static inline function definitions */ + +/*! + \brief get the global interrupts + \param[in] usb_regs: pointer to USB core registers + \param[out] none + \retval interrupt status +*/ +__STATIC_INLINE uint32_t usb_coreintr_get(usb_core_regs *usb_regs) +{ + return usb_regs->gr->GINTEN & usb_regs->gr->GINTF; +} + +/*! + \brief set USB RX FIFO size + \param[in] usb_regs: pointer to USB core registers + \param[in] size: assigned FIFO size + \param[out] none + \retval none +*/ +__STATIC_INLINE void usb_set_rxfifo(usb_core_regs *usb_regs, uint16_t size) +{ + usb_regs->gr->GRFLEN = size; +} + +/*! + \brief enable the global interrupts + \param[in] usb_regs: pointer to USB core registers + \param[out] none + \retval none +*/ +__STATIC_INLINE void usb_globalint_enable(usb_core_regs *usb_regs) +{ + /* enable USB global interrupt */ + usb_regs->gr->GAHBCS |= GAHBCS_GINTEN; +} + +/*! + \brief disable the global interrupts + \param[in] usb_regs: pointer to USB core registers + \param[out] none + \retval none +*/ +__STATIC_INLINE void usb_globalint_disable(usb_core_regs *usb_regs) +{ + /* disable USB global interrupt */ + usb_regs->gr->GAHBCS &= ~GAHBCS_GINTEN; +} + +/* function declarations */ +/* configure core capabilities */ +usb_status usb_basic_init (usb_core_basic *usb_basic, usb_core_regs *usb_regs, usb_core_enum usb_core); +/* initializes the USB controller registers and prepares the core device mode or host mode operation */ +usb_status usb_core_init (usb_core_basic usb_basic, usb_core_regs *usb_regs); +/* write a packet into the Tx FIFO associated with the endpoint */ +usb_status usb_txfifo_write (usb_core_regs *usb_regs, uint8_t *src_buf, uint8_t fifo_num, uint16_t byte_count); +/* read a packet from the Rx FIFO associated with the endpoint */ +void *usb_rxfifo_read (usb_core_regs *usb_regs, uint8_t *dest_buf, uint16_t byte_count); +/* flush a Tx FIFO or all Tx FIFOs */ +usb_status usb_txfifo_flush (usb_core_regs *usb_regs, uint8_t fifo_num); +/* flush the entire Rx FIFO */ +usb_status usb_rxfifo_flush (usb_core_regs *usb_regs); +/* set endpoint or channel TX FIFO size */ +void usb_set_txfifo(usb_core_regs *usb_regs, uint8_t fifo, uint16_t size); +/* set USB current mode */ +void usb_curmode_set(usb_core_regs *usb_regs, uint8_t mode); + +#endif /* __DRV_USB_CORE_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_dev.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_dev.h new file mode 100644 index 0000000000..f0ffeeadc7 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_dev.h @@ -0,0 +1,303 @@ +/*! + \file drv_usb_dev.h + \brief USB device low level driver header file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2020-12-07, V3.0.1, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __DRV_USB_DEV_H +#define __DRV_USB_DEV_H + +#include "usbd_conf.h" +#include "drv_usb_core.h" + +enum usb_ctl_status +{ + USB_CTL_IDLE = 0U, /*!< USB control transfer idle state */ + USB_CTL_DATA_IN, /*!< USB control transfer data in state */ + USB_CTL_LAST_DATA_IN, /*!< USB control transfer last data in state */ + USB_CTL_DATA_OUT, /*!< USB control transfer data out state */ + USB_CTL_LAST_DATA_OUT, /*!< USB control transfer last data out state */ + USB_CTL_STATUS_IN, /*!< USB control transfer status in state*/ + USB_CTL_STATUS_OUT /*!< USB control transfer status out state */ +}; + +#define EP_IN(x) ((uint8_t)(0x80U | (x))) /*!< device IN endpoint */ +#define EP_OUT(x) ((uint8_t)(x)) /*!< device OUT endpoint */ + +/* USB descriptor */ +typedef struct _usb_desc +{ + uint8_t *dev_desc; /*!< device descriptor */ + uint8_t *config_desc; /*!< configure descriptor */ + uint8_t *bos_desc; /*!< BOS descriptor */ + + void* const *strings; /*!< string descriptor */ +} usb_desc; + +/* USB power management */ +typedef struct _usb_pm +{ + uint8_t power_mode; /*!< power mode */ + uint8_t power_low; /*!< power low */ + uint8_t dev_remote_wakeup; /*!< remote wakeup */ + uint8_t remote_wakeup_on; /*!< remote wakeup on */ +} usb_pm; + +/* USB control information */ +typedef struct _usb_control +{ + usb_req req; /*!< USB standard device request */ + + uint8_t ctl_state; /*!< USB control transfer state */ + uint8_t ctl_zlp; /*!< zero length package */ +} usb_control; + +typedef struct +{ + struct { + uint8_t num: 4; /*!< the endpoint number.it can be from 0 to 6 */ + uint8_t pad: 3; /*!< padding between number and direction */ + uint8_t dir: 1; /*!< the endpoint direction */ + } ep_addr; + + uint8_t ep_type; /*!< USB endpoint type */ + uint8_t ep_stall; /*!< USB endpoint stall status */ + + uint8_t frame_num; /*!< number of frame */ + uint16_t max_len; /*!< Maximum packet length */ + + /* transaction level variables */ + uint8_t *xfer_buf; /*!< transmit buffer */ + uint32_t xfer_len; /*!< transmit buffer length */ + uint32_t xfer_count; /*!< transmit buffer count */ + + uint32_t remain_len; /*!< remain packet length */ +} usb_transc; + +typedef struct _usb_core_driver usb_dev; + +typedef struct _usb_class_core +{ + uint8_t command; /*!< device class request command */ + uint8_t alter_set; /*!< alternative set */ + + uint8_t (*init) (usb_dev *udev, uint8_t config_index); /*!< initialize handler */ + uint8_t (*deinit) (usb_dev *udev, uint8_t config_index); /*!< de-initialize handler */ + + uint8_t (*req_proc) (usb_dev *udev, usb_req *req); /*!< device request handler */ + + uint8_t (*set_intf) (usb_dev *udev, usb_req *req); /*!< device set interface callback */ + + uint8_t (*ctlx_in) (usb_dev *udev); /*!< device contrl in callback */ + uint8_t (*ctlx_out) (usb_dev *udev); /*!< device contrl out callback */ + + uint8_t (*data_in) (usb_dev *udev, uint8_t ep_num); /*!< device data in handler */ + uint8_t (*data_out) (usb_dev *udev, uint8_t ep_num); /*!< device data out handler */ + + uint8_t (*SOF) (usb_dev *udev); /*!< Start of frame handler */ + + uint8_t (*incomplete_isoc_in) (usb_dev *udev); /*!< Incomplete synchronization IN transfer handler */ + uint8_t (*incomplete_isoc_out) (usb_dev *udev); /*!< Incomplete synchronization OUT transfer handler */ +} usb_class_core; + +typedef struct _usb_perp_dev +{ + uint8_t config; /*!< configuration */ + uint8_t dev_addr; /*!< device address */ + + __IO uint8_t cur_status; /*!< current status */ + __IO uint8_t backup_status; /*!< backup status */ + + usb_transc transc_in[USBFS_MAX_TX_FIFOS]; /*!< endpoint IN transaction */ + usb_transc transc_out[USBFS_MAX_TX_FIFOS]; /*!< endpoint OUT transaction */ + + usb_pm pm; /*!< power management */ + usb_control control; /*!< USB control information */ + usb_desc *desc; /*!< USB descriptors pointer */ + usb_class_core *class_core; /*!< class driver */ + void *class_data[USBD_ITF_MAX_NUM]; /*!< class data pointer */ + void *user_data; /*!< user data pointer */ + void *pdata; /*!< reserved data pointer */ +} usb_perp_dev; + +typedef struct _usb_core_driver +{ + usb_core_basic bp; /*!< USB basic parameters */ + usb_core_regs regs; /*!< USB registers */ + usb_perp_dev dev; /*!< USB peripheral device */ +} usb_core_driver; + +/* static inline function definitions */ + +/*! + \brief configure the USB device to be disconnected + \param[in] udev: pointer to USB device + \param[out] none + \retval operation status +*/ +__STATIC_INLINE void usb_dev_disconnect (usb_core_driver *udev) +{ + udev->regs.dr->DCTL |= DCTL_SD; +} + +/*! + \brief configure the USB device to be connected + \param[in] udev: pointer to USB device + \param[out] none + \retval operation status +*/ +__STATIC_INLINE void usb_dev_connect (usb_core_driver *udev) +{ + udev->regs.dr->DCTL &= ~DCTL_SD; +} + +/*! + \brief set the USB device address + \param[in] udev: pointer to USB device + \param[in] dev_addr: device address for setting + \param[out] none + \retval operation status +*/ +__STATIC_INLINE void usb_devaddr_set (usb_core_driver *udev, uint8_t dev_addr) +{ + udev->regs.dr->DCFG &= ~DCFG_DAR; + udev->regs.dr->DCFG |= (uint32_t)dev_addr << 4U; +} + +/*! + \brief read device all OUT endpoint interrupt register + \param[in] udev: pointer to USB device + \param[out] none + \retval interrupt status +*/ +__STATIC_INLINE uint32_t usb_oepintnum_read (usb_core_driver *udev) +{ + uint32_t value = udev->regs.dr->DAEPINT; + + value &= udev->regs.dr->DAEPINTEN; + + return (value & DAEPINT_OEPITB) >> 16U; +} + +/*! + \brief read device OUT endpoint interrupt flag register + \param[in] udev: pointer to USB device + \param[in] ep_num: endpoint number + \param[out] none + \retval interrupt status +*/ +__STATIC_INLINE uint32_t usb_oepintr_read (usb_core_driver *udev, uint8_t ep_num) +{ + uint32_t value = udev->regs.er_out[ep_num]->DOEPINTF; + + value &= udev->regs.dr->DOEPINTEN; + + return value; +} + +/*! + \brief read device all IN endpoint interrupt register + \param[in] udev: pointer to USB device + \param[out] none + \retval interrupt status +*/ +__STATIC_INLINE uint32_t usb_iepintnum_read (usb_core_driver *udev) +{ + uint32_t value = udev->regs.dr->DAEPINT; + + value &= udev->regs.dr->DAEPINTEN; + + return value & DAEPINT_IEPITB; +} + +/*! + \brief set remote wakeup signaling + \param[in] udev: pointer to USB device + \param[out] none + \retval none +*/ +__STATIC_INLINE void usb_rwkup_set (usb_core_driver *udev) +{ + if (udev->dev.pm.dev_remote_wakeup) { + /* enable remote wakeup signaling */ + udev->regs.dr->DCTL |= DCTL_RWKUP; + } +} + +/*! + \brief reset remote wakeup signaling + \param[in] udev: pointer to USB device + \param[out] none + \retval none +*/ +__STATIC_INLINE void usb_rwkup_reset (usb_core_driver *udev) +{ + if (udev->dev.pm.dev_remote_wakeup) { + /* disable remote wakeup signaling */ + udev->regs.dr->DCTL &= ~DCTL_RWKUP; + } +} + +/* function declarations */ +/* initialize USB core registers for device mode */ +usb_status usb_devcore_init (usb_core_driver *udev); +/* enable the USB device mode interrupts */ +usb_status usb_devint_enable (usb_core_driver *udev); +/* active the USB endpoint 0 transaction */ +usb_status usb_transc0_active (usb_core_driver *udev, usb_transc *transc); +/* active the USB transaction */ +usb_status usb_transc_active (usb_core_driver *udev, usb_transc *transc); +/* deactivate the USB transaction */ +usb_status usb_transc_deactivate (usb_core_driver *udev, usb_transc *transc); +/* configure USB transaction to start IN transfer */ +usb_status usb_transc_inxfer (usb_core_driver *udev, usb_transc *transc); +/* configure USB transaction to start OUT transfer */ +usb_status usb_transc_outxfer (usb_core_driver *udev, usb_transc *transc); +/* set the USB transaction STALL status */ +usb_status usb_transc_stall (usb_core_driver *udev, usb_transc *transc); +/* clear the USB transaction STALL status */ +usb_status usb_transc_clrstall (usb_core_driver *udev, usb_transc *transc); +/* read device IN endpoint interrupt flag register */ +uint32_t usb_iepintr_read (usb_core_driver *udev, uint8_t ep_num); +/* configures OUT endpoint 0 to receive SETUP packets */ +void usb_ctlep_startout (usb_core_driver *udev); +/* active remote wakeup signaling */ +void usb_rwkup_active (usb_core_driver *udev); +/* active USB core clock */ +void usb_clock_active (usb_core_driver *udev); +/* USB device suspend */ +void usb_dev_suspend (usb_core_driver *udev); +/* stop the device and clean up FIFOs */ +void usb_dev_stop (usb_core_driver *udev); + +#endif /* __DRV_USB_DEV_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_host.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_host.h new file mode 100644 index 0000000000..943e949d1f --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_host.h @@ -0,0 +1,194 @@ +/*! + \file drv_usb_host.h + \brief USB host mode low level driver header file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __DRV_USB_HOST_H +#define __DRV_USB_HOST_H + +#include "drv_usb_regs.h" +#include "usb_ch9_std.h" +#include "drv_usb_core.h" + +typedef enum _usb_pipe_status +{ + PIPE_IDLE = 0U, + PIPE_XF, + PIPE_HALTED, + PIPE_NAK, + PIPE_NYET, + PIPE_STALL, + PIPE_TRACERR, + PIPE_BBERR, + PIPE_REQOVR, + PIPE_DTGERR, +} usb_pipe_staus; + +typedef enum _usb_pipe_mode +{ + PIPE_PERIOD = 0U, + PIPE_NON_PERIOD = 1U +} usb_pipe_mode; + +typedef enum _usb_urb_state +{ + URB_IDLE = 0U, + URB_DONE, + URB_NOTREADY, + URB_ERROR, + URB_STALL, + URB_PING +} usb_urb_state; + +typedef struct _usb_pipe +{ + uint8_t in_used; + uint8_t dev_addr; + uint32_t dev_speed; + + struct { + uint8_t num; + uint8_t dir; + uint8_t type; + uint16_t mps; + } ep; + + uint8_t ping; + uint32_t DPID; + + uint8_t *xfer_buf; + uint32_t xfer_len; + uint32_t xfer_count; + + uint8_t data_toggle_in; + uint8_t data_toggle_out; + + __IO uint32_t err_count; + __IO usb_pipe_staus pp_status; + __IO usb_urb_state urb_state; +} usb_pipe; + + +typedef struct _usb_host_drv +{ + __IO uint32_t connect_status; + __IO uint32_t port_enabled; + __IO uint32_t backup_xfercount[USBFS_MAX_TX_FIFOS]; + + usb_pipe pipe[USBFS_MAX_TX_FIFOS]; + void *data; +} usb_host_drv; + +typedef struct _usb_core_driver +{ + usb_core_basic bp; + usb_core_regs regs; + usb_host_drv host; +} usb_core_driver; + +/*! + \brief get USB even frame + \param[in] pudev: pointer to USB device + \param[out] none + \retval none +*/ +__STATIC_INLINE uint8_t usb_frame_even (usb_core_driver *pudev) +{ + return (uint8_t)!(pudev->regs.hr->HFINFR & 0x01U); +} + +/*! + \brief configure USB clock of PHY + \param[in] pudev: pointer to USB device + \param[in] clock: PHY clock + \param[out] none + \retval none +*/ +__STATIC_INLINE void usb_phyclock_config (usb_core_driver *pudev, uint8_t clock) +{ + pudev->regs.hr->HCTL &= ~HCTL_CLKSEL; + pudev->regs.hr->HCTL |= clock; +} + +/*! + \brief read USB port + \param[in] pudev: pointer to USB device + \param[out] none + \retval port status +*/ +__STATIC_INLINE uint32_t usb_port_read (usb_core_driver *pudev) +{ + return *pudev->regs.HPCS & ~(HPCS_PE | HPCS_PCD | HPCS_PEDC); +} + +/*! + \brief get USB current speed + \param[in] pudev: pointer to USB device + \param[out] none + \retval USB current speed +*/ +__STATIC_INLINE uint32_t usb_curspeed_get (usb_core_driver *pudev) +{ + return *pudev->regs.HPCS & HPCS_PS; +} + +/*! + \brief get USB current frame + \param[in] pudev: pointer to USB device + \param[out] none + \retval USB current frame +*/ +__STATIC_INLINE uint32_t usb_curframe_get (usb_core_driver *pudev) +{ + return (pudev->regs.hr->HFINFR & 0xFFFFU); +} + +/* function declarations */ +/* initializes USB core for host mode */ +usb_status usb_host_init (usb_core_driver *pudev); +/* control the VBUS to power */ +void usb_portvbus_switch (usb_core_driver *pudev, uint8_t state); +/* reset host port */ +uint32_t usb_port_reset (usb_core_driver *pudev); +/* initialize host pipe */ +usb_status usb_pipe_init (usb_core_driver *pudev, uint8_t pipe_num); +/* prepare host pipe for transferring packets */ +usb_status usb_pipe_xfer (usb_core_driver *pudev, uint8_t pipe_num); +/* halt host pipe */ +usb_status usb_pipe_halt (usb_core_driver *pudev, uint8_t pipe_num); +/* configure host pipe to do ping operation */ +usb_status usb_pipe_ping (usb_core_driver *pudev, uint8_t pipe_num); +/* stop the USB host and clean up FIFO */ +void usb_host_stop (usb_core_driver *pudev); + +#endif /* __DRV_USB_HOST_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_hw.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_hw.h new file mode 100644 index 0000000000..90f32b82aa --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_hw.h @@ -0,0 +1,65 @@ +/*! + \file drv_usb_hw.h + \brief usb hardware configuration header file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __DRV_USB_HW_H +#define __DRV_USB_HW_H + +#include "usb_conf.h" + +/* function declarations */ +/* configure USB clock */ +void usb_rcu_config (void); +/* configure USB interrupt */ +void usb_intr_config (void); +/* initializes delay unit using Timer2 */ +void usb_timer_init (void); +/* delay in micro seconds */ +void usb_udelay (const uint32_t usec); +/* delay in milliseconds */ +void usb_mdelay (const uint32_t msec); +/* configures system clock after wakeup from STOP mode */ +void system_clk_config_stop(void); + +#ifdef USE_HOST_MODE + void systick_config(void); + + /* configure USB VBus */ + void usb_vbus_config (void); + + /* drive USB VBus */ + void usb_vbus_drive (uint8_t State); +#endif /* USE_HOST_MODE */ + +#endif /* __DRV_USB_HW_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_regs.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_regs.h new file mode 100644 index 0000000000..04655539f3 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usb_regs.h @@ -0,0 +1,658 @@ +/*! + \file drv_usb_regs.h + \brief USB cell registers definition and handle macros + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __DRV_USB_REGS_H +#define __DRV_USB_REGS_H + +#include "usb_conf.h" + +#define USBHS_REG_BASE 0x40040000L /*!< base address of USBHS registers */ +#define USBFS_REG_BASE 0x50000000L /*!< base address of USBFS registers */ + +#define USBFS_MAX_TX_FIFOS 15U /*!< FIFO number */ + +#define USBFS_MAX_PACKET_SIZE 64U /*!< USBFS max packet size */ +#define USBFS_MAX_CHANNEL_COUNT 8U /*!< USBFS host channel count */ +#define USBFS_MAX_EP_COUNT 4U /*!< USBFS device endpoint count */ +#define USBFS_MAX_FIFO_WORDLEN 320U /*!< USBFS max fifo size in words */ + +#define USBHS_MAX_PACKET_SIZE 512U /*!< USBHS max packet size */ +#define USBHS_MAX_CHANNEL_COUNT 12U /*!< USBHS host channel count */ +#define USBHS_MAX_EP_COUNT 6U /*!< USBHS device endpoint count */ +#define USBHS_MAX_FIFO_WORDLEN 1280U /*!< USBHS max fifo size in words */ + +#define USB_DATA_FIFO_OFFSET 0x1000U /*!< USB data fifo offset */ +#define USB_DATA_FIFO_SIZE 0x1000U /*!< USB data fifo size */ + +typedef enum +{ + USB_CORE_ENUM_HS = 0, /*!< USB core type is HS */ + USB_CORE_ENUM_FS = 1 /*!< USB core type is FS */ +} usb_core_enum; + +enum USB_SPEED { + USB_SPEED_UNKNOWN = 0, /*!< USB speed unknown */ + USB_SPEED_LOW, /*!< USB speed low */ + USB_SPEED_FULL, /*!< USB speed full */ + USB_SPEED_HIGH, /*!< USB speed high */ +}; + +enum usb_reg_offset { + USB_REG_OFFSET_CORE = 0x0000U, /*!< global OTG control and status register */ + USB_REG_OFFSET_DEV = 0x0800U, /*!< device mode control and status registers */ + USB_REG_OFFSET_EP = 0x0020U, + USB_REG_OFFSET_EP_IN = 0x0900U, /*!< device IN endpoint 0 control register */ + USB_REG_OFFSET_EP_OUT = 0x0B00U, /*!< device OUT endpoint 0 control register */ + USB_REG_OFFSET_HOST = 0x0400U, /*!< host control register */ + USB_REG_OFFSET_CH = 0x0020U, + USB_REG_OFFSET_PORT = 0x0440U, /*!< host port control and status register */ + USB_REG_OFFSET_CH_INOUT = 0x0500U, /*!< Host channel-x control registers */ + USB_REG_OFFSET_PWRCLKCTL = 0x0E00U, /*!< power and clock register */ +}; + +typedef struct +{ + __IO uint32_t GOTGCS; /*!< USB global OTG control and status register 000h */ + __IO uint32_t GOTGINTF; /*!< USB global OTG interrupt flag register 004h */ + __IO uint32_t GAHBCS; /*!< USB global AHB control and status register 008h */ + __IO uint32_t GUSBCS; /*!< USB global USB control and status register 00Ch */ + __IO uint32_t GRSTCTL; /*!< USB global reset control register 010h */ + __IO uint32_t GINTF; /*!< USB global interrupt flag register 014h */ + __IO uint32_t GINTEN; /*!< USB global interrupt enable register 018h */ + __IO uint32_t GRSTATR; /*!< USB receive status debug read register 01Ch */ + __IO uint32_t GRSTATP; /*!< USB receive status and pop register 020h */ + __IO uint32_t GRFLEN; /*!< USB global receive FIFO length register 024h */ + __IO uint32_t DIEP0TFLEN_HNPTFLEN; /*!< USB device IN endpoint 0/host non-periodic transmit FIFO length register 028h */ + __IO uint32_t HNPTFQSTAT; /*!< USB host non-periodic FIFO/queue status register 02Ch */ + uint32_t Reserved30[2]; /*!< Reserved 030h */ + __IO uint32_t GCCFG; /*!< USB global core configuration register 038h */ + __IO uint32_t CID; /*!< USB core ID register 03Ch */ + uint32_t Reserved40[48]; /*!< Reserved 040h-0FFh */ + __IO uint32_t HPTFLEN; /*!< USB host periodic transmit FIFO length register 100h */ + __IO uint32_t DIEPTFLEN[15]; /*!< USB device IN endpoint transmit FIFO length register 104h */ +} usb_gr; + +typedef struct +{ + __IO uint32_t HCTL; /*!< USB host control register 400h */ + __IO uint32_t HFT; /*!< USB host frame interval register 404h */ + __IO uint32_t HFINFR; /*!< USB host frame information remaining register 408h */ + uint32_t Reserved40C; /*!< Reserved 40Ch */ + __IO uint32_t HPTFQSTAT; /*!< USB host periodic transmit FIFO/queue status register 410h */ + __IO uint32_t HACHINT; /*!< USB host all channels interrupt register 414h */ + __IO uint32_t HACHINTEN; /*!< USB host all channels interrupt enable register 418h */ +} usb_hr; + +typedef struct +{ + __IO uint32_t HCHCTL; /*!< USB host channel control register 500h */ + __IO uint32_t HCHSTCTL; /*!< Reserved 504h */ + __IO uint32_t HCHINTF; /*!< USB host channel interrupt flag register 508h */ + __IO uint32_t HCHINTEN; /*!< USB host channel interrupt enable register 50Ch */ + __IO uint32_t HCHLEN; /*!< USB host channel transfer length register 510h */ + __IO uint32_t HCHDMAADDR; /*!< USB host channel-x DMA address register 514h*/ + uint32_t Reserved[2]; +} usb_pr; + +typedef struct +{ + __IO uint32_t DCFG; /*!< USB device configuration register 800h */ + __IO uint32_t DCTL; /*!< USB device control register 804h */ + __IO uint32_t DSTAT; /*!< USB device status register 808h */ + uint32_t Reserved0C; /*!< Reserved 80Ch */ + __IO uint32_t DIEPINTEN; /*!< USB device IN endpoint common interrupt enable register 810h */ + __IO uint32_t DOEPINTEN; /*!< USB device OUT endpoint common interrupt enable register 814h */ + __IO uint32_t DAEPINT; /*!< USB device all endpoints interrupt register 818h */ + __IO uint32_t DAEPINTEN; /*!< USB device all endpoints interrupt enable register 81Ch */ + uint32_t Reserved20; /*!< Reserved 820h */ + uint32_t Reserved24; /*!< Reserved 824h */ + __IO uint32_t DVBUSDT; /*!< USB device VBUS discharge time register 828h */ + __IO uint32_t DVBUSPT; /*!< USB device VBUS pulsing time register 82Ch */ + __IO uint32_t DTHRCTL; /*!< dev threshold control 830h */ + __IO uint32_t DIEPFEINTEN; /*!< USB Device IN endpoint FIFO empty interrupt enable register 834h */ + __IO uint32_t DEP1INT; /*!< USB device endpoint 1 interrupt register 838h */ + __IO uint32_t DEP1INTEN; /*!< USB device endpoint 1 interrupt enable register 83Ch */ + uint32_t Reserved40; /*!< Reserved 840h */ + __IO uint32_t DIEP1INTEN; /*!< USB device IN endpoint-1 interrupt enable register 844h */ + uint32_t Reserved48[15]; /*!< Reserved 848-880h */ + __IO uint32_t DOEP1INTEN; /*!< USB device OUT endpoint-1 interrupt enable register 884h */ +} usb_dr; + +typedef struct +{ + __IO uint32_t DIEPCTL; /*!< USB device IN endpoint control register 900h + (EpNum * 20h) + 00h */ + uint32_t Reserved04; /*!< Reserved 900h + (EpNum * 20h) + 04h */ + __IO uint32_t DIEPINTF; /*!< USB device IN endpoint interrupt flag register 900h + (EpNum * 20h) + 08h */ + uint32_t Reserved0C; /*!< Reserved 900h + (EpNum * 20h) + 0Ch */ + __IO uint32_t DIEPLEN; /*!< USB device IN endpoint transfer length register 900h + (EpNum * 20h) + 10h */ + __IO uint32_t DIEPDMAADDR; /*!< Device IN endpoint-x DMA address register 900h + (EpNum * 20h) + 14h */ + __IO uint32_t DIEPTFSTAT; /*!< USB device IN endpoint transmit FIFO status register 900h + (EpNum * 20h) + 18h */ +} usb_erin; + +typedef struct +{ + __IO uint32_t DOEPCTL; /*!< USB device IN endpoint control register B00h + (EpNum * 20h) + 00h */ + uint32_t Reserved04; /*!< Reserved B00h + (EpNum * 20h) + 04h */ + __IO uint32_t DOEPINTF; /*!< USB device IN endpoint interrupt flag register B00h + (EpNum * 20h) + 08h */ + uint32_t Reserved0C; /*!< Reserved B00h + (EpNum * 20h) + 0Ch */ + __IO uint32_t DOEPLEN; /*!< USB device IN endpoint transfer length register B00h + (EpNum * 20h) + 10h */ + __IO uint32_t DOEPDMAADDR; /*!< Device OUT endpoint-x DMA address register B00h + (EpNum * 20h) + 0Ch */ +} usb_erout; + +typedef struct _usb_regs +{ + usb_gr *gr; /*!< USBFS global registers */ + usb_dr *dr; /*!< Device control and status registers */ + usb_hr *hr; /*!< Host control and status registers */ + usb_erin *er_in[6]; /*!< USB device IN endpoint register */ + usb_erout *er_out[6]; /*!< USB device OUT endpoint register */ + usb_pr *pr[15]; /*!< USB Host channel-x control register */ + + __IO uint32_t *HPCS; /*!< USB host port control and status register */ + __IO uint32_t *DFIFO[USBFS_MAX_TX_FIFOS]; + __IO uint32_t *PWRCLKCTL; /*!< USB power and clock control register */ +} usb_core_regs; + +/* global OTG control and status register bits definitions */ +#define GOTGCS_BSV BIT(19) /*!< B-Session Valid */ +#define GOTGCS_ASV BIT(18) /*!< A-session valid */ +#define GOTGCS_DI BIT(17) /*!< debounce interval */ +#define GOTGCS_CIDPS BIT(16) /*!< id pin status */ +#define GOTGCS_DHNPEN BIT(11) /*!< device HNP enable */ +#define GOTGCS_HHNPEN BIT(10) /*!< host HNP enable */ +#define GOTGCS_HNPREQ BIT(9) /*!< HNP request */ +#define GOTGCS_HNPS BIT(8) /*!< HNP successes */ +#define GOTGCS_SRPREQ BIT(1) /*!< SRP request */ +#define GOTGCS_SRPS BIT(0) /*!< SRP successes */ + +/* global OTG interrupt flag register bits definitions */ +#define GOTGINTF_DF BIT(19) /*!< debounce finish */ +#define GOTGINTF_ADTO BIT(18) /*!< A-device timeout */ +#define GOTGINTF_HNPDET BIT(17) /*!< host negotiation request detected */ +#define GOTGINTF_HNPEND BIT(9) /*!< HNP end */ +#define GOTGINTF_SRPEND BIT(8) /*!< SRP end */ +#define GOTGINTF_SESEND BIT(2) /*!< session end */ + +/* global AHB control and status register bits definitions */ +#define GAHBCS_PTXFTH BIT(8) /*!< periodic Tx FIFO threshold */ +#define GAHBCS_TXFTH BIT(7) /*!< tx FIFO threshold */ +#define GAHBCS_DMAEN BIT(5) /*!< DMA function Enable */ +#define GAHBCS_BURST BITS(1, 4) /*!< the AHB burst type used by DMA */ +#define GAHBCS_GINTEN BIT(0) /*!< global interrupt enable */ + +/* global USB control and status register bits definitions */ +#define GUSBCS_FDM BIT(30) /*!< force device mode */ +#define GUSBCS_FHM BIT(29) /*!< force host mode */ +#define GUSBCS_ULPIEOI BIT(21) /*!< ULPI external over-current indicator */ +#define GUSBCS_ULPIEVD BIT(20) /*!< ULPI external VBUS driver */ +#define GUSBCS_UTT BITS(10, 13) /*!< USB turnaround time */ +#define GUSBCS_HNPCEN BIT(9) /*!< HNP capability enable */ +#define GUSBCS_SRPCEN BIT(8) /*!< SRP capability enable */ +#define GUSBCS_EMBPHY BIT(6) /*!< embedded PHY selected */ +#define GUSBCS_TOC BITS(0, 2) /*!< timeout calibration */ + +/* global reset control register bits definitions */ +#define GRSTCTL_DMAIDL BIT(31) /*!< DMA idle state */ +#define GRSTCTL_DMABSY BIT(30) /*!< DMA busy */ +#define GRSTCTL_TXFNUM BITS(6, 10) /*!< tx FIFO number */ +#define GRSTCTL_TXFF BIT(5) /*!< tx FIFO flush */ +#define GRSTCTL_RXFF BIT(4) /*!< rx FIFO flush */ +#define GRSTCTL_HFCRST BIT(2) /*!< host frame counter reset */ +#define GRSTCTL_HCSRST BIT(1) /*!< HCLK soft reset */ +#define GRSTCTL_CSRST BIT(0) /*!< core soft reset */ + +/* global interrupt flag register bits definitions */ +#define GINTF_WKUPIF BIT(31) /*!< wakeup interrupt flag */ +#define GINTF_SESIF BIT(30) /*!< session interrupt flag */ +#define GINTF_DISCIF BIT(29) /*!< disconnect interrupt flag */ +#define GINTF_IDPSC BIT(28) /*!< id pin status change */ +#define GINTF_PTXFEIF BIT(26) /*!< periodic tx FIFO empty interrupt flag */ +#define GINTF_HCIF BIT(25) /*!< host channels interrupt flag */ +#define GINTF_HPIF BIT(24) /*!< host port interrupt flag */ +#define GINTF_PXNCIF BIT(21) /*!< periodic transfer not complete interrupt flag */ +#define GINTF_ISOONCIF BIT(21) /*!< isochronous OUT transfer not complete interrupt flag */ +#define GINTF_ISOINCIF BIT(20) /*!< isochronous IN transfer not complete interrupt flag */ +#define GINTF_OEPIF BIT(19) /*!< OUT endpoint interrupt flag */ +#define GINTF_IEPIF BIT(18) /*!< IN endpoint interrupt flag */ +#define GINTF_EOPFIF BIT(15) /*!< end of periodic frame interrupt flag */ +#define GINTF_ISOOPDIF BIT(14) /*!< isochronous OUT packet dropped interrupt flag */ +#define GINTF_ENUMFIF BIT(13) /*!< enumeration finished */ +#define GINTF_RST BIT(12) /*!< USB reset */ +#define GINTF_SP BIT(11) /*!< USB suspend */ +#define GINTF_ESP BIT(10) /*!< early suspend */ +#define GINTF_GONAK BIT(7) /*!< global OUT NAK effective */ +#define GINTF_GNPINAK BIT(6) /*!< global IN non-periodic NAK effective */ +#define GINTF_NPTXFEIF BIT(5) /*!< non-periodic tx FIFO empty interrupt flag */ +#define GINTF_RXFNEIF BIT(4) /*!< rx FIFO non-empty interrupt flag */ +#define GINTF_SOF BIT(3) /*!< start of frame */ +#define GINTF_OTGIF BIT(2) /*!< OTG interrupt flag */ +#define GINTF_MFIF BIT(1) /*!< mode fault interrupt flag */ +#define GINTF_COPM BIT(0) /*!< current operation mode */ + +/* global interrupt enable register bits definitions */ +#define GINTEN_WKUPIE BIT(31) /*!< wakeup interrupt enable */ +#define GINTEN_SESIE BIT(30) /*!< session interrupt enable */ +#define GINTEN_DISCIE BIT(29) /*!< disconnect interrupt enable */ +#define GINTEN_IDPSCIE BIT(28) /*!< id pin status change interrupt enable */ +#define GINTEN_PTXFEIE BIT(26) /*!< periodic tx FIFO empty interrupt enable */ +#define GINTEN_HCIE BIT(25) /*!< host channels interrupt enable */ +#define GINTEN_HPIE BIT(24) /*!< host port interrupt enable */ +#define GINTEN_IPXIE BIT(21) /*!< periodic transfer not complete interrupt enable */ +#define GINTEN_ISOONCIE BIT(21) /*!< isochronous OUT transfer not complete interrupt enable */ +#define GINTEN_ISOINCIE BIT(20) /*!< isochronous IN transfer not complete interrupt enable */ +#define GINTEN_OEPIE BIT(19) /*!< OUT endpoints interrupt enable */ +#define GINTEN_IEPIE BIT(18) /*!< IN endpoints interrupt enable */ +#define GINTEN_EOPFIE BIT(15) /*!< end of periodic frame interrupt enable */ +#define GINTEN_ISOOPDIE BIT(14) /*!< isochronous OUT packet dropped interrupt enable */ +#define GINTEN_ENUMFIE BIT(13) /*!< enumeration finish enable */ +#define GINTEN_RSTIE BIT(12) /*!< USB reset interrupt enable */ +#define GINTEN_SPIE BIT(11) /*!< USB suspend interrupt enable */ +#define GINTEN_ESPIE BIT(10) /*!< early suspend interrupt enable */ +#define GINTEN_GONAKIE BIT(7) /*!< global OUT NAK effective interrupt enable */ +#define GINTEN_GNPINAKIE BIT(6) /*!< global non-periodic IN NAK effective interrupt enable */ +#define GINTEN_NPTXFEIE BIT(5) /*!< non-periodic Tx FIFO empty interrupt enable */ +#define GINTEN_RXFNEIE BIT(4) /*!< receive FIFO non-empty interrupt enable */ +#define GINTEN_SOFIE BIT(3) /*!< start of frame interrupt enable */ +#define GINTEN_OTGIE BIT(2) /*!< OTG interrupt enable */ +#define GINTEN_MFIE BIT(1) /*!< mode fault interrupt enable */ + +/* global receive status read and pop register bits definitions */ +#define GRSTATRP_RPCKST BITS(17, 20) /*!< received packet status */ +#define GRSTATRP_DPID BITS(15, 16) /*!< data PID */ +#define GRSTATRP_BCOUNT BITS(4, 14) /*!< byte count */ +#define GRSTATRP_CNUM BITS(0, 3) /*!< channel number */ +#define GRSTATRP_EPNUM BITS(0, 3) /*!< endpoint number */ + +/* global receive FIFO length register bits definitions */ +#define GRFLEN_RXFD BITS(0, 15) /*!< rx FIFO depth */ + +/* host non-periodic transmit FIFO length register bits definitions */ +#define HNPTFLEN_HNPTXFD BITS(16, 31) /*!< non-periodic Tx FIFO depth */ +#define HNPTFLEN_HNPTXRSAR BITS(0, 15) /*!< non-periodic Tx RAM start address */ + +/* USB IN endpoint 0 transmit FIFO length register bits definitions */ +#define DIEP0TFLEN_IEP0TXFD BITS(16, 31) /*!< IN Endpoint 0 Tx FIFO depth */ +#define DIEP0TFLEN_IEP0TXRSAR BITS(0, 15) /*!< IN Endpoint 0 TX RAM start address */ + +/* host non-periodic transmit FIFO/queue status register bits definitions */ +#define HNPTFQSTAT_NPTXRQTOP BITS(24, 30) /*!< top entry of the non-periodic Tx request queue */ +#define HNPTFQSTAT_NPTXRQS BITS(16, 23) /*!< non-periodic Tx request queue space */ +#define HNPTFQSTAT_NPTXFS BITS(0, 15) /*!< non-periodic Tx FIFO space */ +#define HNPTFQSTAT_CNUM BITS(27, 30) /*!< channel number*/ +#define HNPTFQSTAT_EPNUM BITS(27, 30) /*!< endpoint number */ +#define HNPTFQSTAT_TYPE BITS(25, 26) /*!< token type */ +#define HNPTFQSTAT_TMF BIT(24) /*!< terminate flag */ + +/* global core configuration register bits definitions */ +#define GCCFG_VBUSIG BIT(21) /*!< vbus ignored */ +#define GCCFG_SOFOEN BIT(20) /*!< SOF output enable */ +#define GCCFG_VBUSBCEN BIT(19) /*!< the VBUS B-device comparer enable */ +#define GCCFG_VBUSACEN BIT(18) /*!< the VBUS A-device comparer enable */ +#define GCCFG_PWRON BIT(16) /*!< power on */ + +/* core ID register bits definitions */ +#define CID_CID BITS(0, 31) /*!< core ID */ + +/* host periodic transmit FIFO length register bits definitions */ +#define HPTFLEN_HPTXFD BITS(16, 31) /*!< host periodic Tx FIFO depth */ +#define HPTFLEN_HPTXFSAR BITS(0, 15) /*!< host periodic Tx RAM start address */ + +/* device IN endpoint transmit FIFO length register bits definitions */ +#define DIEPTFLEN_IEPTXFD BITS(16, 31) /*!< IN endpoint Tx FIFO x depth */ +#define DIEPTFLEN_IEPTXRSAR BITS(0, 15) /*!< IN endpoint FIFOx Tx x RAM start address */ + +/* host control register bits definitions */ +#define HCTL_SPDFSLS BIT(2) /*!< speed limited to FS and LS */ +#define HCTL_CLKSEL BITS(0, 1) /*!< clock select for USB clock */ + +/* host frame interval register bits definitions */ +#define HFT_FRI BITS(0, 15) /*!< frame interval */ + +/* host frame information remaining register bits definitions */ +#define HFINFR_FRT BITS(16, 31) /*!< frame remaining time */ +#define HFINFR_FRNUM BITS(0, 15) /*!< frame number */ + +/* host periodic transmit FIFO/queue status register bits definitions */ +#define HPTFQSTAT_PTXREQT BITS(24, 31) /*!< top entry of the periodic Tx request queue */ +#define HPTFQSTAT_PTXREQS BITS(16, 23) /*!< periodic Tx request queue space */ +#define HPTFQSTAT_PTXFS BITS(0, 15) /*!< periodic Tx FIFO space */ +#define HPTFQSTAT_OEFRM BIT(31) /*!< odd/eveb frame */ +#define HPTFQSTAT_CNUM BITS(27, 30) /*!< channel number */ +#define HPTFQSTAT_EPNUM BITS(27, 30) /*!< endpoint number */ +#define HPTFQSTAT_TYPE BITS(25, 26) /*!< token type */ +#define HPTFQSTAT_TMF BIT(24) /*!< terminate flag */ + +#define TFQSTAT_TXFS BITS(0, 15) +#define TFQSTAT_CNUM BITS(27, 30) + +/* host all channels interrupt register bits definitions */ +#define HACHINT_HACHINT BITS(0, 11) /*!< host all channel interrupts */ + +/* host all channels interrupt enable register bits definitions */ +#define HACHINTEN_CINTEN BITS(0, 11) /*!< channel interrupt enable */ + +/* host port control and status register bits definitions */ +#define HPCS_PS BITS(17, 18) /*!< port speed */ +#define HPCS_PP BIT(12) /*!< port power */ +#define HPCS_PLST BITS(10, 11) /*!< port line status */ +#define HPCS_PRST BIT(8) /*!< port reset */ +#define HPCS_PSP BIT(7) /*!< port suspend */ +#define HPCS_PREM BIT(6) /*!< port resume */ +#define HPCS_PEDC BIT(3) /*!< port enable/disable change */ +#define HPCS_PE BIT(2) /*!< port enable */ +#define HPCS_PCD BIT(1) /*!< port connect detected */ +#define HPCS_PCST BIT(0) /*!< port connect status */ + +/* host channel-x control register bits definitions */ +#define HCHCTL_CEN BIT(31) /*!< channel enable */ +#define HCHCTL_CDIS BIT(30) /*!< channel disable */ +#define HCHCTL_ODDFRM BIT(29) /*!< odd frame */ +#define HCHCTL_DAR BITS(22, 28) /*!< device address */ +#define HCHCTL_MPC BITS(20, 21) /*!< multiple packet count */ +#define HCHCTL_EPTYPE BITS(18, 19) /*!< endpoint type */ +#define HCHCTL_LSD BIT(17) /*!< low-speed device */ +#define HCHCTL_EPDIR BIT(15) /*!< endpoint direction */ +#define HCHCTL_EPNUM BITS(11, 14) /*!< endpoint number */ +#define HCHCTL_MPL BITS(0, 10) /*!< maximum packet length */ + +/* host channel-x split transaction register bits definitions */ +#define HCHSTCTL_SPLEN BIT(31) /*!< enable high-speed split transaction */ +#define HCHSTCTL_CSPLT BIT(16) /*!< complete-split enable */ +#define HCHSTCTL_ISOPCE BITS(14, 15) /*!< isochronous OUT payload continuation encoding */ +#define HCHSTCTL_HADDR BITS(7, 13) /*!< HUB address */ +#define HCHSTCTL_PADDR BITS(0, 6) /*!< port address */ + +/* host channel-x interrupt flag register bits definitions */ +#define HCHINTF_DTER BIT(10) /*!< data toggle error */ +#define HCHINTF_REQOVR BIT(9) /*!< request queue overrun */ +#define HCHINTF_BBER BIT(8) /*!< babble error */ +#define HCHINTF_USBER BIT(7) /*!< USB bus Error */ +#define HCHINTF_NYET BIT(6) /*!< NYET */ +#define HCHINTF_ACK BIT(5) /*!< ACK */ +#define HCHINTF_NAK BIT(4) /*!< NAK */ +#define HCHINTF_STALL BIT(3) /*!< STALL */ +#define HCHINTF_DMAER BIT(2) /*!< DMA error */ +#define HCHINTF_CH BIT(1) /*!< channel halted */ +#define HCHINTF_TF BIT(0) /*!< transfer finished */ + +/* host channel-x interrupt enable register bits definitions */ +#define HCHINTEN_DTERIE BIT(10) /*!< data toggle error interrupt enable */ +#define HCHINTEN_REQOVRIE BIT(9) /*!< request queue overrun interrupt enable */ +#define HCHINTEN_BBERIE BIT(8) /*!< babble error interrupt enable */ +#define HCHINTEN_USBERIE BIT(7) /*!< USB bus error interrupt enable */ +#define HCHINTEN_NYETIE BIT(6) /*!< NYET interrupt enable */ +#define HCHINTEN_ACKIE BIT(5) /*!< ACK interrupt enable */ +#define HCHINTEN_NAKIE BIT(4) /*!< NAK interrupt enable */ +#define HCHINTEN_STALLIE BIT(3) /*!< STALL interrupt enable */ +#define HCHINTEN_DMAERIE BIT(2) /*!< DMA error interrupt enable */ +#define HCHINTEN_CHIE BIT(1) /*!< channel halted interrupt enable */ +#define HCHINTEN_TFIE BIT(0) /*!< transfer finished interrupt enable */ + +/* host channel-x transfer length register bits definitions */ +#define HCHLEN_PING BIT(31) /*!< PING token request */ +#define HCHLEN_DPID BITS(29, 30) /*!< data PID */ +#define HCHLEN_PCNT BITS(19, 28) /*!< packet count */ +#define HCHLEN_TLEN BITS(0, 18) /*!< transfer length */ + +/* host channel-x DMA address register bits definitions */ +#define HCHDMAADDR_DMAADDR BITS(0, 31) /*!< DMA address */ + +#define PORT_SPEED(x) (((uint32_t)(x) << 17) & HPCS_PS) /*!< Port speed */ + +#define PORT_SPEED_HIGH PORT_SPEED(0U) /*!< high speed */ +#define PORT_SPEED_FULL PORT_SPEED(1U) /*!< full speed */ +#define PORT_SPEED_LOW PORT_SPEED(2U) /*!< low speed */ + +#define PIPE_CTL_DAR(x) (((uint32_t)(x) << 22) & HCHCTL_DAR) /*!< device address */ +#define PIPE_CTL_EPTYPE(x) (((uint32_t)(x) << 18) & HCHCTL_EPTYPE) /*!< endpoint type */ +#define PIPE_CTL_EPNUM(x) (((uint32_t)(x) << 11) & HCHCTL_EPNUM) /*!< endpoint number */ +#define PIPE_CTL_EPDIR(x) (((uint32_t)(x) << 15) & HCHCTL_EPDIR) /*!< endpoint direction */ +#define PIPE_CTL_EPMPL(x) (((uint32_t)(x) << 0) & HCHCTL_MPL) /*!< maximum packet length */ +#define PIPE_CTL_LSD(x) (((uint32_t)(x) << 17) & HCHCTL_LSD) /*!< low-Speed device */ + +#define PIPE_XFER_PCNT(x) (((uint32_t)(x) << 19) & HCHLEN_PCNT) /*!< packet count */ +#define PIPE_XFER_DPID(x) (((uint32_t)(x) << 29) & HCHLEN_DPID) /*!< data PID */ + +#define PIPE_DPID_DATA0 PIPE_XFER_DPID(0) /*!< DATA0 */ +#define PIPE_DPID_DATA1 PIPE_XFER_DPID(2) /*!< DATA1 */ +#define PIPE_DPID_DATA2 PIPE_XFER_DPID(1) /*!< DATA2 */ +#define PIPE_DPID_SETUP PIPE_XFER_DPID(3) /*!< MDATA (non-control)/SETUP (control) */ + +extern const uint32_t PIPE_DPID[2]; + +/* device configuration registers bits definitions */ +#define DCFG_EOPFT BITS(11, 12) /*!< end of periodic frame time */ +#define DCFG_DAR BITS(4, 10) /*!< device address */ +#define DCFG_NZLSOH BIT(2) /*!< non-zero-length status OUT handshake */ +#define DCFG_DS BITS(0, 1) /*!< device speed */ + +/* device control registers bits definitions */ +#define DCTL_POIF BIT(11) /*!< power-on initialization finished */ +#define DCTL_CGONAK BIT(10) /*!< clear global OUT NAK */ +#define DCTL_SGONAK BIT(9) /*!< set global OUT NAK */ +#define DCTL_CGINAK BIT(8) /*!< clear global IN NAK */ +#define DCTL_SGINAK BIT(7) /*!< set global IN NAK */ +#define DCTL_GONS BIT(3) /*!< global OUT NAK status */ +#define DCTL_GINS BIT(2) /*!< global IN NAK status */ +#define DCTL_SD BIT(1) /*!< soft disconnect */ +#define DCTL_RWKUP BIT(0) /*!< remote wakeup */ + +/* device status registers bits definitions */ +#define DSTAT_FNRSOF BITS(8, 21) /*!< the frame number of the received SOF. */ +#define DSTAT_ES BITS(1, 2) /*!< enumerated speed */ +#define DSTAT_SPST BIT(0) /*!< suspend status */ + +/* device IN endpoint common interrupt enable registers bits definitions */ +#define DIEPINTEN_NAKEN BIT(13) /*!< NAK handshake sent by USBHS interrupt enable bit */ +#define DIEPINTEN_TXFEEN BIT(7) /*!< transmit FIFO empty interrupt enable bit */ +#define DIEPINTEN_IEPNEEN BIT(6) /*!< IN endpoint NAK effective interrupt enable bit */ +#define DIEPINTEN_EPTXFUDEN BIT(4) /*!< endpoint Tx FIFO underrun interrupt enable bit */ +#define DIEPINTEN_CITOEN BIT(3) /*!< control In Timeout interrupt enable bit */ +#define DIEPINTEN_EPDISEN BIT(1) /*!< endpoint disabled interrupt enable bit */ +#define DIEPINTEN_TFEN BIT(0) /*!< transfer finished interrupt enable bit */ + +/* device OUT endpoint common interrupt enable registers bits definitions */ +#define DOEPINTEN_NYETEN BIT(14) /*!< NYET handshake is sent interrupt enable bit */ +#define DOEPINTEN_BTBSTPEN BIT(6) /*!< back-to-back SETUP packets interrupt enable bit */ +#define DOEPINTEN_EPRXFOVREN BIT(4) /*!< endpoint Rx FIFO overrun interrupt enable bit */ +#define DOEPINTEN_STPFEN BIT(3) /*!< SETUP phase finished interrupt enable bit */ +#define DOEPINTEN_EPDISEN BIT(1) /*!< endpoint disabled interrupt enable bit */ +#define DOEPINTEN_TFEN BIT(0) /*!< transfer finished interrupt enable bit */ + +/* device all endpoints interrupt registers bits definitions */ +#define DAEPINT_OEPITB BITS(16, 21) /*!< device all OUT endpoint interrupt bits */ +#define DAEPINT_IEPITB BITS(0, 5) /*!< device all IN endpoint interrupt bits */ + +/* device all endpoints interrupt enable registers bits definitions */ +#define DAEPINTEN_OEPIE BITS(16, 21) /*!< OUT endpoint interrupt enable */ +#define DAEPINTEN_IEPIE BITS(0, 3) /*!< IN endpoint interrupt enable */ + +/* device Vbus discharge time registers bits definitions */ +#define DVBUSDT_DVBUSDT BITS(0, 15) /*!< device VBUS discharge time */ + +/* device Vbus pulsing time registers bits definitions */ +#define DVBUSPT_DVBUSPT BITS(0, 11) /*!< device VBUS pulsing time */ + +/* device IN endpoint FIFO empty interrupt enable register bits definitions */ +#define DIEPFEINTEN_IEPTXFEIE BITS(0, 5) /*!< IN endpoint Tx FIFO empty interrupt enable bits */ + +/* device endpoint 0 control register bits definitions */ +#define DEP0CTL_EPEN BIT(31) /*!< endpoint enable */ +#define DEP0CTL_EPD BIT(30) /*!< endpoint disable */ +#define DEP0CTL_SNAK BIT(27) /*!< set NAK */ +#define DEP0CTL_CNAK BIT(26) /*!< clear NAK */ +#define DIEP0CTL_TXFNUM BITS(22, 25) /*!< tx FIFO number */ +#define DEP0CTL_STALL BIT(21) /*!< STALL handshake */ +#define DOEP0CTL_SNOOP BIT(20) /*!< snoop mode */ +#define DEP0CTL_EPTYPE BITS(18, 19) /*!< endpoint type */ +#define DEP0CTL_NAKS BIT(17) /*!< NAK status */ +#define DEP0CTL_EPACT BIT(15) /*!< endpoint active */ +#define DEP0CTL_MPL BITS(0, 1) /*!< maximum packet length */ + +/* device endpoint x control register bits definitions */ +#define DEPCTL_EPEN BIT(31) /*!< endpoint enable */ +#define DEPCTL_EPD BIT(30) /*!< endpoint disable */ +#define DEPCTL_SODDFRM BIT(29) /*!< set odd frame */ +#define DEPCTL_SD1PID BIT(29) /*!< set DATA1 PID */ +#define DEPCTL_SEVNFRM BIT(28) /*!< set even frame */ +#define DEPCTL_SD0PID BIT(28) /*!< set DATA0 PID */ +#define DEPCTL_SNAK BIT(27) /*!< set NAK */ +#define DEPCTL_CNAK BIT(26) /*!< clear NAK */ +#define DIEPCTL_TXFNUM BITS(22, 25) /*!< tx FIFO number */ +#define DEPCTL_STALL BIT(21) /*!< STALL handshake */ +#define DOEPCTL_SNOOP BIT(20) /*!< snoop mode */ +#define DEPCTL_EPTYPE BITS(18, 19) /*!< endpoint type */ +#define DEPCTL_NAKS BIT(17) /*!< NAK status */ +#define DEPCTL_EOFRM BIT(16) /*!< even/odd frame */ +#define DEPCTL_DPID BIT(16) /*!< endpoint data PID */ +#define DEPCTL_EPACT BIT(15) /*!< endpoint active */ +#define DEPCTL_MPL BITS(0, 10) /*!< maximum packet length */ + +/* device IN endpoint-x interrupt flag register bits definitions */ +#define DIEPINTF_NAK BIT(13) /*!< NAK handshake sent by USBHS */ +#define DIEPINTF_TXFE BIT(7) /*!< transmit FIFO empty */ +#define DIEPINTF_IEPNE BIT(6) /*!< IN endpoint NAK effective */ +#define DIEPINTF_EPTXFUD BIT(4) /*!< endpoint Tx FIFO underrun */ +#define DIEPINTF_CITO BIT(3) /*!< control In Timeout interrupt */ +#define DIEPINTF_EPDIS BIT(1) /*!< endpoint disabled */ +#define DIEPINTF_TF BIT(0) /*!< transfer finished */ + +/* device OUT endpoint-x interrupt flag register bits definitions */ +#define DOEPINTF_NYET BIT(14) /*!< NYET handshake is sent */ +#define DOEPINTF_BTBSTP BIT(6) /*!< back-to-back SETUP packets */ +#define DOEPINTF_EPRXFOVR BIT(4) /*!< endpoint Rx FIFO overrun */ +#define DOEPINTF_STPF BIT(3) /*!< SETUP phase finished */ +#define DOEPINTF_EPDIS BIT(1) /*!< endpoint disabled */ +#define DOEPINTF_TF BIT(0) /*!< transfer finished */ + +/* device IN endpoint 0 transfer length register bits definitions */ +#define DIEP0LEN_PCNT BITS(19, 20) /*!< packet count */ +#define DIEP0LEN_TLEN BITS(0, 6) /*!< transfer length */ + +/* device OUT endpoint 0 transfer length register bits definitions */ +#define DOEP0LEN_STPCNT BITS(29, 30) /*!< SETUP packet count */ +#define DOEP0LEN_PCNT BIT(19) /*!< packet count */ +#define DOEP0LEN_TLEN BITS(0, 6) /*!< transfer length */ + +/* device OUT endpoint-x transfer length register bits definitions */ +#define DOEPLEN_RXDPID BITS(29, 30) /*!< received data PID */ +#define DOEPLEN_STPCNT BITS(29, 30) /*!< SETUP packet count */ +#define DIEPLEN_MCNT BITS(29, 30) /*!< multi count */ +#define DEPLEN_PCNT BITS(19, 28) /*!< packet count */ +#define DEPLEN_TLEN BITS(0, 18) /*!< transfer length */ + +/* device IN endpoint-x DMA address register bits definitions */ +#define DIEPDMAADDR_DMAADDR BITS(0, 31) /*!< DMA address */ + +/* device OUT endpoint-x DMA address register bits definitions */ +#define DOEPDMAADDR_DMAADDR BITS(0, 31) /*!< DMA address */ + +/* device IN endpoint-x transmit FIFO status register bits definitions */ +#define DIEPTFSTAT_IEPTFS BITS(0, 15) /*!< IN endpoint Tx FIFO space remaining */ + +/* USB power and clock registers bits definition */ +#define PWRCLKCTL_SHCLK BIT(1) /*!< stop HCLK */ +#define PWRCLKCTL_SUCLK BIT(0) /*!< stop the USB clock */ + +#define RSTAT_GOUT_NAK 1U /* global OUT NAK (triggers an interrupt) */ +#define RSTAT_DATA_UPDT 2U /* OUT data packet received */ +#define RSTAT_XFER_COMP 3U /* OUT transfer completed (triggers an interrupt) */ +#define RSTAT_SETUP_COMP 4U /* SETUP transaction completed (triggers an interrupt) */ +#define RSTAT_SETUP_UPDT 6U /* SETUP data packet received */ + +#define DSTAT_EM_HS_PHY_30MHZ_60MHZ 0U /* USB enumerate speed use high-speed PHY clock in 30MHz or 60MHz */ +#define DSTAT_EM_FS_PHY_30MHZ_60MHZ 1U /* USB enumerate speed use full-speed PHY clock in 30MHz or 60MHz */ +#define DSTAT_EM_LS_PHY_6MHZ 2U /* USB enumerate speed use low-speed PHY clock in 6MHz */ +#define DSTAT_EM_FS_PHY_48MHZ 3U /* USB enumerate speed use full-speed PHY clock in 48MHz */ + +#define DPID_DATA0 0U /* device endpoint data PID is DATA0 */ +#define DPID_DATA1 2U /* device endpoint data PID is DATA1 */ +#define DPID_DATA2 1U /* device endpoint data PID is DATA2 */ +#define DPID_MDATA 3U /* device endpoint data PID is MDATA */ + +#define GAHBCS_DMAINCR(regval) (GAHBCS_BURST & ((regval) << 1)) /*!< AHB burst type used by DMA*/ + +#define DMA_INCR0 GAHBCS_DMAINCR(0U) /*!< single burst type used by DMA*/ +#define DMA_INCR1 GAHBCS_DMAINCR(1U) /*!< 4-beat incrementing burst type used by DMA*/ +#define DMA_INCR4 GAHBCS_DMAINCR(3U) /*!< 8-beat incrementing burst type used by DMA*/ +#define DMA_INCR8 GAHBCS_DMAINCR(5U) /*!< 16-beat incrementing burst type used by DMA*/ +#define DMA_INCR16 GAHBCS_DMAINCR(7U) /*!< 32-beat incrementing burst type used by DMA*/ + +#define DCFG_PFRI(regval) (DCFG_EOPFT & ((regval) << 11)) /*!< end of periodic frame time configuration */ + +#define FRAME_INTERVAL_80 DCFG_PFRI(0U) /*!< 80% of the frame time */ +#define FRAME_INTERVAL_85 DCFG_PFRI(1U) /*!< 85% of the frame time */ +#define FRAME_INTERVAL_90 DCFG_PFRI(2U) /*!< 90% of the frame time */ +#define FRAME_INTERVAL_95 DCFG_PFRI(3U) /*!< 95% of the frame time */ + +#define DCFG_DEVSPEED(regval) (DCFG_DS & ((regval) << 0)) /*!< device speed configuration */ + +#define USB_SPEED_EXP_HIGH DCFG_DEVSPEED(0U) /*!< device external PHY high speed */ +#define USB_SPEED_EXP_FULL DCFG_DEVSPEED(1U) /*!< device external PHY full speed */ +#define USB_SPEED_INP_FULL DCFG_DEVSPEED(3U) /*!< device internal PHY full speed */ + +#define DEP0_MPL(regval) (DEP0CTL_MPL & ((regval) << 0)) /*!< maximum packet length configuration */ + +#define EP0MPL_64 DEP0_MPL(0U) /*!< maximum packet length 64 bytes */ +#define EP0MPL_32 DEP0_MPL(1U) /*!< maximum packet length 32 bytes */ +#define EP0MPL_16 DEP0_MPL(2U) /*!< maximum packet length 16 bytes */ +#define EP0MPL_8 DEP0_MPL(3U) /*!< maximum packet length 8 bytes */ + +#define DOEP0_TLEN(regval) (DOEP0LEN_TLEN & ((regval) << 0)) /*!< Transfer length */ +#define DOEP0_PCNT(regval) (DOEP0LEN_PCNT & ((regval) << 19)) /*!< Packet count */ +#define DOEP0_STPCNT(regval) (DOEP0LEN_STPCNT & ((regval) << 29)) /*!< SETUP packet count */ + +#define USB_ULPI_PHY 1U /*!< ULPI interface external PHY */ +#define USB_EMBEDDED_PHY 2U /*!< Embedded PHY */ + +#define GRXSTS_PKTSTS_IN 2U +#define GRXSTS_PKTSTS_IN_XFER_COMP 3U +#define GRXSTS_PKTSTS_DATA_TOGGLE_ERR 5U +#define GRXSTS_PKTSTS_CH_HALTED 7U + +#define HCTL_30_60MHZ 0U /*!< USB clock 30-60MHZ */ +#define HCTL_48MHZ 1U /*!< USB clock 48MHZ */ +#define HCTL_6MHZ 2U /*!< USB clock 6MHZ */ + +#define EP0_OUT ((uint8_t)0x00) /*!< endpoint out 0 */ +#define EP0_IN ((uint8_t)0x80) /*!< endpoint in 0 */ +#define EP1_OUT ((uint8_t)0x01) /*!< endpoint out 1 */ +#define EP1_IN ((uint8_t)0x81) /*!< endpoint in 1 */ +#define EP2_OUT ((uint8_t)0x02) /*!< endpoint out 2 */ +#define EP2_IN ((uint8_t)0x82) /*!< endpoint in 2 */ +#define EP3_OUT ((uint8_t)0x03) /*!< endpoint out 3 */ +#define EP3_IN ((uint8_t)0x83) /*!< endpoint in 3 */ + +#endif /* __DRV_USB_REGS_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usbd_int.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usbd_int.h new file mode 100644 index 0000000000..bbc73893aa --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usbd_int.h @@ -0,0 +1,46 @@ +/*! + \file drv_usbd_int.h + \brief USB device mode interrupt header file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __DRV_USBD_INT_H +#define __DRV_USBD_INT_H + +#include "drv_usb_core.h" +#include "drv_usb_dev.h" + +/* function declarations */ +/* USB device-mode interrupts global service routine handler */ +void usbd_isr (usb_core_driver *udev); + +#endif /* __DRV_USBD_INT_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usbh_int.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usbh_int.h new file mode 100644 index 0000000000..76faaa0851 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Include/drv_usbh_int.h @@ -0,0 +1,55 @@ +/*! + \file drv_usbh_int.h.h + \brief USB host mode interrupt management header file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __DRV_USBH_INT_H +#define __DRV_USBH_INT_H + +#include "drv_usb_host.h" +#include "usbh_core.h" + +typedef struct _usbh_ev_cb +{ + uint8_t (*connect) (usbh_host *puhost); + uint8_t (*disconnect) (usbh_host *puhost); + uint8_t (*SOF) (usbh_host *puhost); +} usbh_ev_cb; + +extern usbh_ev_cb *usbh_int_fop; + +/* function declarations */ +/* handle global host interrupt */ +uint32_t usbh_isr (usb_core_driver *pudev); + +#endif /* __DRV_USBH_INT_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_core.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_core.c new file mode 100644 index 0000000000..9d769d9f37 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_core.c @@ -0,0 +1,339 @@ +/*! + \file drv_usb_core.c + \brief USB core driver which can operate in host and device mode + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "drv_usb_core.h" +#include "drv_usb_hw.h" + +/* local function prototypes ('static') */ +static void usb_core_reset (usb_core_regs *usb_regs); + +/*! + \brief configure USB core basic + \param[in] usb_basic: pointer to usb capabilities + \param[in] usb_regs: USB core registers + \param[in] usb_core: USB core + \param[out] none + \retval operation status +*/ +usb_status usb_basic_init (usb_core_basic *usb_basic, + usb_core_regs *usb_regs, + usb_core_enum usb_core) +{ + /* configure USB default transfer mode as FIFO mode */ + usb_basic->transfer_mode = (uint8_t)USB_USE_FIFO; + + /* USB default speed is full-speed */ + usb_basic->core_speed = (uint8_t)USB_SPEED_FULL; + + usb_basic->core_enum = (uint8_t)usb_core; + + switch (usb_core) { + case USB_CORE_ENUM_FS: + usb_basic->base_reg = (uint32_t)USBFS_REG_BASE; + + /* set the host channel numbers */ + usb_basic->num_pipe = USBFS_MAX_CHANNEL_COUNT; + + /* set the device endpoint numbers */ + usb_basic->num_ep = USBFS_MAX_EP_COUNT; + + /* USBFS core use embedded physical layer */ + usb_basic->phy_itf = USB_EMBEDDED_PHY; + break; + + default: + return USB_FAIL; + } + + usb_basic->sof_enable = USB_SOF_OUTPUT; + usb_basic->low_power = USB_LOW_POWER; + + /* assign main registers address */ + *usb_regs = (usb_core_regs) { + .gr = (usb_gr*) (usb_basic->base_reg + USB_REG_OFFSET_CORE), + .hr = (usb_hr*) (usb_basic->base_reg + USB_REG_OFFSET_HOST), + .dr = (usb_dr*) (usb_basic->base_reg + USB_REG_OFFSET_DEV), + + .HPCS = (uint32_t*) (usb_basic->base_reg + USB_REG_OFFSET_PORT), + .PWRCLKCTL = (uint32_t*) (usb_basic->base_reg + USB_REG_OFFSET_PWRCLKCTL) + }; + + /* assign device endpoint registers address */ + for (uint8_t i = 0U; i < usb_basic->num_ep; i++) { + usb_regs->er_in[i] = (usb_erin *) \ + (usb_basic->base_reg + USB_REG_OFFSET_EP_IN + (i * USB_REG_OFFSET_EP)); + + usb_regs->er_out[i] = (usb_erout *)\ + (usb_basic->base_reg + USB_REG_OFFSET_EP_OUT + (i * USB_REG_OFFSET_EP)); + } + + /* assign host pipe registers address */ + for (uint8_t i = 0U; i < usb_basic->num_pipe; i++) { + usb_regs->pr[i] = (usb_pr *) \ + (usb_basic->base_reg + USB_REG_OFFSET_CH_INOUT + (i * USB_REG_OFFSET_CH)); + + usb_regs->DFIFO[i] = (uint32_t *) \ + (usb_basic->base_reg + USB_DATA_FIFO_OFFSET + (i * USB_DATA_FIFO_SIZE)); + } + + return USB_OK; +} + +/*! + \brief initializes the USB controller registers and + prepares the core device mode or host mode operation + \param[in] usb_basic: pointer to USB capabilities + \param[in] usb_regs: pointer to USB core registers + \param[out] none + \retval operation status +*/ +usb_status usb_core_init (usb_core_basic usb_basic, usb_core_regs *usb_regs) +{ + if (USB_ULPI_PHY == usb_basic.phy_itf) { + usb_regs->gr->GCCFG &= ~GCCFG_PWRON; + + if (usb_basic.sof_enable) { + usb_regs->gr->GCCFG |= GCCFG_SOFOEN; + } + + /* init the ULPI interface */ + usb_regs->gr->GUSBCS &= ~(GUSBCS_EMBPHY | GUSBCS_ULPIEOI); + +#ifdef USBHS_EXTERNAL_VBUS_ENABLED + /* use external VBUS driver */ + usb_regs->gr->GUSBCS |= GUSBCS_ULPIEVD; +#else + /* use internal VBUS driver */ + usb_regs->gr->GUSBCS &= ~GUSBCS_ULPIEVD; +#endif /* USBHS_EXTERNAL_VBUS_ENABLED */ + + /* soft reset the core */ + usb_core_reset (usb_regs); + } else { + usb_regs->gr->GUSBCS |= GUSBCS_EMBPHY; + + /* soft reset the core */ + usb_core_reset (usb_regs); + + /* active the transceiver and enable VBUS sensing */ + usb_regs->gr->GCCFG |= GCCFG_PWRON | GCCFG_VBUSACEN | GCCFG_VBUSBCEN; + +#ifndef VBUS_SENSING_ENABLED + usb_regs->gr->GCCFG |= GCCFG_VBUSIG; +#endif /* VBUS_SENSING_ENABLED */ + + /* enable SOF output */ + if (usb_basic.sof_enable) { + usb_regs->gr->GCCFG |= GCCFG_SOFOEN; + } + + usb_mdelay(20U); + } + +#ifdef USE_OTG_MODE + + /* enable USB OTG features */ + usb_regs->gr->GUSBCS |= GUSBCS_HNPCEN | GUSBCS_SRPCEN; + + /* enable the USB wakeup and suspend interrupts */ + usb_regs->gr->GINTF = 0xBFFFFFFFU; + + usb_regs->gr->GINTEN = GINTEN_WKUPIE | GINTEN_SPIE | \ + GINTEN_OTGIE | GINTEN_SESIE | GINTEN_CIDPSCIE; + +#endif /* USE_OTG_MODE */ + + return USB_OK; +} + +/*! + \brief write a packet into the Tx FIFO associated with the endpoint + \param[in] usb_regs: pointer to USB core registers + \param[in] src_buf: pointer to source buffer + \param[in] fifo_num: FIFO number which is in (0..3) + \param[in] byte_count: packet byte count + \param[out] none + \retval operation status +*/ +usb_status usb_txfifo_write (usb_core_regs *usb_regs, + uint8_t *src_buf, + uint8_t fifo_num, + uint16_t byte_count) +{ + uint32_t word_count = (byte_count + 3U) / 4U; + + __IO uint32_t *fifo = usb_regs->DFIFO[fifo_num]; + + while (word_count-- > 0U) { + *fifo = *((__packed uint32_t *)src_buf); + + src_buf += 4U; + } + + return USB_OK; +} + +/*! + \brief read a packet from the Rx FIFO associated with the endpoint + \param[in] usb_regs: pointer to USB core registers + \param[in] dest_buf: pointer to destination buffer + \param[in] byte_count: packet byte count + \param[out] none + \retval void type pointer +*/ +void *usb_rxfifo_read (usb_core_regs *usb_regs, uint8_t *dest_buf, uint16_t byte_count) +{ + uint32_t word_count = (byte_count + 3U) / 4U; + + __IO uint32_t *fifo = usb_regs->DFIFO[0]; + + while (word_count-- > 0U) { + *(__packed uint32_t *)dest_buf = *fifo; + + dest_buf += 4U; + } + + return ((void *)dest_buf); +} + +/*! + \brief flush a Tx FIFO or all Tx FIFOs + \param[in] usb_regs: pointer to USB core registers + \param[in] fifo_num: FIFO number which is in (0..3) + \param[out] none + \retval operation status +*/ +usb_status usb_txfifo_flush (usb_core_regs *usb_regs, uint8_t fifo_num) +{ + usb_regs->gr->GRSTCTL = ((uint32_t)fifo_num << 6U) | GRSTCTL_TXFF; + + /* wait for Tx FIFO flush bit is set */ + while (usb_regs->gr->GRSTCTL & GRSTCTL_TXFF) { + /* no operation */ + } + + /* wait for 3 PHY clocks*/ + usb_udelay(3U); + + return USB_OK; +} + +/*! + \brief flush the entire Rx FIFO + \param[in] usb_regs: pointer to usb core registers + \param[out] none + \retval operation status +*/ +usb_status usb_rxfifo_flush (usb_core_regs *usb_regs) +{ + usb_regs->gr->GRSTCTL = GRSTCTL_RXFF; + + /* wait for Rx FIFO flush bit is set */ + while (usb_regs->gr->GRSTCTL & GRSTCTL_RXFF) { + /* no operation */ + } + + /* wait for 3 PHY clocks */ + usb_udelay(3U); + + return USB_OK; +} + +/*! + \brief set endpoint or channel TX FIFO size + \param[in] usb_regs: pointer to USB core registers + \param[in] fifo: TX FIFO number + \param[in] size: assigned TX FIFO size + \param[out] none + \retval none +*/ +void usb_set_txfifo(usb_core_regs *usb_regs, uint8_t fifo, uint16_t size) +{ + uint32_t tx_offset; + + tx_offset = usb_regs->gr->GRFLEN; + + if (fifo == 0U) { + usb_regs->gr->DIEP0TFLEN_HNPTFLEN = ((uint32_t)size << 16) | tx_offset; + } else { + tx_offset += (usb_regs->gr->DIEP0TFLEN_HNPTFLEN) >> 16; + + for (uint8_t i = 0U; i < (fifo - 1U); i++) { + tx_offset += (usb_regs->gr->DIEPTFLEN[i] >> 16); + } + + /* Multiply Tx_Size by 2 to get higher performance */ + usb_regs->gr->DIEPTFLEN[fifo - 1U] = ((uint32_t)size << 16) | tx_offset; + } +} + +/*! + \brief set USB current mode + \param[in] usb_regs: pointer to USB core registers + \param[out] none + \retval none +*/ +void usb_curmode_set(usb_core_regs *usb_regs, uint8_t mode) +{ + usb_regs->gr->GUSBCS &= ~(GUSBCS_FDM | GUSBCS_FHM); + + if (DEVICE_MODE == mode) { + usb_regs->gr->GUSBCS |= GUSBCS_FDM; + } else if (HOST_MODE == mode) { + usb_regs->gr->GUSBCS |= GUSBCS_FHM; + } else { + /* OTG mode and other mode can not be here! */ + } +} + +/*! + \brief configure USB core to soft reset + \param[in] usb_regs: pointer to USB core registers + \param[out] none + \retval none +*/ +static void usb_core_reset (usb_core_regs *usb_regs) +{ + /* enable core soft reset */ + usb_regs->gr->GRSTCTL |= GRSTCTL_CSRST; + + /* wait for the core to be soft reset */ + while (usb_regs->gr->GRSTCTL & GRSTCTL_CSRST) { + /* no operation */ + } + + /* wait for additional 3 PHY clocks */ + usb_udelay(3U); +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_dev.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_dev.c new file mode 100644 index 0000000000..c61c08aa51 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_dev.c @@ -0,0 +1,596 @@ +/*! + \file drv_usb_dev.c + \brief USB device mode low level driver + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "drv_usb_hw.h" +#include "drv_usb_core.h" +#include "drv_usb_dev.h" + +/* endpoint 0 max packet length */ +static const uint8_t EP0_MAXLEN[4] = { + [DSTAT_EM_HS_PHY_30MHZ_60MHZ] = EP0MPL_64, + [DSTAT_EM_FS_PHY_30MHZ_60MHZ] = EP0MPL_64, + [DSTAT_EM_FS_PHY_48MHZ] = EP0MPL_64, + [DSTAT_EM_LS_PHY_6MHZ] = EP0MPL_8 +}; + +#ifdef USB_FS_CORE + +/* USB endpoint Tx FIFO size */ +static uint16_t USBFS_TX_FIFO_SIZE[USBFS_MAX_EP_COUNT] = +{ + (uint16_t)TX0_FIFO_FS_SIZE, + (uint16_t)TX1_FIFO_FS_SIZE, + (uint16_t)TX2_FIFO_FS_SIZE, + (uint16_t)TX3_FIFO_FS_SIZE +}; + +#endif /* USBFS_CORE */ + +/*! + \brief initialize USB core registers for device mode + \param[in] udev: pointer to USB device + \param[out] none + \retval operation status +*/ +usb_status usb_devcore_init (usb_core_driver *udev) +{ + uint8_t i; + + /* restart the PHY clock (maybe don't need to...) */ + *udev->regs.PWRCLKCTL = 0U; + + /* config periodic frame interval to default value */ + udev->regs.dr->DCFG &= ~DCFG_EOPFT; + udev->regs.dr->DCFG |= FRAME_INTERVAL_80; + + udev->regs.dr->DCFG &= ~DCFG_DS; + +#ifdef USB_FS_CORE + if (udev->bp.core_enum == (uint8_t)USB_CORE_ENUM_FS) { + /* set full-speed PHY */ + udev->regs.dr->DCFG |= USB_SPEED_INP_FULL; + + /* set Rx FIFO size */ + usb_set_rxfifo(&udev->regs, RX_FIFO_FS_SIZE); + + /* set endpoint 0 to 3's Tx FIFO length and RAM address */ + for (i = 0U; i < USBFS_MAX_EP_COUNT; i++) { + usb_set_txfifo(&udev->regs, i, USBFS_TX_FIFO_SIZE[i]); + } + } +#endif /* USB_FS_CORE */ + + /* make sure all FIFOs are flushed */ + + /* flush all Tx FIFOs */ + (void)usb_txfifo_flush (&udev->regs, 0x10U); + + /* flush entire Rx FIFO */ + (void)usb_rxfifo_flush (&udev->regs); + + /* clear all pending device interrupts */ + udev->regs.dr->DIEPINTEN = 0U; + udev->regs.dr->DOEPINTEN = 0U; + udev->regs.dr->DAEPINT = 0xFFFFFFFFU; + udev->regs.dr->DAEPINTEN = 0U; + + /* configure all IN/OUT endpoints */ + for (i = 0U; i < udev->bp.num_ep; i++) { + if (udev->regs.er_in[i]->DIEPCTL & DEPCTL_EPEN) { + udev->regs.er_in[i]->DIEPCTL |= DEPCTL_EPD | DEPCTL_SNAK; + } else { + udev->regs.er_in[i]->DIEPCTL = 0U; + } + + /* set IN endpoint transfer length to 0 */ + udev->regs.er_in[i]->DIEPLEN = 0U; + + /* clear all pending IN endpoint interrupts */ + udev->regs.er_in[i]->DIEPINTF = 0xFFU; + + if (udev->regs.er_out[i]->DOEPCTL & DEPCTL_EPEN) { + udev->regs.er_out[i]->DOEPCTL |= DEPCTL_EPD | DEPCTL_SNAK; + } else { + udev->regs.er_out[i]->DOEPCTL = 0U; + } + + /* set OUT endpoint transfer length to 0 */ + udev->regs.er_out[i]->DOEPLEN = 0U; + + /* clear all pending OUT endpoint interrupts */ + udev->regs.er_out[i]->DOEPINTF = 0xFFU; + } + + udev->regs.dr->DIEPINTEN |= DIEPINTEN_EPTXFUDEN; + + (void)usb_devint_enable (udev); + + return USB_OK; +} + +/*! + \brief enable the USB device mode interrupts + \param[in] udev: pointer to USB device + \param[out] none + \retval operation status +*/ +usb_status usb_devint_enable (usb_core_driver *udev) +{ + /* clear any pending USB OTG interrupts */ + udev->regs.gr->GOTGINTF = 0xFFFFFFFFU; + + /* clear any pending interrupts */ + udev->regs.gr->GINTF = 0xBFFFFFFFU; + + /* enable the USB wakeup and suspend interrupts */ + udev->regs.gr->GINTEN = GINTEN_WKUPIE | GINTEN_SPIE; + + /* enable device_mode-related interrupts */ + if ((uint8_t)USB_USE_FIFO == udev->bp.transfer_mode) { + udev->regs.gr->GINTEN |= GINTEN_RXFNEIE; + } + + udev->regs.gr->GINTEN |= GINTEN_RSTIE | GINTEN_ENUMFIE | GINTEN_IEPIE |\ + GINTEN_OEPIE | GINTEN_SOFIE | GINTEN_ISOONCIE | GINTEN_ISOINCIE; + +#ifdef VBUS_SENSING_ENABLED + udev->regs.gr->GINTEN |= GINTEN_SESIE | GINTEN_OTGIE; +#endif /* VBUS_SENSING_ENABLED */ + + return USB_OK; +} + +/*! + \brief active the USB endpoint0 transaction + \param[in] udev: pointer to USB device + \param[in] transc: the USB endpoint0 transaction + \param[out] none + \retval operation status +*/ +usb_status usb_transc0_active (usb_core_driver *udev, usb_transc *transc) +{ + __IO uint32_t *reg_addr = NULL; + + /* get the endpoint number */ + uint8_t ep_num = transc->ep_addr.num; + + if (ep_num) { + /* not endpoint 0 */ + return USB_FAIL; + } + + if (transc->ep_addr.dir) { + reg_addr = &udev->regs.er_in[0]->DIEPCTL; + } else { + reg_addr = &udev->regs.er_out[0]->DOEPCTL; + } + + /* endpoint 0 is activated after USB clock is enabled */ + + *reg_addr &= ~(DEPCTL_MPL | DEPCTL_EPTYPE | DIEPCTL_TXFNUM); + + /* set endpoint 0 maximum packet length */ + *reg_addr |= EP0_MAXLEN[udev->regs.dr->DSTAT & DSTAT_ES]; + + /* activate endpoint */ + *reg_addr |= ((uint32_t)transc->ep_type << 18U) | ((uint32_t)ep_num << 22U) | DEPCTL_SD0PID | DEPCTL_EPACT; + + return USB_OK; +} + +/*! + \brief active the USB transaction + \param[in] udev: pointer to USB device + \param[in] transc: the USB transaction + \param[out] none + \retval status +*/ +usb_status usb_transc_active (usb_core_driver *udev, usb_transc *transc) +{ + __IO uint32_t *reg_addr = NULL; + __IO uint32_t epinten = 0U; + + /* get the endpoint number */ + uint8_t ep_num = transc->ep_addr.num; + + /* enable endpoint interrupt number */ + if (transc->ep_addr.dir) { + reg_addr = &udev->regs.er_in[ep_num]->DIEPCTL; + + epinten = 1U << ep_num; + } else { + reg_addr = &udev->regs.er_out[ep_num]->DOEPCTL; + + epinten = 1U << (16U + ep_num); + } + + /* if the endpoint is not active, need change the endpoint control register */ + if (!(*reg_addr & DEPCTL_EPACT)) { + *reg_addr &= ~(DEPCTL_MPL | DEPCTL_EPTYPE | DIEPCTL_TXFNUM); + + /* set endpoint maximum packet length */ + if (0U == ep_num) { + *reg_addr |= EP0_MAXLEN[udev->regs.dr->DSTAT & DSTAT_ES]; + } else { + *reg_addr |= transc->max_len; + } + + /* activate endpoint */ + *reg_addr |= ((uint32_t)transc->ep_type << 18U) | ((uint32_t)ep_num << 22U) | DEPCTL_SD0PID | DEPCTL_EPACT; + } + + + /* enable the interrupts for this endpoint */ + udev->regs.dr->DAEPINTEN |= epinten; + + return USB_OK; +} + +/*! + \brief deactivate the USB transaction + \param[in] udev: pointer to USB device + \param[in] transc: the USB transaction + \param[out] none + \retval status +*/ +usb_status usb_transc_deactivate(usb_core_driver *udev, usb_transc *transc) +{ + uint32_t epinten = 0U; + + uint8_t ep_num = transc->ep_addr.num; + + /* disable endpoint interrupt number */ + if (transc->ep_addr.dir) { + epinten = 1U << ep_num; + + udev->regs.er_in[ep_num]->DIEPCTL &= ~DEPCTL_EPACT; + } else { + epinten = 1U << (ep_num + 16U); + + udev->regs.er_out[ep_num]->DOEPCTL &= ~DEPCTL_EPACT; + } + + + /* disable the interrupts for this endpoint */ + udev->regs.dr->DAEPINTEN &= ~epinten; + + return USB_OK; +} + +/*! + \brief configure USB transaction to start IN transfer + \param[in] udev: pointer to USB device + \param[in] transc: the USB IN transaction + \param[out] none + \retval operation status +*/ +usb_status usb_transc_inxfer (usb_core_driver *udev, usb_transc *transc) +{ + usb_status status = USB_OK; + + uint8_t ep_num = transc->ep_addr.num; + + __IO uint32_t epctl = udev->regs.er_in[ep_num]->DIEPCTL; + __IO uint32_t eplen = udev->regs.er_in[ep_num]->DIEPLEN; + + eplen &= ~(DEPLEN_TLEN | DEPLEN_PCNT); + + /* zero length packet or endpoint 0 */ + if (0U == transc->xfer_len) { + /* set transfer packet count to 1 */ + eplen |= 1U << 19U; + } else { + /* set transfer packet count */ + if (0U == ep_num) { + transc->xfer_len = USB_MIN(transc->xfer_len, transc->max_len); + + eplen |= 1U << 19U; + } else { + eplen |= (((transc->xfer_len - 1U) + transc->max_len) / transc->max_len) << 19U; + } + + /* set endpoint transfer length */ + eplen |= transc->xfer_len; + + if (transc->ep_type == (uint8_t)USB_EPTYPE_ISOC) { + eplen |= DIEPLEN_MCNT & (1U << 29U); + } + } + + udev->regs.er_in[ep_num]->DIEPLEN = eplen; + + if (transc->ep_type == (uint8_t)USB_EPTYPE_ISOC) { + if (((udev->regs.dr->DSTAT & DSTAT_FNRSOF) >> 8U) & 0x01U) { + epctl |= DEPCTL_SEVNFRM; + } else { + epctl |= DEPCTL_SODDFRM; + } + } + + /* enable the endpoint and clear the NAK */ + epctl |= DEPCTL_CNAK | DEPCTL_EPEN; + + udev->regs.er_in[ep_num]->DIEPCTL = epctl; + + if ((uint8_t)USB_USE_FIFO == udev->bp.transfer_mode) { + if (transc->ep_type != (uint8_t)USB_EPTYPE_ISOC) { + /* enable the Tx FIFO empty interrupt for this endpoint */ + if (transc->xfer_len > 0U) { + udev->regs.dr->DIEPFEINTEN |= 1U << ep_num; + } + } else { + (void)usb_txfifo_write (&udev->regs, transc->xfer_buf, ep_num, (uint16_t)transc->xfer_len); + } + } + + return status; +} + +/*! + \brief configure usb transaction to start OUT transfer + \param[in] udev: pointer to usb device + \param[in] transc: the usb OUT transaction + \param[out] none + \retval status +*/ +usb_status usb_transc_outxfer (usb_core_driver *udev, usb_transc *transc) +{ + usb_status status = USB_OK; + + uint8_t ep_num = transc->ep_addr.num; + + uint32_t epctl = udev->regs.er_out[ep_num]->DOEPCTL; + uint32_t eplen = udev->regs.er_out[ep_num]->DOEPLEN; + + eplen &= ~(DEPLEN_TLEN | DEPLEN_PCNT); + + /* zero length packet or endpoint 0 */ + if ((0U == transc->xfer_len) || (0U == ep_num)) { + /* set the transfer length to max packet size */ + eplen |= transc->max_len; + + /* set the transfer packet count to 1 */ + eplen |= 1U << 19U; + } else { + /* configure the transfer size and packet count as follows: + * pktcnt = N + * xfersize = N * maxpacket + */ + uint32_t packet_count = (transc->xfer_len + transc->max_len - 1U) / transc->max_len; + + eplen |= packet_count << 19U; + eplen |= packet_count * transc->max_len; + } + + udev->regs.er_out[ep_num]->DOEPLEN = eplen; + + if (transc->ep_type == (uint8_t)USB_EPTYPE_ISOC) { + if (transc->frame_num) { + epctl |= DEPCTL_SD1PID; + } else { + epctl |= DEPCTL_SD0PID; + } + } + + /* enable the endpoint and clear the NAK */ + epctl |= DEPCTL_EPEN | DEPCTL_CNAK; + + udev->regs.er_out[ep_num]->DOEPCTL = epctl; + + return status; +} + +/*! + \brief set the USB transaction STALL status + \param[in] udev: pointer to USB device + \param[in] transc: the USB transaction + \param[out] none + \retval status +*/ +usb_status usb_transc_stall (usb_core_driver *udev, usb_transc *transc) +{ + __IO uint32_t *reg_addr = NULL; + + uint8_t ep_num = transc->ep_addr.num; + + if (transc->ep_addr.dir) { + reg_addr = &(udev->regs.er_in[ep_num]->DIEPCTL); + + /* set the endpoint disable bit */ + if (*reg_addr & DEPCTL_EPEN) { + *reg_addr |= DEPCTL_EPD; + } + } else { + /* set the endpoint stall bit */ + reg_addr = &(udev->regs.er_out[ep_num]->DOEPCTL); + } + + /* set the endpoint stall bit */ + *reg_addr |= DEPCTL_STALL; + + return USB_OK; +} + +/*! + \brief clear the USB transaction STALL status + \param[in] udev: pointer to USB device + \param[in] transc: the USB transaction + \param[out] none + \retval operation status +*/ +usb_status usb_transc_clrstall(usb_core_driver *udev, usb_transc *transc) +{ + __IO uint32_t *reg_addr = NULL; + + uint8_t ep_num = transc->ep_addr.num; + + if (transc->ep_addr.dir) { + reg_addr = &(udev->regs.er_in[ep_num]->DIEPCTL); + } else { + reg_addr = &(udev->regs.er_out[ep_num]->DOEPCTL); + } + + /* clear the endpoint stall bits */ + *reg_addr &= ~DEPCTL_STALL; + + /* reset data PID of the periodic endpoints */ + if ((transc->ep_type == (uint8_t)USB_EPTYPE_INTR) || (transc->ep_type == (uint8_t)USB_EPTYPE_BULK)) { + *reg_addr |= DEPCTL_SD0PID; + } + + return USB_OK; +} + +/*! + \brief read device IN endpoint interrupt flag register + \param[in] udev: pointer to USB device + \param[in] ep_num: endpoint number + \param[out] none + \retval interrupt value +*/ +uint32_t usb_iepintr_read (usb_core_driver *udev, uint8_t ep_num) +{ + uint32_t value = 0U, fifoemptymask, commonintmask; + + commonintmask = udev->regs.dr->DIEPINTEN; + fifoemptymask = udev->regs.dr->DIEPFEINTEN; + + /* check FIFO empty interrupt enable bit */ + commonintmask |= ((fifoemptymask >> ep_num) & 0x1U) << 7; + + value = udev->regs.er_in[ep_num]->DIEPINTF & commonintmask; + + return value; +} + +/*! + \brief configures OUT endpoint 0 to receive SETUP packets + \param[in] udev: pointer to USB device + \param[out] none + \retval none +*/ +void usb_ctlep_startout (usb_core_driver *udev) +{ + /* set OUT endpoint 0 receive length to 24 bytes, 1 packet and 3 setup packets */ + udev->regs.er_out[0]->DOEPLEN = DOEP0_TLEN(8U * 3U) | DOEP0_PCNT(1U) | DOEP0_STPCNT(3U); +} + +/*! + \brief active remote wakeup signaling + \param[in] udev: pointer to USB device + \param[out] none + \retval none +*/ +void usb_rwkup_active (usb_core_driver *udev) +{ + if (udev->dev.pm.dev_remote_wakeup) { + if (udev->regs.dr->DSTAT & DSTAT_SPST) { + if (udev->bp.low_power) { + /* ungate USB core clock */ + *udev->regs.PWRCLKCTL &= ~(PWRCLKCTL_SHCLK | PWRCLKCTL_SUCLK); + } + + /* active remote wakeup signaling */ + udev->regs.dr->DCTL |= DCTL_RWKUP; + + usb_mdelay(5U); + + udev->regs.dr->DCTL &= ~DCTL_RWKUP; + } + } +} + +/*! + \brief active USB core clock + \param[in] udev: pointer to USB device + \param[out] none + \retval none +*/ +void usb_clock_active (usb_core_driver *udev) +{ + if (udev->bp.low_power) { + if (udev->regs.dr->DSTAT & DSTAT_SPST) { + /* un-gate USB Core clock */ + *udev->regs.PWRCLKCTL &= ~(PWRCLKCTL_SHCLK | PWRCLKCTL_SUCLK); + } + } +} + +/*! + \brief USB device suspend + \param[in] udev: pointer to USB device + \param[out] none + \retval none +*/ +void usb_dev_suspend (usb_core_driver *udev) +{ + __IO uint32_t devstat = udev->regs.dr->DSTAT; + + if ((udev->bp.low_power) && (devstat & DSTAT_SPST)) { + /* switch-off the USB clocks */ + *udev->regs.PWRCLKCTL |= PWRCLKCTL_SHCLK; + + /* enter DEEP_SLEEP mode with LDO in low power mode */ + pmu_to_deepsleepmode(PMU_LDO_LOWPOWER, PMU_LOWDRIVER_DISABLE, WFI_CMD); + } +} + +/*! + \brief stop the device and clean up FIFOs + \param[in] udev: pointer to USB device + \param[out] none + \retval none +*/ +void usb_dev_stop (usb_core_driver *udev) +{ + uint32_t i; + + udev->dev.cur_status = 1U; + + /* clear all interrupt flag and enable bits */ + for (i = 0U; i < udev->bp.num_ep; i++) { + udev->regs.er_in[i]->DIEPINTF = 0xFFU; + udev->regs.er_out[i]->DOEPINTF = 0xFFU; + } + + udev->regs.dr->DIEPINTEN = 0U; + udev->regs.dr->DOEPINTEN = 0U; + udev->regs.dr->DAEPINTEN = 0U; + udev->regs.dr->DAEPINT = 0xFFFFFFFFU; + + /* flush the FIFO */ + (void)usb_rxfifo_flush (&udev->regs); + (void)usb_txfifo_flush (&udev->regs, 0x10U); +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_host.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_host.c new file mode 100644 index 0000000000..a7434f6681 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usb_host.c @@ -0,0 +1,446 @@ +/*! + \file drv_usb_host.c + \brief USB host mode low level driver + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "drv_usb_hw.h" +#include "drv_usb_core.h" +#include "drv_usb_host.h" + +const uint32_t PIPE_DPID[2] = +{ + PIPE_DPID_DATA0, + PIPE_DPID_DATA1 +}; + +/*! + \brief initializes USB core for host mode + \param[in] pudev: pointer to selected usb host + \param[out] none + \retval operation status +*/ +usb_status usb_host_init (usb_core_driver *pudev) +{ + uint32_t i = 0U, inten = 0U; + + uint32_t nptxfifolen = 0U; + uint32_t ptxfifolen = 0U; + + /* restart the PHY Clock */ + *pudev->regs.PWRCLKCTL = 0U; + + /* support FS/LS only */ + pudev->regs.hr->HCTL &= ~HCTL_SPDFSLS; + usb_phyclock_config (pudev, HCTL_48MHZ); + /* configure data FIFOs size */ +#ifdef USB_FS_CORE + if (USB_CORE_ENUM_FS == pudev->bp.core_enum) { + /* set Rx FIFO size */ + pudev->regs.gr->GRFLEN = USB_RX_FIFO_FS_SIZE; + + /* set non-periodic Tx FIFO size and address */ + nptxfifolen |= USB_RX_FIFO_FS_SIZE; + nptxfifolen |= USB_HTX_NPFIFO_FS_SIZE << 16U; + pudev->regs.gr->DIEP0TFLEN_HNPTFLEN = nptxfifolen; + + /* set periodic Tx FIFO size and address */ + ptxfifolen |= USB_RX_FIFO_FS_SIZE + USB_HTX_NPFIFO_FS_SIZE; + ptxfifolen |= USB_HTX_PFIFO_FS_SIZE << 16U; + pudev->regs.gr->HPTFLEN = ptxfifolen; + } +#endif /* USB_FS_CORE */ + +#ifdef USE_OTG_MODE + + /* clear host set hnp enable in the usb_otg control register */ + pudev->regs.gr->GOTGCS &= ~GOTGCS_HHNPEN; + +#endif /* USE_OTG_MODE */ + + /* make sure the FIFOs are flushed */ + + /* flush all Tx FIFOs in device or host mode */ + usb_txfifo_flush (&pudev->regs, 0x10U); + + /* flush the entire Rx FIFO */ + usb_rxfifo_flush (&pudev->regs); + + /* disable all interrupts */ + pudev->regs.gr->GINTEN = 0U; + + /* clear any pending USB OTG interrupts */ + pudev->regs.gr->GOTGINTF = 0xFFFFFFFFU; + + /* enable the USB wakeup and suspend interrupts */ + pudev->regs.gr->GINTF = 0xBFFFFFFFU; + + /* clear all pending host channel interrupts */ + for (i = 0U; i < pudev->bp.num_pipe; i++) { + pudev->regs.pr[i]->HCHINTF = 0xFFFFFFFFU; + pudev->regs.pr[i]->HCHINTEN = 0U; + } + +#ifndef USE_OTG_MODE + usb_portvbus_switch (pudev, 1U); +#endif /* USE_OTG_MODE */ + + pudev->regs.gr->GINTEN = GINTEN_WKUPIE | GINTEN_SPIE; + + /* enable host_mode-related interrupts */ + if (USB_USE_FIFO == pudev->bp.transfer_mode) { + inten = GINTEN_RXFNEIE; + } + + inten |= GINTEN_SESIE | GINTEN_HPIE | GINTEN_HCIE | GINTEN_ISOINCIE; + + pudev->regs.gr->GINTEN |= inten; + + inten = GINTEN_DISCIE | GINTEN_SOFIE; + + pudev->regs.gr->GINTEN &= ~inten; + + return USB_OK; +} + +/*! + \brief control the VBUS to power + \param[in] pudev: pointer to selected usb host + \param[in] state: VBUS state + \param[out] none + \retval none +*/ +void usb_portvbus_switch (usb_core_driver *pudev, uint8_t state) +{ + uint32_t port = 0U; + + /* enable or disable the external charge pump */ + usb_vbus_drive (state); + + /* turn on the host port power. */ + port = usb_port_read (pudev); + + if (!(port & HPCS_PP) && (1U == state)) { + port |= HPCS_PP; + } + + if ((port & HPCS_PP) && (0U == state)) { + port &= ~HPCS_PP; + } + + *pudev->regs.HPCS = port; + + usb_mdelay (200U); +} + +/*! + \brief reset host port + \param[in] pudev: pointer to usb device + \param[out] none + \retval operation status +*/ +uint32_t usb_port_reset (usb_core_driver *pudev) +{ + __IO uint32_t port = usb_port_read (pudev); + + *pudev->regs.HPCS = port | HPCS_PRST; + + usb_mdelay(20U); /* see note */ + + *pudev->regs.HPCS = port & ~HPCS_PRST; + + usb_mdelay(20U); + + return 1U; +} + +/*! + \brief initialize host pipe + \param[in] pudev: pointer to usb device + \param[in] pipe_num: host pipe number which is in (0..7) + \param[out] none + \retval operation status +*/ +usb_status usb_pipe_init (usb_core_driver *pudev, uint8_t pipe_num) +{ + usb_status status = USB_OK; + + __IO uint32_t pp_ctl = 0U; + __IO uint32_t pp_inten = HCHINTEN_TFIE; + + usb_pipe *pp = &pudev->host.pipe[pipe_num]; + + /* clear old interrupt conditions for this host channel */ + pudev->regs.pr[pipe_num]->HCHINTF = 0xFFFFFFFFU; + + if (pp->ep.dir) { + pp_inten |= HCHINTEN_BBERIE; + } + + /* enable channel interrupts required for this transfer */ + switch (pp->ep.type) { + case USB_EPTYPE_CTRL: + case USB_EPTYPE_BULK: + pp_inten |= HCHINTEN_STALLIE | HCHINTEN_USBERIE \ + | HCHINTEN_DTERIE | HCHINTEN_NAKIE; + + if (!pp->ep.dir) { + pp_inten |= HCHINTEN_NYETIE; + + if (pp->ping) { + pp_inten |= HCHINTEN_ACKIE; + } + } + break; + + case USB_EPTYPE_INTR: + pp_inten |= HCHINTEN_STALLIE | HCHINTEN_USBERIE | HCHINTEN_DTERIE \ + | HCHINTEN_NAKIE | HCHINTEN_REQOVRIE; + break; + + case USB_EPTYPE_ISOC: + pp_inten |= HCHINTEN_REQOVRIE | HCHINTEN_ACKIE; + + if (pp->ep.dir) { + pp_inten |= HCHINTEN_USBERIE; + } + break; + + default: + break; + } + + pudev->regs.pr[pipe_num]->HCHINTEN = pp_inten; + + /* enable the top level host channel interrupt */ + pudev->regs.hr->HACHINTEN |= 1U << pipe_num; + + /* make sure host channel interrupts are enabled */ + pudev->regs.gr->GINTEN |= GINTEN_HCIE; + + /* program the host channel control register */ + pp_ctl |= PIPE_CTL_DAR(pp->dev_addr); + pp_ctl |= PIPE_CTL_EPNUM(pp->ep.num); + pp_ctl |= PIPE_CTL_EPDIR(pp->ep.dir); + pp_ctl |= PIPE_CTL_EPTYPE(pp->ep.type); + pp_ctl |= PIPE_CTL_LSD(pp->dev_speed == PORT_SPEED_LOW); + + pp_ctl |= pp->ep.mps; + pp_ctl |= ((uint32_t)(pp->ep.type == USB_EPTYPE_INTR) << 29U) & HCHCTL_ODDFRM; + + pudev->regs.pr[pipe_num]->HCHCTL = pp_ctl; + + return status; +} + +/*! + \brief prepare host channel for transferring packets + \param[in] pudev: pointer to usb device + \param[in] pipe_num: host pipe number which is in (0..7) + \param[out] none + \retval operation status +*/ +usb_status usb_pipe_xfer (usb_core_driver *pudev, uint8_t pipe_num) +{ + usb_status status = USB_OK; + + uint16_t dword_len = 0U; + uint16_t packet_count = 0U; + + __IO uint32_t pp_ctl = 0U; + + usb_pipe *pp = &pudev->host.pipe[pipe_num]; + + uint16_t max_packet_len = pp->ep.mps; + + /* compute the expected number of packets associated to the transfer */ + if (pp->xfer_len > 0U) { + packet_count = (uint16_t)((pp->xfer_len + max_packet_len - 1U) / max_packet_len); + + if (packet_count > HC_MAX_PACKET_COUNT) { + packet_count = HC_MAX_PACKET_COUNT; + pp->xfer_len = (uint16_t)(packet_count * max_packet_len); + } + } else { + packet_count = 1U; + } + + if (pp->ep.dir) { + pp->xfer_len = (uint16_t)(packet_count * max_packet_len); + } + + /* initialize the host channel transfer information */ + pudev->regs.pr[pipe_num]->HCHLEN = pp->xfer_len | pp->DPID | PIPE_XFER_PCNT(packet_count); + + pp_ctl = pudev->regs.pr[pipe_num]->HCHCTL; + + if (usb_frame_even(pudev)) { + pp_ctl |= HCHCTL_ODDFRM; + } else { + pp_ctl &= ~HCHCTL_ODDFRM; + } + + /* set host channel enabled */ + pp_ctl |= HCHCTL_CEN; + pp_ctl &= ~HCHCTL_CDIS; + + pudev->regs.pr[pipe_num]->HCHCTL = pp_ctl; + + if (USB_USE_FIFO == pudev->bp.transfer_mode) { + if ((0U == pp->ep.dir) && (pp->xfer_len > 0U)) { + switch (pp->ep.type) { + /* non-periodic transfer */ + case USB_EPTYPE_CTRL: + case USB_EPTYPE_BULK: + dword_len = (uint16_t)((pp->xfer_len + 3U) / 4U); + + /* check if there is enough space in fifo space */ + if (dword_len > (pudev->regs.gr->HNPTFQSTAT & HNPTFQSTAT_NPTXFS)) { + /* need to process data in nptxfempty interrupt */ + pudev->regs.gr->GINTEN |= GINTEN_NPTXFEIE; + } + break; + + /* periodic transfer */ + case USB_EPTYPE_INTR: + case USB_EPTYPE_ISOC: + dword_len = (uint16_t)((pp->xfer_len + 3U) / 4U); + + /* check if there is enough space in fifo space */ + if (dword_len > (pudev->regs.hr->HPTFQSTAT & HPTFQSTAT_PTXFS)) { + /* need to process data in ptxfempty interrupt */ + pudev->regs.gr->GINTEN |= GINTEN_PTXFEIE; + } + break; + + default: + break; + } + + /* write packet into the tx fifo. */ + usb_txfifo_write (&pudev->regs, pp->xfer_buf, pipe_num, (uint16_t)pp->xfer_len); + } + } + + return status; +} + +/*! + \brief halt pipe + \param[in] pudev: pointer to usb device + \param[in] pipe_num: host pipe number which is in (0..7) + \param[out] none + \retval operation status +*/ +usb_status usb_pipe_halt (usb_core_driver *pudev, uint8_t pipe_num) +{ + __IO uint32_t pp_ctl = pudev->regs.pr[pipe_num]->HCHCTL; + + uint8_t ep_type = (uint8_t)((pp_ctl & HCHCTL_EPTYPE) >> 18U); + + pp_ctl |= HCHCTL_CEN | HCHCTL_CDIS; + + switch (ep_type) { + case USB_EPTYPE_CTRL: + case USB_EPTYPE_BULK: + if (0U == (pudev->regs.gr->HNPTFQSTAT & HNPTFQSTAT_NPTXFS)) { + pp_ctl &= ~HCHCTL_CEN; + } + break; + + case USB_EPTYPE_INTR: + case USB_EPTYPE_ISOC: + if (0U == (pudev->regs.hr->HPTFQSTAT & HPTFQSTAT_PTXFS)) { + pp_ctl &= ~HCHCTL_CEN; + } + break; + + default: + break; + } + + pudev->regs.pr[pipe_num]->HCHCTL = pp_ctl; + + return USB_OK; +} + +/*! + \brief configure host pipe to do ping operation + \param[in] pudev: pointer to usb device + \param[in] pipe_num: host pipe number which is in (0..7) + \param[out] none + \retval operation status +*/ +usb_status usb_pipe_ping (usb_core_driver *pudev, uint8_t pipe_num) +{ + uint32_t pp_ctl = 0U; + + pudev->regs.pr[pipe_num]->HCHLEN = HCHLEN_PING | (HCHLEN_PCNT & (1U << 19U)); + + pp_ctl = pudev->regs.pr[pipe_num]->HCHCTL; + + pp_ctl |= HCHCTL_CEN; + pp_ctl &= ~HCHCTL_CDIS; + + pudev->regs.pr[pipe_num]->HCHCTL = pp_ctl; + + return USB_OK; +} + +/*! + \brief stop the USB host and clean up FIFO + \param[in] pudev: pointer to usb device + \param[out] none + \retval none +*/ +void usb_host_stop (usb_core_driver *pudev) +{ + uint32_t i; + __IO uint32_t pp_ctl = 0U; + + pudev->regs.hr->HACHINTEN = 0x0U; + pudev->regs.hr->HACHINT = 0xFFFFFFFFU; + + /* flush out any leftover queued requests. */ + for (i = 0U; i < pudev->bp.num_pipe; i++) { + pp_ctl = pudev->regs.pr[i]->HCHCTL; + + pp_ctl &= ~(HCHCTL_CEN | HCHCTL_EPDIR); + pp_ctl |= HCHCTL_CDIS; + + pudev->regs.pr[i]->HCHCTL = pp_ctl; + } + + /* flush the FIFO */ + usb_rxfifo_flush (&pudev->regs); + usb_txfifo_flush (&pudev->regs, 0x10U); +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usbd_int.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usbd_int.c new file mode 100644 index 0000000000..3ba590464a --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usbd_int.c @@ -0,0 +1,474 @@ +/*! + \file drv_usbd_int.c + \brief USB device mode interrupt routines + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "usbd_conf.h" +#include "drv_usbd_int.h" +#include "usbd_transc.h" + +/* local function prototypes ('static') */ +static uint32_t usbd_int_epout (usb_core_driver *udev); +static uint32_t usbd_int_epin (usb_core_driver *udev); +static uint32_t usbd_int_rxfifo (usb_core_driver *udev); +static uint32_t usbd_int_reset (usb_core_driver *udev); +static uint32_t usbd_int_enumfinish (usb_core_driver *udev); +static uint32_t usbd_int_suspend (usb_core_driver *udev); +static uint32_t usbd_emptytxfifo_write (usb_core_driver *udev, uint32_t ep_num); + +static const uint8_t USB_SPEED[4] = +{ + [DSTAT_EM_HS_PHY_30MHZ_60MHZ] = (uint8_t)USB_SPEED_HIGH, + [DSTAT_EM_FS_PHY_30MHZ_60MHZ] = (uint8_t)USB_SPEED_FULL, + [DSTAT_EM_FS_PHY_48MHZ] = (uint8_t)USB_SPEED_FULL, + [DSTAT_EM_LS_PHY_6MHZ] = (uint8_t)USB_SPEED_LOW +}; + +/*! + \brief USB device-mode interrupts global service routine handler + \param[in] udev: pointer to USB device instance + \param[out] none + \retval none +*/ +void usbd_isr (usb_core_driver *udev) +{ + if (HOST_MODE != (udev->regs.gr->GINTF & GINTF_COPM)) { + uint32_t intr = udev->regs.gr->GINTF & udev->regs.gr->GINTEN; + + /* there are no interrupts, avoid spurious interrupt */ + if (!intr) { + return; + } + + /* OUT endpoints interrupts */ + if (intr & GINTF_OEPIF) { + (void)usbd_int_epout (udev); + } + + /* IN endpoints interrupts */ + if (intr & GINTF_IEPIF) { + (void)usbd_int_epin (udev); + } + + /* suspend interrupt */ + if (intr & GINTF_SP) { + (void)usbd_int_suspend (udev); + } + + /* wakeup interrupt */ + if (intr & GINTF_WKUPIF) { + /* inform upper layer by the resume event */ + udev->dev.cur_status = USBD_CONFIGURED; + + /* clear interrupt */ + udev->regs.gr->GINTF = GINTF_WKUPIF; + } + + /* start of frame interrupt */ + if (intr & GINTF_SOF) { + if (udev->dev.class_core->SOF) { + (void)udev->dev.class_core->SOF(udev); + } + + /* clear interrupt */ + udev->regs.gr->GINTF = GINTF_SOF; + } + + /* receive FIFO not empty interrupt */ + if (intr & GINTF_RXFNEIF) { + (void)usbd_int_rxfifo (udev); + } + + /* USB reset interrupt */ + if (intr & GINTF_RST) { + (void)usbd_int_reset (udev); + } + + /* enumeration has been done interrupt */ + if (intr & GINTF_ENUMFIF) { + (void)usbd_int_enumfinish (udev); + } + + /* incomplete synchronization IN transfer interrupt*/ + if (intr & GINTF_ISOINCIF) { + if (NULL != udev->dev.class_core->incomplete_isoc_in) { + (void)udev->dev.class_core->incomplete_isoc_in(udev); + } + + /* Clear interrupt */ + udev->regs.gr->GINTF = GINTF_ISOINCIF; + } + + /* incomplete synchronization OUT transfer interrupt*/ + if (intr & GINTF_ISOONCIF) { + if (NULL != udev->dev.class_core->incomplete_isoc_out) { + (void)udev->dev.class_core->incomplete_isoc_out(udev); + } + + /* clear interrupt */ + udev->regs.gr->GINTF = GINTF_ISOONCIF; + } + +#ifdef VBUS_SENSING_ENABLED + + /* Session request interrupt */ + if (intr & GINTF_SESIF) { + udev->regs.gr->GINTF = GINTF_SESIF; + } + + /* OTG mode interrupt */ + if (intr & GINTF_OTGIF) { + if(udev->regs.gr->GOTGINTF & GOTGINTF_SESEND) { + + } + + /* Clear OTG interrupt */ + udev->regs.gr->GINTF = GINTF_OTGIF; + } +#endif /* VBUS_SENSING_ENABLED */ + } +} + +/*! + \brief indicates that an OUT endpoint has a pending interrupt + \param[in] udev: pointer to USB device instance + \param[out] none + \retval operation status +*/ +static uint32_t usbd_int_epout (usb_core_driver *udev) +{ + uint32_t epintnum = 0U; + uint8_t ep_num = 0U; + + for (epintnum = usb_oepintnum_read (udev); epintnum; epintnum >>= 1, ep_num++) { + if (epintnum & 0x01U) { + __IO uint32_t oepintr = usb_oepintr_read (udev, ep_num); + + /* transfer complete interrupt */ + if (oepintr & DOEPINTF_TF) { + /* clear the bit in DOEPINTF for this interrupt */ + udev->regs.er_out[ep_num]->DOEPINTF = DOEPINTF_TF; + + /* inform upper layer: data ready */ + (void)usbd_out_transc (udev, ep_num); + } + + /* setup phase finished interrupt (control endpoints) */ + if (oepintr & DOEPINTF_STPF) { + /* inform the upper layer that a setup packet is available */ + (void)usbd_setup_transc (udev); + + udev->regs.er_out[ep_num]->DOEPINTF = DOEPINTF_STPF; + } + } + } + + return 1U; +} + +/*! + \brief indicates that an IN endpoint has a pending interrupt + \param[in] udev: pointer to USB device instance + \param[out] none + \retval operation status +*/ +static uint32_t usbd_int_epin (usb_core_driver *udev) +{ + uint32_t epintnum = 0U; + uint8_t ep_num = 0U; + + for (epintnum = usb_iepintnum_read (udev); epintnum; epintnum >>= 1, ep_num++) { + if (epintnum & 0x1U) { + __IO uint32_t iepintr = usb_iepintr_read (udev, ep_num); + + if (iepintr & DIEPINTF_TF) { + udev->regs.er_in[ep_num]->DIEPINTF = DIEPINTF_TF; + + /* data transmission is completed */ + (void)usbd_in_transc (udev, ep_num); + } + + if (iepintr & DIEPINTF_TXFE) { + usbd_emptytxfifo_write (udev, (uint32_t)ep_num); + + udev->regs.er_in[ep_num]->DIEPINTF = DIEPINTF_TXFE; + } + } + } + + return 1U; +} + +/*! + \brief handle the RX status queue level interrupt + \param[in] udev: pointer to USB device instance + \param[out] none + \retval operation status +*/ +static uint32_t usbd_int_rxfifo (usb_core_driver *udev) +{ + usb_transc *transc = NULL; + + uint8_t data_PID = 0U; + uint32_t bcount = 0U; + + __IO uint32_t devrxstat = 0U; + + /* disable the Rx status queue non-empty interrupt */ + udev->regs.gr->GINTEN &= ~GINTEN_RXFNEIE; + + /* get the status from the top of the FIFO */ + devrxstat = udev->regs.gr->GRSTATP; + + uint8_t ep_num = (uint8_t)(devrxstat & GRSTATRP_EPNUM); + + transc = &udev->dev.transc_out[ep_num]; + + bcount = (devrxstat & GRSTATRP_BCOUNT) >> 4U; + data_PID = (uint8_t)((devrxstat & GRSTATRP_DPID) >> 15U); + + switch ((devrxstat & GRSTATRP_RPCKST) >> 17U) { + case RSTAT_GOUT_NAK: + break; + + case RSTAT_DATA_UPDT: + if (bcount > 0U) { + (void)usb_rxfifo_read (&udev->regs, transc->xfer_buf, (uint16_t)bcount); + + transc->xfer_buf += bcount; + transc->xfer_count += bcount; + } + break; + + case RSTAT_XFER_COMP: + /* trigger the OUT endpoint interrupt */ + break; + + case RSTAT_SETUP_COMP: + /* trigger the OUT endpoint interrupt */ + break; + + case RSTAT_SETUP_UPDT: + if ((0U == transc->ep_addr.num) && (8U == bcount) && (DPID_DATA0 == data_PID)) { + /* copy the setup packet received in FIFO into the setup buffer in RAM */ + (void)usb_rxfifo_read (&udev->regs, (uint8_t *)&udev->dev.control.req, (uint16_t)bcount); + + transc->xfer_count += bcount; + } + break; + + default: + break; + } + + /* enable the Rx status queue level interrupt */ + udev->regs.gr->GINTEN |= GINTEN_RXFNEIE; + + return 1U; +} + +/*! + \brief handle USB reset interrupt + \param[in] udev: pointer to USB device instance + \param[out] none + \retval status +*/ +static uint32_t usbd_int_reset (usb_core_driver *udev) +{ + uint32_t i; + + /* clear the remote wakeup signaling */ + udev->regs.dr->DCTL &= ~DCTL_RWKUP; + + /* flush the Tx FIFO */ + (void)usb_txfifo_flush (&udev->regs, 0U); + + for (i = 0U; i < udev->bp.num_ep; i++) { + udev->regs.er_in[i]->DIEPINTF = 0xFFU; + udev->regs.er_out[i]->DOEPINTF = 0xFFU; + } + + /* clear all pending device endpoint interrupts */ + udev->regs.dr->DAEPINT = 0xFFFFFFFFU; + + /* enable endpoint 0 interrupts */ + udev->regs.dr->DAEPINTEN = 1U | (1U << 16U); + + /* enable OUT endpoint interrupts */ + udev->regs.dr->DOEPINTEN = DOEPINTEN_STPFEN | DOEPINTEN_TFEN; + + /* enable IN endpoint interrupts */ + udev->regs.dr->DIEPINTEN = DIEPINTEN_TFEN; + + /* reset device address */ + udev->regs.dr->DCFG &= ~DCFG_DAR; + + /* configure endpoint 0 to receive SETUP packets */ + usb_ctlep_startout (udev); + + /* clear USB reset interrupt */ + udev->regs.gr->GINTF = GINTF_RST; + + udev->dev.transc_out[0] = (usb_transc) { + .ep_type = USB_EPTYPE_CTRL, + .max_len = USB_FS_EP0_MAX_LEN + }; + + (void)usb_transc_active (udev, &udev->dev.transc_out[0]); + + udev->dev.transc_in[0] = (usb_transc) { + .ep_addr = { + .dir = 1U + }, + + .ep_type = USB_EPTYPE_CTRL, + .max_len = USB_FS_EP0_MAX_LEN + }; + + (void)usb_transc_active (udev, &udev->dev.transc_in[0]); + + /* upon reset call user call back */ + udev->dev.cur_status = (uint8_t)USBD_DEFAULT; + + return 1U; +} + +/*! + \brief handle USB speed enumeration finish interrupt + \param[in] udev: pointer to USB device instance + \param[out] none + \retval status +*/ +static uint32_t usbd_int_enumfinish (usb_core_driver *udev) +{ + uint8_t enum_speed = (uint8_t)((udev->regs.dr->DSTAT & DSTAT_ES) >> 1U); + + udev->regs.dr->DCTL &= ~DCTL_CGINAK; + udev->regs.dr->DCTL |= DCTL_CGINAK; + + udev->regs.gr->GUSBCS &= ~GUSBCS_UTT; + + /* set USB turn-around time based on device speed and PHY interface */ + if (USB_SPEED[enum_speed] == (uint8_t)USB_SPEED_HIGH) { + udev->bp.core_speed = (uint8_t)USB_SPEED_HIGH; + + udev->regs.gr->GUSBCS |= 0x09U << 10U; + } else { + udev->bp.core_speed = (uint8_t)USB_SPEED_FULL; + + udev->regs.gr->GUSBCS |= 0x05U << 10U; + } + + /* clear interrupt */ + udev->regs.gr->GINTF = GINTF_ENUMFIF; + + return 1U; +} + +/*! + \brief USB suspend interrupt handler + \param[in] udev: pointer to USB device instance + \param[out] none + \retval operation status +*/ +static uint32_t usbd_int_suspend (usb_core_driver *udev) +{ + __IO uint8_t low_power = udev->bp.low_power; + __IO uint8_t suspend = (uint8_t)(udev->regs.dr->DSTAT & DSTAT_SPST); + __IO uint8_t is_configured = (udev->dev.cur_status == (uint8_t)USBD_CONFIGURED)? 1U : 0U; + + udev->dev.backup_status = udev->dev.cur_status; + udev->dev.cur_status = (uint8_t)USBD_SUSPENDED; + + if (low_power && suspend && is_configured) { + /* switch-off the OTG clocks */ + *udev->regs.PWRCLKCTL |= PWRCLKCTL_SUCLK | PWRCLKCTL_SHCLK; + + /* enter DEEP_SLEEP mode with LDO in low power mode */ + pmu_to_deepsleepmode(PMU_LDO_LOWPOWER, PMU_LOWDRIVER_DISABLE, WFI_CMD); + } + + /* clear interrupt */ + udev->regs.gr->GINTF = GINTF_SP; + + return 1U; +} + +/*! + \brief check FIFO for the next packet to be loaded + \param[in] udev: pointer to USB device instance + \param[in] ep_num: endpoint identifier which is in (0..3) + \param[out] none + \retval status +*/ +static uint32_t usbd_emptytxfifo_write (usb_core_driver *udev, uint32_t ep_num) +{ + uint32_t len; + uint32_t word_count; + + usb_transc *transc = &udev->dev.transc_in[ep_num]; + + len = transc->xfer_len - transc->xfer_count; + + /* get the data length to write */ + if (len > transc->max_len) { + len = transc->max_len; + } + + word_count = (len + 3U) / 4U; + + while (((udev->regs.er_in[ep_num]->DIEPTFSTAT & DIEPTFSTAT_IEPTFS) >= word_count) && \ + (transc->xfer_count < transc->xfer_len)) { + len = transc->xfer_len - transc->xfer_count; + + if (len > transc->max_len) { + len = transc->max_len; + } + + /* write FIFO in word(4bytes) */ + word_count = (len + 3U) / 4U; + + /* write the FIFO */ + (void)usb_txfifo_write (&udev->regs, transc->xfer_buf, (uint8_t)ep_num, (uint16_t)len); + + transc->xfer_buf += len; + transc->xfer_count += len; + + if (transc->xfer_count == transc->xfer_len) { + /* disable the device endpoint FIFO empty interrupt */ + udev->regs.dr->DIEPFEINTEN &= ~(0x01U << ep_num); + } + } + + return 1U; +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usbh_int.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usbh_int.c new file mode 100644 index 0000000000..ab9bfea22b --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/driver/Source/drv_usbh_int.c @@ -0,0 +1,619 @@ +/*! + \file drv_usbh_int.c + \brief USB host mode interrupt handler file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2021-08-06, V3.0.1, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "drv_usbh_int.h" + +#if defined (__CC_ARM) /*!< ARM compiler */ + #pragma O0 +#elif defined (__GNUC__) /*!< GNU compiler */ + #pragma GCC optimize ("O0") +#elif defined (__TASKING__) /*!< TASKING compiler */ + #pragma optimize=0 +#endif /* __CC_ARM */ + +/* local function prototypes ('static') */ +static uint32_t usbh_int_port (usb_core_driver *pudev); +static uint32_t usbh_int_pipe (usb_core_driver *pudev); +static uint32_t usbh_int_pipe_in (usb_core_driver *pudev, uint32_t pp_num); +static uint32_t usbh_int_pipe_out (usb_core_driver *pudev, uint32_t pp_num); +static uint32_t usbh_int_rxfifonoempty (usb_core_driver *pudev); +static uint32_t usbh_int_txfifoempty (usb_core_driver *pudev, usb_pipe_mode pp_mode); + +/*! + \brief handle global host interrupt + \param[in] pudev: pointer to USB core instance + \param[out] none + \retval operation status +*/ +uint32_t usbh_isr (usb_core_driver *pudev) +{ + uint32_t retval = 0U; + + __IO uint32_t intr = 0U; + + /* check if host mode */ + if (HOST_MODE == (pudev->regs.gr->GINTF & GINTF_COPM)) { + intr = usb_coreintr_get(&pudev->regs); + + if (!intr) { + return 0U; + } + + if (intr & GINTF_SOF) { + usbh_int_fop->SOF(pudev->host.data); + + /* clear interrupt */ + pudev->regs.gr->GINTF = GINTF_SOF; + } + + if (intr & GINTF_RXFNEIF) { + retval |= usbh_int_rxfifonoempty (pudev); + } + + if (intr & GINTF_NPTXFEIF) { + retval |= usbh_int_txfifoempty (pudev, PIPE_NON_PERIOD); + } + + if (intr & GINTF_PTXFEIF) { + retval |= usbh_int_txfifoempty (pudev, PIPE_PERIOD); + } + + if (intr & GINTF_HCIF) { + retval |= usbh_int_pipe (pudev); + } + + if (intr & GINTF_HPIF) { + retval |= usbh_int_port (pudev); + } + + if (intr & GINTF_DISCIF) { + usbh_int_fop->disconnect(pudev->host.data); + + /* clear interrupt */ + pudev->regs.gr->GINTF = GINTF_DISCIF; + } + + if (intr & GINTF_ISOONCIF) { + pudev->regs.pr[0]->HCHCTL |= HCHCTL_CEN | HCHCTL_CDIS; + + /* clear interrupt */ + pudev->regs.gr->GINTF = GINTF_ISOONCIF; + } + + if (intr & GINTF_SESIF) { + usb_portvbus_switch (pudev, 1U); + + pudev->regs.gr->GINTF = GINTF_SESIF; + } + + if (intr & GINTF_WKUPIF) { + /* clear interrupt */ + pudev->regs.gr->GINTF = GINTF_WKUPIF; + } + } + + return retval; +} + +/*! + \brief handle USB pipe halt + \param[in] pudev: pointer to USB core instance + \param[in] pp_num: pp_num: host channel number which is in (0..7) + \param[in] pp_int: pipe interrupt + \param[in] pp_status: pipe status + \param[out] none + \retval none +*/ +static inline void usb_pp_halt (usb_core_driver *pudev, + uint8_t pp_num, + uint32_t pp_int, + usb_pipe_staus pp_status) +{ + pudev->regs.pr[pp_num]->HCHINTEN |= HCHINTEN_CHIE; + + usb_pipe_halt(pudev, pp_num); + + pudev->regs.pr[pp_num]->HCHINTF = pp_int; + + pudev->host.pipe[pp_num].pp_status = pp_status; +} + +/*! + \brief handle the host port interrupt + \param[in] pudev: pointer to USB device instance + \param[out] none + \retval operation status +*/ +#if defined (__ICCARM__) /*!< IAR compiler */ + #pragma optimize = none +#endif /* __ICCARM */ +static uint32_t usbh_int_port (usb_core_driver *pudev) +{ + uint32_t retval = 0U; + + /* note: when the USB PHY use USB HS PHY, the flag is needed */ + uint8_t port_reset = 0U; + + __IO uint32_t port_state = *pudev->regs.HPCS; + + /* clear the interrupt bits in GINTSTS */ + port_state &= ~(HPCS_PE | HPCS_PCD | HPCS_PEDC); + + /* port connect detected */ + if (*pudev->regs.HPCS & HPCS_PCD) { + port_state |= HPCS_PCD; + + usbh_int_fop->connect(pudev->host.data); + + retval |= 1U; + } + + /* port enable changed */ + if (*pudev->regs.HPCS & HPCS_PEDC) { + port_state |= HPCS_PEDC; + + if (*pudev->regs.HPCS & HPCS_PE) { + uint32_t port_speed = usb_curspeed_get(pudev); + uint32_t clock_type = pudev->regs.hr->HCTL & HCTL_CLKSEL; + + pudev->host.connect_status = 1U; + + if (PORT_SPEED_LOW == port_speed) { + pudev->regs.hr->HFT = 6000U; + + if (HCTL_6MHZ != clock_type) { + if (USB_EMBEDDED_PHY == pudev->bp.phy_itf) { + usb_phyclock_config (pudev, HCTL_6MHZ); + } + + port_reset = 1U; + } + } else if (PORT_SPEED_FULL == port_speed) { + pudev->regs.hr->HFT = 48000U; + + if (HCTL_48MHZ != clock_type) { + if (USB_EMBEDDED_PHY == pudev->bp.phy_itf) { + usb_phyclock_config (pudev, HCTL_48MHZ); + } + + port_reset = 1U; + } + } else { + /* for high speed device and others */ + port_reset = 1U; + } + + pudev->host.port_enabled = 1; + + pudev->regs.gr->GINTEN |= GINTEN_DISCIE | GINTEN_SOFIE; + } else { + pudev->host.port_enabled = 0; + } + } + + if (port_reset) { + usb_port_reset(pudev); + } + + /* clear port interrupts */ + *pudev->regs.HPCS = port_state; + + return retval; +} + +/*! + \brief handle all host channels interrupt + \param[in] pudev: pointer to USB device instance + \param[out] none + \retval operation status +*/ +static uint32_t usbh_int_pipe (usb_core_driver *pudev) +{ + uint32_t pp_num = 0U; + uint32_t retval = 0U; + + for (pp_num = 0U; pp_num < pudev->bp.num_pipe; pp_num++) { + if ((pudev->regs.hr->HACHINT & HACHINT_HACHINT) & (1UL << pp_num)) { + if (pudev->regs.pr[pp_num]->HCHCTL & HCHCTL_EPDIR) { + retval |= usbh_int_pipe_in (pudev, pp_num); + } else { + retval |= usbh_int_pipe_out (pudev, pp_num); + } + } + } + + return retval; +} + +/*! + \brief handle the IN channel interrupt + \param[in] pudev: pointer to USB device instance + \param[in] pp_num: host channel number which is in (0..7) + \param[out] none + \retval operation status +*/ +#if defined (__ICCARM__) /*!< IAR compiler */ + #pragma optimize = none +#endif /* __ICCARM */ +static uint32_t usbh_int_pipe_in (usb_core_driver *pudev, uint32_t pp_num) +{ + usb_pr *pp_reg = pudev->regs.pr[pp_num]; + + usb_pipe *pp = &pudev->host.pipe[pp_num]; + + __IO uint32_t intr_pp = pp_reg->HCHINTF & pp_reg->HCHINTEN; + + uint8_t ep_type = (uint8_t)((pp_reg->HCHCTL & HCHCTL_EPTYPE) >> 18U); + + if (intr_pp & HCHINTF_ACK) { + pp_reg->HCHINTF = HCHINTF_ACK; + } else if (intr_pp & HCHINTF_STALL) { + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_STALL, PIPE_STALL); + pp_reg->HCHINTF = HCHINTF_NAK; + + /* note: When there is a 'STALL', reset also NAK, + else, the pudev->host.pp_status = HC_STALL + will be overwritten by 'NAK' in code below */ + intr_pp &= ~HCHINTF_NAK; + } else if (intr_pp & HCHINTF_DTER) { + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_DTER, PIPE_DTGERR); + pp_reg->HCHINTF = HCHINTF_NAK; + } else { + /* no operation */ + } + + if (intr_pp & HCHINTF_REQOVR) { + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_REQOVR, PIPE_REQOVR); + } else if (intr_pp & HCHINTF_TF) { + pp->pp_status = PIPE_XF; + pp->err_count = 0U; + + pp_reg->HCHINTF = HCHINTF_TF; + + switch (ep_type) { + case USB_EPTYPE_CTRL: + case USB_EPTYPE_BULK: + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_NAK, PIPE_XF); + + pp->data_toggle_in ^= 1U; + break; + + case USB_EPTYPE_INTR: + case USB_EPTYPE_ISOC: + pp_reg->HCHCTL |= HCHCTL_ODDFRM; + pp->urb_state = URB_DONE; + break; + + default: + break; + } + } else if (intr_pp & HCHINTF_CH) { + pp_reg->HCHINTEN &= ~HCHINTEN_CHIE; + + switch (pp->pp_status) { + case PIPE_XF: + pp->urb_state = URB_DONE; + break; + + case PIPE_STALL: + pp->urb_state = URB_STALL; + break; + + case PIPE_TRACERR: + case PIPE_DTGERR: + pp->err_count = 0U; + pp->urb_state = URB_ERROR; + + pp->data_toggle_in ^= 1U; + break; + + case PIPE_IDLE: + case PIPE_HALTED: + case PIPE_NAK: + case PIPE_NYET: + case PIPE_BBERR: + case PIPE_REQOVR: + default: + if((uint8_t)USB_EPTYPE_INTR == ep_type) { + pp->data_toggle_in ^= 1U; + } + break; + } + + pp_reg->HCHINTF = HCHINTF_CH; + } else if (intr_pp & HCHINTF_USBER) { + pp->err_count++; + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_USBER, PIPE_TRACERR); + } else if (intr_pp & HCHINTF_NAK) { + switch (ep_type) { + case USB_EPTYPE_CTRL: + case USB_EPTYPE_BULK: + /* re-activate the channel */ + pp_reg->HCHCTL = (pp_reg->HCHCTL | HCHCTL_CEN) & ~HCHCTL_CDIS; + break; + + case USB_EPTYPE_INTR: + pp_reg->HCHINTEN |= HCHINTEN_CHIE; + + (void)usb_pipe_halt(pudev, (uint8_t)pp_num); + break; + + default: + break; + } + + pp->pp_status = PIPE_NAK; + + pp_reg->HCHINTF = HCHINTF_NAK; + } else { + /* no operation */ + } + + return 1U; +} + +/*! + \brief handle the OUT channel interrupt + \param[in] pudev: pointer to USB device instance + \param[in] pp_num: host channel number which is in (0..7) + \param[out] none + \retval operation status +*/ +#if defined (__ICCARM__) /*!< IAR compiler */ + #pragma optimize = none +#endif /* __ICCARM */ +static uint32_t usbh_int_pipe_out (usb_core_driver *pudev, uint32_t pp_num) +{ + usb_pr *pp_reg = pudev->regs.pr[pp_num]; + + usb_pipe *pp = &pudev->host.pipe[pp_num]; + + uint32_t intr_pp = pp_reg->HCHINTF & pp_reg->HCHINTEN; + + if (intr_pp & HCHINTF_ACK) { + if (URB_PING == pp->urb_state) { + pp->err_count = 0U; + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_TF, PIPE_XF); + } + + pp_reg->HCHINTF = HCHINTF_ACK; + } else if (intr_pp & HCHINTF_STALL) { + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_STALL, PIPE_STALL); + } else if (intr_pp & HCHINTF_DTER) { + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_DTER, PIPE_DTGERR); + pp_reg->HCHINTF = HCHINTF_NAK; + } else if (intr_pp & HCHINTF_REQOVR) { + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_REQOVR, PIPE_REQOVR); + } else if (intr_pp & HCHINTF_TF) { + pp->err_count = 0U; + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_TF, PIPE_XF); + } else if (intr_pp & HCHINTF_NAK) { + pp->err_count = 0U; + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_NAK, PIPE_NAK); + } else if (intr_pp & HCHINTF_USBER) { + pp->err_count++; + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_USBER, PIPE_TRACERR); + } else if (intr_pp & HCHINTF_NYET) { + pp->err_count = 0U; + usb_pp_halt (pudev, (uint8_t)pp_num, HCHINTF_NYET, PIPE_NYET); + } else if (intr_pp & HCHINTF_CH) { + pudev->regs.pr[pp_num]->HCHINTEN &= ~HCHINTEN_CHIE; + + switch (pp->pp_status) { + case PIPE_XF: + pp->urb_state = URB_DONE; + + if ((uint8_t)USB_EPTYPE_BULK == ((pp_reg->HCHCTL & HCHCTL_EPTYPE) >> 18U)) { + pp->data_toggle_out ^= 1U; + } + break; + + case PIPE_NAK: + + if (URB_PING == pp->urb_state) { + (void)usb_pipe_ping (pudev, (uint8_t)pp_num); + } else { + pp->urb_state = URB_NOTREADY; + } + break; + + case PIPE_NYET: + if (1U == pudev->host.pipe[pp_num].ping) { + (void)usb_pipe_ping (pudev, (uint8_t)pp_num); + pp->urb_state = URB_PING; + } + else { + pp->urb_state = URB_NOTREADY; + } + break; + + case PIPE_STALL: + pp->urb_state = URB_STALL; + break; + + case PIPE_TRACERR: + if (3U == pp->err_count) { + pp->urb_state = URB_ERROR; + pp->err_count = 0U; + } + break; + + case PIPE_IDLE: + case PIPE_HALTED: + case PIPE_BBERR: + case PIPE_REQOVR: + case PIPE_DTGERR: + default: + break; + } + + pp_reg->HCHINTF = HCHINTF_CH; + } else { + /* no operation */ + } + + return 1U; +} + +/*! + \brief handle the RX FIFO non-empty interrupt + \param[in] pudev: pointer to USB device instance + \param[out] none + \retval operation status +*/ +#if defined (__ICCARM__) /*!< IAR compiler */ + #pragma optimize = none +#endif /* __ICCARM */ +static uint32_t usbh_int_rxfifonoempty (usb_core_driver *pudev) +{ + uint32_t count = 0U; + + __IO uint8_t pp_num = 0U; + __IO uint32_t rx_stat = 0U; + + /* disable the RX status queue level interrupt */ + pudev->regs.gr->GINTEN &= ~GINTEN_RXFNEIE; + + rx_stat = pudev->regs.gr->GRSTATP; + pp_num = (uint8_t)(rx_stat & GRSTATRP_CNUM); + + switch ((rx_stat & GRSTATRP_RPCKST) >> 17U) { + case GRXSTS_PKTSTS_IN: + count = (rx_stat & GRSTATRP_BCOUNT) >> 4U; + + /* read the data into the host buffer. */ + if ((count > 0U) && (NULL != pudev->host.pipe[pp_num].xfer_buf)) { + (void)usb_rxfifo_read (&pudev->regs, pudev->host.pipe[pp_num].xfer_buf, (uint16_t)count); + + /* manage multiple transfer packet */ + pudev->host.pipe[pp_num].xfer_buf += count; + pudev->host.pipe[pp_num].xfer_count += count; + + pudev->host.backup_xfercount[pp_num] = pudev->host.pipe[pp_num].xfer_count; + + if (pudev->regs.pr[pp_num]->HCHLEN & HCHLEN_PCNT) { + /* re-activate the channel when more packets are expected */ + __IO uint32_t pp_ctl = pudev->regs.pr[pp_num]->HCHCTL; + + pp_ctl |= HCHCTL_CEN; + pp_ctl &= ~HCHCTL_CDIS; + + pudev->regs.pr[pp_num]->HCHCTL = pp_ctl; + } + } + break; + + case GRXSTS_PKTSTS_IN_XFER_COMP: + break; + + case GRXSTS_PKTSTS_DATA_TOGGLE_ERR: + count = (rx_stat & GRSTATRP_BCOUNT) >> 4U; + + while (count > 0U) { + rx_stat = pudev->regs.gr->GRSTATP; + count--; + } + break; + + case GRXSTS_PKTSTS_CH_HALTED: + break; + + default: + break; + } + + /* enable the RX status queue level interrupt */ + pudev->regs.gr->GINTEN |= GINTEN_RXFNEIE; + + return 1U; +} + +/*! + \brief handle the TX FIFO empty interrupt + \param[in] pudev: pointer to USB device instance + \param[in] pp_mode: pipe mode + \param[out] none + \retval operation status +*/ +#if defined (__ICCARM__) /*!< IAR compiler */ + #pragma optimize = none +#endif /* __ICCARM */ +static uint32_t usbh_int_txfifoempty (usb_core_driver *pudev, usb_pipe_mode pp_mode) +{ + uint8_t pp_num = 0U; + uint16_t word_count = 0U, len = 0U; + __IO uint32_t *txfiforeg = 0U, txfifostate = 0U; + + if (PIPE_NON_PERIOD == pp_mode) { + txfiforeg = &pudev->regs.gr->HNPTFQSTAT; + } else if (PIPE_PERIOD == pp_mode) { + txfiforeg = &pudev->regs.hr->HPTFQSTAT; + } else { + return 0U; + } + + txfifostate = *txfiforeg; + + pp_num = (uint8_t)((txfifostate & TFQSTAT_CNUM) >> 27U); + + word_count = (uint16_t)(pudev->host.pipe[pp_num].xfer_len + 3U) / 4U; + + while (((txfifostate & TFQSTAT_TXFS) >= word_count) && (0U != pudev->host.pipe[pp_num].xfer_len)) { + len = (uint16_t)(txfifostate & TFQSTAT_TXFS) * 4U; + + if (len > pudev->host.pipe[pp_num].xfer_len) { + /* last packet */ + len = (uint16_t)pudev->host.pipe[pp_num].xfer_len; + + if (PIPE_NON_PERIOD == pp_mode) { + pudev->regs.gr->GINTEN &= ~GINTEN_NPTXFEIE; + } else { + pudev->regs.gr->GINTEN &= ~GINTEN_PTXFEIE; + } + } + + word_count = (uint16_t)((pudev->host.pipe[pp_num].xfer_len + 3U) / 4U); + usb_txfifo_write (&pudev->regs, pudev->host.pipe[pp_num].xfer_buf, pp_num, len); + + pudev->host.pipe[pp_num].xfer_buf += len; + pudev->host.pipe[pp_num].xfer_len -= len; + pudev->host.pipe[pp_num].xfer_count += len; + + txfifostate = *txfiforeg; + } + + return 1U; +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/gd32f30x_usb_hw.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/gd32f30x_usb_hw.c new file mode 100644 index 0000000000..593518742c --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/gd32f30x_usb_hw.c @@ -0,0 +1,297 @@ +/*! + \file gd32f30x_usb_hw.c + \brief this file implements the board support package for the USB host library + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2021-06-22, V3.0.1, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "drv_usb_hw.h" + +#define TIM_MSEC_DELAY 0x01U +#define TIM_USEC_DELAY 0x02U +#define HOST_OVRCURR_PORT GPIOE +#define HOST_OVRCURR_LINE GPIO_PIN_1 +#define HOST_OVRCURR_PORT_SOURCE GPIO_PORT_SOURCE_GPIOE +#define HOST_OVRCURR_PIN_SOURCE GPIO_PINSOURCE1 +#define HOST_OVRCURR_PORT_RCC RCC_APB2PERIPH_GPIOE +#define HOST_OVRCURR_EXTI_LINE EXTI_LINE1 +#define HOST_OVRCURR_IRQn EXTI1_IRQn + +#define HOST_POWERSW_PORT_RCC RCU_GPIOD +#define HOST_POWERSW_PORT GPIOD +#define HOST_POWERSW_VBUS GPIO_PIN_13 + +#define HOST_SOF_OUTPUT_RCC RCC_APB2PERIPH_GPIOA +#define HOST_SOF_PORT GPIOA +#define HOST_SOF_SIGNAL GPIO_PIN_8 + +__IO uint32_t delay_time = 0; +__IO uint32_t usbfs_prescaler = 0; +__IO uint32_t timer_prescaler = 5; + +/* local function prototypes ('static') */ +static void hwp_time_set (uint8_t unit); +static void hwp_delay (uint32_t ntime, uint8_t unit); + +/*! + \brief configure USB GPIO + \param[in] none + \param[out] none + \retval none +*/ +void usb_gpio_config (void) +{ +#ifdef USB_OTG_FS_LOW_PWR_MGMT_SUPPORT + EXTI_InitPara EXTI_InitStructure; +#endif + +#ifdef USB_OTG_FS_LOW_PWR_MGMT_SUPPORT + + EXTI_ClearIntBitState(EXTI_LINE18); + + /* USB wakeup EXTI line configuration */ + EXTI_InitStructure.EXTI_LINE = EXTI_LINE18; + EXTI_InitStructure.EXTI_Mode = EXTI_Mode_Interrupt; + EXTI_InitStructure.EXTI_Trigger = EXTI_Trigger_Rising; + EXTI_InitStructure.EXTI_LINEEnable = ENABLE; + EXTI_Init(&EXTI_InitStructure); + +#endif +} + +/*! + \brief configure USB clock + \param[in] none + \param[out] none + \retval none +*/ +void usb_rcu_config (void) +{ + uint32_t system_clock = rcu_clock_freq_get(CK_SYS); + + if (48000000U == system_clock) { + timer_prescaler = 3U; + } else if (72000000U == system_clock) { + usbfs_prescaler = RCU_CKUSB_CKPLL_DIV1_5; + timer_prescaler = 5U; + } else if (96000000U == system_clock) { + usbfs_prescaler = RCU_CKUSB_CKPLL_DIV2; + timer_prescaler = 7U; + } else if (120000000U == system_clock) { + usbfs_prescaler = RCU_CKUSB_CKPLL_DIV2_5; + timer_prescaler = 9U; + } else { + /* reserved */ + } + rcu_usbfs_trng_clock_config(RCU_CKUSB_CKPLL_DIV2_5); + rcu_periph_clock_enable(RCU_USBFS); +} + +/*! + \brief configure USB global interrupt + \param[in] none + \param[out] none + \retval none +*/ +void usb_intr_config (void) +{ + nvic_priority_group_set(NVIC_PRIGROUP_PRE2_SUB2); + + nvic_irq_enable((uint8_t)USBFS_IRQn, 2U, 0U); + +#ifdef USB_LOW_POWER + + /* enable the power module clock */ + rcu_periph_clock_enable(RCU_PMU); + + /* USB wakeup EXTI line configuration */ + exti_interrupt_flag_clear(EXTI_18); + exti_init(EXTI_18, EXTI_INTERRUPT, EXTI_TRIG_RISING); + exti_interrupt_enable(EXTI_18); + + nvic_irq_enable((uint8_t)USBFS_WKUP_IRQn, 1U, 0U); + +#endif /* USB_LOW_POWER */ +} + +/*! + \brief drives the VBUS signal through gpio + \param[in] state: VBUS states + \param[out] none + \retval none +*/ +void usb_vbus_drive (uint8_t state) +{ + if (0U == state){ + /* DISABLE is needed on output of the Power Switch */ + gpio_bit_set(HOST_POWERSW_PORT, HOST_POWERSW_VBUS); + }else{ + /*ENABLE the Power Switch by driving the Enable LOW */ + gpio_bit_reset(HOST_POWERSW_PORT, HOST_POWERSW_VBUS); + } +} + +/*! + \brief configures the GPIO for the VBUS + \param[in] none + \param[out] none + \retval none +*/ +void usb_vbus_config (void) +{ + rcu_periph_clock_enable(HOST_POWERSW_PORT_RCC); + + gpio_init(HOST_POWERSW_PORT, GPIO_MODE_OUT_OD, GPIO_OSPEED_50MHZ, HOST_POWERSW_VBUS); + + /* by default, disable is needed on output of the power switch */ + usb_vbus_drive(0U); + + /* Delay is need for stabilizing the Vbus Low in Reset Condition, + * when Vbus=1 and Reset-button is pressed by user + */ + usb_mdelay (200); +} + +/*! + \brief initializes delay unit using Timer2 + \param[in] none + \param[out] none + \retval none +*/ +void usb_timer_init (void) +{ + /* configure the priority group to 2 bits */ + nvic_priority_group_set(NVIC_PRIGROUP_PRE2_SUB2); + + /* enable the Timer2 global interrupt */ + nvic_irq_enable((uint8_t)TIMER2_IRQn, 1U, 0U); + + rcu_periph_clock_enable(RCU_TIMER2); +} + +/*! + \brief delay in micro seconds + \param[in] usec: value of delay required in micro seconds + \param[out] none + \retval none +*/ +void usb_udelay (const uint32_t usec) +{ + hwp_delay(usec, TIM_USEC_DELAY); +} + +/*! + \brief delay in milli seconds + \param[in] msec: value of delay required in milli seconds + \param[out] none + \retval none +*/ +void usb_mdelay (const uint32_t msec) +{ + hwp_delay(msec, TIM_MSEC_DELAY); +} + +/*! + \brief timer base IRQ + \param[in] none + \param[out] none + \retval none +*/ +void usb_timer_irq (void) +{ + if (RESET != timer_interrupt_flag_get(TIMER2, TIMER_INT_UP)){ + timer_interrupt_flag_clear(TIMER2, TIMER_INT_UP); + + if (delay_time > 0x00U) { + delay_time--; + } else { + timer_disable(TIMER2); + } + } +} + +/*! + \brief delay routine based on TIM2 + \param[in] ntime: delay Time + \param[in] unit: delay Time unit = mili sec / micro sec + \param[out] none + \retval none +*/ +static void hwp_delay(uint32_t ntime, uint8_t unit) +{ + delay_time = ntime; + hwp_time_set(unit); + + while(0U != delay_time); + + timer_disable(TIMER2); +} + +/*! + \brief configures TIMER2 for delay routine based on TIMER2 + \param[in] unit: msec /usec + \param[out] none + \retval none +*/ +static void hwp_time_set(uint8_t unit) +{ + timer_parameter_struct timer_basestructure; + + timer_disable(TIMER2); + timer_interrupt_disable(TIMER2, TIMER_INT_UP); + + if (TIM_USEC_DELAY == unit) { + timer_basestructure.period = 11U; + } else if(TIM_MSEC_DELAY == unit) { + timer_basestructure.period = 11999U; + } else { + /* no operation */ + } + + timer_basestructure.prescaler = timer_prescaler; + timer_basestructure.alignedmode = TIMER_COUNTER_EDGE; + timer_basestructure.counterdirection = TIMER_COUNTER_UP; + timer_basestructure.clockdivision = TIMER_CKDIV_DIV1; + timer_basestructure.repetitioncounter = 0U; + + timer_init(TIMER2, &timer_basestructure); + + timer_interrupt_flag_clear(TIMER2, TIMER_INT_UP); + + timer_auto_reload_shadow_enable(TIMER2); + + /* TIMER2 interrupt enable */ + timer_interrupt_enable(TIMER2, TIMER_INT_UP); + + /* TIMER2 enable counter */ + timer_enable(TIMER2); +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Include/usbh_hid_core.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Include/usbh_hid_core.h new file mode 100644 index 0000000000..857e2fb043 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Include/usbh_hid_core.h @@ -0,0 +1,124 @@ +/*! + \file usbh_hid_core.h + \brief header file for the usbh_hid_core.c + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_HID_CORE_H +#define __USBH_HID_CORE_H + +#include "usb_hid.h" +#include "usbh_enum.h" +#include "usbh_transc.h" + +#define HID_MIN_POLL 10U +#define HID_REPORT_SIZE 16U +#define HID_QUEUE_SIZE 10U + +#define USB_HID_DESC_SIZE 9U + +/* states for HID state machine */ +typedef enum +{ + HID_INIT = 0U, + HID_IDLE, + HID_SEND_DATA, + HID_BUSY, + HID_GET_DATA, + HID_SYNC, + HID_POLL, + HID_ERROR, +} hid_state; + +typedef enum +{ + HID_REQ_INIT = 0U, + HID_REQ_IDLE, + HID_REQ_GET_REPORT_DESC, + HID_REQ_GET_HID_DESC, + HID_REQ_SET_IDLE, + HID_REQ_SET_PROTOCOL, + HID_REQ_SET_REPORT, +} hid_ctlstate; + +typedef enum +{ + HID_MOUSE = 0x01U, + HID_KEYBOARD = 0x02U, + HID_UNKNOWN = 0xFFU, +} hid_type; + +typedef struct +{ + uint8_t *buf; + uint16_t head; + uint16_t tail; + uint16_t size; + uint8_t lock; +} data_fifo; + +/* structure for HID process */ +typedef struct _hid_process +{ + uint8_t pipe_in; + uint8_t pipe_out; + uint8_t ep_addr; + uint8_t ep_in; + uint8_t ep_out; + uint8_t *pdata; + __IO uint8_t data_ready; + uint16_t len; + uint16_t poll; + + __IO uint32_t timer; + usb_desc_hid hid_desc; + + hid_state state; + hid_ctlstate ctl_state; + + usbh_status (*init)(usb_core_driver *pudev, usbh_host *puhost); + usbh_status (*decode)(uint8_t *data); +} usbh_hid_handler; + +extern usbh_class usbh_hid; + +/* function declarations */ +/* set HID report */ +usbh_status usbh_set_report (usb_core_driver *pudev, + usbh_host *puhost, + uint8_t report_type, + uint8_t report_ID, + uint8_t report_len, + uint8_t *report_buf); + + +#endif /* __USBH_HID_CORE_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Include/usbh_standard_hid.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Include/usbh_standard_hid.h new file mode 100644 index 0000000000..7b719176e9 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Include/usbh_standard_hid.h @@ -0,0 +1,100 @@ +/*! + \file usbh_standard_hid.h + \brief header file for usbh_standard_hid.c + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_STANDARD_HID_H +#define __USBH_STANDARD_HID_H + +#include "usb_conf.h" +#include "usbh_hid_core.h" + +//#define AZERTY_KEYBOARD +#define QWERTY_KEYBOARD + +#define MOUSE_BUTTON_1 0x01U +#define MOUSE_BUTTON_2 0x02U +#define MOUSE_BUTTON_3 0x04U + +#define KBD_LEFT_CTRL 0x01U +#define KBD_LEFT_SHIFT 0x02U +#define KBD_LEFT_ALT 0x04U +#define KBD_LEFT_GUI 0x08U +#define KBD_RIGHT_CTRL 0x10U +#define KBD_RIGHT_SHIFT 0x20U +#define KBD_RIGHT_ALT 0x40U +#define KBD_RIGHT_GUI 0x80U + +#define KBD_PRESSED_MAX_NUM 6U + +typedef struct _hid_mouse_info +{ + uint8_t x; + uint8_t y; + uint8_t buttons[3]; +} hid_mouse_info; + +typedef struct +{ + uint8_t state; + uint8_t lctrl; + uint8_t lshift; + uint8_t lalt; + uint8_t lgui; + uint8_t rctrl; + uint8_t rshift; + uint8_t ralt; + uint8_t rgui; + uint8_t keys[6]; +} hid_keybd_info; + +/* function declarations */ +/* initialize mouse */ +void usr_mouse_init (void); +/* process mouse data */ +void usr_mouse_process_data (hid_mouse_info *data); +/* initialize mouse function */ +usbh_status usbh_hid_mouse_init (usb_core_driver *udev, usbh_host *uhost); +/* decode mouse information */ +usbh_status usbh_hid_mouse_decode(uint8_t *data); + +/* initialize keyboard */ +void usr_keyboard_init (void); +/* process keyboard data */ +void usr_keybrd_process_data (uint8_t pbuf); +/* initialize the keyboard function */ +usbh_status usbh_hid_keybd_init (usb_core_driver *udev, usbh_host *uhost); +/* decode keyboard information */ +usbh_status usbh_hid_keybrd_decode (uint8_t *data); + +#endif /* __USBH_STANDARD_HID_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Source/usbh_hid_core.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Source/usbh_hid_core.c new file mode 100644 index 0000000000..3b0ceada76 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Source/usbh_hid_core.c @@ -0,0 +1,579 @@ +/*! + \file usbh_hid_core.c + \brief USB host HID class driver + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "usbh_pipe.h" +#include "usbh_hid_core.h" +#include "usbh_standard_hid.h" +#include +#include + +/* local function prototypes ('static') */ +static void usbh_hiddesc_parse (usb_desc_hid *hid_desc, uint8_t *buf); +static void usbh_hid_itf_deinit (usbh_host *puhost); +static usbh_status usbh_hid_itf_init (usbh_host *puhost); +static usbh_status usbh_hid_class_req (usbh_host *puhost); +static usbh_status usbh_hid_handle (usbh_host *puhost); +static usbh_status usbh_hid_reportdesc_get (usbh_host *puhost, uint16_t len); +static usbh_status usbh_hid_sof(usbh_host *puhost); +static usbh_status usbh_hid_desc_get (usbh_host *puhost, uint16_t len); +static usbh_status usbh_set_idle (usbh_host *puhost, uint8_t duration, uint8_t report_ID); +static usbh_status usbh_set_protocol (usbh_host *puhost, uint8_t protocol); + +usbh_class usbh_hid = +{ + USB_HID_CLASS, + usbh_hid_itf_init, + usbh_hid_itf_deinit, + usbh_hid_class_req, + usbh_hid_handle, + usbh_hid_sof +}; + +/*! + \brief get report + \param[in] puhost: pointer to usb host + \param[in] report_type: duration for HID set idle request + \param[in] report_ID: targeted report ID for HID set idle request + \param[in] report_len: length of data report to be send + \param[in] report_buf: report buffer + \param[out] none + \retval operation status +*/ +usbh_status usbh_get_report (usbh_host *puhost, + uint8_t report_type, + uint8_t report_ID, + uint8_t report_len, + uint8_t *report_buf) +{ + usbh_status status = USBH_BUSY; + + if (CTL_IDLE == puhost->control.ctl_state) { + puhost->control.setup.req = (usb_req) { + .bmRequestType = USB_TRX_IN | USB_RECPTYPE_ITF | USB_REQTYPE_CLASS, + .bRequest = GET_REPORT, + .wValue = (report_type << 8U) | report_ID, + .wIndex = 0U, + .wLength = report_len + }; + + usbh_ctlstate_config (puhost, report_buf, report_len); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief set report + \param[in] pudev: pointer to usb core instance + \param[in] puhost: pointer to usb host + \param[in] report_type: duration for HID set idle request + \param[in] report_ID: targeted report ID for HID set idle request + \param[in] report_len: length of data report to be send + \param[in] report_buf: report buffer + \param[out] none + \retval operation status +*/ +usbh_status usbh_set_report (usb_core_driver *pudev, + usbh_host *puhost, + uint8_t report_type, + uint8_t report_ID, + uint8_t report_len, + uint8_t *report_buf) +{ + usbh_status status = USBH_BUSY; + + if (CTL_IDLE == puhost->control.ctl_state) { + puhost->control.setup.req = (usb_req) { + .bmRequestType = USB_TRX_OUT | USB_RECPTYPE_ITF | USB_REQTYPE_CLASS, + .bRequest = SET_REPORT, + .wValue = (report_type << 8U) | report_ID, + .wIndex = 0U, + .wLength = report_len + }; + + usbh_ctlstate_config (puhost, report_buf, report_len); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief de-initialize the host pipes used for the HID class + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +void usbh_hid_itf_deinit (usbh_host *puhost) +{ + usbh_hid_handler *hid = (usbh_hid_handler *)puhost->active_class->class_data; + + if (0x00U != hid->pipe_in) { + usb_pipe_halt (puhost->data, hid->pipe_in); + + usbh_pipe_free (puhost->data, hid->pipe_in); + + hid->pipe_in = 0U; /* reset the pipe as free */ + } + + if (0x00U != hid->pipe_out) { + usb_pipe_halt (puhost->data, hid->pipe_out); + + usbh_pipe_free (puhost->data, hid->pipe_out); + + hid->pipe_out = 0U; /* reset the channel as free */ + } +} + +/*! + \brief return device type + \param[in] pudev: pointer to usb core instance + \param[in] puhost: pointer to usb host + \param[out] none + \retval hid_type +*/ +hid_type usbh_hid_device_type_get(usb_core_driver *pudev, usbh_host *puhost) +{ + hid_type type = HID_UNKNOWN; + uint8_t interface_protocol; + + if (HOST_CLASS_HANDLER == puhost->cur_state) { + interface_protocol = puhost->dev_prop.cfg_desc_set.itf_desc_set[puhost->dev_prop.cur_itf][0].itf_desc.bInterfaceProtocol; + + if (USB_HID_PROTOCOL_KEYBOARD == interface_protocol) { + type = HID_KEYBOARD; + } else { + if (USB_HID_PROTOCOL_MOUSE == interface_protocol) { + type = HID_MOUSE; + } + } + } + + return type; +} + +/*! + \brief return HID device poll time + \param[in] pudev: pointer to usb core instance + \param[in] puhost: pointer to usb host + \param[out] none + \retval poll time (ms) +*/ +uint8_t usbh_hid_poll_interval_get (usb_core_driver *pudev, usbh_host *puhost) +{ + usbh_hid_handler *hid = (usbh_hid_handler *)puhost->active_class->class_data; + + if ((HOST_CLASS_ENUM == puhost->cur_state) || + (HOST_USER_INPUT == puhost->cur_state) || + (HOST_CLASS_CHECK == puhost->cur_state) || + (HOST_CLASS_HANDLER == puhost->cur_state)) { + return (uint8_t)(hid->poll); + } else { + return 0U; + } +} + +/*! + \brief initialize the hid class + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +static usbh_status usbh_hid_itf_init (usbh_host *puhost) +{ + uint8_t num = 0U, ep_num = 0U, interface = 0U; + usbh_status status = USBH_BUSY; + + interface = usbh_interface_find(&puhost->dev_prop, USB_HID_CLASS, USB_HID_SUBCLASS_BOOT_ITF, 0xFFU); + + if (0xFFU == interface) { + puhost->usr_cb->dev_not_supported(); + + status = USBH_FAIL; + } else { + usbh_interface_select(&puhost->dev_prop, interface); + + static usbh_hid_handler hid_handler; + + memset((void*)&hid_handler, 0, sizeof(usbh_hid_handler)); + + hid_handler.state = HID_ERROR; + + uint8_t itf_protocol = puhost->dev_prop.cfg_desc_set.itf_desc_set[puhost->dev_prop.cur_itf][0].itf_desc.bInterfaceProtocol; + if (USB_HID_PROTOCOL_KEYBOARD == itf_protocol) { + hid_handler.init = usbh_hid_keybd_init; + hid_handler.decode = usbh_hid_keybrd_decode; + } else if (USB_HID_PROTOCOL_MOUSE == itf_protocol) { + hid_handler.init = usbh_hid_mouse_init; + hid_handler.decode = usbh_hid_mouse_decode; + } else { + status = USBH_FAIL; + } + + hid_handler.state = HID_INIT; + hid_handler.ctl_state = HID_REQ_INIT; + hid_handler.ep_addr = puhost->dev_prop.cfg_desc_set.itf_desc_set[puhost->dev_prop.cur_itf][0].ep_desc[0].bEndpointAddress; + hid_handler.len = puhost->dev_prop.cfg_desc_set.itf_desc_set[puhost->dev_prop.cur_itf][0].ep_desc[0].wMaxPacketSize; + hid_handler.poll = puhost->dev_prop.cfg_desc_set.itf_desc_set[puhost->dev_prop.cur_itf][0].ep_desc[0].bInterval; + + if (hid_handler.poll < HID_MIN_POLL) { + hid_handler.poll = HID_MIN_POLL; + } + + /* check for available number of endpoints */ + /* find the number of endpoints in the interface descriptor */ + /* choose the lower number in order not to overrun the buffer allocated */ + ep_num = USB_MIN(puhost->dev_prop.cfg_desc_set.itf_desc_set[puhost->dev_prop.cur_itf][0].itf_desc.bNumEndpoints, USBH_MAX_EP_NUM); + + /* decode endpoint IN and OUT address from interface descriptor */ + for (num = 0U; num < ep_num; num++) { + usb_desc_ep *ep_desc = &puhost->dev_prop.cfg_desc_set.itf_desc_set[puhost->dev_prop.cur_itf][0].ep_desc[num]; + + uint8_t ep_addr = ep_desc->bEndpointAddress; + + if (ep_addr & 0x80U) { + hid_handler.ep_in = ep_addr; + hid_handler.pipe_in = usbh_pipe_allocate (puhost->data, ep_addr); + + /* open channel for IN endpoint */ + usbh_pipe_create (puhost->data, + &puhost->dev_prop, + hid_handler.pipe_in, + USB_EPTYPE_INTR, + hid_handler.len); + + usbh_pipe_toggle_set(puhost->data, hid_handler.pipe_in, 0U); + } else { + hid_handler.ep_out = ep_addr; + hid_handler.pipe_out = usbh_pipe_allocate (puhost->data, ep_addr); + + /* open channel for OUT endpoint */ + usbh_pipe_create (puhost->data, + &puhost->dev_prop, + hid_handler.pipe_out, + USB_EPTYPE_INTR, + hid_handler.len); + + usbh_pipe_toggle_set(puhost->data, hid_handler.pipe_out, 0U); + } + } + + puhost->active_class->class_data = (void *)&hid_handler; + + status = USBH_OK; + } + + return status; +} + +/*! + \brief handle HID class requests for HID class + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +static usbh_status usbh_hid_class_req (usbh_host *puhost) +{ + usbh_status status = USBH_BUSY; + usbh_status class_req_status = USBH_BUSY; + + usbh_hid_handler *hid = (usbh_hid_handler *)puhost->active_class->class_data; + + /* handle HID control state machine */ + switch (hid->ctl_state) { + case HID_REQ_INIT: + case HID_REQ_GET_HID_DESC: + /* get HID descriptor */ + if (USBH_OK == usbh_hid_desc_get (puhost, USB_HID_DESC_SIZE)) { + usbh_hiddesc_parse(&hid->hid_desc, puhost->dev_prop.data); + + hid->ctl_state = HID_REQ_GET_REPORT_DESC; + } + break; + + case HID_REQ_GET_REPORT_DESC: + /* get report descriptor */ + if (USBH_OK == usbh_hid_reportdesc_get(puhost, hid->hid_desc.wDescriptorLength)) { + hid->ctl_state = HID_REQ_SET_IDLE; + } + break; + + case HID_REQ_SET_IDLE: + class_req_status = usbh_set_idle (puhost, 0U, 0U); + + /* set idle */ + if (USBH_OK == class_req_status) { + hid->ctl_state = HID_REQ_SET_PROTOCOL; + } else { + if(USBH_NOT_SUPPORTED == class_req_status) { + hid->ctl_state = HID_REQ_SET_PROTOCOL; + } + } + break; + + case HID_REQ_SET_PROTOCOL: + /* set protocol */ + if (USBH_OK == usbh_set_protocol (puhost, 0U)) { + hid->ctl_state = HID_REQ_IDLE; + + /* all requests performed */ + status = USBH_OK; + } + break; + + case HID_REQ_IDLE: + default: + break; + } + + return status; +} + +/*! + \brief manage state machine for HID data transfers + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +static usbh_status usbh_hid_handle (usbh_host *puhost) +{ + usbh_status status = USBH_OK; + usbh_hid_handler *hid = (usbh_hid_handler *)puhost->active_class->class_data; + + switch (hid->state) { + case HID_INIT: + hid->init(puhost->data, puhost); + hid->state = HID_IDLE; + break; + + case HID_IDLE: + hid->state = HID_SYNC; + status = USBH_OK; + break; + + case HID_SYNC: + if (true == usb_frame_even(puhost->data)) { + hid->state = HID_GET_DATA; + } + break; + + case HID_GET_DATA: + usbh_data_recev (puhost->data, hid->pdata, hid->pipe_in, hid->len); + + hid->state = HID_POLL; + hid->timer = usb_curframe_get (puhost->data); + hid->data_ready = 0U; + break; + + case HID_POLL: + if (URB_DONE == usbh_urbstate_get (puhost->data, hid->pipe_in)) { + if (0U == hid->data_ready) { + hid->data_ready = 1U; + + hid->decode(hid->pdata); + } + } else { + if (URB_STALL == usbh_urbstate_get (puhost->data, hid->pipe_in)) { + if (USBH_OK == (usbh_clrfeature (puhost, hid->ep_addr, hid->pipe_in))) { + hid->state = HID_GET_DATA; + } + } + } + break; + + default: + break; + } + return status; +} + +/*! + \brief send get report descriptor command to the device + \param[in] puhost: pointer to usb host + \param[in] len: HID report descriptor length + \param[out] none + \retval operation status +*/ +static usbh_status usbh_hid_reportdesc_get (usbh_host *puhost, uint16_t len) +{ + usbh_status status = USBH_BUSY; + + if (CTL_IDLE == puhost->control.ctl_state) { + puhost->control.setup.req = (usb_req) { + .bmRequestType = USB_TRX_IN | USB_RECPTYPE_ITF | USB_REQTYPE_STRD, + .bRequest = USB_GET_DESCRIPTOR, + .wValue = USBH_DESC(USB_DESCTYPE_REPORT), + .wIndex = 0U, + .wLength = len + }; + + usbh_ctlstate_config (puhost, puhost->dev_prop.data, len); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief managing the SOF process + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +static usbh_status usbh_hid_sof(usbh_host *puhost) +{ + usbh_hid_handler *hid = (usbh_hid_handler *)puhost->active_class->class_data; + + if (HID_POLL == hid->state) { + uint32_t frame_count = usb_curframe_get (puhost->data); + + if ((frame_count > hid->timer) && ((frame_count - hid->timer) >= hid->poll)) { + hid->state = HID_GET_DATA; + } else if ((frame_count < hid->timer) && ((frame_count + 0x3FFFU - hid->timer) >= hid->poll)) { + hid->state = HID_GET_DATA; + } else { + /* no operation */ + } + } + + return USBH_OK; +} + +/*! + \brief send the command of get HID descriptor to the device + \param[in] puhost: pointer to usb host + \param[in] len: HID descriptor length + \param[out] none + \retval operation status +*/ +static usbh_status usbh_hid_desc_get (usbh_host *puhost, uint16_t len) +{ + usbh_status status = USBH_BUSY; + + if (CTL_IDLE == puhost->control.ctl_state) { + puhost->control.setup.req = (usb_req) { + .bmRequestType = USB_TRX_IN | USB_RECPTYPE_ITF | USB_REQTYPE_STRD, + .bRequest = USB_GET_DESCRIPTOR, + .wValue = USBH_DESC(USB_DESCTYPE_HID), + .wIndex = 0U, + .wLength = len + }; + + usbh_ctlstate_config (puhost, puhost->dev_prop.data, len); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief set idle state + \param[in] puhost: pointer to usb host + \param[in] duration: duration for HID set idle request + \param[in] report_ID: targeted report ID for HID set idle request + \param[out] none + \retval operation status +*/ +static usbh_status usbh_set_idle (usbh_host *puhost, uint8_t duration, uint8_t report_ID) +{ + usbh_status status = USBH_BUSY; + + if (CTL_IDLE == puhost->control.ctl_state) { + puhost->control.setup.req = (usb_req) { + .bmRequestType = USB_TRX_OUT | USB_RECPTYPE_ITF | USB_REQTYPE_CLASS, + .bRequest = SET_IDLE, + .wValue = (duration << 8U) | report_ID, + .wIndex = 0U, + .wLength = 0U + }; + + usbh_ctlstate_config (puhost, NULL, 0U); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief set protocol state + \param[in] puhost: pointer to usb host + \param[in] protocol: boot/report protocol + \param[out] none + \retval operation status +*/ +static usbh_status usbh_set_protocol (usbh_host *puhost, uint8_t protocol) +{ + usbh_status status = USBH_BUSY; + + if (CTL_IDLE == puhost->control.ctl_state) { + puhost->control.setup.req = (usb_req) { + .bmRequestType = USB_TRX_OUT | USB_RECPTYPE_ITF | USB_REQTYPE_CLASS, + .bRequest = SET_PROTOCOL, + .wValue = !protocol, + .wIndex = 0U, + .wLength = 0U + }; + + usbh_ctlstate_config (puhost, NULL, 0U); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief parse the HID descriptor + \param[in] hid_desc: pointer to HID descriptor + \param[in] buf: pointer to buffer where the source descriptor is available + \param[out] none + \retval none +*/ +static void usbh_hiddesc_parse (usb_desc_hid *hid_desc, uint8_t *buf) +{ + hid_desc->header.bLength = *(uint8_t *)(buf + 0U); + hid_desc->header.bDescriptorType = *(uint8_t *)(buf + 1U); + hid_desc->bcdHID = BYTE_SWAP(buf + 2U); + hid_desc->bCountryCode = *(uint8_t *)(buf + 4U); + hid_desc->bNumDescriptors = *(uint8_t *)(buf + 5U); + hid_desc->bDescriptorType = *(uint8_t *)(buf + 6U); + hid_desc->wDescriptorLength = BYTE_SWAP(buf + 7U); +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Source/usbh_standard_hid.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Source/usbh_standard_hid.c new file mode 100644 index 0000000000..36dabbd457 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/hid/Source/usbh_standard_hid.c @@ -0,0 +1,274 @@ +/*! + \file usbh_standard_hid.c + \brief USB host HID keyboard and mouse driver + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "usbh_standard_hid.h" +#include + +hid_mouse_info mouse_info; +hid_keybd_info keybd_info; + +uint8_t mouse_report_data[4] = {0U}; +uint32_t keybd_report_data[2]; + +/* local constants */ +static const uint8_t kbd_codes[] = +{ + 0, 0, 0, 0, 31, 50, 48, 33, + 19, 34, 35, 36, 24, 37, 38, 39, /* 0x00 - 0x0F */ + 52, 51, 25, 26, 17, 20, 32, 21, + 23, 49, 18, 47, 22, 46, 2, 3, /* 0x10 - 0x1F */ + 4, 5, 6, 7, 8, 9, 10, 11, + 43, 110, 15, 16, 61, 12, 13, 27, /* 0x20 - 0x2F */ + 28, 29, 42, 40, 41, 1, 53, 54, + 55, 30, 112, 113, 114, 115, 116, 117, /* 0x30 - 0x3F */ + 118, 119, 120, 121, 122, 123, 124, 125, + 126, 75, 80, 85, 76, 81, 86, 89, /* 0x40 - 0x4F */ + 79, 84, 83, 90, 95, 100, 105, 106, + 108, 93, 98, 103, 92, 97, 102, 91, /* 0x50 - 0x5F */ + 96, 101, 99, 104, 45, 129, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, /* 0x60 - 0x6F */ + 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, /* 0x70 - 0x7F */ + 0, 0, 0, 0, 0, 107, 0, 56, + 0, 0, 0, 0, 0, 0, 0, 0, /* 0x80 - 0x8F */ + 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, /* 0x90 - 0x9F */ + 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, /* 0xA0 - 0xAF */ + 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, /* 0xB0 - 0xBF */ + 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, /* 0xC0 - 0xCF */ + 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, /* 0xD0 - 0xDF */ + 58, 44, 60, 127, 64, 57, 62, 128 /* 0xE0 - 0xE7 */ +}; + +#ifdef QWERTY_KEYBOARD + +static const int8_t kbd_key[] = +{ + '\0', '`', '1', '2', '3', '4', '5', '6', + '7', '8', '9', '0', '-', '=', '\0', '\r', + '\t', 'q', 'w', 'e', 'r', 't', 'y', 'u', + 'i', 'o', 'p', '[', ']', '\\', + '\0', 'a', 's', 'd', 'f', 'g', 'h', 'j', + 'k', 'l', ';', '\'', '\0', '\n', + '\0', '\0', 'z', 'x', 'c', 'v', 'b', 'n', + 'm', ',', '.', '/', '\0', '\0', + '\0', '\0', '\0', ' ', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\r', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '7', '4', '1', + '\0', '/', '8', '5', '2', + '0', '*', '9', '6', '3', + '.', '-', '+', '\0', '\n', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0' +}; + +static const int8_t kbd_key_shift[] = { + '\0', '~', '!', '@', '#', '$', '%', '^', '&', '*', '(', ')', + '_', '+', '\0', '\0', '\0', 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', + 'I', 'O', 'P', '{', '}', '|', '\0', 'A', 'S', 'D', 'F', 'G', + 'H', 'J', 'K', 'L', ':', '"', '\0', '\n', '\0', '\0', 'Z', 'X', + 'C', 'V', 'B', 'N', 'M', '<', '>', '?', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0' +}; + +#else + +static const int8_t kbd_key[] = { + '\0', '`', '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', + '-', '=', '\0', '\r', '\t', 'a', 'z', 'e', 'r', 't', 'y', 'u', + 'i', 'o', 'p', '[', ']', '\\', '\0', 'q', 's', 'd', 'f', 'g', + 'h', 'j', 'k', 'l', 'm', '\0', '\0', '\n', '\0', '\0', 'w', 'x', + 'c', 'v', 'b', 'n', ',', ';', ':', '!', '\0', '\0', '\0', '\0', + '\0', ' ', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\r', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '7', '4', '1', '\0', '/', + '8', '5', '2', '0', '*', '9', '6', '3', '.', '-', '+', '\0', + '\n', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0' +}; + +static const int8_t kbd_key_shift[] = { + '\0', '~', '!', '@', '#', '$', '%', '^', '&', '*', '(', ')', '_', + '+', '\0', '\0', '\0', 'A', 'Z', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', + 'P', '{', '}', '*', '\0', 'Q', 'S', 'D', 'F', 'G', 'H', 'J', 'K', + 'L', 'M', '%', '\0', '\n', '\0', '\0', 'W', 'X', 'C', 'V', 'B', 'N', + '?', '.', '/', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', + '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0' +}; + +#endif /* QWERTY_KEYBOARD */ + +/*! + \brief initialize the mouse function + \param[in] udev: pointer to USB core instance + \param[in] uhost: pointer to USB host + \param[out] none + \retval none +*/ +usbh_status usbh_hid_mouse_init (usb_core_driver *udev, usbh_host *uhost) +{ + usbh_hid_handler *hid = (usbh_hid_handler *)uhost->active_class->class_data; + + mouse_info.x = 0U; + mouse_info.y = 0U; + mouse_info.buttons[0] = 0U; + mouse_info.buttons[1] = 0U; + mouse_info.buttons[2] = 0U; + + if(hid->len > sizeof(mouse_report_data)) { + hid->len = sizeof(mouse_report_data); + } + + hid->pdata = (uint8_t *)(void *)mouse_report_data; + + usr_mouse_init(); + + return USBH_OK; +} + +/*! + \brief decode mouse information + \param[in] data: pointer to inut data + \param[out] none + \retval operation status +*/ +usbh_status usbh_hid_mouse_decode(uint8_t *data) +{ + mouse_info.buttons[0] = data[0] & MOUSE_BUTTON_1; + mouse_info.buttons[1] = data[0] & MOUSE_BUTTON_2; + mouse_info.buttons[2] = data[0] & MOUSE_BUTTON_3; + + mouse_info.x = data[1]; + mouse_info.y = data[2]; + + /* handle mouse data position */ + usr_mouse_process_data(&mouse_info); + + return USBH_FAIL; +} + +/*! + \brief initialize the keyboard function + \param[in] udev: pointer to USB core instance + \param[in] uhost: pointer to USB host + \param[out] none + \retval operation status +*/ +usbh_status usbh_hid_keybd_init (usb_core_driver *udev, usbh_host *uhost) +{ + usbh_hid_handler *hid = (usbh_hid_handler *)uhost->active_class->class_data; + + keybd_info.lctrl = keybd_info.lshift = 0U; + keybd_info.lalt = keybd_info.lgui = 0U; + keybd_info.rctrl = keybd_info.rshift = 0U; + keybd_info.ralt = keybd_info.rgui = 0U; + + for (uint32_t x = 0U; x < (sizeof(keybd_report_data) / sizeof(uint32_t)); x++) { + keybd_report_data[x] = 0U; + } + + if (hid->len > (sizeof(keybd_report_data) / sizeof(uint32_t))) { + hid->len = (sizeof(keybd_report_data) / sizeof(uint32_t)); + } + + hid->pdata = (uint8_t*)(void *)keybd_report_data; + + /* call user initialization*/ + usr_keyboard_init(); + + return USBH_OK; +} + +/*! + \brief get ascii code + \param[in] info: keyboard information + \param[out] none + \retval output +*/ +uint8_t usbh_hid_ascii_code_get (hid_keybd_info *info) +{ + uint8_t output; + if ((1U == info->lshift) || (info->rshift)) { + output = kbd_key_shift[kbd_codes[info->keys[0]]]; + } else { + output = kbd_key[kbd_codes[info->keys[0]]]; + } + + return output; +} + +/*! + \brief decode keyboard information + \param[in] udev: pointer to USB core instance + \param[in] uhost: pointer to USB host + \param[out] none + \retval operation status +*/ +usbh_status usbh_hid_keybrd_decode (uint8_t *data) +{ + uint8_t output; + + keybd_info.lshift = data[0] & KBD_LEFT_SHIFT; + keybd_info.rshift = data[0] & KBD_RIGHT_SHIFT; + + keybd_info.keys[0] = data[2]; + + if (keybd_info.lshift || keybd_info.rshift) { + output = kbd_key_shift[kbd_codes[keybd_info.keys[0]]]; + } else { + output = kbd_key[kbd_codes[keybd_info.keys[0]]]; + } + + if (0U != output) { + usr_keybrd_process_data(output); + } + + return USBH_OK; +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_bbb.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_bbb.h new file mode 100644 index 0000000000..1ddeaabbc9 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_bbb.h @@ -0,0 +1,154 @@ +/*! + \file usbh_msc_bbb.h + \brief header file for usbh_msc_bbb.c + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_MSC_BBB_H +#define __USBH_MSC_BBB_H + +#include "usbh_enum.h" +#include "msc_bbb.h" + +typedef union +{ + msc_bbb_cbw field; + + uint8_t CBWArray[31]; +}usbh_cbw_pkt; + +typedef union +{ + msc_bbb_csw field; + + uint8_t CSWArray[13]; +}usbh_csw_pkt; + +enum usbh_msc_state +{ + USBH_MSC_BBB_INIT_STATE = 0U, + USBH_MSC_BBB_RESET, + USBH_MSC_GET_MAX_LUN, + USBH_MSC_TEST_UNIT_READY, + USBH_MSC_READ_CAPACITY10, + USBH_MSC_MODE_SENSE6, + USBH_MSC_REQUEST_SENSE, + USBH_MSC_BBB_USB_TRANSFERS, + USBH_MSC_DEFAULT_APPLI_STATE, + USBH_MSC_CTRL_ERROR_STATE, + USBH_MSC_UNRECOVERED_STATE +}; + +typedef enum +{ + BBB_OK = 0U, + BBB_FAIL, + BBB_PHASE_ERROR, + BBB_BUSY +} bbb_status; + +typedef enum +{ + BBB_CMD_IDLE = 0U, + BBB_CMD_SEND, + BBB_CMD_WAIT, +} bbb_cmd_state; + +/* csw status definitions */ +typedef enum +{ + BBB_CSW_CMD_PASSED = 0U, + BBB_CSW_CMD_FAILED, + BBB_CSW_PHASE_ERROR, +} bbb_csw_status; + +typedef enum +{ + BBB_SEND_CBW = 1U, + BBB_SEND_CBW_WAIT, + BBB_DATA_IN, + BBB_DATA_IN_WAIT, + BBB_DATA_OUT, + BBB_DATA_OUT_WAIT, + BBB_RECEIVE_CSW, + BBB_RECEIVE_CSW_WAIT, + BBB_ERROR_IN, + BBB_ERROR_OUT, + BBB_UNRECOVERED_ERROR +} bbb_state; + +typedef struct +{ + uint8_t *pbuf; + uint32_t data[16]; + bbb_state state; + bbb_state prev_state; + bbb_cmd_state cmd_state; + usbh_cbw_pkt cbw; + usbh_csw_pkt csw; +} bbb_handle; + +#define USBH_MSC_BBB_CBW_TAG 0x20304050U + +#define USBH_MSC_CSW_MAX_LENGTH 63U + +#define USBH_MSC_SEND_CSW_DISABLE 0U +#define USBH_MSC_SEND_CSW_ENABLE 1U + +#define USBH_MSC_DIR_IN 0U +#define USBH_MSC_DIR_OUT 1U +#define USBH_MSC_BOTH_DIR 2U + +#define USBH_MSC_PAGE_LENGTH 512U + +#define CBW_CB_LENGTH 16U +#define CBW_LENGTH 10U +#define CBW_LENGTH_TEST_UNIT_READY 0U + +#define MAX_BULK_STALL_COUNT_LIMIT 0x04U /*!< If STALL is seen on Bulk + Endpoint continously, this means + that device and Host has phase error + Hence a Reset is needed */ + +/* function declarations */ +/* initialize the mass storage parameters */ +void usbh_msc_bbb_init (usbh_host *puhost); +/* manage the different states of BOT transfer and updates the status to upper layer */ +usbh_status usbh_msc_bbb_process (usbh_host *puhost, uint8_t lun); +/* manages the different error handling for stall */ +usbh_status usbh_msc_bbb_abort (usbh_host *puhost, uint8_t direction); +/* reset MSC bot request structure */ +usbh_status usbh_msc_bbb_reset (usbh_host *puhost); +/* decode the CSW received by the device and updates the same to upper layer */ +bbb_csw_status usbh_msc_csw_decode (usbh_host *puhost); + +#endif /* __USBH_MSC_BBB_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_core.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_core.h new file mode 100644 index 0000000000..e99a91908d --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_core.h @@ -0,0 +1,125 @@ +/*! + \file usbh_core.h + \brief header file for the usbh_core.c + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_MSC_CORE_H +#define __USBH_MSC_CORE_H + +#include "usb_msc.h" +#include "usbh_msc_scsi.h" +#include "usbh_msc_bbb.h" + +#define MSC_MAX_SUPPORTED_LUN 2U + +typedef enum +{ + MSC_INIT = 0U, + MSC_IDLE, + MSC_TEST_UNIT_READY, + MSC_READ_CAPACITY10, + MSC_READ_INQUIRY, + MSC_REQUEST_SENSE, + MSC_READ, + MSC_WRITE, + MSC_UNRECOVERED_ERROR, + MSC_PERIODIC_CHECK, +} msc_state; + +typedef enum +{ + MSC_OK, + MSC_NOT_READY, + MSC_ERROR, +} msc_error; + +typedef enum +{ + MSC_REQ_IDLE = 0U, + MSC_REQ_RESET, + MSC_REQ_GET_MAX_LUN, + MSC_REQ_ERROR, +} msc_req_state; + +/* Structure for LUN */ +typedef struct +{ + msc_state state; + msc_error error; + msc_scsi_sense sense; + scsi_capacity capacity; + scsi_std_inquiry_data inquiry; + usbh_status prev_ready_state; + uint8_t state_changed; +} msc_lun; + +/* structure for msc process */ +typedef struct _msc_process +{ + uint8_t pipe_in; + uint8_t pipe_out; + uint8_t ep_in; + uint8_t ep_out; + uint16_t ep_size_in; + uint16_t ep_size_out; + uint8_t cur_lun; + uint16_t rw_lun; + uint32_t max_lun; + msc_state state; + msc_error error; + msc_req_state req_state; + msc_req_state prev_req_state; + bbb_handle bot; + msc_lun unit[MSC_MAX_SUPPORTED_LUN]; + uint32_t timer; +} usbh_msc_handler; + +extern usbh_class usbh_msc; + +/* function declarations */ +/* get msc logic unit information */ +usbh_status usbh_msc_lun_info_get (usbh_host *puhost, uint8_t lun, msc_lun *info); +/* msc read interface */ +usbh_status usbh_msc_read (usbh_host *puhost, + uint8_t lun, + uint32_t address, + uint8_t *pbuf, + uint32_t length); +/* msc write interface */ +usbh_status usbh_msc_write (usbh_host *puhost, + uint8_t lun, + uint32_t address, + uint8_t *pbuf, + uint32_t length); + +#endif /* __USBH_MSC_CORE_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_scsi.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_scsi.h new file mode 100644 index 0000000000..3fbe70e8b3 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Include/usbh_msc_scsi.h @@ -0,0 +1,101 @@ +/*! + \file usbh_msc_scsi.h + \brief header file for usbh_msc_scsi.c + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_MSC_SCSI_H +#define __USBH_MSC_SCSI_H + +#include "msc_scsi.h" +#include "usbh_enum.h" + +/* capacity data */ +typedef struct +{ + uint32_t block_nbr; + uint16_t block_size; +} scsi_capacity; + +/* inquiry data */ +typedef struct +{ + uint8_t peripheral_qualifier; + uint8_t device_type; + uint8_t removable_media; + uint8_t vendor_id[9]; + uint8_t product_id[17]; + uint8_t revision_id[5]; +} scsi_std_inquiry_data; + +typedef struct +{ + uint32_t msc_capacity; + uint32_t msc_sense_key; + uint16_t msc_page_len; + uint8_t msc_write_protect; +}usbh_msc_parameter; + +#define DESC_REQUEST_SENSE 0x00U +#define ALLOCATION_LENGTH_REQUEST_SENSE 63U +#define XFER_LEN_MODE_SENSE6 63U + +#define MASK_MODE_SENSE_WRITE_PROTECT 0x80U +#define MODE_SENSE_PAGE_CONTROL_FIELD 0x00U +#define MODE_SENSE_PAGE_CODE 0x3FU +#define DISK_WRITE_PROTECTED 0x01U + +/* function declarations */ +/* send 'Inquiry' command to the device */ +usbh_status usbh_msc_scsi_inquiry (usbh_host *puhost, uint8_t lun, scsi_std_inquiry_data *inquiry); +/* send 'Test unit ready' command to the device */ +usbh_status usbh_msc_test_unitready (usbh_host *puhost, uint8_t lun); +/* send the read capacity command to the device */ +usbh_status usbh_msc_read_capacity10 (usbh_host *puhost, uint8_t lun, scsi_capacity *capacity); +/* send the mode sense6 command to the device */ +usbh_status usbh_msc_mode_sense6 (usbh_host *puhost, uint8_t lun); +/* send the Request Sense command to the device */ +usbh_status usbh_msc_request_sense (usbh_host *puhost, uint8_t lun, msc_scsi_sense *sense_data); +/* send the write10 command to the device */ +usbh_status usbh_msc_write10 (usbh_host *puhost, + uint8_t lun, + uint8_t *data_buf, + uint32_t addr, + uint32_t byte_num); +/* send the read10 command to the device */ +usbh_status usbh_msc_read10 (usbh_host *puhost, + uint8_t lun, + uint8_t *data_buf, + uint32_t addr, + uint32_t byte_num); + +#endif /* __USBH_MSC_SCSI_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_bbb.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_bbb.c new file mode 100644 index 0000000000..25165aac03 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_bbb.c @@ -0,0 +1,363 @@ +/*! + \file usbh_msc_bbb.c + \brief USB MSC BBB protocol related functions + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "usbh_pipe.h" +#include "usbh_msc_core.h" +#include "usbh_msc_scsi.h" +#include "usbh_msc_bbb.h" +#include "usbh_transc.h" +#include "drv_usbh_int.h" + +/*! + \brief initialize the mass storage parameters + \param[in] puhost: pointer to usb host handler + \param[out] none + \retval none +*/ +void usbh_msc_bbb_init (usbh_host *puhost) +{ + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + msc->bot.cbw.field.dCBWSignature = BBB_CBW_SIGNATURE; + msc->bot.cbw.field.dCBWTag = USBH_MSC_BBB_CBW_TAG; + msc->bot.state = BBB_SEND_CBW; + msc->bot.cmd_state = BBB_CMD_SEND; +} + +/*! + \brief manage the different states of BOT transfer and updates the status to upper layer + \param[in] puhost: pointer to usb host handler + \param[in] lun: logic unit number + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_bbb_process (usbh_host *puhost, uint8_t lun) +{ + bbb_csw_status csw_status = BBB_CSW_CMD_FAILED; + usbh_status status = USBH_BUSY; + usbh_status error = USBH_BUSY; + usb_urb_state urb_status = URB_IDLE; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + switch (msc->bot.state) { + case BBB_SEND_CBW: + msc->bot.cbw.field.bCBWLUN = lun; + msc->bot.state = BBB_SEND_CBW_WAIT; + /* send CBW */ + usbh_data_send (puhost->data, + msc->bot.cbw.CBWArray, + msc->pipe_out, + BBB_CBW_LENGTH); + break; + + case BBB_SEND_CBW_WAIT: + urb_status = usbh_urbstate_get(puhost->data, msc->pipe_out); + + if (URB_DONE == urb_status) { + if (0U != msc->bot.cbw.field.dCBWDataTransferLength) { + if (USB_TRX_IN == (msc->bot.cbw.field.bmCBWFlags & USB_TRX_MASK)) { + msc->bot.state = BBB_DATA_IN; + } else { + msc->bot.state = BBB_DATA_OUT; + } + } else { + msc->bot.state = BBB_RECEIVE_CSW; + } + + } else if (URB_NOTREADY == urb_status) { + msc->bot.state = BBB_SEND_CBW; + } else { + if (URB_STALL == urb_status) { + msc->bot.state = BBB_ERROR_OUT; + } + } + break; + + case BBB_DATA_IN: + usbh_data_recev (puhost->data, + msc->bot.pbuf, + msc->pipe_in, + msc->ep_size_in); + + msc->bot.state = BBB_DATA_IN_WAIT; + break; + + case BBB_DATA_IN_WAIT: + urb_status = usbh_urbstate_get(puhost->data, msc->pipe_in); + + /* BOT DATA IN stage */ + if (URB_DONE == urb_status) { + if (msc->bot.cbw.field.dCBWDataTransferLength > msc->ep_size_in) { + msc->bot.pbuf += msc->ep_size_in; + msc->bot.cbw.field.dCBWDataTransferLength -= msc->ep_size_in; + } else { + msc->bot.cbw.field.dCBWDataTransferLength = 0U; + } + + if (msc->bot.cbw.field.dCBWDataTransferLength > 0U) { + usbh_data_recev (puhost->data, + msc->bot.pbuf, + msc->pipe_in, + msc->ep_size_in); + } else { + msc->bot.state = BBB_RECEIVE_CSW; + } + } else if(URB_STALL == urb_status) { + /* this is data stage stall condition */ + msc->bot.state = BBB_ERROR_IN; + } else { + /* no operation */ + } + break; + + case BBB_DATA_OUT: + usbh_data_send (puhost->data, + msc->bot.pbuf, + msc->pipe_out, + msc->ep_size_out); + + msc->bot.state = BBB_DATA_OUT_WAIT; + break; + + case BBB_DATA_OUT_WAIT: + /* BOT DATA OUT stage */ + urb_status = usbh_urbstate_get(puhost->data, msc->pipe_out); + if (URB_DONE == urb_status) { + if (msc->bot.cbw.field.dCBWDataTransferLength > msc->ep_size_out) { + msc->bot.pbuf += msc->ep_size_out; + msc->bot.cbw.field.dCBWDataTransferLength -= msc->ep_size_out; + } else { + msc->bot.cbw.field.dCBWDataTransferLength = 0; /* reset this value and keep in same state */ + } + + if (msc->bot.cbw.field.dCBWDataTransferLength > 0) { + usbh_data_send (puhost->data, + msc->bot.pbuf, + msc->pipe_out, + msc->ep_size_out); + } else { + msc->bot.state = BBB_RECEIVE_CSW; + } + } else if (URB_NOTREADY == urb_status) { + msc->bot.state = BBB_DATA_OUT; + } else if (URB_STALL == urb_status) { + msc->bot.state = BBB_ERROR_OUT; + } else { + /* no operation */ + } + break; + + case BBB_RECEIVE_CSW: + /* BOT CSW stage */ + usbh_data_recev (puhost->data, + msc->bot.csw.CSWArray, + msc->pipe_in, + BBB_CSW_LENGTH); + + msc->bot.state = BBB_RECEIVE_CSW_WAIT; + break; + + case BBB_RECEIVE_CSW_WAIT: + urb_status = usbh_urbstate_get(puhost->data, msc->pipe_in); + + /* decode CSW */ + if (URB_DONE == urb_status) { + msc->bot.state = BBB_SEND_CBW; + msc->bot.cmd_state = BBB_CMD_SEND; + + csw_status = usbh_msc_csw_decode(puhost); + if (BBB_CSW_CMD_PASSED == csw_status) { + status = USBH_OK; + } else { + status = USBH_FAIL; + } + } else if (URB_STALL == urb_status) { + msc->bot.state = BBB_ERROR_IN; + } else { + /* no operation */ + } + break; + + case BBB_ERROR_IN: + error = usbh_msc_bbb_abort(puhost, USBH_MSC_DIR_IN); + + if (USBH_OK == error) { + msc->bot.state = BBB_RECEIVE_CSW; + } else if (USBH_UNRECOVERED_ERROR == status) { + /* this means that there is a stall error limit, do reset recovery */ + msc->bot.state = BBB_UNRECOVERED_ERROR; + } else { + /* no operation */ + } + break; + + case BBB_ERROR_OUT: + status = usbh_msc_bbb_abort (puhost, USBH_MSC_DIR_OUT); + + if (USBH_OK == status) { + uint8_t toggle = usbh_pipe_toggle_get(puhost->data, msc->pipe_out); + usbh_pipe_toggle_set(puhost->data, msc->pipe_out, 1U - toggle); + usbh_pipe_toggle_set(puhost->data, msc->pipe_in, 0U); + msc->bot.state = BBB_ERROR_IN; + } else { + if (USBH_UNRECOVERED_ERROR == status) { + msc->bot.state = BBB_UNRECOVERED_ERROR; + } + } + break; + + case BBB_UNRECOVERED_ERROR: + status = usbh_msc_bbb_reset(puhost); + if (USBH_OK == status) { + msc->bot.state = BBB_SEND_CBW; + } + break; + + default: + break; + } + + return status; +} + +/*! + \brief manages the different error handling for stall + \param[in] puhost: pointer to usb host handler + \param[in] direction: data IN or OUT + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_bbb_abort (usbh_host *puhost, uint8_t direction) +{ + usbh_status status = USBH_BUSY; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + switch (direction) { + case USBH_MSC_DIR_IN : + /* send clrfeture command on bulk IN endpoint */ + status = usbh_clrfeature(puhost, + msc->ep_in, + msc->pipe_in); + break; + + case USBH_MSC_DIR_OUT : + /*send clrfeature command on bulk OUT endpoint */ + status = usbh_clrfeature(puhost, + msc->ep_out, + msc->pipe_out); + break; + + default: + break; + } + + return status; +} + +/*! + \brief reset msc bot transfer + \param[in] puhost: pointer to usb host handler + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_bbb_reset (usbh_host *puhost) +{ + usbh_status status = USBH_BUSY; + + if (CTL_IDLE == puhost->control.ctl_state) { + puhost->control.setup.req = (usb_req) { + .bmRequestType = USB_TRX_OUT | USB_REQTYPE_CLASS | USB_RECPTYPE_ITF, + .bRequest = BBB_RESET, + .wValue = 0U, + .wIndex = 0U, + .wLength = 0U + }; + + usbh_ctlstate_config (puhost, NULL, 0U); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief decode the CSW received by the device and updates the same to upper layer + \param[in] puhost: pointer to usb host + \param[out] none + \retval on success USBH_MSC_OK, on failure USBH_MSC_FAIL + \notes + Refer to USB Mass-Storage Class: BOT (www.usb.org) + 6.3.1 Valid CSW Conditions : + The host shall consider the CSW valid when: + 1. dCSWSignature is equal to 53425355h + 2. the CSW is 13 (Dh) bytes in length, + 3. dCSWTag matches the dCBWTag from the corresponding CBW. +*/ +bbb_csw_status usbh_msc_csw_decode (usbh_host *puhost) +{ + bbb_csw_status status = BBB_CSW_CMD_FAILED; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + /* checking if the transfer length is different than 13 */ + if (BBB_CSW_LENGTH != usbh_xfercount_get (puhost->data, msc->pipe_in)) { + status = BBB_CSW_PHASE_ERROR; + } else { + /* CSW length is correct */ + + /* check validity of the CSW Signature and CSWStatus */ + if (BBB_CSW_SIGNATURE == msc->bot.csw.field.dCSWSignature) { + /* check condition 1. dCSWSignature is equal to 53425355h */ + if (msc->bot.csw.field.dCSWTag == msc->bot.cbw.field.dCBWTag) { + /* check condition 3. dCSWTag matches the dCBWTag from the corresponding CBW */ + if (0U == msc->bot.csw.field.bCSWStatus) { + status = BBB_CSW_CMD_PASSED; + } else if (1U == msc->bot.csw.field.bCSWStatus) { + status = BBB_CSW_CMD_FAILED; + } else if (2U == msc->bot.csw.field.bCSWStatus) { + status = BBB_CSW_PHASE_ERROR; + } else { + /* no operation */ + } + } + } else { + /* If the CSW signature is not valid, we will return the phase error to + upper layers for reset recovery */ + status = BBB_CSW_PHASE_ERROR; + } + } + + return status; +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_core.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_core.c new file mode 100644 index 0000000000..7b29e78579 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_core.c @@ -0,0 +1,562 @@ +/*! + \file usbh_core.c + \brief USB MSC(mass storage device) class driver + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "usbh_msc_core.h" +#include "usbh_msc_scsi.h" +#include "usbh_msc_bbb.h" +#include "usbh_pipe.h" +#include "usbh_transc.h" +#include +#include + +/* local function prototypes ('static') */ +static void usbh_msc_itf_deinit (usbh_host *puhost); +static usbh_status usbh_msc_itf_init (usbh_host *puhost); +static usbh_status usbh_msc_req (usbh_host *puhost); +static usbh_status usbh_msc_handle (usbh_host *puhost); +static usbh_status usbh_msc_maxlun_get (usbh_host *puhost, uint8_t *maxlun); +static usbh_status usbh_msc_rdwr_process(usbh_host *puhost, uint8_t lun); + +usbh_class usbh_msc = +{ + USB_CLASS_MSC, + usbh_msc_itf_init, + usbh_msc_itf_deinit, + usbh_msc_req, + usbh_msc_handle, +}; + +/*! + \brief interface initialization for MSC class + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +static usbh_status usbh_msc_itf_init (usbh_host *puhost) +{ + usbh_status status = USBH_OK; + + uint8_t interface = usbh_interface_find(&puhost->dev_prop, MSC_CLASS, USB_MSC_SUBCLASS_SCSI, MSC_PROTOCOL); + + if (0xFFU == interface) { + puhost->usr_cb->dev_not_supported(); + + status = USBH_FAIL; + } else { + static usbh_msc_handler msc_handler; + + memset((void*)&msc_handler, 0, sizeof(usbh_msc_handler)); + + puhost->active_class->class_data = (void *)&msc_handler; + + usbh_interface_select(&puhost->dev_prop, interface); + + usb_desc_ep *ep_desc = &puhost->dev_prop.cfg_desc_set.itf_desc_set[interface][0].ep_desc[0]; + + if (ep_desc->bEndpointAddress & 0x80) { + msc_handler.ep_in = ep_desc->bEndpointAddress; + msc_handler.ep_size_in = ep_desc->wMaxPacketSize; + } else { + msc_handler.ep_out = ep_desc->bEndpointAddress; + msc_handler.ep_size_out = ep_desc->wMaxPacketSize; + } + + ep_desc = &puhost->dev_prop.cfg_desc_set.itf_desc_set[interface][0].ep_desc[1]; + + if (ep_desc->bEndpointAddress & 0x80) { + msc_handler.ep_in = ep_desc->bEndpointAddress; + msc_handler.ep_size_in = ep_desc->wMaxPacketSize; + } else { + msc_handler.ep_out = ep_desc->bEndpointAddress; + msc_handler.ep_size_out = ep_desc->wMaxPacketSize; + } + + msc_handler.state = MSC_INIT; + msc_handler.error = MSC_OK; + msc_handler.req_state = MSC_REQ_IDLE; + msc_handler.pipe_out = usbh_pipe_allocate(puhost->data, msc_handler.ep_out); + msc_handler.pipe_in = usbh_pipe_allocate(puhost->data, msc_handler.ep_in); + + usbh_msc_bbb_init(puhost); + + /* open the new channels */ + usbh_pipe_create (puhost->data, + &puhost->dev_prop, + msc_handler.pipe_out, + USB_EPTYPE_BULK, + msc_handler.ep_size_out); + + usbh_pipe_create (puhost->data, + &puhost->dev_prop, + msc_handler.pipe_in, + USB_EPTYPE_BULK, + msc_handler.ep_size_in); + + usbh_pipe_toggle_set (puhost->data, msc_handler.pipe_out, 0U); + usbh_pipe_toggle_set (puhost->data, msc_handler.pipe_in, 0U); + } + + return status; +} + +/*! + \brief de-initialize interface by freeing host channels allocated to interface + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +void usbh_msc_itf_deinit (usbh_host *puhost) +{ + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + if (msc->pipe_out) { + usb_pipe_halt (puhost->data, msc->pipe_out); + usbh_pipe_free (puhost->data, msc->pipe_out); + + msc->pipe_out = 0U; + } + + if (msc->pipe_in) { + usb_pipe_halt (puhost->data, msc->pipe_in); + usbh_pipe_free (puhost->data, msc->pipe_in); + + msc->pipe_in = 0U; + } +} + +/*! + \brief initialize the MSC state machine + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +static usbh_status usbh_msc_req (usbh_host *puhost) +{ + usbh_status status = USBH_BUSY; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + switch (msc->req_state) { + case MSC_REQ_IDLE: + case MSC_REQ_GET_MAX_LUN: + /* issue Get_MaxLun request */ + status = usbh_msc_maxlun_get (puhost, (uint8_t *)&msc->max_lun); + + if (USBH_OK == status) { + msc->max_lun = ((uint8_t)msc->max_lun > MSC_MAX_SUPPORTED_LUN) ? MSC_MAX_SUPPORTED_LUN : (uint8_t)msc->max_lun + 1U; + + for (uint8_t i = 0U; i < msc->max_lun; i++) { + msc->unit[i].prev_ready_state = USBH_FAIL; + msc->unit[i].state_changed = 0U; + } + } else { + if (USBH_NOT_SUPPORTED == status) { + msc->max_lun = 0U; + status = USBH_OK; + } + } + break; + + case MSC_REQ_ERROR: + /* issue clear feature request */ + if (USBH_OK == usbh_clrfeature(puhost, 0x00U, puhost->control.pipe_out_num)) { + msc->req_state = msc->prev_req_state; + } + break; + + default: + break; + } + + return status; +} + +/*! + \brief MSC state machine handler + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +static usbh_status usbh_msc_handle (usbh_host *puhost) +{ + usbh_status status = USBH_BUSY; + uint8_t scsi_status = USBH_BUSY; + uint8_t ready_status = USBH_BUSY; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + + switch (msc->state) { + case MSC_INIT: + if (msc->cur_lun < msc->max_lun) { + msc->unit[msc->cur_lun].error = MSC_NOT_READY; + + switch (msc->unit[msc->cur_lun].state) { + case MSC_INIT: + msc->unit[msc->cur_lun].state = MSC_READ_INQUIRY; + msc->timer = puhost->control.timer; + break; + + case MSC_READ_INQUIRY: + scsi_status = usbh_msc_scsi_inquiry(puhost, msc->cur_lun, &msc->unit[msc->cur_lun].inquiry); + + if (USBH_OK == scsi_status) { + msc->unit[msc->cur_lun].state = MSC_TEST_UNIT_READY; + } else if (scsi_status == USBH_FAIL) { + msc->unit[msc->cur_lun].state = MSC_REQUEST_SENSE; + } else { + if (scsi_status == USBH_UNRECOVERED_ERROR) { + msc->unit[msc->cur_lun].state = MSC_IDLE; + msc->unit[msc->cur_lun].error = MSC_ERROR; + } + } + break; + + case MSC_TEST_UNIT_READY: + /* issue SCSI command TestUnitReady */ + ready_status = usbh_msc_test_unitready(puhost, msc->cur_lun); + + if (USBH_OK == ready_status) { + if (USBH_OK != msc->unit[msc->cur_lun].prev_ready_state) { + msc->unit[msc->cur_lun].state_changed = 1U; + } else { + msc->unit[msc->cur_lun].state_changed = 0U; + } + + msc->unit[msc->cur_lun].state = MSC_READ_CAPACITY10; + msc->unit[msc->cur_lun].error = MSC_OK; + msc->unit[msc->cur_lun].prev_ready_state = USBH_OK; + } else if (USBH_FAIL == ready_status) { + if (USBH_FAIL != msc->unit[msc->cur_lun].prev_ready_state) { + msc->unit[msc->cur_lun].state_changed = 1U; + } else { + msc->unit[msc->cur_lun].state_changed = 0U; + } + + msc->unit[msc->cur_lun].state = MSC_REQUEST_SENSE; + msc->unit[msc->cur_lun].error = MSC_NOT_READY; + msc->unit[msc->cur_lun].prev_ready_state = USBH_FAIL; + } else { + if (USBH_UNRECOVERED_ERROR == ready_status) { + msc->unit[msc->cur_lun].state = MSC_IDLE; + msc->unit[msc->cur_lun].error = MSC_ERROR; + } + } + break; + + case MSC_READ_CAPACITY10: + /* issue READ_CAPACITY10 SCSI command */ + scsi_status = usbh_msc_read_capacity10(puhost, msc->cur_lun, &msc->unit[msc->cur_lun].capacity); + + if (USBH_OK == scsi_status) { + if (1U == msc->unit[msc->cur_lun].state_changed) { + } + msc->unit[msc->cur_lun].state = MSC_IDLE; + msc->unit[msc->cur_lun].error = MSC_OK; + msc->cur_lun ++; + } else if (USBH_FAIL == scsi_status) { + msc->unit[msc->cur_lun].state = MSC_REQUEST_SENSE; + } else { + if (USBH_UNRECOVERED_ERROR == scsi_status) { + msc->unit[msc->cur_lun].state = MSC_IDLE; + msc->unit[msc->cur_lun].error = MSC_ERROR; + } + } + break; + + case MSC_REQUEST_SENSE: + /* issue RequestSense SCSI command for recovering error code */ + scsi_status = usbh_msc_request_sense (puhost, msc->cur_lun, &msc->unit[msc->cur_lun].sense); + if (USBH_OK == scsi_status) { + if ((msc->unit[msc->cur_lun].sense.SenseKey == UNIT_ATTENTION) || (msc->unit[msc->cur_lun].sense.SenseKey == NOT_READY)) { + if (((puhost->control.timer > msc->timer) && ((puhost->control.timer - msc->timer) < 10000U)) \ + || ((puhost->control.timer < msc->timer) && ((puhost->control.timer + 0x3FFFU - msc->timer) < 10000U))){ + msc->unit[msc->cur_lun].state = MSC_TEST_UNIT_READY; + break; + } + } + + msc->unit[msc->cur_lun].state = MSC_IDLE; + msc->cur_lun++; + } else if (USBH_FAIL == scsi_status) { + msc->unit[msc->cur_lun].state = MSC_UNRECOVERED_ERROR; + } else { + if (MSC_UNRECOVERED_ERROR == scsi_status) { + msc->unit[msc->cur_lun].state = MSC_IDLE; + msc->unit[msc->cur_lun].error = MSC_ERROR; + } + } + break; + + case MSC_UNRECOVERED_ERROR: + msc->cur_lun ++; + break; + + default: + break; + } + } else { + msc->cur_lun = 0U; + msc->state = MSC_IDLE; + } + break; + + case MSC_IDLE: + puhost->usr_cb->dev_user_app(); + status = USBH_OK; + break; + + default: + break; + } + + return status; +} + +/*! + \brief get max lun of the mass storage device + \param[in] puhost: pointer to USB host + \param[in] maxlun: pointer to max lun + \param[out] none + \retval operation status +*/ +static usbh_status usbh_msc_maxlun_get (usbh_host *puhost, uint8_t *maxlun) +{ + usbh_status status = USBH_BUSY; + + if (puhost->control.ctl_state == CTL_IDLE) { + puhost->control.setup.req = (usb_req) { + .bmRequestType = USB_TRX_IN | USB_REQTYPE_CLASS | USB_RECPTYPE_ITF, + .bRequest = BBB_GET_MAX_LUN, + .wValue = 0U, + .wIndex = 0U, + .wLength = 1U + }; + + usbh_ctlstate_config (puhost, maxlun, 1U); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief get max lun of the mass storage device + \param[in] puhost: pointer to USB host + \param[in] lun: logic unit number + \param[out] none + \retval operation status +*/ +static usbh_status usbh_msc_rdwr_process(usbh_host *puhost, uint8_t lun) +{ + usbh_status error = USBH_BUSY; + usbh_status scsi_status = USBH_BUSY; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + /* switch msc req state machine */ + switch (msc->unit[lun].state) { + case MSC_READ: + scsi_status = usbh_msc_read10(puhost, lun, NULL, 0U, 0U); + + if (USBH_OK == scsi_status) { + msc->unit[lun].state = MSC_IDLE; + error = USBH_OK; + } else if (USBH_FAIL == scsi_status) { + msc->unit[lun].state = MSC_REQUEST_SENSE; + } else { + if (USBH_UNRECOVERED_ERROR == scsi_status) { + msc->unit[lun].state = MSC_UNRECOVERED_ERROR; + error = USBH_FAIL; + } + } + break; + + case MSC_WRITE: + scsi_status = usbh_msc_write10(puhost, lun, NULL, 0U, 0U); + + if (USBH_OK == scsi_status) { + msc->unit[lun].state = MSC_IDLE; + error = USBH_OK; + } else if(USBH_FAIL == scsi_status) { + msc->unit[lun].state = MSC_REQUEST_SENSE; + } else { + if (USBH_UNRECOVERED_ERROR == scsi_status) { + msc->unit[lun].state = MSC_UNRECOVERED_ERROR; + error = USBH_FAIL; + } + } + break; + + case MSC_REQUEST_SENSE: + scsi_status = usbh_msc_request_sense (puhost, lun, &msc->unit[lun].sense); + + if (USBH_OK == scsi_status) { + msc->unit[lun].state = MSC_IDLE; + msc->unit[lun].error = MSC_ERROR; + + error = USBH_FAIL; + } + + if (USBH_FAIL == scsi_status) { + } else { + if (USBH_UNRECOVERED_ERROR == scsi_status) { + msc->unit[lun].state = MSC_UNRECOVERED_ERROR; + error = USBH_FAIL; + } + } + break; + + default: + break; + } + + return error; +} + +/*! + \brief get lun information + \param[in] puhost: pointer to USB host + \param[in] lun: logic unit number + \param[in] info: pointer to lun information + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_lun_info_get (usbh_host *puhost, uint8_t lun, msc_lun *info) +{ + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + if (HOST_CLASS_HANDLER == puhost->cur_state) { + memcpy(info, &msc->unit[lun], sizeof(msc_lun)); + + return USBH_OK; + } else { + return USBH_FAIL; + } +} + +/*! + \brief handle msc read operation + \param[in] puhost: pointer to USB host + \param[in] lun: logic unit number + \param[in] address: data address + \param[in] pbuf: pointer to data buffer + \param[in] length: buffer length + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_read (usbh_host *puhost, + uint8_t lun, + uint32_t address, + uint8_t *pbuf, + uint32_t length) +{ + uint32_t timeout = 0U; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + usb_core_driver *pudev = (usb_core_driver *)puhost->data; + + if ((0U == pudev->host.connect_status) || + (HOST_CLASS_HANDLER != puhost->cur_state) || + (MSC_IDLE != msc->unit[lun].state)) { + return USBH_FAIL; + } + + msc->state = MSC_READ; + msc->unit[lun].state = MSC_READ; + msc->rw_lun = lun; + + usbh_msc_read10(puhost, lun, pbuf, address, length); + + timeout = puhost->control.timer; + + while (USBH_BUSY == usbh_msc_rdwr_process(puhost, lun)) { + if (((puhost->control.timer > timeout) && ((puhost->control.timer - timeout) > (1000U * length))) \ + || ((puhost->control.timer < timeout) && ((puhost->control.timer + 0x3FFFU - timeout) > (1000U * length))) \ + || (0U == pudev->host.connect_status)){ + msc->state = MSC_IDLE; + return USBH_FAIL; + } + } + + msc->state = MSC_IDLE; + + return USBH_OK; +} + +/*! + \brief handle msc write operation + \param[in] puhost: pointer to USB host + \param[in] lun: logic unit number + \param[in] address: data address + \param[in] pbuf: pointer to data buffer + \param[in] length: buffer length + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_write (usbh_host *puhost, + uint8_t lun, + uint32_t address, + uint8_t *pbuf, + uint32_t length) +{ + uint32_t timeout = 0U; + usb_core_driver *pudev = (usb_core_driver *)puhost->data; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + if ((0U == pudev->host.connect_status) || + (HOST_CLASS_HANDLER != puhost->cur_state) || + (MSC_IDLE != msc->unit[lun].state)) { + return USBH_FAIL; + } + + msc->state = MSC_WRITE; + msc->unit[lun].state = MSC_WRITE; + msc->rw_lun = lun; + + usbh_msc_write10(puhost, lun, pbuf, address, length); + + timeout = puhost->control.timer; + + while (USBH_BUSY == usbh_msc_rdwr_process(puhost, lun)) { + if (((puhost->control.timer > timeout) && ((puhost->control.timer - timeout) > (1000U * length))) \ + || ((puhost->control.timer < timeout) && ((puhost->control.timer + 0x3FFFU - timeout) > (1000U * length))) \ + || (0U == pudev->host.connect_status)){ + msc->state = MSC_IDLE; + return USBH_FAIL; + } + } + + msc->state = MSC_IDLE; + + return USBH_OK; +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_fatfs.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_fatfs.c new file mode 100644 index 0000000000..f3509c13d0 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_fatfs.c @@ -0,0 +1,234 @@ +/*! + \file usbh_msc_fatfs.c + \brief USB MSC host FATFS related functions + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "usb_conf.h" +#include "diskio.h" +#include "usbh_msc_core.h" + +static volatile DSTATUS state = STA_NOINIT; /* disk status */ + +extern usbh_host usb_host; + +/*! + \brief initialize the disk drive + \param[in] drv: physical drive number (0) + \param[out] none + \retval operation status +*/ +DSTATUS disk_initialize (BYTE drv) +{ + usb_core_driver *pudev = (usb_core_driver *)usb_host.data; + + if (pudev->host.connect_status) { + state &= ~STA_NOINIT; + } + + return state; +} + +/*! + \brief get disk status + \param[in] drv: physical drive number (0) + \param[out] none + \retval operation status +*/ +DSTATUS disk_status (BYTE drv) +{ + if (drv) { + return STA_NOINIT; /* supports only single drive */ + } + + return state; +} + +/*! + \brief read sectors + \param[in] drv: physical drive number (0) + \param[in] buff: pointer to the data buffer to store read data + \param[in] sector: start sector number (LBA) + \param[in] count: sector count (1..255) + \param[out] none + \retval operation status +*/ +DRESULT disk_read (BYTE drv, BYTE *buff, DWORD sector, UINT count) +{ + BYTE status = USBH_OK; + usb_core_driver *pudev = (usb_core_driver *)usb_host.data; + + if (drv || (!count)) { + return RES_PARERR; + } + + if (state & STA_NOINIT) { + return RES_NOTRDY; + } + + if (pudev->host.connect_status) { + do { + status = usbh_msc_read (&usb_host, drv, sector, buff, count); + + if (!pudev->host.connect_status) { + return RES_ERROR; + } + } while(status == USBH_BUSY); + } + + if (status == USBH_OK) { + return RES_OK; + } + + return RES_ERROR; +} + +#if _READONLY == 0U + +/*! + \brief write sectors + \param[in] drv: physical drive number (0) + \param[in] buff: pointer to the data buffer to store read data + \param[in] sector: start sector number (LBA) + \param[in] count: sector count (1..255) + \param[out] none + \retval operation status +*/ +DRESULT disk_write (BYTE drv, const BYTE *buff, DWORD sector, UINT count) +{ + BYTE status = USBH_OK; + usb_core_driver *pudev = (usb_core_driver *)usb_host.data; + + if ((!count) || drv) { + return RES_PARERR; + } + + if (state & STA_NOINIT) { + return RES_NOTRDY; + } + + if (state & STA_PROTECT) { + return RES_WRPRT; + } + + if (pudev->host.connect_status) { + do { + status = usbh_msc_write (&usb_host, drv, sector, (BYTE*)buff, count); + + if (!pudev->host.connect_status) { + return RES_ERROR; + } + } while(status == USBH_BUSY); + } + + if (status == USBH_OK) { + return RES_OK; + } + + return RES_ERROR; +} + +#endif /* _READONLY == 0 */ + +/*! + \brief I/O control function + \param[in] drv: physical drive number (0) + \param[in] ctrl: control code + \param[in] buff: pointer to the data buffer to store read data + \param[out] none + \retval operation status +*/ +DRESULT disk_ioctl (BYTE drv, BYTE ctrl, void *buff) +{ + DRESULT res = RES_OK; + msc_lun info; + + if (drv) { + return RES_PARERR; + } + + res = RES_ERROR; + + if (state & STA_NOINIT) { + return RES_NOTRDY; + } + + switch (ctrl) { + /* make sure that no pending write process */ + case CTRL_SYNC: + res = RES_OK; + break; + + /* get number of sectors on the disk (dword) */ + case GET_SECTOR_COUNT: + if (USBH_OK == usbh_msc_lun_info_get(&usb_host, drv, &info)) { + *(DWORD*)buff = (DWORD)info.capacity.block_nbr; + res = RES_OK; + } + break; + + /* get r/w sector size (word) */ + case GET_SECTOR_SIZE: + if (USBH_OK == usbh_msc_lun_info_get(&usb_host, drv, &info)) { + *(WORD*)buff = (DWORD)info.capacity.block_size; + res = RES_OK; + } + break; + + /* get erase block size in unit of sector (dword) */ + case GET_BLOCK_SIZE: + *(DWORD*)buff = 512; + break; + + default: + res = RES_PARERR; + break; + } + + return res; +} + +/*! + \brief get fat time + \param[in] none + \param[out] none + \retval time value +*/ +DWORD get_fattime(void) { + + return ((DWORD)(2019U - 1980U) << 25U) /* Year 2019 */ + | ((DWORD)1U << 21U) /* Month 1 */ + | ((DWORD)1U << 16U) /* Mday 1 */ + | ((DWORD)0U << 11U) /* Hour 0 */ + | ((DWORD)0U << 5U) /* Min 0 */ + | ((DWORD)0U >> 1U); /* Sec 0 */ +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_scsi.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_scsi.c new file mode 100644 index 0000000000..4c480e7e3b --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/class/msc/Source/usbh_msc_scsi.c @@ -0,0 +1,398 @@ +/*! + \file usbh_msc_scsi.c + \brief USB MSC SCSI commands implemention + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "usbh_msc_core.h" +#include "usbh_msc_scsi.h" +#include "usbh_msc_bbb.h" +#include + +/*! + \brief send 'Inquiry' command to the device + \param[in] puhost: pointer to usb host handler + \param[in] lun: logic unit number + \param[in] inquiry: pointer to the inquiry structure + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_scsi_inquiry (usbh_host *puhost, uint8_t lun, scsi_std_inquiry_data *inquiry) +{ + usbh_status error = USBH_FAIL; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + switch (msc->bot.cmd_state) { + case BBB_CMD_SEND: + /* prepare the cbw and relevant field*/ + msc->bot.cbw.field.dCBWDataTransferLength = STANDARD_INQUIRY_DATA_LEN; + msc->bot.cbw.field.bmCBWFlags = USB_TRX_IN; + msc->bot.cbw.field.bCBWCBLength = CBW_LENGTH; + + memset(msc->bot.cbw.field.CBWCB, 0U, CBW_LENGTH); + + msc->bot.cbw.field.CBWCB[0] = SCSI_INQUIRY; + msc->bot.cbw.field.CBWCB[1] = (lun << 5U); + msc->bot.cbw.field.CBWCB[4] = 0x24U; + + msc->bot.state = BBB_SEND_CBW; + msc->bot.cmd_state = BBB_CMD_WAIT; + msc->bot.pbuf = (uint8_t *)(void *)msc->bot.data; + error = USBH_BUSY; + break; + + case BBB_CMD_WAIT: + error = usbh_msc_bbb_process(puhost, lun); + + if (USBH_OK == error) { + memset(inquiry, 0U, sizeof(scsi_std_inquiry_data)); + + /* assign inquiry data */ + inquiry->device_type = msc->bot.pbuf[0] & 0x1FU; + inquiry->peripheral_qualifier = msc->bot.pbuf[0] >> 5U; + + if (0x80U == ((uint32_t)msc->bot.pbuf[1] & 0x80U)) { + inquiry->removable_media = 1U; + } else { + inquiry->removable_media = 0U; + } + + memcpy (inquiry->vendor_id, &msc->bot.pbuf[8], 8U); + memcpy (inquiry->product_id, &msc->bot.pbuf[16], 16U); + memcpy (inquiry->revision_id, &msc->bot.pbuf[32], 4U); + } + break; + + default: + break; + } + + return error; +} + +/*! + \brief send 'Test unit ready' command to the device + \param[in] puhost: pointer to USB host handler + \param[in] lun: logic unit number + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_test_unitready (usbh_host *puhost, uint8_t lun) +{ + usbh_status status = USBH_FAIL; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + + switch (msc->bot.cmd_state) { + case BBB_CMD_SEND: + /* prepare the CBW and relevant field */ + msc->bot.cbw.field.dCBWDataTransferLength = CBW_LENGTH_TEST_UNIT_READY; + msc->bot.cbw.field.bmCBWFlags = USB_TRX_OUT; + msc->bot.cbw.field.bCBWCBLength = CBW_LENGTH; + + memset(msc->bot.cbw.field.CBWCB, 0U, CBW_CB_LENGTH); + + msc->bot.cbw.field.CBWCB[0] = SCSI_TEST_UNIT_READY; + msc->bot.state = BBB_SEND_CBW; + msc->bot.cmd_state = BBB_CMD_WAIT; + + status = USBH_BUSY; + break; + + case BBB_CMD_WAIT: + status = usbh_msc_bbb_process(puhost, lun); + break; + + default: + break; + } + + return status; +} + +/*! + \brief send the read capacity command to the device + \param[in] puhost: pointer to usb host handler + \param[in] lun: logic unit number + \param[in] capacity: pointer to scsi capacity + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_read_capacity10 (usbh_host *puhost, uint8_t lun, scsi_capacity *capacity) +{ + usbh_status status = USBH_FAIL; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + switch (msc->bot.cmd_state) { + case BBB_CMD_SEND: + /* prepare the CBW and relevant field */ + msc->bot.cbw.field.dCBWDataTransferLength = READ_CAPACITY10_DATA_LEN; + msc->bot.cbw.field.bmCBWFlags = USB_TRX_IN; + msc->bot.cbw.field.bCBWCBLength = CBW_LENGTH; + + memset(msc->bot.cbw.field.CBWCB, 0U, CBW_CB_LENGTH); + + msc->bot.cbw.field.CBWCB[0] = SCSI_READ_CAPACITY10; + msc->bot.state = BBB_SEND_CBW; + msc->bot.cmd_state = BBB_CMD_WAIT; + msc->bot.pbuf = (uint8_t *)(void *)msc->bot.data; + + status = USBH_BUSY; + break; + + case BBB_CMD_WAIT: + status = usbh_msc_bbb_process(puhost, lun); + + if (USBH_OK == status) { + capacity->block_nbr = msc->bot.pbuf[3] | \ + ((uint32_t)msc->bot.pbuf[2] << 8U) | \ + ((uint32_t)msc->bot.pbuf[1] << 16U) | \ + ((uint32_t)msc->bot.pbuf[0] << 24U); + + capacity->block_size = (uint16_t)(msc->bot.pbuf[7] | ((uint32_t)msc->bot.pbuf[6] << 8U)); + } + break; + + default: + break; + } + + return status; +} + +/*! + \brief send the mode sense6 command to the device + \param[in] puhost: pointer to usb host handler + \param[in] lun: logic unit number + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_mode_sense6 (usbh_host *puhost, uint8_t lun) +{ + usbh_status status = USBH_FAIL; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + switch (msc->bot.cmd_state) { + case BBB_CMD_SEND: + /* prepare the CBW and relevant field */ + msc->bot.cbw.field.dCBWDataTransferLength = XFER_LEN_MODE_SENSE6; + msc->bot.cbw.field.bmCBWFlags = USB_TRX_IN; + msc->bot.cbw.field.bCBWCBLength = CBW_LENGTH; + + memset(msc->bot.cbw.field.CBWCB, 0U, CBW_CB_LENGTH); + + msc->bot.cbw.field.CBWCB[0] = SCSI_MODE_SENSE6; + msc->bot.cbw.field.CBWCB[2] = MODE_SENSE_PAGE_CONTROL_FIELD | MODE_SENSE_PAGE_CODE; + msc->bot.cbw.field.CBWCB[4] = XFER_LEN_MODE_SENSE6; + msc->bot.state = BBB_SEND_CBW; + msc->bot.cmd_state = BBB_CMD_WAIT; + msc->bot.pbuf = (uint8_t *)(void *)msc->bot.data; + + status = USBH_BUSY; + break; + + case BBB_CMD_WAIT: + status = usbh_msc_bbb_process(puhost, lun); + + if (USBH_OK == status) { + if (msc->bot.data[2] & MASK_MODE_SENSE_WRITE_PROTECT) { + + } else { + + } + } + break; + + default: + break; + } + + return status; +} + +/*! + \brief send the Request Sense command to the device + \param[in] puhost: pointer to usb host handler + \param[in] lun: logic unit number + \param[in] sense_data: pointer to sense data + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_request_sense (usbh_host *puhost, uint8_t lun, msc_scsi_sense *sense_data) +{ + usbh_status status = USBH_FAIL; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + switch (msc->bot.cmd_state) { + case BBB_CMD_SEND: + /* prepare the cbw and relevant field */ + msc->bot.cbw.field.dCBWDataTransferLength = ALLOCATION_LENGTH_REQUEST_SENSE; + msc->bot.cbw.field.bmCBWFlags = USB_TRX_IN; + msc->bot.cbw.field.bCBWCBLength = CBW_LENGTH; + + memset(msc->bot.cbw.field.CBWCB, 0U, CBW_CB_LENGTH); + + msc->bot.cbw.field.CBWCB[0] = SCSI_REQUEST_SENSE; + msc->bot.cbw.field.CBWCB[1] = (lun << 5U); + msc->bot.cbw.field.CBWCB[4] = ALLOCATION_LENGTH_REQUEST_SENSE; + + msc->bot.state = BBB_SEND_CBW; + msc->bot.cmd_state = BBB_CMD_WAIT; + msc->bot.pbuf = (uint8_t *)(void *)msc->bot.data; + + status = USBH_BUSY; + break; + + case BBB_CMD_WAIT: + status = usbh_msc_bbb_process(puhost, lun); + + if (status == USBH_OK) { + /* get sense data */ + sense_data->SenseKey = msc->bot.pbuf[2] & 0x0FU; + sense_data->ASC = msc->bot.pbuf[12]; + sense_data->ASCQ = msc->bot.pbuf[13]; + } + break; + + default: + break; + } + + return status; +} + +/*! + \brief send the write10 command to the device + \param[in] puhost: pointer to usb host handler + \param[in] lun: logic unit number + \param[in] data_buf: data buffer contains the data to write + \param[in] addr: address to which the data will be written + \param[in] sector_num: number of sector to be written + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_write10 (usbh_host *puhost, uint8_t lun, uint8_t *data_buf, uint32_t addr, uint32_t sector_num) +{ + usbh_status status = USBH_FAIL; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + switch (msc->bot.cmd_state) { + case BBB_CMD_SEND: + msc->bot.cbw.field.dCBWDataTransferLength = sector_num * msc->unit[lun].capacity.block_size; + msc->bot.cbw.field.bmCBWFlags = USB_TRX_OUT; + msc->bot.cbw.field.bCBWCBLength = CBW_LENGTH; + + memset(msc->bot.cbw.field.CBWCB, 0U, CBW_CB_LENGTH); + + msc->bot.cbw.field.CBWCB[0] = SCSI_WRITE10; + + /* logical block address */ + msc->bot.cbw.field.CBWCB[2] = (((uint8_t*)&addr)[3]); + msc->bot.cbw.field.CBWCB[3] = (((uint8_t*)&addr)[2]); + msc->bot.cbw.field.CBWCB[4] = (((uint8_t*)&addr)[1]); + msc->bot.cbw.field.CBWCB[5] = (((uint8_t*)&addr)[0]); + + /* transfer length */ + msc->bot.cbw.field.CBWCB[7] = (((uint8_t *)§or_num)[1]); + msc->bot.cbw.field.CBWCB[8] = (((uint8_t *)§or_num)[0]); + + msc->bot.state = BBB_SEND_CBW; + msc->bot.cmd_state = BBB_CMD_WAIT; + msc->bot.pbuf = data_buf; + + status = USBH_BUSY; + break; + + case BBB_CMD_WAIT: + status = usbh_msc_bbb_process(puhost, lun); + break; + + default: + break; + } + + return status; +} + +/*! + \brief send the read10 command to the device + \param[in] puhost: pointer to usb host handler + \param[in] lun: logic unit number + \param[in] data_buf: data buffer contains the data to write + \param[in] addr: address to which the data will be read + \param[in] sector_num: number of sector to be read + \param[out] none + \retval operation status +*/ +usbh_status usbh_msc_read10 (usbh_host *puhost, uint8_t lun, uint8_t *data_buf, uint32_t addr, uint32_t sector_num) +{ + usbh_status status = USBH_FAIL; + usbh_msc_handler *msc = (usbh_msc_handler *)puhost->active_class->class_data; + + switch (msc->bot.cmd_state) { + case BBB_CMD_SEND: + /* prepare the CBW and relevant field */ + msc->bot.cbw.field.dCBWDataTransferLength = sector_num * msc->unit[lun].capacity.block_size; + msc->bot.cbw.field.bmCBWFlags = USB_TRX_IN; + msc->bot.cbw.field.bCBWCBLength = CBW_LENGTH; + + memset(msc->bot.cbw.field.CBWCB, 0U, CBW_CB_LENGTH); + + msc->bot.cbw.field.CBWCB[0] = SCSI_READ10; + + /* logical block address */ + msc->bot.cbw.field.CBWCB[2] = (((uint8_t*)&addr)[3]); + msc->bot.cbw.field.CBWCB[3] = (((uint8_t*)&addr)[2]); + msc->bot.cbw.field.CBWCB[4] = (((uint8_t*)&addr)[1]); + msc->bot.cbw.field.CBWCB[5] = (((uint8_t*)&addr)[0]); + + /* transfer length */ + msc->bot.cbw.field.CBWCB[7] = (((uint8_t *)§or_num)[1]); + msc->bot.cbw.field.CBWCB[8] = (((uint8_t *)§or_num)[0]); + + msc->bot.state = BBB_SEND_CBW; + msc->bot.cmd_state = BBB_CMD_WAIT; + msc->bot.pbuf = data_buf; + + status = USBH_BUSY; + break; + + case BBB_CMD_WAIT: + status = usbh_msc_bbb_process(puhost, lun); + break; + + default: + break; + } + + return status; +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_core.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_core.h new file mode 100644 index 0000000000..2e2e25b34b --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_core.h @@ -0,0 +1,272 @@ +/*! + \file usbh_core.h + \brief USB host core state machine header file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_CORE_H +#define __USBH_CORE_H + +#include "usbh_conf.h" +#include "drv_usb_host.h" + +#define MSC_CLASS 0x08U +#define HID_CLASS 0x03U +#define MSC_PROTOCOL 0x50U +#define CBI_PROTOCOL 0x01U + +#define USBH_MAX_ERROR_COUNT 3U + +#define USBH_DEV_ADDR_DEFAULT 0U +#define USBH_DEV_ADDR 1U + +typedef enum +{ + USBH_OK = 0U, + USBH_BUSY, + USBH_FAIL, + USBH_NOT_SUPPORTED, + USBH_UNRECOVERED_ERROR, + USBH_SPEED_UNKNOWN_ERROR, + USBH_APPLY_DEINIT +} usbh_status; + +/* USB host global operation state */ +typedef enum +{ + HOST_DEFAULT = 0U, + HOST_DETECT_DEV_SPEED, + HOST_DEV_CONNECT, + HOST_DEV_DETACHED, + HOST_DEV_ENUM, + HOST_PWR_FEATURE_SET, + HOST_CLASS_CHECK, + HOST_CLASS_ENUM, + HOST_CLASS_HANDLER, + HOST_USER_INPUT, + HOST_SUSPEND, + HOST_WAKEUP, + HOST_ERROR +} usb_host_state; + +/* USB host enumeration state */ +typedef enum +{ + ENUM_DEFAULT = 0U, + ENUM_GET_DEV_DESC, + ENUM_SET_ADDR, + ENUM_GET_CFG_DESC, + ENUM_GET_CFG_DESC_SET, + ENUM_GET_STR_DESC, +#ifdef USB_MTP + ENUM_GET_MTP_STR, +#endif + ENUM_SET_CONFIGURATION, + ENUM_DEV_CONFIGURED +} usbh_enum_state; + +/* USB host control transfer state */ +typedef enum +{ + CTL_IDLE = 0U, + CTL_SETUP, + CTL_SETUP_WAIT, + CTL_DATA_IN, + CTL_DATA_IN_WAIT, + CTL_DATA_OUT, + CTL_DATA_OUT_WAIT, + CTL_STATUS_IN, + CTL_STATUS_IN_WAIT, + CTL_STATUS_OUT, + CTL_STATUS_OUT_WAIT, + CTL_ERROR, + CTL_FINISH +} usbh_ctl_state; + +/* user action state */ +typedef enum +{ + USR_IN_NO_RESP = 0U, + USR_IN_RESP_OK = 1U, +} usbh_user_status; + +/* control transfer information */ +typedef struct _usbh_control +{ + uint8_t pipe_in_num; + uint8_t pipe_out_num; + uint8_t max_len; + uint8_t error_count; + + uint8_t *buf; + uint16_t ctl_len; + uint16_t timer; + + usb_setup setup; + usbh_ctl_state ctl_state; +} usbh_control; + +/* USB interface descriptor set */ +typedef struct _usb_desc_itf_set +{ + usb_desc_itf itf_desc; + usb_desc_ep ep_desc[USBH_MAX_EP_NUM]; +} usb_desc_itf_set; + +/* USB configure descriptor set */ +typedef struct _usb_desc_cfg_set +{ + usb_desc_config cfg_desc; + usb_desc_itf_set itf_desc_set[USBH_MAX_INTERFACES_NUM][USBH_MAX_ALT_SETTING]; +} usb_desc_cfg_set; + +/* USB device property */ +typedef struct +{ + uint8_t data[USBH_DATA_BUF_MAX_LEN]; + uint8_t cur_itf; + uint8_t addr; + + uint32_t speed; + + usb_desc_dev dev_desc; + usb_desc_cfg_set cfg_desc_set; + +#if (USBH_CFG_DESC_KEEP == 1U) + uint8_t cfgdesc_rawdata[USBH_CFGSET_MAX_LEN]; +#endif /* (USBH_CFG_DESC_KEEP == 1U) */ +} usb_dev_prop; + +struct _usbh_host; + +/* device class callbacks */ +typedef struct +{ + uint8_t class_code; /*!< USB class type */ + + usbh_status (*class_init) (struct _usbh_host *phost); + void (*class_deinit) (struct _usbh_host *phost); + usbh_status (*class_requests) (struct _usbh_host *phost); + usbh_status (*class_machine) (struct _usbh_host *phost); + usbh_status (*class_sof) (struct _usbh_host *puhost); + + void *class_data; +} usbh_class; + +/* user callbacks */ +typedef struct +{ + void (*dev_init) (void); + void (*dev_deinit) (void); + void (*dev_attach) (void); + void (*dev_reset) (void); + void (*dev_detach) (void); + void (*dev_over_currented) (void); + void (*dev_speed_detected) (uint32_t dev_speed); + void (*dev_devdesc_assigned) (void *dev_desc); + void (*dev_address_set) (void); + + void (*dev_cfgdesc_assigned) (usb_desc_config *cfg_desc, + usb_desc_itf *itf_desc, + usb_desc_ep *ep_desc); + + void (*dev_mfc_str) (void *mfc_str); + void (*dev_prod_str) (void *prod_str); + void (*dev_seral_str) (void *serial_str); + void (*dev_enumerated) (void); + usbh_user_status (*dev_user_input) (void); + int (*dev_user_app) (void); + void (*dev_not_supported) (void); + void (*dev_error) (void); +} usbh_user_cb; + +/* host information */ +typedef struct _usbh_host +{ + usb_host_state cur_state; /*!< host state machine value */ + usb_host_state backup_state; /*!< backup of previous state machine value */ + usbh_enum_state enum_state; /*!< enumeration state machine */ + usbh_control control; /*!< USB host control state machine */ + usb_dev_prop dev_prop; /*!< USB device property */ + + usbh_class *uclass[USBH_MAX_SUPPORTED_CLASS]; /*!< USB host supported class */ + usbh_class *active_class; /*!< USB active class */ + usbh_user_cb *usr_cb; /*!< USB user callback */ + + uint8_t class_num; /*!< USB class number */ + + void *data; /*!< used for... */ + +#if USB_LOW_POWER + uint8_t suspend_flag; /*!< host suspend flag */ + uint8_t dev_supp_remote_wkup; /*!< record device remote wakeup function */ + uint8_t wakeup_mode; /*!< record wakeup mode */ +#endif /* USB_LOW_POWER*/ +} usbh_host; + +/*! + \brief get USB URB state + \param[in] pudev: pointer to USB core instance + \param[in] pp_num: pipe number + \param[out] none + \retval none +*/ +static inline usb_urb_state usbh_urbstate_get (usb_core_driver *pudev, uint8_t pp_num) +{ + return pudev->host.pipe[pp_num].urb_state; +} + +/*! + \brief get USB transfer data count + \param[in] pudev: pointer to USB core instance + \param[in] pp_num: pipe number + \param[out] none + \retval none +*/ +static inline uint32_t usbh_xfercount_get (usb_core_driver *pudev, uint8_t pp_num) +{ + return pudev->host.backup_xfercount[pp_num]; +} + +/* function declarations */ +/* USB host stack initializations */ +void usbh_init (usbh_host *puhost, usbh_user_cb *user_cb); +/* USB host register device class */ +usbh_status usbh_class_register (usbh_host *puhost, usbh_class *puclass); +/* deinitialize USB host */ +usbh_status usbh_deinit (usbh_host *puhost); +/* USB host core main state machine process */ +void usbh_core_task (usbh_host *puhost); +/* handle the error on USB host side */ +void usbh_error_handler (usbh_host *puhost, usbh_status err_type); + +#endif /* __USBH_CORE_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_enum.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_enum.h new file mode 100644 index 0000000000..bd61e52d9f --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_enum.h @@ -0,0 +1,71 @@ +/*! + \file usbh_enum.h + \brief USB host mode USB enumeration header file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_ENUM_H +#define __USBH_ENUM_H + +#include "usbh_core.h" + +/* function declarations */ +/* configure USB control status parameters */ +void usbh_ctlstate_config (usbh_host *puhost, uint8_t *buf, uint16_t len); +/* get device descriptor from the USB device */ +usbh_status usbh_devdesc_get (usbh_host *puhost, uint8_t len); +/* get configuration descriptor from the USB device */ +usbh_status usbh_cfgdesc_get (usbh_host *puhost, uint16_t len); +/* get string descriptor from the USB device */ +usbh_status usbh_strdesc_get (usbh_host *puhost,uint8_t str_index, uint8_t *buf, uint16_t len); +/* set the address to the connected device */ +usbh_status usbh_setaddress (usbh_host *puhost, uint8_t dev_addr); +/* set the configuration value to the connected device */ +usbh_status usbh_setcfg (usbh_host *puhost, uint16_t config); +/* set the interface value to the connected device */ +usbh_status usbh_setinterface (usbh_host *puhost, uint8_t itf_num, uint8_t alter_setting); +/* set or enable a specific device feature */ +usbh_status usbh_setdevfeature (usbh_host *puhost, uint8_t feature_selector, uint16_t windex); +/* clear or disable a specific device feature */ +usbh_status usbh_clrdevfeature (usbh_host *puhost, uint8_t feature_selector, uint16_t windex); +/* clear or disable a specific feature */ +usbh_status usbh_clrfeature (usbh_host *puhost, uint8_t ep_addr, uint8_t pp_num); +/* get the next descriptor header */ +usb_desc_header *usbh_nextdesc_get (uint8_t *pbuf, uint16_t *ptr); +/* select an interface */ +usbh_status usbh_interface_select (usb_dev_prop *udev, uint8_t interface); +/* find the interface index for a specific class */ +uint8_t usbh_interface_find (usb_dev_prop *udev, uint8_t main_class, uint8_t sub_class, uint8_t protocol); +/* find the interface index for a specific class interface and alternate setting number */ +uint8_t usbh_interfaceindex_find (usb_dev_prop *udev, uint8_t interface_number, uint8_t alt_settings); + +#endif /* __USBH_ENUM_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_pipe.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_pipe.h new file mode 100644 index 0000000000..3f1607553c --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_pipe.h @@ -0,0 +1,103 @@ +/*! + \file usbh_pipe.h + \brief USB host mode pipe header file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_PIPE_H +#define __USBH_PIPE_H + +#include "usbh_core.h" + +/* host pipe maximum */ +#define HP_MAX 8U + +/* host pipe status */ +#define HP_OK 0x0000U +#define HP_USED 0x8000U +#define HP_ERROR 0xFFFFU +#define HP_USED_MASK 0x7FFFU + +/*! + \brief set toggle for a pipe + \param[in] pudev: pointer to USB core instance + \param[in] pp_num: pipe number + \param[in] toggle: toggle (0/1) + \param[out] none + \retval operation status +*/ +__STATIC_INLINE void usbh_pipe_toggle_set (usb_core_driver *pudev, uint8_t pp_num, uint8_t toggle) +{ + if (pudev->host.pipe[pp_num].ep.dir) { + pudev->host.pipe[pp_num].data_toggle_in = toggle; + } else { + pudev->host.pipe[pp_num].data_toggle_out = toggle; + } +} + +/*! + \brief get toggle flag of pipe + \param[in] pudev: pointer to USB core instance + \param[in] pp_num: pipe number + \param[out] none + \retval operation status +*/ +__STATIC_INLINE uint8_t usbh_pipe_toggle_get (usb_core_driver *pudev, uint8_t pp_num) +{ + if (pudev->host.pipe[pp_num].ep.dir) { + return pudev->host.pipe[pp_num].data_toggle_in; + } else { + return pudev->host.pipe[pp_num].data_toggle_out; + } +} + +/* function declarations */ +/* create a pipe */ +uint8_t usbh_pipe_create (usb_core_driver *pudev, + usb_dev_prop *udev, + uint8_t pp_num, + uint8_t ep_type, + uint16_t ep_mpl); +/* modify a pipe */ +uint8_t usbh_pipe_update (usb_core_driver *pudev, + uint8_t pp_num, + uint8_t dev_addr, + uint32_t dev_speed, + uint16_t ep_mpl); +/* allocate a new pipe */ +uint8_t usbh_pipe_allocate (usb_core_driver *pudev, uint8_t ep_addr); +/* free a pipe */ +uint8_t usbh_pipe_free (usb_core_driver *pudev, uint8_t pp_num); +/* delete all USB host pipe */ +uint8_t usbh_pipe_delete (usb_core_driver *pudev); + +#endif /* __USBH_PIPE_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_transc.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_transc.h new file mode 100644 index 0000000000..fe6da68d88 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Include/usbh_transc.h @@ -0,0 +1,51 @@ +/*! + \file usbh_transc.h + \brief USB host mode transactions header file + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_TRANSC_H +#define __USBH_TRANSC_H + +#include "usbh_core.h" + +/* function declarations */ +/* send the setup packet to the USB device */ +usbh_status usbh_ctlsetup_send (usb_core_driver *pudev, uint8_t *buf, uint8_t pp_num); +/* send a data packet to the USB device */ +usbh_status usbh_data_send (usb_core_driver *pudev, uint8_t *buf, uint8_t pp_num, uint16_t len); +/* receive a data packet from the USB device */ +usbh_status usbh_data_recev (usb_core_driver *pudev, uint8_t *buf, uint8_t pp_num, uint16_t len); +/* USB control transfer handler */ +usbh_status usbh_ctl_handler (usbh_host *puhost); + +#endif /* __USBH_TRANSC_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_core.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_core.c new file mode 100644 index 0000000000..4c0f44307e --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_core.c @@ -0,0 +1,657 @@ +/*! + \file usbh_core.c + \brief USB host core state machine driver + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "drv_usb_hw.h" +#include "usbh_pipe.h" +#include "usbh_enum.h" +#include "usbh_core.h" +#include "drv_usbh_int.h" +#include + +usb_core_driver usbh_core; + +/* local function prototypes ('static') */ +static uint8_t usb_ev_sof (usbh_host *puhost); +static uint8_t usb_ev_connect (usbh_host *puhost); +static uint8_t usb_ev_disconnect (usbh_host *puhost); + +static usbh_status usbh_enum_task (usbh_host *puhost); + +#if USB_LOW_POWER +static void usb_hwp_suspend(usb_core_driver *pudev); +static void usb_hwp_resume(usb_core_driver *pudev); +#endif /* USB_LOW_POWER */ + +usbh_ev_cb usbh_int_op = +{ + usb_ev_connect, + usb_ev_disconnect, + usb_ev_sof, +}; + +usbh_ev_cb *usbh_int_fop = &usbh_int_op; + +/*! + \brief USB host stack initializations + \param[in] puhost: pointer to USB host + \param[in] user_cb: pointer to user callback + \param[out] none + \retval none +*/ +void usbh_init (usbh_host *puhost, usbh_user_cb *user_cb) +{ + /* host de-initializations */ + usbh_deinit(puhost); + + puhost->usr_cb = user_cb; + + usbh_core.host.connect_status = 0U; + + for (uint8_t i = 0U; i < USBFS_MAX_TX_FIFOS; i++) { + usbh_core.host.pipe[i].err_count = 0U; + usbh_core.host.pipe[i].pp_status = PIPE_IDLE; + usbh_core.host.backup_xfercount[i] = 0U; + } + + usbh_core.host.pipe[0].ep.mps = 8U; + +#ifdef USE_USB_FS + usb_basic_init (&usbh_core.bp, &usbh_core.regs, USB_CORE_ENUM_FS); +#endif /* USE_USB_FS */ + +#ifndef DUAL_ROLE_MODE_ENABLED + usb_globalint_disable(&usbh_core.regs); + + usb_core_init (usbh_core.bp, &usbh_core.regs); + +#ifndef USE_OTG_MODE + usb_curmode_set (&usbh_core.regs, HOST_MODE); +#endif /* USE_OTG_MODE */ + + usb_host_init (&usbh_core); + + usb_globalint_enable(&usbh_core.regs); +#endif /* DUAL_ROLE_MODE_ENABLED */ + + /* link driver to the stack */ + usbh_core.host.data = (void *)puhost; + puhost->data = (void *)&usbh_core; + + /* upon init call usr call back */ + puhost->usr_cb->dev_init(); +} + +/*! + \brief USB host register device class + \param[in] puhost: pointer to usb host instance + \param[in] puclass: pointer to USB device class + \param[out] none + \retval operation status +*/ +usbh_status usbh_class_register (usbh_host *puhost, usbh_class *puclass) +{ + usbh_status status = USBH_OK; + + if (NULL != puclass) { + if (puhost->class_num < USBH_MAX_SUPPORTED_CLASS) { + puhost->uclass[puhost->class_num++] = puclass; + } else { + status = USBH_FAIL; + } + } else { + status = USBH_FAIL; + } + + return status; +} + +/*! + \brief de-initialize USB host + \param[in] puhost: pointer to USB host + \param[out] none + \retval operation status +*/ +usbh_status usbh_deinit(usbh_host *puhost) +{ + /* software init */ + puhost->cur_state = HOST_DEFAULT; + puhost->backup_state = HOST_DEFAULT; + puhost->enum_state = ENUM_DEFAULT; + + puhost->control.ctl_state = CTL_IDLE; + puhost->control.max_len = USB_FS_EP0_MAX_LEN; + + puhost->dev_prop.addr = USBH_DEV_ADDR_DEFAULT; + puhost->dev_prop.speed = PORT_SPEED_FULL; + puhost->dev_prop.cur_itf = 0xFFU; + + usbh_pipe_free(&usbh_core, puhost->control.pipe_in_num); + usbh_pipe_free(&usbh_core, puhost->control.pipe_out_num); + + return USBH_OK; +} + +/*! + \brief USB host core main state machine process + \param[in] puhost: pointer to USB host + \param[out] none + \retval none +*/ +void usbh_core_task (usbh_host *puhost) +{ + volatile usbh_status status = USBH_FAIL; + + /* check for host port events */ + if (((0U == usbh_core.host.connect_status) || (0U == usbh_core.host.port_enabled)) && (HOST_DEFAULT != puhost->cur_state)) { + if (puhost->cur_state != HOST_DEV_DETACHED) { + puhost->cur_state = HOST_DEV_DETACHED; + } + } + + switch (puhost->cur_state) { + case HOST_DEFAULT: + if (usbh_core.host.connect_status) { + puhost->cur_state = HOST_DETECT_DEV_SPEED; + + usb_mdelay (100U); + + usb_port_reset (&usbh_core); + + puhost->usr_cb->dev_reset(); + } + break; + + case HOST_DETECT_DEV_SPEED: + if (usbh_core.host.port_enabled) { + puhost->cur_state = HOST_DEV_CONNECT; + + puhost->dev_prop.speed = usb_curspeed_get (&usbh_core); + + puhost->usr_cb->dev_speed_detected(puhost->dev_prop.speed); + + usb_mdelay (50U); + } + break; + + case HOST_DEV_CONNECT: + puhost->usr_cb->dev_attach(); + puhost->control.pipe_out_num = usbh_pipe_allocate(&usbh_core, 0x00U); + puhost->control.pipe_in_num = usbh_pipe_allocate(&usbh_core, 0x80U); + + /* open IN control pipe */ + usbh_pipe_create (&usbh_core, + &puhost->dev_prop, + puhost->control.pipe_in_num, + USB_EPTYPE_CTRL, + (uint16_t)puhost->control.max_len); + + /* open OUT control pipe */ + usbh_pipe_create (&usbh_core, + &puhost->dev_prop, + puhost->control.pipe_out_num, + USB_EPTYPE_CTRL, + (uint16_t)puhost->control.max_len); + + puhost->cur_state = HOST_DEV_ENUM; + break; + + case HOST_DEV_ENUM: + /* check for enumeration status */ + if (USBH_OK == usbh_enum_task (puhost)) { + /* the function shall return USBH_OK when full enumeration is complete */ + + /* user callback for end of device basic enumeration */ + puhost->usr_cb->dev_enumerated(); + +#if USB_LOW_POWER + puhost->cur_state = HOST_SUSPEND; + + /* judge device remote wakup function */ + if ((puhost->dev_prop.cfg_desc_set.cfg_desc.bmAttributes) & (1U << 5)) { + puhost->dev_supp_remote_wkup = 1; + }else{ + puhost->dev_supp_remote_wkup = 0; + } +#else + puhost->cur_state = HOST_PWR_FEATURE_SET; +#endif /* USB_LOW_POWER */ + } + break; + + case HOST_PWR_FEATURE_SET: + if ((puhost->dev_prop.cfg_desc_set.cfg_desc.bmAttributes) & (1U << 5)) { + if (usbh_setdevfeature(puhost, FEATURE_SELECTOR_REMOTEWAKEUP, 0U) == USBH_OK) { + puhost->cur_state = HOST_CLASS_CHECK; + } + } else { + puhost->cur_state = HOST_CLASS_CHECK; + } + break; + + case HOST_CLASS_CHECK: + if (puhost->class_num == 0U) { + puhost->cur_state = HOST_ERROR; + } else { + puhost->active_class = NULL; + + uint8_t itf_class = puhost->dev_prop.cfg_desc_set.itf_desc_set[0][0].itf_desc.bInterfaceClass; + + for (uint8_t index = 0U; index < puhost->class_num; index++) { + if ((puhost->uclass[index]->class_code == itf_class) || (0xFFU == itf_class)) { + puhost->active_class = puhost->uclass[index]; + } + } + + if (puhost->active_class != NULL) { + puhost->cur_state = HOST_USER_INPUT; + } else { + puhost->cur_state = HOST_ERROR; + } + } + break; + + case HOST_USER_INPUT: + /* the function should return user response true to move to class state */ + if (USR_IN_RESP_OK == puhost->usr_cb->dev_user_input()) { + if ((USBH_OK == puhost->active_class->class_init(puhost))) { + puhost->cur_state = HOST_CLASS_ENUM; + } + } + break; + +#if USB_LOW_POWER + case HOST_SUSPEND: + if(puhost->dev_supp_remote_wkup){ + /* send set feature command*/ + if (USBH_OK == usbh_setdevfeature(puhost, FEATURE_SELECTOR_REMOTEWAKEUP, 0U)) { + + usb_hwp_suspend(&usbh_core); + + usb_mdelay(20U); + puhost->suspend_flag = 1; + puhost->usr_cb->dev_user_input(); + + /* MCU enter deep-sleep*/ + pmu_to_deepsleepmode(PMU_LDO_LOWPOWER, PMU_LOWDRIVER_DISABLE, WFI_CMD); + puhost->cur_state = HOST_WAKEUP; + } + }else { + /* host suspend */ + usb_hwp_suspend(&usbh_core); + + usb_mdelay(20U); + puhost->suspend_flag = 1U; + puhost->usr_cb->dev_user_input(); + + /* MCU enter deep-sleep */ + pmu_to_deepsleepmode(PMU_LDO_LOWPOWER, PMU_LOWDRIVER_DISABLE, WFI_CMD); + puhost->cur_state = HOST_WAKEUP; + } + break; + + case HOST_WAKEUP: + /* judge suspend status */ + if (0 == puhost->suspend_flag) { + usb_hwp_resume(&usbh_core); + usb_mdelay(500U); + + if(puhost->dev_supp_remote_wkup){ + if (USBH_OK == usbh_clrdevfeature(puhost, FEATURE_SELECTOR_DEV, 0U)) { + /* user callback for initialization */ + puhost->usr_cb->dev_init(); + puhost->cur_state = HOST_CLASS_CHECK; + } + } else{ + puhost->cur_state = HOST_CLASS_CHECK; + } + } + break; +#endif /* USB_LOW_POWER */ + + case HOST_CLASS_ENUM: + /* process class standard contol requests state machine */ + status = puhost->active_class->class_requests(puhost); + + if (USBH_OK == status) { + puhost->cur_state = HOST_CLASS_HANDLER; + } else { + usbh_error_handler (puhost, status); + } + break; + + case HOST_CLASS_HANDLER: + /* process class state machine */ + status = puhost->active_class->class_machine(puhost); + + usbh_error_handler (puhost, status); + break; + + case HOST_ERROR: + /* re-initilaize host for new enumeration */ + usbh_deinit (puhost); + puhost->usr_cb->dev_deinit(); + puhost->active_class->class_deinit(puhost); + break; + + case HOST_DEV_DETACHED: + /* manage user disconnect operations*/ + puhost->usr_cb->dev_detach(); + + /* re-initilaize host for new enumeration */ + usbh_deinit(puhost); + puhost->usr_cb->dev_deinit(); + puhost->active_class->class_deinit(puhost); + usbh_pipe_delete(&usbh_core); + puhost->cur_state = HOST_DEFAULT; + break; + + default: + break; + } +} + +/*! + \brief handle the error on USB host side + \param[in] puhost: pointer to USB host + \param[in] err_type: type of error or busy/OK state + \param[out] none + \retval none +*/ +void usbh_error_handler (usbh_host *puhost, usbh_status err_type) +{ + /* error unrecovered or not supported device speed */ + if ((USBH_SPEED_UNKNOWN_ERROR == err_type) || (USBH_UNRECOVERED_ERROR == err_type)) { + puhost->usr_cb->dev_error(); + + puhost->cur_state = HOST_ERROR; + } else if (USBH_APPLY_DEINIT == err_type) { + puhost->cur_state = HOST_ERROR; + + /* user callback for initalization */ + puhost->usr_cb->dev_init(); + } else { + /* no operation */ + } +} + +/*! + \brief USB SOF event function from the interrupt + \param[in] puhost: pointer to USB host + \param[out] none + \retval operation status +*/ +static uint8_t usb_ev_sof (usbh_host *puhost) +{ + /* this callback could be used to implement a scheduler process */ + puhost->control.timer = (uint16_t)usb_curframe_get(&usbh_core); + + if (puhost->active_class != NULL) { + if (puhost->active_class->class_sof != NULL) { + puhost->active_class->class_sof(puhost); + } + } + + return 0U; +} + +/*! + \brief USB connect callback function from the interrupt + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +static uint8_t usb_ev_connect (usbh_host *puhost) +{ + usbh_core.host.connect_status = 1U; + + return 0U; +} + +/*! + \brief USB disconnect callback function from the interrupt + \param[in] puhost: pointer to usb host + \param[out] none + \retval operation status +*/ +static uint8_t usb_ev_disconnect (usbh_host *puhost) +{ + usbh_core.host.connect_status = 0U; + + return 0U; +} + +/*! + \brief handle the USB enumeration task + \param[in] puhost: pointer to host + \param[out] none + \retval none +*/ +static usbh_status usbh_enum_task (usbh_host *puhost) +{ + uint8_t str_buf[512]; + + usbh_status status = USBH_BUSY; + + static uint8_t index_mfc_str = 0U, index_prod_str = 0U, index_serial_str = 0U; + + switch (puhost->enum_state) { + case ENUM_DEFAULT: + /* get device descriptor for only 1st 8 bytes : to get ep0 maxpacketsize */ + if (USBH_OK == usbh_devdesc_get (puhost, 8U)) { + puhost->control.max_len = puhost->dev_prop.dev_desc.bMaxPacketSize0; + + /* modify control channels configuration for maximum packet size */ + usbh_pipe_update (&usbh_core, + puhost->control.pipe_out_num, + 0U, 0U, + (uint16_t)puhost->control.max_len); + + usbh_pipe_update (&usbh_core, + puhost->control.pipe_in_num, + 0U, 0U, + (uint16_t)puhost->control.max_len); + + puhost->enum_state = ENUM_GET_DEV_DESC; + } + break; + + case ENUM_GET_DEV_DESC: + /* get full device descriptor */ + if (USBH_OK == usbh_devdesc_get (puhost, USB_DEV_DESC_LEN)) { + puhost->usr_cb->dev_devdesc_assigned(&puhost->dev_prop.dev_desc); + + index_mfc_str = puhost->dev_prop.dev_desc.iManufacturer; + index_prod_str = puhost->dev_prop.dev_desc.iProduct; + index_serial_str = puhost->dev_prop.dev_desc.iSerialNumber; + + puhost->enum_state = ENUM_SET_ADDR; + } + break; + + case ENUM_SET_ADDR: + /* set address */ + if (USBH_OK == usbh_setaddress (puhost, USBH_DEV_ADDR)) { + usb_mdelay (2U); + + puhost->dev_prop.addr = USBH_DEV_ADDR; + + /* user callback for device address assigned */ + puhost->usr_cb->dev_address_set(); + + /* modify control channels to update device address */ + usbh_pipe_update (&usbh_core, + puhost->control.pipe_in_num, + puhost->dev_prop.addr, + 0U, 0U); + + usbh_pipe_update (&usbh_core, + puhost->control.pipe_out_num, + puhost->dev_prop.addr, + 0U, 0U); + + puhost->enum_state = ENUM_GET_CFG_DESC; + } + break; + + case ENUM_GET_CFG_DESC: + /* get standard configuration descriptor */ + if (USBH_OK == usbh_cfgdesc_get (puhost, USB_CFG_DESC_LEN)) { + puhost->enum_state = ENUM_GET_CFG_DESC_SET; + } + break; + + case ENUM_GET_CFG_DESC_SET: + /* get full config descriptor (config, interface, endpoints) */ + if (USBH_OK == usbh_cfgdesc_get (puhost, puhost->dev_prop.cfg_desc_set.cfg_desc.wTotalLength)) { + /* user callback for configuration descriptors available */ + puhost->usr_cb->dev_cfgdesc_assigned (&puhost->dev_prop.cfg_desc_set.cfg_desc, + &puhost->dev_prop.cfg_desc_set.itf_desc_set[0][0].itf_desc, + &puhost->dev_prop.cfg_desc_set.itf_desc_set[0][0].ep_desc[0]); + + puhost->enum_state = ENUM_GET_STR_DESC; + } + break; + + case ENUM_GET_STR_DESC: + if (index_mfc_str) { + if (USBH_OK == usbh_strdesc_get (puhost, + puhost->dev_prop.dev_desc.iManufacturer, + str_buf, + 0xFFU)) { + /* user callback for manufacturing string */ + puhost->usr_cb->dev_mfc_str(str_buf); + + index_mfc_str = 0U; + } + } else { + if (index_prod_str) { + /* check that product string is available */ + if (USBH_OK == usbh_strdesc_get (puhost, + puhost->dev_prop.dev_desc.iProduct, + str_buf, + 0xFFU)) { + puhost->usr_cb->dev_prod_str(str_buf); + + index_prod_str = 0U; + } + } else { + if (index_serial_str) { + if (USBH_OK == usbh_strdesc_get (puhost, + puhost->dev_prop.dev_desc.iSerialNumber, + str_buf, + 0xFFU)) { + puhost->usr_cb->dev_seral_str(str_buf); + puhost->enum_state = ENUM_SET_CONFIGURATION; + index_serial_str = 0U; + } + } else { + puhost->enum_state = ENUM_SET_CONFIGURATION; + } + } + } + break; + + case ENUM_SET_CONFIGURATION: + if (USBH_OK == usbh_setcfg (puhost, (uint16_t)puhost->dev_prop.cfg_desc_set.cfg_desc.bConfigurationValue)) { + puhost->enum_state = ENUM_DEV_CONFIGURED; + } + break; + + case ENUM_DEV_CONFIGURED: + status = USBH_OK; + break; + + default: + break; + } + + return status; +} + + +#if USB_LOW_POWER + +/*! + \brief handles the USB resume from suspend mode + \param[in] pudev: pointer to selected USB device + \param[out] none + \retval none +*/ +static void usb_hwp_resume(usb_core_driver *pudev) +{ + __IO uint32_t hprt = 0U; + + /* switch-on the clocks */ + *pudev->regs.PWRCLKCTL &= ~PWRCLKCTL_SUCLK; + + *pudev->regs.PWRCLKCTL &= ~PWRCLKCTL_SHCLK; + + hprt = usb_port_read(pudev); + + hprt &= ~HPCS_PSP; + hprt |= HPCS_PREM; + + *pudev->regs.HPCS = hprt; + + usb_mdelay (20U); + + hprt &= ~HPCS_PREM; + + *pudev->regs.HPCS = hprt; +} + +/*! + \brief handles the USB enter to suspend mode + \param[in] pudev: pointer to selected USB device + \param[out] none + \retval none +*/ +static void usb_hwp_suspend(usb_core_driver *pudev) +{ + __IO uint32_t hprt = 0U; + + hprt = usb_port_read(pudev); + + hprt |= HPCS_PSP; + + *pudev->regs.HPCS = hprt; + + /* switch-off the clocks */ + *pudev->regs.PWRCLKCTL |= PWRCLKCTL_SUCLK; + + *pudev->regs.PWRCLKCTL |= PWRCLKCTL_SHCLK; +} + +#endif /* USB_LOW_POWER */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_enum.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_enum.c new file mode 100644 index 0000000000..8e8fec24a4 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_enum.c @@ -0,0 +1,694 @@ +/*! + \file usbh_enum.c + \brief USB host mode enumeration driver + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "usbh_pipe.h" +#include "usbh_transc.h" +#include "usbh_enum.h" + +/* local function prototypes ('static') */ +static void usbh_devdesc_parse (usb_desc_dev *dev_desc, uint8_t *buf, uint16_t len); +static void usbh_cfgdesc_parse (usb_desc_config *cfg_desc, uint8_t *buf); +static void usbh_cfgset_parse (usb_dev_prop *udev, uint8_t *buf); +static void usbh_itfdesc_parse (usb_desc_itf *itf_desc, uint8_t *buf); +static void usbh_epdesc_parse (usb_desc_ep *ep_desc, uint8_t *buf); +static void usbh_strdesc_parse (uint8_t *psrc, uint8_t *pdest, uint16_t len); + +/*! + \brief configure USB control status parameters + \param[in] puhost: pointer to usb host + \param[in] buf: control transfer data buffer pointer + \param[in] len: length of the data buffer + \param[out] none + \retval none +*/ +void usbh_ctlstate_config (usbh_host *puhost, uint8_t *buf, uint16_t len) +{ + /* prepare the transactions */ + puhost->control.buf = buf; + puhost->control.ctl_len = len; + + puhost->control.ctl_state = CTL_SETUP; +} + +/*! + \brief get device descriptor from the USB device + \param[in] puhost: pointer to usb host + \param[in] len: length of the descriptor + \param[out] none + \retval operation status +*/ +usbh_status usbh_devdesc_get (usbh_host *puhost, uint8_t len) +{ + usbh_status status = USBH_BUSY; + + usbh_control *usb_ctl = &puhost->control; + + if (CTL_IDLE == usb_ctl->ctl_state) { + usb_ctl->setup.req = (usb_req) { + .bmRequestType = USB_TRX_IN | USB_RECPTYPE_DEV | USB_REQTYPE_STRD, + .bRequest = USB_GET_DESCRIPTOR, + .wValue = USBH_DESC(USB_DESCTYPE_DEV), + .wIndex = 0U, + .wLength = len + }; + + usbh_ctlstate_config (puhost, puhost->dev_prop.data, (uint16_t)len); + } + + status = usbh_ctl_handler (puhost); + + if (USBH_OK == status) { + /* commands successfully sent and response received */ + usbh_devdesc_parse (&puhost->dev_prop.dev_desc, puhost->dev_prop.data, (uint16_t)len); + } + + return status; +} + +/*! + \brief get configuration descriptor from the USB device + \param[in] puhost: pointer to usb host + \param[in] len: length of the descriptor + \param[out] none + \retval operation status +*/ +usbh_status usbh_cfgdesc_get (usbh_host *puhost, uint16_t len) +{ + uint8_t *pdata = NULL; + + usbh_status status = USBH_BUSY; + + usbh_control *usb_ctl = &puhost->control; + +#if (USBH_CFG_DESC_KEEP == 1U) + pdata = puhost->dev_prop.cfgdesc_rawdata; +#else + pdata = puhost->dev_prop.data; +#endif /* USBH_CFG_DESC_KEEP */ + + if (CTL_IDLE == usb_ctl->ctl_state) { + usb_ctl->setup.req = (usb_req) { + .bmRequestType = USB_TRX_IN | USB_RECPTYPE_DEV | USB_REQTYPE_STRD, + .bRequest = USB_GET_DESCRIPTOR, + .wValue = USBH_DESC(USB_DESCTYPE_CONFIG), + .wIndex = 0U, + .wLength = len + }; + + usbh_ctlstate_config (puhost, pdata, len); + } + + status = usbh_ctl_handler (puhost); + + if (USBH_OK == status) { + if (len <= USB_CFG_DESC_LEN) { + usbh_cfgdesc_parse (&puhost->dev_prop.cfg_desc_set.cfg_desc, pdata); + } else { + usbh_cfgset_parse (&puhost->dev_prop, pdata); + } + } + + return status; +} + +/*! + \brief get string descriptor from the USB device + \param[in] puhost: pointer to usb host + \param[in] str_index: index for the string descriptor + \param[in] buf: buffer pointer to the string descriptor + \param[in] len: length of the descriptor + \param[out] none + \retval operation status +*/ +usbh_status usbh_strdesc_get (usbh_host *puhost, + uint8_t str_index, + uint8_t *buf, + uint16_t len) +{ + usbh_status status = USBH_BUSY; + + usbh_control *usb_ctl = &puhost->control; + + if (CTL_IDLE == usb_ctl->ctl_state) { + usb_ctl->setup.req = (usb_req) { + .bmRequestType = USB_TRX_IN | USB_RECPTYPE_DEV | USB_REQTYPE_STRD, + .bRequest = USB_GET_DESCRIPTOR, + .wValue = USBH_DESC(USB_DESCTYPE_STR) | str_index, + .wIndex = 0x0409U, + .wLength = len + }; + + usbh_ctlstate_config (puhost, puhost->dev_prop.data, len); + } + + status = usbh_ctl_handler (puhost); + + if (USBH_OK == status) { + /* commands successfully sent and response received */ + usbh_strdesc_parse (puhost->dev_prop.data, buf, len); + } + + return status; +} + +/*! + \brief set the address to the connected device + \param[in] puhost: pointer to usb host + \param[in] dev_addr: device address to assign + \param[out] none + \retval operation status +*/ +usbh_status usbh_setaddress (usbh_host *puhost, uint8_t dev_addr) +{ + usbh_status status = USBH_BUSY; + + usbh_control *usb_ctl = &puhost->control; + + if (CTL_IDLE == usb_ctl->ctl_state) { + usb_ctl->setup.req = (usb_req) { + .bmRequestType = USB_TRX_OUT | USB_RECPTYPE_DEV | USB_REQTYPE_STRD, + .bRequest = USB_SET_ADDRESS, + .wValue = (uint16_t)dev_addr, + .wIndex = 0U, + .wLength = 0U + }; + + usbh_ctlstate_config (puhost, NULL, 0U); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief set the configuration value to the connected device + \param[in] puhost: pointer to usb host + \param[in] config_index: configuration value + \param[out] none + \retval operation status +*/ +usbh_status usbh_setcfg (usbh_host *puhost, uint16_t config_index) +{ + usbh_status status = USBH_BUSY; + + usbh_control *usb_ctl = &puhost->control; + + if (CTL_IDLE == usb_ctl->ctl_state) { + usb_ctl->setup.req = (usb_req) { + .bmRequestType = USB_TRX_OUT | USB_RECPTYPE_DEV | USB_REQTYPE_STRD, + .bRequest = USB_SET_CONFIGURATION, + .wValue = config_index, + .wIndex = 0U, + .wLength = 0U + }; + + usbh_ctlstate_config (puhost, NULL, 0U); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief set the interface value to the connected device + \param[in] puhost: pointer to usb host + \param[in] itf_num: interface number + \param[in] set: alternated setting value + \param[out] none + \retval operation status +*/ +usbh_status usbh_setinterface (usbh_host *puhost, uint8_t itf_num, uint8_t set) +{ + usbh_status status = USBH_BUSY; + + usbh_control *usb_ctl = &puhost->control; + + if (CTL_IDLE == usb_ctl->ctl_state) { + usb_ctl->setup.req = (usb_req) { + .bmRequestType = USB_TRX_OUT | USB_RECPTYPE_ITF | USB_REQTYPE_STRD, + .bRequest = USB_SET_INTERFACE, + .wValue = set, + .wIndex = itf_num, + .wLength = 0U + }; + + usbh_ctlstate_config (puhost, NULL, 0U); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief set the interface value to the connected device + \param[in] puhost: pointer to usb host + \param[in] feature_selector: feature selector + \param[in] windex: index value + \param[out] none + \retval operation status +*/ +usbh_status usbh_setdevfeature (usbh_host *puhost, uint8_t feature_selector, uint16_t windex) +{ + usbh_status status = USBH_BUSY; + + usbh_control *usb_ctl = &puhost->control; + + if (CTL_IDLE == usb_ctl->ctl_state) { + usb_ctl->setup.req = (usb_req) { + .bmRequestType = USB_TRX_OUT | USB_RECPTYPE_DEV | USB_REQTYPE_STRD, + .bRequest = USB_SET_FEATURE, + .wValue = feature_selector, + .wIndex = windex, + .wLength = 0U + }; + + usbh_ctlstate_config (puhost, NULL, 0U); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief clear the interface value to the connected device + \param[in] puhost: pointer to usb host + \param[in] feature_selector: feature selector + \param[in] windex: index value + \param[out] none + \retval operation status +*/ +usbh_status usbh_clrdevfeature (usbh_host *puhost, uint8_t feature_selector, uint16_t windex) +{ + usbh_status status = USBH_BUSY; + + usbh_control *usb_ctl = &puhost->control; + + if (CTL_IDLE == usb_ctl->ctl_state) { + usb_ctl->setup.req = (usb_req) { + .bmRequestType = USB_TRX_OUT | USB_RECPTYPE_DEV | USB_REQTYPE_STRD, + .bRequest = USB_CLEAR_FEATURE, + .wValue = feature_selector, + .wIndex = windex, + .wLength = 0U + }; + + usbh_ctlstate_config (puhost, NULL, 0U); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief clear or disable a specific feature + \param[in] puhost: pointer to usb host + \param[in] ep_addr: endpoint address + \param[in] pp_num: pipe number + \param[out] none + \retval operation status +*/ +usbh_status usbh_clrfeature (usbh_host *puhost, uint8_t ep_addr, uint8_t pp_num) +{ + usbh_status status = USBH_BUSY; + usbh_control *usb_ctl = &puhost->control; + usb_core_driver *pudev = (usb_core_driver *)puhost->data; + + if (CTL_IDLE == usb_ctl->ctl_state) { + usb_ctl->setup.req = (usb_req) { + .bmRequestType = USB_TRX_OUT | USB_RECPTYPE_EP | USB_REQTYPE_STRD, + .bRequest = USB_CLEAR_FEATURE, + .wValue = FEATURE_SELECTOR_EP, + .wIndex = ep_addr, + .wLength = 0U + }; + + if (EP_ID(ep_addr) == pudev->host.pipe[pp_num].ep.num) { + usbh_pipe_toggle_set(pudev, pp_num, 0U); + } else { + return USBH_FAIL; + } + + usbh_ctlstate_config (puhost, NULL, 0U); + } + + status = usbh_ctl_handler (puhost); + + return status; +} + +/*! + \brief get the next descriptor header + \param[in] pbuf: pointer to buffer where the configuration descriptor set is available + \param[in] ptr: data pointer inside the configuration descriptor set + \param[out] none + \retval return descriptor header +*/ +usb_desc_header *usbh_nextdesc_get (uint8_t *pbuf, uint16_t *ptr) +{ + usb_desc_header *pnext; + + *ptr += ((usb_desc_header *)pbuf)->bLength; + + pnext = (usb_desc_header *)((uint8_t *)pbuf + ((usb_desc_header *)pbuf)->bLength); + + return (pnext); +} + +/*! + \brief get the next descriptor header + \param[in] udev: pointer to device property + \param[in] interface: interface number + \param[out] none + \retval operation status +*/ +usbh_status usbh_interface_select (usb_dev_prop *udev, uint8_t interface) +{ + usbh_status status = USBH_OK; + + if (interface < udev->cfg_desc_set.cfg_desc.bNumInterfaces) { + udev->cur_itf = interface; + } else { + status = USBH_FAIL; + } + + return status; +} + +/*! + \brief find the interface index for a specific class + \param[in] udev: pointer to device property + \param[in] main_class: class code + \param[in] sub_class: subclass code + \param[in] protocol: Protocol code + \param[out] none + \retval interface index in the configuration structure + \note interface index 0xFF means interface index not found +*/ +uint8_t usbh_interface_find (usb_dev_prop *udev, uint8_t main_class, uint8_t sub_class, uint8_t protocol) +{ + usb_desc_itf *pif; + + uint8_t if_ix = 0U; + + pif = (usb_desc_itf *)0; + + while (if_ix < udev->cfg_desc_set.cfg_desc.bNumInterfaces) { + pif = &udev->cfg_desc_set.itf_desc_set[if_ix][0].itf_desc; + + if (((pif->bInterfaceClass == main_class) || (main_class == 0xFFU))&& + ((pif->bInterfaceSubClass == sub_class) || (sub_class == 0xFFU))&& + ((pif->bInterfaceProtocol == protocol) || (protocol == 0xFFU))) { + return if_ix; + } + + if_ix++; + } + + return 0xFFU; +} + +/*! + \brief find the interface index for a specific class interface and alternate setting number + \param[in] udev: pointer to device property + \param[in] interface_number: interface number + \param[in] alt_settings: alternate setting number + \param[out] none + \retval interface index in the configuration structure + \note interface index 0xFF means interface index not found +*/ +uint8_t usbh_interfaceindex_find (usb_dev_prop *udev, uint8_t interface_number, uint8_t alt_settings) +{ + usb_desc_itf *pif; + + uint8_t if_ix = 0U; + + pif = (usb_desc_itf *)0; + + while (if_ix < USBH_MAX_INTERFACES_NUM) { + pif = &udev->cfg_desc_set.itf_desc_set[if_ix][alt_settings].itf_desc; + + if ((pif->bInterfaceNumber == interface_number) && (pif->bAlternateSetting == alt_settings)) { + return if_ix; + } + + if_ix++; + } + + return 0xFFU; +} + +/*! + \brief parse the device descriptor + \param[in] dev_desc: pointer to usb device descriptor buffer + \param[in] buf: pointer to the source descriptor buffer + \param[in] len: length of the descriptor + \param[out] none + \retval none +*/ +static void usbh_devdesc_parse (usb_desc_dev *dev_desc, uint8_t *buf, uint16_t len) +{ + *dev_desc = (usb_desc_dev) { + .header = { + .bLength = *(uint8_t *)(buf + 0U), + .bDescriptorType = *(uint8_t *)(buf + 1U) + }, + + .bcdUSB = BYTE_SWAP(buf + 2U), + .bDeviceClass = *(uint8_t *)(buf + 4U), + .bDeviceSubClass = *(uint8_t *)(buf + 5U), + .bDeviceProtocol = *(uint8_t *)(buf + 6U), + .bMaxPacketSize0 = *(uint8_t *)(buf + 7U) + }; + + if (len > 8U) { + /* for 1st time after device connection, host may issue only 8 bytes for device descriptor length */ + dev_desc->idVendor = BYTE_SWAP(buf + 8U); + dev_desc->idProduct = BYTE_SWAP(buf + 10U); + dev_desc->bcdDevice = BYTE_SWAP(buf + 12U); + dev_desc->iManufacturer = *(uint8_t *)(buf + 14U); + dev_desc->iProduct = *(uint8_t *)(buf + 15U); + dev_desc->iSerialNumber = *(uint8_t *)(buf + 16U); + dev_desc->bNumberConfigurations = *(uint8_t *)(buf + 17U); + } +} + +/*! + \brief parse the configuration descriptor + \param[in] cfg_desc: pointer to usb configuration descriptor buffer + \param[in] buf: pointer to the source descriptor buffer + \param[out] none + \retval none +*/ +static void usbh_cfgdesc_parse (usb_desc_config *cfg_desc, uint8_t *buf) +{ + /* parse configuration descriptor */ + *cfg_desc = (usb_desc_config) { + .header = { + .bLength = *(uint8_t *)(buf + 0U), + .bDescriptorType = *(uint8_t *)(buf + 1U), + }, + + .wTotalLength = BYTE_SWAP(buf + 2U), + .bNumInterfaces = *(uint8_t *)(buf + 4U), + .bConfigurationValue = *(uint8_t *)(buf + 5U), + .iConfiguration = *(uint8_t *)(buf + 6U), + .bmAttributes = *(uint8_t *)(buf + 7U), + .bMaxPower = *(uint8_t *)(buf + 8U) + }; +} + +/*! + \brief parse the configuration descriptor set + \param[in] udev: pointer to device property + \param[in] buf: pointer to the source descriptor buffer + \param[out] none + \retval none +*/ +static void usbh_cfgset_parse (usb_dev_prop *udev, uint8_t *buf) +{ + usb_desc_ep *ep = NULL; + usb_desc_itf_set *itf = NULL; + usb_desc_itf itf_value; + usb_desc_config *cfg = NULL; + + usb_desc_header *pdesc = (usb_desc_header *)buf; + + uint8_t itf_index = 0U, ep_index = 0U, alt_setting = 0U; + uint8_t pre_itf_index = 0U; + uint16_t ptr; + + /* parse configuration descriptor */ + usbh_cfgdesc_parse (&udev->cfg_desc_set.cfg_desc, buf); + cfg = &udev->cfg_desc_set.cfg_desc; + ptr = USB_CFG_DESC_LEN; + + if (cfg->bNumInterfaces > USBH_MAX_INTERFACES_NUM) { + return; + } + + while (ptr < cfg->wTotalLength) { + pdesc = usbh_nextdesc_get ((uint8_t *)pdesc, &ptr); + + if (pdesc->bDescriptorType == USB_DESCTYPE_ITF) { + itf_index = *(((uint8_t *)pdesc) + 2U); + + if (pre_itf_index != itf_index) { + alt_setting = 0U; + } + + itf = &udev->cfg_desc_set.itf_desc_set[itf_index][alt_setting]; + + alt_setting++; + + if ((*((uint8_t *)pdesc + 3U)) < 3U) { + usbh_itfdesc_parse (&itf_value, (uint8_t *)pdesc); + + /* parse endpoint descriptors relative to the current interface */ + if (itf_value.bNumEndpoints > USBH_MAX_EP_NUM) { + return; + } + + usbh_itfdesc_parse (&itf->itf_desc, (uint8_t *)&itf_value); + + /* store the previous interface index */ + pre_itf_index = itf_index; + + if (0U == itf_value.bNumEndpoints) { + continue; + } + + for (ep_index = 0U; ep_index < itf_value.bNumEndpoints; ) { + pdesc = usbh_nextdesc_get ((void*)pdesc, &ptr); + + if (pdesc->bDescriptorType == USB_DESCTYPE_EP) { + ep = &itf->ep_desc[ep_index]; + + usbh_epdesc_parse (ep, (uint8_t *)pdesc); + + ep_index++; + } + } + } + } + } +} + +/*! + \brief parse the interface descriptor + \param[in] itf_desc: pointer to usb interface descriptor buffer + \param[in] buf: pointer to the source descriptor buffer + \param[out] none + \retval none +*/ +static void usbh_itfdesc_parse (usb_desc_itf *itf_desc, uint8_t *buf) +{ + *itf_desc = (usb_desc_itf) { + .header = { + .bLength = *(uint8_t *)(buf + 0U), + .bDescriptorType = *(uint8_t *)(buf + 1U), + }, + + .bInterfaceNumber = *(uint8_t *)(buf + 2U), + .bAlternateSetting = *(uint8_t *)(buf + 3U), + .bNumEndpoints = *(uint8_t *)(buf + 4U), + .bInterfaceClass = *(uint8_t *)(buf + 5U), + .bInterfaceSubClass = *(uint8_t *)(buf + 6U), + .bInterfaceProtocol = *(uint8_t *)(buf + 7U), + .iInterface = *(uint8_t *)(buf + 8U) + }; +} + +/*! + \brief parse the endpoint descriptor + \param[in] ep_desc: pointer to usb endpoint descriptor buffer + \param[in] buf: pointer to the source descriptor buffer + \param[out] none + \retval none +*/ +static void usbh_epdesc_parse (usb_desc_ep *ep_desc, uint8_t *buf) +{ + *ep_desc = (usb_desc_ep) { + .header = { + .bLength = *(uint8_t *)(buf + 0U), + .bDescriptorType = *(uint8_t *)(buf + 1U) + }, + + .bEndpointAddress = *(uint8_t *)(buf + 2U), + .bmAttributes = *(uint8_t *)(buf + 3U), + .wMaxPacketSize = BYTE_SWAP(buf + 4U), + .bInterval = *(uint8_t *)(buf + 6U) + }; +} + +/*! + \brief parse the string descriptor + \param[in] psrc: source pointer containing the descriptor data + \param[in] pdest: destination address pointer + \param[in] len: length of the descriptor + \param[out] none + \retval none +*/ +static void usbh_strdesc_parse (uint8_t *psrc, uint8_t *pdest, uint16_t len) +{ + uint16_t str_len = 0U, index = 0U; + + /* the unicode string descriptor is not NULL-terminated. The string length is + * computed by substracting two from the value of the first byte of the descriptor. + */ + + /* check which is lower size, the size of string or the length of bytes read from the device */ + if (USB_DESCTYPE_STR == psrc[1]) { + /* make sure the descriptor is string type */ + + /* psrc[0] contains Size of Descriptor, subtract 2 to get the length of string */ + str_len = USB_MIN((uint16_t)psrc[0] - 2U, len); + + psrc += 2U; /* adjust the offset ignoring the string len and descriptor type */ + + for (index = 0U; index < str_len; index += 2U) { + /* copy only the string and ignore the unicode id, hence add the src */ + *pdest = psrc[index]; + + pdest++; + } + + *pdest = 0U; /* mark end of string */ + } +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_pipe.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_pipe.c new file mode 100644 index 0000000000..588fc9f4c3 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_pipe.c @@ -0,0 +1,175 @@ +/*! + \file usbh_pipe.c + \brief USB host mode pipe operation driver + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "usbh_pipe.h" + +/* local function prototypes ('static') */ +static uint16_t usbh_freepipe_get (usb_core_driver *pudev); + +/*! + \brief create a pipe + \param[in] pudev: pointer to usb core instance + \param[in] udev: USB device + \param[in] pp_num: pipe number + \param[in] ep_type: endpoint type + \param[in] ep_mpl: endpoint max packet length + \param[out] none + \retval operation status +*/ +uint8_t usbh_pipe_create (usb_core_driver *pudev, + usb_dev_prop *udev, + uint8_t pp_num, + uint8_t ep_type, + uint16_t ep_mpl) +{ + usb_pipe *pp = &pudev->host.pipe[pp_num]; + + pp->dev_addr = udev->addr; + pp->dev_speed = udev->speed; + pp->ep.type = ep_type; + pp->ep.mps = ep_mpl; + pp->ping = (uint8_t)(udev->speed == PORT_SPEED_HIGH); + + usb_pipe_init (pudev, pp_num); + + return HP_OK; +} + +/*! + \brief modify a pipe + \param[in] pudev: pointer to usb core instance + \param[in] pp_num: pipe number + \param[in] dev_addr: device address + \param[in] dev_speed: device speed + \param[in] ep_mpl: endpoint max packet length + \param[out] none + \retval operation status +*/ +uint8_t usbh_pipe_update (usb_core_driver *pudev, + uint8_t pp_num, + uint8_t dev_addr, + uint32_t dev_speed, + uint16_t ep_mpl) +{ + usb_pipe *pp = &pudev->host.pipe[pp_num]; + + if ((pp->dev_addr != dev_addr) && (dev_addr)) { + pp->dev_addr = dev_addr; + } + + if ((pp->dev_speed != dev_speed) && (dev_speed)) { + pp->dev_speed = dev_speed; + } + + if ((pp->ep.mps != ep_mpl) && (ep_mpl)) { + pp->ep.mps = ep_mpl; + } + + usb_pipe_init (pudev, pp_num); + + return HP_OK; +} + +/*! + \brief allocate a new pipe + \param[in] pudev: pointer to usb core instance + \param[in] ep_addr: endpoint address + \param[out] none + \retval operation status +*/ +uint8_t usbh_pipe_allocate (usb_core_driver *pudev, uint8_t ep_addr) +{ + uint16_t pp_num = usbh_freepipe_get (pudev); + + if (HP_ERROR != pp_num) { + pudev->host.pipe[pp_num].in_used = 1U; + pudev->host.pipe[pp_num].ep.dir = EP_DIR(ep_addr); + pudev->host.pipe[pp_num].ep.num = EP_ID(ep_addr); + } + + return (uint8_t)pp_num; +} + +/*! + \brief free a pipe + \param[in] pudev: pointer to usb core instance + \param[in] pp_num: pipe number + \param[out] none + \retval operation status +*/ +uint8_t usbh_pipe_free (usb_core_driver *pudev, uint8_t pp_num) +{ + if (pp_num < HP_MAX) { + pudev->host.pipe[pp_num].in_used = 0U; + } + + return USBH_OK; +} + +/*! + \brief delete all USB host pipe + \param[in] pudev: pointer to usb core instance + \param[out] none + \retval operation status +*/ +uint8_t usbh_pipe_delete (usb_core_driver *pudev) +{ + uint8_t pp_num = 0U; + + for (pp_num = 2U; pp_num < HP_MAX; pp_num++) { + pudev->host.pipe[pp_num] = (usb_pipe) {0}; + } + + return USBH_OK; +} + +/*! + \brief get a free pipe number for allocation + \param[in] pudev: pointer to usb core instance + \param[out] none + \retval operation status +*/ +static uint16_t usbh_freepipe_get (usb_core_driver *pudev) +{ + uint8_t pp_num = 0U; + + for (pp_num = 0U; pp_num < HP_MAX; pp_num++) { + if (0U == pudev->host.pipe[pp_num].in_used) { + return (uint16_t)pp_num; + } + } + + return HP_ERROR; +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_transc.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_transc.c new file mode 100644 index 0000000000..12c3d1b941 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/host/core/Source/usbh_transc.c @@ -0,0 +1,373 @@ +/*! + \file usbh_transc.c + \brief USB host mode transactions driver + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2021-09-27, V3.0.1, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include "drv_usb_hw.h" +#include "usbh_pipe.h" +#include "usbh_transc.h" + +/* local function prototypes ('static') */ +static usb_urb_state usbh_urb_wait (usbh_host *puhost, uint8_t pp_num, uint32_t wait_time); +static void usbh_setup_transc (usbh_host *puhost); +static void usbh_data_in_transc (usbh_host *puhost); +static void usbh_data_out_transc (usbh_host *puhost); +static void usbh_status_in_transc (usbh_host *puhost); +static void usbh_status_out_transc (usbh_host *puhost); +static uint32_t usbh_request_submit (usb_core_driver *pudev, uint8_t pp_num); + +/*! + \brief send the setup packet to the USB device + \param[in] pudev: pointer to usb core instance + \param[in] buf: data buffer which will be sent to USB device + \param[in] pp_num: pipe number + \param[out] none + \retval operation status +*/ +usbh_status usbh_ctlsetup_send (usb_core_driver *pudev, uint8_t *buf, uint8_t pp_num) +{ + usb_pipe *pp = &pudev->host.pipe[pp_num]; + + pp->DPID = PIPE_DPID_SETUP; + pp->xfer_buf = buf; + pp->xfer_len = USB_SETUP_PACKET_LEN; + + return (usbh_status)usbh_request_submit (pudev, pp_num); +} + +/*! + \brief send a data packet to the USB device + \param[in] pudev: pointer to usb core instance + \param[in] buf: data buffer which will be sent to USB device + \param[in] pp_num: pipe number + \param[in] len: length of the data to be sent + \param[out] none + \retval operation status +*/ +usbh_status usbh_data_send (usb_core_driver *pudev, uint8_t *buf, uint8_t pp_num, uint16_t len) +{ + usb_pipe *pp = &pudev->host.pipe[pp_num]; + + pp->xfer_buf = buf; + pp->xfer_len = len; + + switch (pp->ep.type) { + case USB_EPTYPE_CTRL: + if (0U == len) { + pp->data_toggle_out = 1U; + } + + pp->DPID = PIPE_DPID[pp->data_toggle_out]; + break; + + case USB_EPTYPE_INTR: + pp->DPID = PIPE_DPID[pp->data_toggle_out]; + + pp->data_toggle_out ^= 1U; + break; + + case USB_EPTYPE_BULK: + pp->DPID = PIPE_DPID[pp->data_toggle_out]; + break; + + case USB_EPTYPE_ISOC: + pp->DPID = PIPE_DPID[0]; + break; + + default: + break; + } + + usbh_request_submit (pudev, pp_num); + + return USBH_OK; +} + +/*! + \brief receive a data packet from the USB device + \param[in] pudev: pointer to usb core instance + \param[in] buf: data buffer which will be received from USB device + \param[in] pp_num: pipe number + \param[in] len: length of the data to be received + \param[out] none + \retval operation status +*/ +usbh_status usbh_data_recev (usb_core_driver *pudev, uint8_t *buf, uint8_t pp_num, uint16_t len) +{ + usb_pipe *pp = &pudev->host.pipe[pp_num]; + + pp->xfer_buf = buf; + pp->xfer_len = len; + + switch (pp->ep.type) { + case USB_EPTYPE_CTRL: + pp->DPID = PIPE_DPID[1]; + break; + + case USB_EPTYPE_INTR: + pp->DPID = PIPE_DPID[pp->data_toggle_in]; + + /* Toggle DATA PID */ + pp->data_toggle_in ^= 1U; + break; + + case USB_EPTYPE_BULK: + pp->DPID = PIPE_DPID[pp->data_toggle_in]; + break; + + case USB_EPTYPE_ISOC: + pp->DPID = PIPE_DPID[0]; + break; + + default: + break; + } + + usbh_request_submit (pudev, pp_num); + + return USBH_OK; +} + +/*! + \brief USB control transfer handler + \param[in] puhost: pointer to USB host + \param[out] none + \retval operation status +*/ +usbh_status usbh_ctl_handler (usbh_host *puhost) +{ + usbh_status status = USBH_BUSY; + + switch (puhost->control.ctl_state) { + case CTL_SETUP: + usbh_setup_transc (puhost); + break; + + case CTL_DATA_IN: + usbh_data_in_transc (puhost); + break; + + case CTL_DATA_OUT: + usbh_data_out_transc (puhost); + break; + + case CTL_STATUS_IN: + usbh_status_in_transc (puhost); + break; + + case CTL_STATUS_OUT: + usbh_status_out_transc (puhost); + break; + + case CTL_FINISH: + puhost->control.ctl_state = CTL_IDLE; + + status = USBH_OK; + break; + + case CTL_ERROR: + if (++puhost->control.error_count <= USBH_MAX_ERROR_COUNT) { + /* do the transmission again, starting from SETUP packet */ + puhost->control.ctl_state = CTL_SETUP; + } else { + status = USBH_FAIL; + } + break; + + default: + break; + } + + return status; +} + +/*! + \brief wait for USB URB(USB request block) state + \param[in] puhost: pointer to USB host + \param[in] pp_num: pipe number + \param[in] wait_time: wait time + \param[out] none + \retval USB URB state +*/ +static usb_urb_state usbh_urb_wait (usbh_host *puhost, uint8_t pp_num, uint32_t wait_time) +{ + uint32_t timeout = 0U; + usb_urb_state urb_status = URB_IDLE; + timeout = puhost->control.timer; + + while (URB_DONE != (urb_status = usbh_urbstate_get(puhost->data, pp_num))) { + if (URB_NOTREADY == urb_status) { + break; + } else if (URB_STALL == urb_status) { + puhost->control.ctl_state = CTL_SETUP; + break; + } else if (URB_ERROR == urb_status) { + puhost->control.ctl_state = CTL_ERROR; + break; + } else if ((wait_time > 0U) && (((usb_curframe_get(puhost->data) > timeout) && ((usb_curframe_get(puhost->data) - timeout) > wait_time)) \ + || ((usb_curframe_get(puhost->data) < timeout) && ((usb_curframe_get(puhost->data) + 0x3FFFU - timeout) > wait_time)))) { + /* timeout for in transfer */ + puhost->control.ctl_state = CTL_ERROR; + break; + } else { + /* no operation, just wait */ + } + } + + return urb_status; +} + +/*! + \brief USB setup transaction + \param[in] puhost: pointer to USB host + \param[out] none + \retval none +*/ +static void usbh_setup_transc (usbh_host *puhost) +{ + /* send a SETUP packet */ + usbh_ctlsetup_send (puhost->data, + puhost->control.setup.data, + puhost->control.pipe_out_num); + + if (URB_DONE == usbh_urb_wait (puhost, puhost->control.pipe_out_num, 0U)) { + uint8_t dir = (puhost->control.setup.req.bmRequestType & USB_TRX_MASK); + + if (puhost->control.setup.req.wLength) { + if (USB_TRX_IN == dir) { + puhost->control.ctl_state = CTL_DATA_IN; + } else { + puhost->control.ctl_state = CTL_DATA_OUT; + } + } else { + if (USB_TRX_IN == dir) { + puhost->control.ctl_state = CTL_STATUS_OUT; + } else { + puhost->control.ctl_state = CTL_STATUS_IN; + } + } + + /* set the delay timer to enable timeout for data stage completion */ + puhost->control.timer = (uint16_t)usb_curframe_get(puhost->data); + } +} + +/*! + \brief USB data IN transaction + \param[in] puhost: pointer to USB host + \param[out] none + \retval none +*/ +static void usbh_data_in_transc (usbh_host *puhost) +{ + usbh_data_recev (puhost->data, + puhost->control.buf, + puhost->control.pipe_in_num, + puhost->control.ctl_len); + + if (URB_DONE == usbh_urb_wait (puhost, puhost->control.pipe_in_num, DATA_STAGE_TIMEOUT)) { + puhost->control.ctl_state = CTL_STATUS_OUT; + + } +} + +/*! + \brief USB data OUT transaction + \param[in] puhost: pointer to USB host + \param[out] none + \retval none +*/ +static void usbh_data_out_transc (usbh_host *puhost) +{ + usbh_pipe_toggle_set(puhost->data, puhost->control.pipe_out_num, 1U); + + usbh_data_send (puhost->data, + puhost->control.buf, + puhost->control.pipe_out_num, + puhost->control.ctl_len); + + if (URB_DONE == usbh_urb_wait (puhost, puhost->control.pipe_out_num, DATA_STAGE_TIMEOUT)) { + puhost->control.ctl_state = CTL_STATUS_IN; + + } +} + +/*! + \brief USB status IN transaction + \param[in] puhost: pointer to USB host + \param[out] none + \retval none +*/ +static void usbh_status_in_transc (usbh_host *puhost) +{ + uint8_t pp_num = puhost->control.pipe_in_num; + + usbh_data_recev (puhost->data, NULL, pp_num, 0U); + + if (URB_DONE == usbh_urb_wait (puhost, pp_num, NODATA_STAGE_TIMEOUT)) { + puhost->control.ctl_state = CTL_FINISH; + } +} + +/*! + \brief USB status OUT transaction + \param[in] puhost: pointer to USB host + \param[out] none + \retval none +*/ +static void usbh_status_out_transc (usbh_host *puhost) +{ + uint8_t pp_num = puhost->control.pipe_out_num; + + usbh_data_send (puhost->data, NULL, pp_num, 0U); + + if (URB_DONE == usbh_urb_wait (puhost, pp_num, NODATA_STAGE_TIMEOUT)) { + puhost->control.ctl_state = CTL_FINISH; + } +} + +/*! + \brief prepare a pipe and start a transfer + \param[in] pudev: pointer to usb core instance + \param[in] pp_num: pipe number + \param[out] none + \retval operation status +*/ +static uint32_t usbh_request_submit (usb_core_driver *pudev, uint8_t pp_num) +{ + pudev->host.pipe[pp_num].urb_state = URB_IDLE; + pudev->host.pipe[pp_num].xfer_count = 0U; + + return (uint32_t)usb_pipe_xfer (pudev, pp_num); +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/usb_conf.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/usb_conf.h new file mode 100644 index 0000000000..c1624b9e57 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/usb_conf.h @@ -0,0 +1,111 @@ +/*! + \file usb_conf.h + \brief general low level driver configuration + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USB_CONF_H +#define __USB_CONF_H + +#include "gd32f30x.h" +//#include "gd32f307c_eval.h" +//#include "gd32f307c_lcd_eval.h" +//#include "lcd_log.h" +//#include "usb_lcd_conf.h" +#include "variants.h" + +/****************** USBFS PHY CONFIGURATION ******************************* + * The USB OTG FS Core supports one on-chip Full Speed PHY. + * The USE_EMBEDDED_PHY symbol is defined in the project compiler preprocessor + * when FS core is used. +*******************************************************************************/ +#ifdef USE_USB_FS + #define USB_FS_CORE +#endif + +/******************************************************************************* + * FIFO Size Configuration in Host mode + * + * (i) Receive data FIFO size = (Largest Packet Size / 4) + 1 or + * 2x (Largest Packet Size / 4) + 1, If a + * high-bandwidth channel or multiple isochronous + * channels are enabled. + * + * (ii) For the host non periodic Transmit FIFO is the largest maximum packet size + * for all supported non periodic OUT channels. Typically, a space + * corresponding to two Largest Packet Size is recommended. + * + * (iii) The minimum amount of RAM required for Host periodic Transmit FIFO is + * the largest maximum packet size for all supported periodic OUT channels. + * If there is at least one High Bandwidth Isochronous OUT endpoint, + * then the space must be at least two times the maximum packet size for + * that channel. +*******************************************************************************/ + +/****************** USBFS CONFIGURATION **********************************/ +#ifdef USB_FS_CORE + #define USB_RX_FIFO_FS_SIZE 128 + #define USB_HTX_NPFIFO_FS_SIZE 96 + #define USB_HTX_PFIFO_FS_SIZE 96 +#endif + +#define USB_SOF_OUTPUT 0 +#define USB_LOW_POWER 0 + +/****************** USB OTG MODE CONFIGURATION ********************************/ +#define USE_HOST_MODE +//#define USE_DEVICE_MODE +//#define USE_OTG_MODE + +#ifndef USE_DEVICE_MODE + #ifndef USE_HOST_MODE + #error "USE_DEVICE_MODE or USE_HOST_MODE should be defined" + #endif +#endif + +/****************** C Compilers dependent keywords ****************************/ +/* In HS mode and when the DMA is used, all variables and data structures dealing + with the DMA during the transaction process should be 4-bytes aligned */ + +#define __ALIGN_BEGIN +#define __ALIGN_END + +/* __packed keyword used to decrease the data type alignment to 1-byte */ +#if defined ( __GNUC__ ) /* GNU Compiler */ + #ifndef __packed + #define __packed __attribute__ ((__packed__)) + #endif +#elif defined (__TASKING__) /* TASKING Compiler */ + #define __packed __unaligned +#endif /* __GNUC__ */ + +#endif /* __USB_CONF_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_conf.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_conf.h new file mode 100644 index 0000000000..2b2c56d3cb --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_conf.h @@ -0,0 +1,47 @@ +/*! + \file usbh_conf.h + \brief USB host driver configuration + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_CONF_H +#define __USBH_CONF_H + +#define USBH_MAX_EP_NUM 7 +#define USBH_MAX_INTERFACES_NUM 2 +#define USBH_MAX_ALT_SETTING 2 +#define USBH_MAX_SUPPORTED_CLASS 2 + +#define USBH_DATA_BUF_MAX_LEN 0x200 +#define USBH_CFGSET_MAX_LEN 0x200 + +#endif /* __USBH_CONF_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_usr.c b/TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_usr.c new file mode 100644 index 0000000000..832aa6764c --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_usr.c @@ -0,0 +1,506 @@ +/*! + \file usbh_usr.c + \brief user application layer for USBFS host-mode MSC class operation + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#include +#include "usbh_usr.h" +#include "drv_usb_hw.h" +#include "ff.h" +#include "usbh_msc_core.h" +#include "usbh_msc_scsi.h" +#include "usbh_msc_bbb.h" + +extern usb_core_driver usbh_core; +extern usbh_host usb_host; + +FATFS fatfs; +FIL file; + +uint8_t line_idx; +uint8_t usbh_usr_application_state = USBH_USR_FS_INIT; + +const uint8_t MSG_HOST_HEADER[] = "USBFS MSC Host"; +const uint8_t MSG_HOST_FOOTER[] = "USB Host Library v3.0.0"; + +/* points to the DEVICE_PROP structure of current device */ +usbh_user_cb usr_cb = +{ + usbh_user_init, + usbh_user_deinit, + usbh_user_device_connected, + usbh_user_device_reset, + usbh_user_device_disconnected, + usbh_user_over_current_detected, + usbh_user_device_speed_detected, + usbh_user_device_desc_available, + usbh_user_device_address_assigned, + usbh_user_configuration_descavailable, + usbh_user_manufacturer_string, + usbh_user_product_string, + usbh_user_serialnum_string, + usbh_user_enumeration_finish, + usbh_user_userinput, + usbh_usr_msc_application, + usbh_user_device_not_supported, + usbh_user_unrecovered_error +}; + +/* local function prototypes ('static') */ +static uint8_t explore_disk (char* path, uint8_t recu_level); +static void toggle_leds (void); + +/*! + \brief user operation for host-mode initialization + \param[in] none + \param[out] none + \retval none +*/ +void usbh_user_init(void) +{ + static uint8_t startup = 0U; + + if (0U == startup) { + startup = 1U; + + /* configure the LEDs and KEYs*/ + gd_eval_led_init(LED2); + gd_eval_led_init(LED3); + + gd_eval_key_init(KEY_USER, KEY_MODE_GPIO); + gd_eval_key_init(KEY_TAMPER, KEY_MODE_GPIO); + gd_eval_key_init(KEY_WAKEUP, KEY_MODE_GPIO); + + gd_eval_lcd_init(); + + lcd_log_init(); + + lcd_log_header_set((uint8_t *)MSG_HOST_HEADER, 60); + + LCD_UsrLog("USB host library started\n"); + + lcd_log_footer_set((uint8_t *)MSG_HOST_FOOTER, 40); + } +} + +/*! + \brief deinit user state and associated variables + \param[in] none + \param[out] none + \retval none +*/ +void usbh_user_deinit(void) +{ + usbh_usr_application_state = USBH_USR_FS_INIT; +} + +/*! + \brief user operation for device attached + \param[in] none + \param[out] none + \retval none +*/ +void usbh_user_device_connected(void) +{ + LCD_UsrLog("> Device Attached.\r\n"); +} + +/*! + \brief user operation when unrecovered error happens + \param[in] none + \param[out] none + \retval none +*/ +void usbh_user_unrecovered_error (void) +{ + LCD_ErrLog("> UNRECOVERED ERROR STATE.\r\n"); +} + +/*! + \brief user operation for device disconnect event + \param[in] none + \param[out] none + \retval none +*/ +void usbh_user_device_disconnected (void) +{ + LCD_UsrLog("> Device Disconnected.\r\n"); +} + +/*! + \brief user operation for reset USB Device + \param[in] none + \param[out] none + \retval none +*/ +void usbh_user_device_reset(void) +{ + LCD_UsrLog("> Reset the USB device.\r\n"); +} + +/*! + \brief user operation for detecting device speed + \param[in] device_speed: device speed + \param[out] none + \retval none +*/ +void usbh_user_device_speed_detected(uint32_t device_speed) +{ + if (PORT_SPEED_HIGH == device_speed) { + LCD_UsrLog("> High speed device detected.\r\n"); + } else if(PORT_SPEED_FULL == device_speed) { + LCD_UsrLog("> Full speed device detected.\r\n"); + } else if(PORT_SPEED_LOW == device_speed) { + LCD_UsrLog("> Low speed device detected.\r\n"); + } else { + LCD_ErrLog("> Device Fault.\r\n"); + } +} + +/*! + \brief user operation when device descriptor is available + \param[in] device_desc: device descriptor + \param[out] none + \retval none +*/ +void usbh_user_device_desc_available(void *device_desc) +{ + usb_desc_dev *pDevStr = device_desc; + + LCD_DevInformation("VID: %04Xh\r\n", (uint32_t)pDevStr->idVendor); + LCD_DevInformation("PID: %04Xh\r\n", (uint32_t)pDevStr->idProduct); +} + +/*! + \brief usb device is successfully assigned the address + \param[in] none + \param[out] none + \retval none +*/ +void usbh_user_device_address_assigned(void) +{ +} + +/*! + \brief user operation when configuration descriptor is available + \param[in] cfg_desc: pointer to configuration descriptor + \param[in] itf_desc: pointer to interface descriptor + \param[in] ep_desc: pointer to endpoint descriptor + \param[out] none + \retval none +*/ +void usbh_user_configuration_descavailable(usb_desc_config *cfg_desc, + usb_desc_itf *itf_desc, + usb_desc_ep *ep_desc) +{ + usb_desc_itf *id = itf_desc; + + if (0x08U == (*id).bInterfaceClass) { + LCD_UsrLog("> Mass storage device connected.\r\n"); + } else if (0x03U == (*id).bInterfaceClass) { + LCD_UsrLog("> HID device connected.\r\n"); + } +} + +/*! + \brief user operation when manufacturer string exists + \param[in] manufacturer_string: manufacturer string of usb device + \param[out] none + \retval none +*/ +void usbh_user_manufacturer_string(void *manufacturer_string) +{ + LCD_DevInformation("Manufacturer: %s\r\n", (char *)manufacturer_string); +} + +/*! + \brief user operation when product string exists + \param[in] product_string: product string of usb device + \param[out] none + \retval none +*/ +void usbh_user_product_string(void *product_string) +{ + LCD_DevInformation("Product: %s\r\n", (char *)product_string); +} + +/*! + \brief user operation when serialNum string exists + \param[in] serial_num_string: serialNum string of usb device + \param[out] none + \retval none +*/ +void usbh_user_serialnum_string(void *serial_num_string) +{ + LCD_DevInformation("Serial Number: %s\r\n", (char *)serial_num_string); +} + +/*! + \brief user response request is displayed to ask for application jump to class + \param[in] none + \param[out] none + \retval none +*/ +void usbh_user_enumeration_finish(void) +{ + LCD_UsrLog("> Enumeration completed.\r\n"); + + lcd_text_color_set(LCD_COLOR_RED); + lcd_vertical_string_display(LCD_HINT_LINE0, 0, (uint8_t *)"---------------------------------------"); + lcd_text_color_set(LCD_COLOR_GREEN); + lcd_vertical_string_display(LCD_HINT_LINE1, 0, (uint8_t *)"To see the disk information: "); + lcd_vertical_string_display(LCD_HINT_LINE2, 0, (uint8_t *)"Press User Key... "); +} + +/*! + \brief user operation when device is not supported + \param[in] none + \param[out] none + \retval none +*/ +void usbh_user_device_not_supported(void) +{ + LCD_ErrLog("> Device not supported.\r\n"); +} + +/*! + \brief user action for application state entry + \param[in] none + \param[out] none + \retval user response for user key +*/ +usbh_user_status usbh_user_userinput(void) +{ + usbh_user_status usbh_usr_status = USR_IN_NO_RESP; + + /*key B3 is in polling mode to detect user action */ + + if (RESET == gd_eval_key_state_get(KEY_USER)) { + usbh_usr_status = USR_IN_RESP_OK; + } + + return usbh_usr_status; +} + +/*! + \brief user operation for device over current detection event + \param[in] none + \param[out] none + \retval none +*/ +void usbh_user_over_current_detected (void) +{ + LCD_ErrLog("> Overcurrent detected.\r\n"); +} + +/*! + \brief demo application for mass storage + \param[in] none + \param[out] none + \retval status +*/ +int usbh_usr_msc_application(void) +{ + FRESULT res; + msc_lun info; + uint8_t WriteTextBuff[] = "GD32 Connectivity line Host Demo application using FAT_FS "; + uint16_t bytesWritten, bytesToWrite; + + switch(usbh_usr_application_state){ + case USBH_USR_FS_INIT: + /* initializes the file system*/ + if (FR_OK != f_mount(&fatfs, "0:/", 0)) { + LCD_ErrLog("> Cannot initialize File System.\r\n"); + + return(-1); + } + + LCD_UsrLog("> File System initialized.\r\n"); + if (USBH_OK == usbh_msc_lun_info_get(&usb_host, 0, &info)) + { + LCD_UsrLog("> Disk capacity: %ud Bytes.\r\n", info.capacity.block_nbr * info.capacity.block_size); + } + + usbh_usr_application_state = USBH_USR_FS_READLIST; + break; + + case USBH_USR_FS_READLIST: + LCD_UsrLog("> Exploring disk flash ...\r\n"); + + lcd_text_color_set(LCD_COLOR_GREEN); + lcd_vertical_string_display(LCD_HINT_LINE1, 0, (uint8_t *)"To see the root content of disk"); + lcd_vertical_string_display(LCD_HINT_LINE2, 0, (uint8_t *)"Press Tamper Key... "); + + /*Key B3 in polling*/ + while ((usbh_core.host.connect_status) && \ + (SET == gd_eval_key_state_get (KEY_TAMPER))) { + toggle_leds(); + } + + explore_disk("0:/", 1); + line_idx = 0; + usbh_usr_application_state = USBH_USR_FS_WRITEFILE; + break; + + case USBH_USR_FS_WRITEFILE: + usb_mdelay(100); + + lcd_text_color_set(LCD_COLOR_GREEN); + lcd_vertical_string_display(LCD_HINT_LINE1, 0, (uint8_t *)" "); + lcd_vertical_string_display(LCD_HINT_LINE2, 0, (uint8_t *)"Press Wakeup Key to write file"); + + /*key b3 in polling*/ + while ((usbh_core.host.connect_status) && \ + (SET == gd_eval_key_state_get (KEY_WAKEUP))) { + toggle_leds(); + } + + LCD_UsrLog("> Writing File to disk flash ...\r\n"); + + /* register work area for logical drives */ + f_mount(&fatfs, "0:/", 1); + + if (FR_OK == f_open(&file, "0:GD32.TXT", FA_CREATE_ALWAYS | FA_WRITE)) { + /* write buffer to file */ + bytesToWrite = sizeof(WriteTextBuff); + res = f_write (&file, WriteTextBuff, bytesToWrite, (void *)&bytesWritten); + /* EOF or error */ + if ((0U == bytesWritten) || (FR_OK != res)) { + LCD_ErrLog("> GD32.TXT CANNOT be written.\r\n"); + } else { + LCD_UsrLog("> GD32.TXT created in the disk.\r\n"); + } + + /* close file and file system */ + f_close(&file); + f_mount(NULL, "0:/", 1); + } else { + LCD_UsrLog("> GD32.TXT created in the disk.\r\n"); + } + + usbh_usr_application_state = USBH_USR_FS_DEMOEND; + LCD_UsrLog("> The MSC host demo is end.\r\n"); + break; + + case USBH_USR_FS_DEMOEND: + break; + + default: + break; + } + + return(0); +} + +/*! + \brief displays disk content + \param[in] path: pointer to root path + \param[in] recu_level: recursive level + \param[out] none + \retval status +*/ +static uint8_t explore_disk (char* path, uint8_t recu_level) +{ + FRESULT res; + FILINFO fno; + DIR dir; + char *fn; + + res = f_opendir(&dir, path); + + if (FR_OK == res) { + while ((usbh_core.host.connect_status)) { + res = f_readdir(&dir, &fno); + if (FR_OK != res || 0U == fno.fname[0]) { + break; + } + + if ('.' == fno.fname[0]) { + continue; + } + + fn = fno.fname; + + line_idx++; + + if (line_idx > 4) { + line_idx = 0; + + lcd_text_color_set(LCD_COLOR_GREEN); + lcd_vertical_string_display(LCD_HINT_LINE1, 0, (uint8_t *)" "); + lcd_vertical_string_display(LCD_HINT_LINE2, 0, (uint8_t *)"Press User Key to continue"); + + /*key B3 in polling*/ + while ((usbh_core.host.connect_status) && \ + (SET == gd_eval_key_state_get (KEY_USER))) { + toggle_leds(); + } + } + + if (1U == recu_level) { + LCD_UsrLog(" |__"); + } else if (2U == recu_level) { + LCD_UsrLog(" | |__"); + } + + if (AM_DIR == fno.fattrib) { + LCD_UsrLog("%s\r\n", fno.fname); + } else { + LCD_UsrLog("%s\r\n", fno.fname); + } + + if ((AM_DIR == fno.fattrib) && (1U == recu_level)) { + explore_disk(fn, 2); + } + } + } + + return res; +} + +/*! + \brief toggle leds to shows user input state + \param[in] none + \param[out] none + \retval none +*/ +static void toggle_leds(void) +{ + static uint32_t i; + + if (0x10000U == i++) { + gd_eval_led_toggle(LED2); + gd_eval_led_toggle(LED3); + i = 0U; + } +} diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_usr.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_usr.h new file mode 100644 index 0000000000..8205ec048f --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/usbh_usr.h @@ -0,0 +1,95 @@ +/*! + \file usbh_usr.c + \brief USB host user callbacks + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USBH_USR_H +#define __USBH_USR_H + +#include "ff.h" +#include "usbh_core.h" +#include "usb_conf.h" +#include "usbh_core.h" +#include + +extern usbh_user_cb usr_cb; + +/* State Machine for the USBH_USR_ApplicationState */ +#define USBH_USR_FS_INIT 0 +#define USBH_USR_FS_READLIST 1 +#define USBH_USR_FS_WRITEFILE 2 +#define USBH_USR_FS_DRAW 3 +#define USBH_USR_FS_DEMOEND 4 + +extern uint8_t USBH_USR_ApplicationState; + +/* user operation for host-mode initialization */ +void usbh_user_init (void); +/* deinit user state and associated variables */ +void usbh_user_deinit (void); +/* user operation for device attached */ +void usbh_user_device_connected (void); +/* user operation for reset USB Device */ +void usbh_user_device_reset (void); +/* user operation for device disconnect event */ +void usbh_user_device_disconnected (void); +/* user operation for device over current detection event */ +void usbh_user_over_current_detected (void); +/* user operation for detecting device speed */ +void usbh_user_device_speed_detected (uint32_t DeviceSpeed); +/* user operation when device descriptor is available */ +void usbh_user_device_desc_available (void *); +/* usb device is successfully assigned the address */ +void usbh_user_device_address_assigned (void); +/* user operation when configuration descriptor is available */ +void usbh_user_configuration_descavailable (usb_desc_config *cfgDesc, + usb_desc_itf *itfDesc, + usb_desc_ep *epDesc); +/* user operation when manufacturer string exists */ +void usbh_user_manufacturer_string (void *); +/* user operation when product string exists */ +void usbh_user_product_string (void *); +/* user operation when serialNum string exists */ +void usbh_user_serialnum_string (void *); +/* user response request is displayed to ask for application jump to class */ +void usbh_user_enumeration_finish (void); +/* user action for application state entry */ +usbh_user_status usbh_user_userinput (void); +/* user operation when device is not supported */ +void usbh_user_device_not_supported (void); +/* user operation when unrecovered error happens */ +void usbh_user_unrecovered_error (void); +/* demo application for mass storage */ +int usbh_usr_msc_application (void); + +#endif /*__USBH_USR_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/cdc/usb_cdc.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/cdc/usb_cdc.h new file mode 100644 index 0000000000..ea64b1f3a3 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/cdc/usb_cdc.h @@ -0,0 +1,181 @@ +/*! + \file usb_cdc.h + \brief the header file of communication device class standard + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USB_CDC_H +#define __USB_CDC_H + +#include "usb_ch9_std.h" + +/* communications device class code */ +#define USB_CLASS_CDC 0x02U + +/* communications interface class control protocol codes */ +#define USB_CDC_PROTOCOL_NONE 0x00U +#define USB_CDC_PROTOCOL_AT 0x01U +#define USB_CDC_PROTOCOL_VENDOR 0xFFU + +/* data interface class code */ +#define USB_CLASS_DATA 0x0AU + +#define USB_DESCTYPE_CDC_ACM 0x21U +#define USB_DESCTYPE_CS_INTERFACE 0x24U + +#define USB_CDC_ACM_CONFIG_DESC_SIZE 0x43U + +/* class-specific notification codes for pstn subclasses */ +#define USB_CDC_NOTIFY_SERIAL_STATE 0x20U + +/* class-specific request codes */ +#define SEND_ENCAPSULATED_COMMAND 0x00U +#define GET_ENCAPSULATED_RESPONSE 0x01U +#define SET_COMM_FEATURE 0x02U +#define GET_COMM_FEATURE 0x03U +#define CLEAR_COMM_FEATURE 0x04U + +#define SET_AUX_LINE_STATE 0x10U +#define SET_HOOK_STATE 0x11U +#define PULSE_SETUP 0x12U +#define SEND_PULSE 0x13U +#define SET_PULSE_TIME 0x14U +#define RING_AUX_JACK 0x15U + +#define SET_LINE_CODING 0x20U +#define GET_LINE_CODING 0x21U +#define SET_CONTROL_LINE_STATE 0x22U +#define SEND_BREAK 0x23U +#define NO_CMD 0xFFU + +#define SET_RINGER_PARMS 0x30U +#define GET_RINGER_PARMS 0x31U +#define SET_OPERATION_PARMS 0x32U +#define GET_OPERATION_PARMS 0x33U +#define SET_LINE_PARMS 0x34U +#define GET_LINE_PARMS 0x35U +#define DIAL_DIGITS 0x36U +#define SET_UNIT_PARAMETER 0x37U +#define GET_UNIT_PARAMETER 0x38U +#define CLEAR_UNIT_PARAMETER 0x39U +#define GET_PROFILE 0x3AU + +#define SET_ETHERNET_MULTICAST_FILTERS 0x40U +#define SET_ETHERNET_POWER_MANAGEMENT_PATTERN FILTER 0x41U +#define GET_ETHERNET_POWER_MANAGEMENT_PATTERN FILTER 0x42U +#define SET_ETHERNET_PACKET_FILTER 0x43U +#define GET_ETHERNET_STATISTIC 0x44U + +#define SET_ATM_DATA_FORMAT 0x50U +#define GET_ATM_DEVICE_STATISTICS 0x51U +#define SET_ATM_DEFAULT_VC 0x52U +#define GET_ATM_VC_STATISTICS 0x53U + +/* wValue for set control line state */ +#define CDC_ACTIVATE_CARRIER_SIGNAL_RTS 0x0002U +#define CDC_DEACTIVATE_CARRIER_SIGNAL_RTS 0x0000U +#define CDC_ACTIVATE_SIGNAL_DTR 0x0001U +#define CDC_DEACTIVATE_SIGNAL_DTR 0x0000U + +/* CDC subclass code */ +enum usb_cdc_subclass { + USB_CDC_SUBCLASS_RESERVED = 0U, /*!< reserved */ + USB_CDC_SUBCLASS_DLCM, /*!< direct line control mode */ + USB_CDC_SUBCLASS_ACM, /*!< abstract control mode */ + USB_CDC_SUBCLASS_TCM, /*!< telephone control mode */ + USB_CDC_SUBCLASS_MCM, /*!< multichannel control model */ + USB_CDC_SUBCLASS_CCM, /*!< CAPI control model */ + USB_CDC_SUBCLASS_ENCM, /*!< ethernet networking control model */ + USB_CDC_SUBCLASS_ANCM /*!< ATM networking control model */ +}; + +#pragma pack(1) + +/* cdc acm line coding structure */ +typedef struct { + uint32_t dwDTERate; /*!< data terminal rate */ + uint8_t bCharFormat; /*!< stop bits */ + uint8_t bParityType; /*!< parity */ + uint8_t bDataBits; /*!< data bits */ +} acm_line; + +/* notification structure */ +typedef struct { + uint8_t bmRequestType; /*!< type of request */ + uint8_t bNotification; /*!< communication interface class notifications */ + uint16_t wValue; /*!< value of notification */ + uint16_t wIndex; /*!< index of interface */ + uint16_t wLength; /*!< length of notification data */ +} acm_notification; + +typedef struct { + usb_desc_header header; /*!< descriptor header, including type and size. */ + uint8_t bDescriptorSubtype; /*!< bDescriptorSubtype: header function descriptor */ + uint16_t bcdCDC; /*!< bcdCDC: low byte of spec release number (CDC1.10) */ +} usb_desc_header_func; + +typedef struct { + usb_desc_header header; /*!< descriptor header, including type and size. */ + uint8_t bDescriptorSubtype; /*!< bDescriptorSubtype: call management function descriptor */ + uint8_t bmCapabilities; /*!< bmCapabilities: D0 is reset, D1 is ignored */ + uint8_t bDataInterface; /*!< bDataInterface: 1 interface used for call management */ +} usb_desc_call_managment_func; + +typedef struct { + usb_desc_header header; /*!< descriptor header, including type and size. */ + uint8_t bDescriptorSubtype; /*!< bDescriptorSubtype: abstract control management descriptor */ + uint8_t bmCapabilities; /*!< bmCapabilities: D1 */ +} usb_desc_acm_func; + +typedef struct { + usb_desc_header header; /*!< descriptor header, including type and size. */ + uint8_t bDescriptorSubtype; /*!< bDescriptorSubtype: union function descriptor */ + uint8_t bMasterInterface; /*!< bMasterInterface: communication class interface */ + uint8_t bSlaveInterface0; /*!< bSlaveInterface0: data class interface */ +} usb_desc_union_func; + +#pragma pack() + +typedef struct { + usb_desc_config config; + usb_desc_itf cmd_itf; + usb_desc_header_func cdc_header; + usb_desc_call_managment_func cdc_call_managment; + usb_desc_acm_func cdc_acm; + usb_desc_union_func cdc_union; + usb_desc_ep cdc_cmd_endpoint; + usb_desc_itf cdc_data_interface; + usb_desc_ep cdc_out_endpoint; + usb_desc_ep cdc_in_endpoint; +} usb_cdc_desc_config_set; + +#endif /* __USB_CDC_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/hid/usb_hid.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/hid/usb_hid.h new file mode 100644 index 0000000000..37b5909c1f --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/hid/usb_hid.h @@ -0,0 +1,84 @@ +/*! + \file usb_hid.h + \brief definitions for the USB HID class + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USB_HID_H +#define __USB_HID_H + +#include "usb_ch9_std.h" + +#define USB_HID_CLASS 0x03U + +#define USB_DESCTYPE_HID 0x21U +#define USB_DESCTYPE_REPORT 0x22U + +/* HID subclass code */ +#define USB_HID_SUBCLASS_BOOT_ITF 0x01U + +/* HID protocol codes */ +#define USB_HID_PROTOCOL_KEYBOARD 0x01U +#define USB_HID_PROTOCOL_MOUSE 0x02U + +#define GET_REPORT 0x01U +#define GET_IDLE 0x02U +#define GET_PROTOCOL 0x03U +#define SET_REPORT 0x09U +#define SET_IDLE 0x0AU +#define SET_PROTOCOL 0x0BU + +#pragma pack(1) + +typedef struct +{ + usb_desc_header header; /*!< regular descriptor header containing the descriptor's type and length */ + + uint16_t bcdHID; /*!< BCD encoded version that the HID descriptor and device complies to */ + uint8_t bCountryCode; /*!< country code of the localized device, or zero if universal */ + uint8_t bNumDescriptors; /*!< total number of HID report descriptors for the interface */ + uint8_t bDescriptorType; /*!< type of HID report */ + uint16_t wDescriptorLength; /*!< length of the associated HID report descriptor, in bytes */ +} usb_desc_hid; + +#pragma pack() + +typedef struct +{ + usb_desc_config config; + usb_desc_itf hid_itf; + usb_desc_hid hid_vendor; + usb_desc_ep hid_epin; + usb_desc_ep hid_epout; +}usb_hid_desc_config_set; + +#endif /* __USB_HID_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/msc_bbb.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/msc_bbb.h new file mode 100644 index 0000000000..129cbb29a3 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/msc_bbb.h @@ -0,0 +1,70 @@ +/*! + \file msc_bbb.h + \brief definitions for the USB MSC BBB(bulk/bulk/bulk) protocol + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __MSC_BBB_H +#define __MSC_BBB_H + +#include "usb_ch9_std.h" + +#define BBB_CBW_SIGNATURE 0x43425355U +#define BBB_CSW_SIGNATURE 0x53425355U +#define BBB_CBW_LENGTH 31U +#define BBB_CSW_LENGTH 13U + +typedef struct { + uint32_t dCBWSignature; + uint32_t dCBWTag; + uint32_t dCBWDataTransferLength; + uint8_t bmCBWFlags; + uint8_t bCBWLUN; + uint8_t bCBWCBLength; + uint8_t CBWCB[16]; +}msc_bbb_cbw; + +typedef struct { + uint32_t dCSWSignature; + uint32_t dCSWTag; + uint32_t dCSWDataResidue; + uint8_t bCSWStatus; +}msc_bbb_csw; + +/* CSW command status */ +enum msc_csw_status { + CSW_CMD_PASSED = 0, + CSW_CMD_FAILED, + CSW_PHASE_ERROR +}; + +#endif /* __MSC_BBB_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/msc_scsi.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/msc_scsi.h new file mode 100644 index 0000000000..722e4d3f0d --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/msc_scsi.h @@ -0,0 +1,118 @@ +/*! + \file msc_scsi.h + \brief definitions for the USB MSC SCSI commands + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __MSC_SCSI_H +#define __MSC_SCSI_H + +#include "usb_ch9_std.h" + +/* SCSI commands */ +#define SCSI_FORMAT_UNIT 0x04U +#define SCSI_INQUIRY 0x12U +#define SCSI_MODE_SELECT6 0x15U +#define SCSI_MODE_SELECT10 0x55U +#define SCSI_MODE_SENSE6 0x1AU +#define SCSI_READ_TOC_DATA 0x43U +#define SCSI_MODE_SENSE10 0x5AU +#define SCSI_ALLOW_MEDIUM_REMOVAL 0x1EU +#define SCSI_READ6 0x08U +#define SCSI_READ10 0x28U +#define SCSI_READ12 0xA8U +#define SCSI_READ16 0x88U + +#define SCSI_READ_CAPACITY10 0x25U +#define SCSI_READ_CAPACITY16 0x9EU + +#define SCSI_REQUEST_SENSE 0x03U +#define SCSI_START_STOP_UNIT 0x1BU +#define SCSI_TEST_UNIT_READY 0x00U +#define SCSI_WRITE6 0x0AU +#define SCSI_WRITE10 0x2AU +#define SCSI_WRITE12 0xAAU +#define SCSI_WRITE16 0x8AU + +#define SCSI_VERIFY10 0x2FU +#define SCSI_VERIFY12 0xAFU +#define SCSI_VERIFY16 0x8FU + +#define SCSI_SEND_DIAGNOSTIC 0x1DU +#define SCSI_READ_FORMAT_CAPACITIES 0x23U + +#define INVALID_CDB 0x20U +#define INVALID_FIELED_IN_COMMAND 0x24U +#define PARAMETER_LIST_LENGTH_ERROR 0x1AU +#define INVALID_FIELD_IN_PARAMETER_LIST 0x26U +#define ADDRESS_OUT_OF_RANGE 0x21U +#define MEDIUM_NOT_PRESENT 0x3AU +#define MEDIUM_HAVE_CHANGED 0x28U +#define WRITE_PROTECTED 0x27U +#define UNRECOVERED_READ_ERROR 0x11U +#define WRITE_FAULT 0x03U + +#define READ_FORMAT_CAPACITY_DATA_LEN 0x0CU +#define READ_CAPACITY10_DATA_LEN 0x08U +#define MODE_SENSE10_DATA_LEN 0x08U +#define MODE_SENSE6_DATA_LEN 0x04U +#define READ_TOC_CMD_LEN 0x14U +#define REQUEST_SENSE_DATA_LEN 0x12U +#define STANDARD_INQUIRY_DATA_LEN 0x24U +#define BLKVFY 0x04U + +enum sense_state { + NO_SENSE = 0U, + RECOVERED_ERROR, + NOT_READY, + MEDIUM_ERROR, + HARDWARE_ERROR, + ILLEGAL_REQUEST, + UNIT_ATTENTION, + DATA_PROTECT, + BLANK_CHECK, + VENDOR_SPECIFIC, + COPY_ABORTED, + ABORTED_COMMAND, + RESERVED, + VOLUME_OVERFLOW, + MISCOMPARE +}; + +typedef struct { + uint8_t SenseKey; + uint32_t Information; + uint8_t ASC; + uint8_t ASCQ; +} msc_scsi_sense; + +#endif /* __MSC_SCSI_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/usb_msc.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/usb_msc.h new file mode 100644 index 0000000000..f66b26b3b4 --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/class/msc/usb_msc.h @@ -0,0 +1,69 @@ +/*! + \file usb_msc.h + \brief definitions for the USB MSC class + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USB_MSC_H +#define __USB_MSC_H + +#include "usb_ch9_std.h" + +/* mass storage device class code */ +#define USB_CLASS_MSC 0x08U + +/* mass storage subclass code */ +#define USB_MSC_SUBCLASS_RBC 0x01U +#define USB_MSC_SUBCLASS_ATAPI 0x02U +#define USB_MSC_SUBCLASS_UFI 0x04U +#define USB_MSC_SUBCLASS_SCSI 0x06U +#define USB_MSC_SUBCLASS_LOCKABLE 0x07U +#define USB_MSC_SUBCLASS_IEEE1667 0x08U + +/* mass storage interface class control protocol codes */ +#define USB_MSC_PROTOCOL_CBI 0x00U +#define USB_MSC_PROTOCOL_CBI_ALT 0x01U +#define USB_MSC_PROTOCOL_BBB 0x50U + +/* mass storage request codes */ +#define USB_MSC_REQ_CODES_ADSC 0x00U +#define USB_MSC_REQ_CODES_GET 0xFCU +#define USB_MSC_REQ_CODES_PUT 0xFDU +#define USB_MSC_REQ_CODES_GML 0xFEU +#define USB_MSC_REQ_CODES_BOMSR 0xFFU + +#define BBB_GET_MAX_LUN 0xFEU +#define BBB_RESET 0xFFU + +#define SCSI_CMD_LENGTH 16U + +#endif /* __USB_MSC_H */ diff --git a/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/common/usb_ch9_std.h b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/common/usb_ch9_std.h new file mode 100644 index 0000000000..7a9e41282e --- /dev/null +++ b/TFT/src/User/Hal/GD32F30x_usbfs_library/ustd/common/usb_ch9_std.h @@ -0,0 +1,249 @@ +/*! + \file usb_ch9_std.h + \brief USB 2.0 standard defines + + \version 2020-08-01, V3.0.0, firmware for GD32F30x + \version 2022-06-10, V3.1.0, firmware for GD32F30x +*/ + +/* + Copyright (c) 2022, GigaDevice Semiconductor Inc. + + Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, this + list of conditions and the following disclaimer. + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + 3. Neither the name of the copyright holder nor the names of its contributors + may be used to endorse or promote products derived from this software without + specific prior written permission. + + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, +INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT +NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, +WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY +OF SUCH DAMAGE. +*/ + +#ifndef __USB_CH9_STD_H +#define __USB_CH9_STD_H + +#include "usb_conf.h" + +#define USB_DEV_QUALIFIER_DESC_LEN 0x0AU /*!< USB device qualifier descriptor length */ +#define USB_DEV_DESC_LEN 0x12U /*!< USB device descriptor length */ +#define USB_CFG_DESC_LEN 0x09U /*!< USB configuration descriptor length */ +#define USB_ITF_DESC_LEN 0x09U /*!< USB interface descriptor length */ +#define USB_EP_DESC_LEN 0x07U /*!< USB endpoint descriptor length */ +#define USB_IAD_DESC_LEN 0x08U /*!< USB IAD descriptor length */ +#define USB_OTG_DESC_LEN 0x03U /*!< USB device OTG descriptor length */ + +#define USB_SETUP_PACKET_LEN 0x08U /*!< USB setup packet length */ + +/* bit 7 of bmRequestType: data phase transfer direction */ +#define USB_TRX_MASK 0x80U /*!< USB transfer direction mask */ +#define USB_TRX_OUT 0x00U /*!< USB transfer OUT direction */ +#define USB_TRX_IN 0x80U /*!< USB transfer IN direction */ + +/* bit 6..5 of bmRequestType: request type */ +#define USB_REQTYPE_STRD 0x00U /*!< USB standard request */ +#define USB_REQTYPE_CLASS 0x20U /*!< USB class request */ +#define USB_REQTYPE_VENDOR 0x40U /*!< USB vendor request */ +#define USB_REQTYPE_MASK 0x60U /*!< USB request mask */ + +#define USBD_BUS_POWERED 0x00U /*!< USB bus power supply */ +#define USBD_SELF_POWERED 0x01U /*!< USB self power supply */ + +#define USB_STATUS_REMOTE_WAKEUP 2U /*!< USB is in remote wakeup status */ +#define USB_STATUS_SELF_POWERED 1U /*!< USB is in self powered status */ + +/* bit 4..0 of bmRequestType: recipient type */ +enum _usb_recp_type { + USB_RECPTYPE_DEV = 0x0U, /*!< USB device request type */ + USB_RECPTYPE_ITF = 0x1U, /*!< USB interface request type */ + USB_RECPTYPE_EP = 0x2U, /*!< USB endpoint request type */ + USB_RECPTYPE_MASK = 0x3U /*!< USB request type mask */ +}; + +/* bRequest value */ +enum _usb_request { + USB_GET_STATUS = 0x0U, /*!< USB get status request */ + USB_CLEAR_FEATURE = 0x1U, /*!< USB clear feature request */ + USB_RESERVED2 = 0x2U, + USB_SET_FEATURE = 0x3U, /*!< USB set feature request */ + USB_RESERVED4 = 0x4U, + USB_SET_ADDRESS = 0x5U, /*!< USB set address request */ + USB_GET_DESCRIPTOR = 0x6U, /*!< USB get descriptor request */ + USB_SET_DESCRIPTOR = 0x7U, /*!< USB set descriptor request */ + USB_GET_CONFIGURATION = 0x8U, /*!< USB get configuration request */ + USB_SET_CONFIGURATION = 0x9U, /*!< USB set configuration request */ + USB_GET_INTERFACE = 0xAU, /*!< USB get interface request */ + USB_SET_INTERFACE = 0xBU, /*!< USB set interface request */ + USB_SYNCH_FRAME = 0xCU /*!< USB synchronize frame request */ +}; + +/* descriptor types of USB specifications */ +enum _usb_desctype { + USB_DESCTYPE_DEV = 0x1U, /*!< USB device descriptor type */ + USB_DESCTYPE_CONFIG = 0x2U, /*!< USB configuration descriptor type */ + USB_DESCTYPE_STR = 0x3U, /*!< USB string descriptor type */ + USB_DESCTYPE_ITF = 0x4U, /*!< USB interface descriptor type */ + USB_DESCTYPE_EP = 0x5U, /*!< USB endpoint descriptor type */ + USB_DESCTYPE_DEV_QUALIFIER = 0x6U, /*!< USB device qualifier descriptor type */ + USB_DESCTYPE_OTHER_SPD_CONFIG = 0x7U, /*!< USB other speed configuration descriptor type */ + USB_DESCTYPE_ITF_POWER = 0x8U, /*!< USB interface power descriptor type */ + USB_DESCTYPE_IAD = 0xBU, /*!< USB interface association descriptor type */ + USB_DESCTYPE_BOS = 0xFU /*!< USB BOS descriptor type */ +}; + +/* USB Endpoint Descriptor bmAttributes bit definitions */ +/* bits 1..0 : transfer type */ +enum _usbx_type { + USB_EP_ATTR_CTL = 0x0U, /*!< USB control transfer type */ + USB_EP_ATTR_ISO = 0x1U, /*!< USB Isochronous transfer type */ + USB_EP_ATTR_BULK = 0x2U, /*!< USB Bulk transfer type */ + USB_EP_ATTR_INT = 0x3U /*!< USB Interrupt transfer type */ +}; + +/* bits 3..2 : Sync type (only if ISOCHRONOUS) */ +#define USB_EP_ATTR_NOSYNC 0x00U /*!< No Synchronization */ +#define USB_EP_ATTR_ASYNC 0x04U /*!< Asynchronous */ +#define USB_EP_ATTR_ADAPTIVE 0x08U /*!< Adaptive */ +#define USB_EP_ATTR_SYNC 0x0CU /*!< Synchronous */ +#define USB_EP_ATTR_SYNCTYPE 0x0CU /*!< Synchronous type */ + +/* bits 5..4 : usage type (only if ISOCHRONOUS) */ +#define USB_EP_ATTR_DATA 0x00U /*!< Data endpoint */ +#define USB_EP_ATTR_FEEDBACK 0x10U /*!< Feedback endpoint */ +#define USB_EP_ATTR_IMPLICIT_FEEDBACK_DATA 0x20U /*!< Implicit feedback Data endpoint */ +#define USB_EP_ATTR_USAGETYPE 0x30U /*!< Usage type */ + +/* endpoint max packet size bits12..11 */ +#define USB_EP_MPS_ADD_0 (0x00 << 11) /*!< None(1 transaction per microframe */ +#define USB_EP_MPS_ADD_1 (0x01 << 11) /*!< 1 additional(2 transaction per microframe */ +#define USB_EP_MPS_ADD_2 (0x02 << 11) /*!< 2 additional(3 transaction per microframe */ + +#define FEATURE_SELECTOR_EP 0x00U /*!< USB endpoint feature selector */ +#define FEATURE_SELECTOR_DEV 0x01U /*!< USB device feature selector */ +#define FEATURE_SELECTOR_REMOTEWAKEUP 0x01U /*!< USB feature selector remote wakeup */ + +#define BYTE_SWAP(addr) (((uint16_t)(*((uint8_t *)(addr)))) + \ + (uint16_t)(((uint16_t)(*(((uint8_t *)(addr)) + 1U))) << 8U)) + +#define BYTE_LOW(x) ((uint8_t)((x) & 0x00FFU)) +#define BYTE_HIGH(x) ((uint8_t)(((x) & 0xFF00U) >> 8U)) + +#define USB_MIN(a, b) (((a) < (b)) ? (a) : (b)) + +#define USB_DEFAULT_CONFIG 0U + +/* USB classes */ +#define USB_CLASS_HID 0x03U /*!< USB HID class */ +#define USB_CLASS_MSC 0x08U /*!< USB MSC class */ + +/* use the following values when USB host need to get descriptor */ +#define USBH_DESC(x) (((x)<< 8U) & 0xFF00U) + +/* as per USB specs 9.2.6.4 :standard request with data request timeout: 5sec + standard request with no data stage timeout : 50ms */ +#define DATA_STAGE_TIMEOUT 5000U /*!< USB data stage timeout*/ +#define NODATA_STAGE_TIMEOUT 50U /*!< USB no data stage timeout*/ + +#pragma pack(1) + +/* USB standard device request structure */ +typedef struct _usb_req { + uint8_t bmRequestType; /*!< type of request */ + uint8_t bRequest; /*!< request of setup packet */ + uint16_t wValue; /*!< value of setup packet */ + uint16_t wIndex; /*!< index of setup packet */ + uint16_t wLength; /*!< length of setup packet */ +} usb_req; + +/* USB setup packet define */ +typedef union _usb_setup { + uint8_t data[8]; + + usb_req req; +} usb_setup; + +/* USB descriptor defines */ + +typedef struct _usb_desc_header { + uint8_t bLength; /*!< size of the descriptor */ + uint8_t bDescriptorType; /*!< type of the descriptor */ +} usb_desc_header; + +typedef struct _usb_desc_dev { + usb_desc_header header; /*!< descriptor header, including type and size */ + + uint16_t bcdUSB; /*!< BCD of the supported USB specification */ + uint8_t bDeviceClass; /*!< USB device class */ + uint8_t bDeviceSubClass; /*!< USB device subclass */ + uint8_t bDeviceProtocol; /*!< USB device protocol */ + uint8_t bMaxPacketSize0; /*!< size of the control (address 0) endpoint's bank in bytes */ + uint16_t idVendor; /*!< vendor ID for the USB product */ + uint16_t idProduct; /*!< unique product ID for the USB product */ + uint16_t bcdDevice; /*!< product release (version) number */ + uint8_t iManufacturer; /*!< string index for the manufacturer's name */ + uint8_t iProduct; /*!< string index for the product name/details */ + uint8_t iSerialNumber; /*!< string index for the product's globally unique hexadecimal serial number */ + uint8_t bNumberConfigurations; /*!< total number of configurations supported by the device */ +} usb_desc_dev; + +typedef struct _usb_desc_config { + usb_desc_header header; /*!< descriptor header, including type and size */ + + uint16_t wTotalLength; /*!< size of the configuration descriptor header,and all sub descriptors inside the configuration */ + uint8_t bNumInterfaces; /*!< total number of interfaces in the configuration */ + uint8_t bConfigurationValue; /*!< configuration index of the current configuration */ + uint8_t iConfiguration; /*!< index of a string descriptor describing the configuration */ + uint8_t bmAttributes; /*!< configuration attributes */ + uint8_t bMaxPower; /*!< maximum power consumption of the device while in the current configuration */ +} usb_desc_config; + +typedef struct _usb_desc_itf { + usb_desc_header header; /*!< descriptor header, including type and size */ + + uint8_t bInterfaceNumber; /*!< index of the interface in the current configuration */ + uint8_t bAlternateSetting; /*!< alternate setting for the interface number */ + uint8_t bNumEndpoints; /*!< total number of endpoints in the interface */ + uint8_t bInterfaceClass; /*!< interface class ID */ + uint8_t bInterfaceSubClass; /*!< interface subclass ID */ + uint8_t bInterfaceProtocol; /*!< interface protocol ID */ + uint8_t iInterface; /*!< index of the string descriptor describing the interface */ +} usb_desc_itf; + +typedef struct _usb_desc_ep { + usb_desc_header header; /*!< descriptor header, including type and size. */ + + uint8_t bEndpointAddress; /*!< logical address of the endpoint */ + uint8_t bmAttributes; /*!< endpoint attributes */ + uint16_t wMaxPacketSize; /*!< size of the endpoint bank, in bytes */ + uint8_t bInterval; /*!< polling interval in milliseconds for the endpoint if it is an INTERRUPT or ISOCHRONOUS type */ +} usb_desc_ep; + +typedef struct _usb_desc_LANGID { + usb_desc_header header; /*!< descriptor header, including type and size. */ + uint16_t wLANGID; /*!< LANGID code */ +} usb_desc_LANGID; + +typedef struct _usb_desc_str { + usb_desc_header header; /*!< descriptor header, including type and size. */ + uint16_t unicode_string[64]; /*!< unicode string data */ +} usb_desc_str; + +#pragma pack() + +/* compute string descriptor length */ +#define USB_STRING_LEN(unicode_chars) (sizeof(usb_desc_header) + ((unicode_chars) << 1U)) + +#endif /* __USB_CH9_STD_H */ diff --git a/TFT/src/User/Hal/HD44780.c b/TFT/src/User/Hal/HD44780.c index ef4e829c71..9ed1f63b59 100644 --- a/TFT/src/User/Hal/HD44780.c +++ b/TFT/src/User/Hal/HD44780.c @@ -8,7 +8,7 @@ CIRCULAR_QUEUE *HD44780_queue = NULL; void HD44780_DeConfig(void) { -#ifdef GD32F2XX +#if defined GD32F2XX || defined GD32F3XX nvic_irq_disable(EXTI10_15_IRQn); #else NVIC_InitTypeDef NVIC_InitStructure; @@ -49,7 +49,7 @@ void HD44780_Config(CIRCULAR_QUEUE *queue) GPIO_InitSet(LCD_D4, MGPIO_MODE_IPD, 0); GPIO_InitSet(LCD_RS, MGPIO_MODE_IPD, 0); -#ifdef GD32F2XX +#if defined GD32F2XX || defined GD32F3XX gpio_exti_source_select(GPIO_EVENT_PORT_GPIOB, GPIO_EVENT_PIN_15); exti_init(EXTI_15, EXTI_INTERRUPT, EXTI_TRIG_RISING); @@ -86,7 +86,7 @@ void HD44780_Config(CIRCULAR_QUEUE *queue) bool HD44780_writeData(void) { bool dataWritten = false; -#ifdef GD32F2XX +#if defined GD32F2XX || defined GD32F3XX if ((GPIO_ISTAT(GPIOB) & (1 << 15)) != 0) { uint8_t temp = ((GPIO_ISTAT(LCD_D7_PORT) & GPIO_PIN_6) >> 3 ) + // D7 diff --git a/TFT/src/User/Hal/Knob_LED.c b/TFT/src/User/Hal/Knob_LED.c index 72fd0336b9..1a81778135 100644 --- a/TFT/src/User/Hal/Knob_LED.c +++ b/TFT/src/User/Hal/Knob_LED.c @@ -10,7 +10,7 @@ uint32_t frameTimeStamp = 0; // Frame unit need > 280us for WS2812 #define NEOPIXEL_T0H_US 0.35 // Neopixel code 0 high level hold time in us #define NEOPIXEL_T1H_US 2.15 // Neopixel code 1 high level hold time in us -#ifdef GD32F2XX +#if defined GD32F2XX || defined GD32F3XX #define NEOPIXEL_TIMER_CLOCK_ENABLE() rcu_periph_clock_enable(RCU_TIMER5) #define NEOPIXEL_TIMER_CNT() TIMER_CNT(TIMER5) #define NEOPIXEL_TIMER_PSC() TIMER_PSC(TIMER5) diff --git a/TFT/src/User/Hal/buzzer.c b/TFT/src/User/Hal/buzzer.c index 2defc7591a..61c8f3a1b0 100644 --- a/TFT/src/User/Hal/buzzer.c +++ b/TFT/src/User/Hal/buzzer.c @@ -21,7 +21,7 @@ volatile uint32_t toggles = 0; void TIM3_Config(void) { -#ifdef GD32F2XX +#if defined GD32F2XX || defined GD32F3XX nvic_irq_enable(TIMER2_IRQn, 1U, 0U); rcu_periph_clock_enable(RCU_TIMER2); @@ -46,7 +46,7 @@ void TIM3_Config(void) #endif } -#ifdef GD32F2XX +#if defined GD32F2XX || defined GD32F3XX void TIMER2_IRQHandler(void) { if ((TIMER_INTF(TIMER2) & TIMER_INTF_UPIF) != 0) // update interrupt flag @@ -108,7 +108,7 @@ void Buzzer_TurnOn(const uint16_t frequency, const uint16_t duration) void tone(const uint16_t frequency, const uint16_t duration) { if (frequency == 0 || duration == 0) return; -#ifdef GD32F2XX +#if defined GD32F2XX || defined GD32F3XX nvic_irq_disable(TIMER2_IRQn); toggles = 2 * (frequency * duration / 1000); // must have an even value @@ -147,7 +147,7 @@ void loopBuzzer(void) else if (OS_GetTimeMs() > buzzerEndTime && toggles == 0) { buzzerEndTime = 0; - #ifdef GD32F2XX + #if defined GD32F2XX || defined GD32F3XX TIMER_CTL0(TIMER2) &= ~TIMER_CTL0_CEN; #else TIM3->CR1 &= ~TIM_CR1_CEN; // stop timer (for safety) diff --git a/TFT/src/User/Hal/gd32f30x/GPIO_Init.c b/TFT/src/User/Hal/gd32f30x/GPIO_Init.c new file mode 100644 index 0000000000..49ffe37030 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/GPIO_Init.c @@ -0,0 +1,69 @@ +#include "GPIO_Init.h" +/* +* bit 0:1 gpio mode 00: Input (reset state) 01: General purpose output mode 10: Alternate function mode 11: Analog mode +* bit 2 gpio output type 0: Output push-pull (reset state) 1: Output open-drain +* bit 3:4 gpio output speed 00: Low speed 01: Medium speed 10: High speed 11: Very high speed +* bit 5:6 gpio pull-up/pull-down 00: No pull-up, pull-down 01: Pull-up 10: Pull-down 11: Reserved +* bit 7 reserved +*/ +const uint32_t GPIO_Port[] = {GPIOA, GPIOB, GPIOC, GPIOD, GPIOE, GPIOF, GPIOG}; +const rcu_periph_enum RCU_Port[] = {RCU_GPIOA, RCU_GPIOB, RCU_GPIOC, RCU_GPIOD, RCU_GPIOE, RCU_GPIOF, RCU_GPIOG}; + + +void GPIO_InitSet(uint16_t io, GPIO_MODE mode, uint32_t remap) +{ + uint16_t port = GPIO_GET_PORT(io); + uint16_t pin = GPIO_GET_PIN(io); + + // RCU_REG_VAL(RCU_Port[port]) |= BIT(RCU_BIT_POS(RCU_Port[port])); // Enable GPIO Clock + rcu_periph_clock_enable(RCU_Port[port]); + rcu_periph_clock_enable(RCU_AF); + + gpio_init(GPIO_Port[port], mode, GPIO_OSPEED_50MHZ, 1<>2) & 0x1) +#define GPIO_MODE_GET_OSPEED(n) (((n)>>3) & 0x3) +#define GPIO_MODE_GET_PULL(n) (((n)>>5) & 0x3) + +#define GPIO_MODE_AF 2 +#define GPIO_AF0 0 +#define GPIO_AF1 1 +#define GPIO_AF2 2 +#define GPIO_AF3 3 +#define GPIO_AF4 4 +#define GPIO_AF5 5 +#define GPIO_AF6 6 +#define GPIO_AF7 7 +#define GPIO_AF8 8 +#define GPIO_AF9 9 +#define GPIO_AF10 10 +#define GPIO_AF11 11 +#define GPIO_AF12 12 +#define GPIO_AF13 13 +#define GPIO_AF14 14 +#define GPIO_AF15 15 + +#ifndef GPIO_AF_RTC_50Hz + /** + * @brief AF 0 selection + */ + #define GPIO_AF_RTC_50Hz ((uint8_t)0x00) /* RTC_50Hz Alternate Function mapping */ + #define GPIO_AF_MCO ((uint8_t)0x00) /* MCO (MCO1 and MCO2) Alternate Function mapping */ + #define GPIO_AF_TAMPER ((uint8_t)0x00) /* TAMPER (TAMPER_1 and TAMPER_2) Alternate Function mapping */ + #define GPIO_AF_SWJ ((uint8_t)0x00) /* SWJ (SWD and JTAG) Alternate Function mapping */ + #define GPIO_AF_TRACE ((uint8_t)0x00) /* TRACE Alternate Function mapping */ + + /** + * @brief AF 1 selection + */ + #define GPIO_AF_TIM1 ((uint8_t)0x01) /* TIM1 Alternate Function mapping */ + #define GPIO_AF_TIM2 ((uint8_t)0x01) /* TIM2 Alternate Function mapping */ + + /** + * @brief AF 2 selection + */ + #define GPIO_AF_TIM3 ((uint8_t)0x02) /* TIM3 Alternate Function mapping */ + #define GPIO_AF_TIM4 ((uint8_t)0x02) /* TIM4 Alternate Function mapping */ + #define GPIO_AF_TIM5 ((uint8_t)0x02) /* TIM5 Alternate Function mapping */ + + /** + * @brief AF 3 selection + */ + #define GPIO_AF_TIM8 ((uint8_t)0x03) /* TIM8 Alternate Function mapping */ + #define GPIO_AF_TIM9 ((uint8_t)0x03) /* TIM9 Alternate Function mapping */ + #define GPIO_AF_TIM10 ((uint8_t)0x03) /* TIM10 Alternate Function mapping */ + #define GPIO_AF_TIM11 ((uint8_t)0x03) /* TIM11 Alternate Function mapping */ + + /** + * @brief AF 4 selection + */ + #define GPIO_AF_I2C1 ((uint8_t)0x04) /* I2C1 Alternate Function mapping */ + #define GPIO_AF_I2C2 ((uint8_t)0x04) /* I2C2 Alternate Function mapping */ + #define GPIO_AF_I2C3 ((uint8_t)0x04) /* I2C3 Alternate Function mapping */ + + /** + * @brief AF 5 selection + */ + #define GPIO_AF_SPI1 ((uint8_t)0x05) /* SPI1 Alternate Function mapping */ + #define GPIO_AF_SPI2 ((uint8_t)0x05) /* SPI2/I2S2 Alternate Function mapping */ + + /** + * @brief AF 6 selection + */ + #define GPIO_AF_SPI3 ((uint8_t)0x06) /* SPI3/I2S3 Alternate Function mapping */ + + /** + * @brief AF 7 selection + */ + #define GPIO_AF_USART1 ((uint8_t)0x07) /* USART1 Alternate Function mapping */ + #define GPIO_AF_USART2 ((uint8_t)0x07) /* USART2 Alternate Function mapping */ + #define GPIO_AF_USART3 ((uint8_t)0x07) /* USART3 Alternate Function mapping */ + + /** + * @brief AF 8 selection + */ + #define GPIO_AF_UART4 ((uint8_t)0x08) /* UART4 Alternate Function mapping */ + #define GPIO_AF_UART5 ((uint8_t)0x08) /* UART5 Alternate Function mapping */ + #define GPIO_AF_USART6 ((uint8_t)0x08) /* USART6 Alternate Function mapping */ + + /** + * @brief AF 9 selection + */ + #define GPIO_AF_CAN1 ((uint8_t)0x09) /* CAN1 Alternate Function mapping */ + #define GPIO_AF_CAN2 ((uint8_t)0x09) /* CAN2 Alternate Function mapping */ + #define GPIO_AF_TIM12 ((uint8_t)0x09) /* TIM12 Alternate Function mapping */ + #define GPIO_AF_TIM13 ((uint8_t)0x09) /* TIM13 Alternate Function mapping */ + #define GPIO_AF_TIM14 ((uint8_t)0x09) /* TIM14 Alternate Function mapping */ + + /** + * @brief AF 10 selection + */ + #define GPIO_AF_OTG_FS ((uint8_t)0xA) /* OTG_FS Alternate Function mapping */ + #define GPIO_AF_OTG_HS ((uint8_t)0xA) /* OTG_HS Alternate Function mapping */ + + /** + * @brief AF 11 selection + */ + #define GPIO_AF_ETH ((uint8_t)0x0B) /* ETHERNET Alternate Function mapping */ + + /** + * @brief AF 12 selection + */ + #define GPIO_AF_FSMC ((uint8_t)0xC) /* FSMC Alternate Function mapping */ + #define GPIO_AF_OTG_HS_FS ((uint8_t)0xC) /* OTG HS configured in FS, Alternate Function mapping */ + #define GPIO_AF_SDIO ((uint8_t)0xC) /* SDIO Alternate Function mapping */ + + /** + * @brief AF 13 selection + */ + #define GPIO_AF_DCMI ((uint8_t)0x0D) /* DCMI Alternate Function mapping */ + + /** + * @brief AF 15 selection + */ + #define GPIO_AF_EVENTOUT ((uint8_t)0x0F) /* EVENTOUT Alternate Function mapping */ + +#endif + +void GPIO_InitSet(uint16_t io, GPIO_MODE mode, uint32_t remap); +void GPIO_SetLevel(uint16_t io, uint8_t level); +void GPIO_ToggleLevel(uint16_t io); +uint8_t GPIO_GetLevel(uint16_t io); + +#endif diff --git a/TFT/src/User/Hal/gd32f30x/HAL_Flash.c b/TFT/src/User/Hal/gd32f30x/HAL_Flash.c new file mode 100644 index 0000000000..ac757a3559 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/HAL_Flash.c @@ -0,0 +1,42 @@ +#include "HAL_Flash.h" +#include "my_misc.h" + +/* +Page 0 0x0800 0000 - 0x0800 07FF 2 Kbyte +Page 1 0x0800 0800 - 0x0800 0FFF 2 Kbyte +Page 2 0x0800 1000 - 0x0800 17FF 2 Kbyte +... +... +... +Page 255 0x0807 F800 - 0x0807 FFFF 2 Kbyte // 512KByte +*/ + +#define SIGN_ADDRESS (0x08040000 - 0x800) // reserve the last page (2KB) to save user parameters + +void HAL_FlashRead(uint8_t *data, uint32_t len) +{ + uint32_t i = 0; + for (i = 0; i < len; i++) + { + data[i] = *(volatile uint8_t*)(SIGN_ADDRESS + i); + } +} + +void HAL_FlashWrite(uint8_t *data, uint32_t len) +{ + uint32_t i = 0; + fmc_unlock(); + fmc_page_erase(SIGN_ADDRESS); + fmc_flag_clear(FMC_FLAG_BANK0_END); + fmc_flag_clear(FMC_FLAG_BANK0_WPERR); + fmc_flag_clear(FMC_FLAG_BANK0_PGERR); + for (i = 0; i < len; i += 2) + { + uint16_t data16 = data[i] | (data[MIN(i+1, len-1)] << 8); // gd32f20x needs to write at least 16 bits at a time + fmc_halfword_program(SIGN_ADDRESS + i, data16); + fmc_flag_clear(FMC_FLAG_BANK0_END); + fmc_flag_clear(FMC_FLAG_BANK0_WPERR); + fmc_flag_clear(FMC_FLAG_BANK0_PGERR); + } + fmc_lock(); +} diff --git a/TFT/src/User/Hal/gd32f30x/HAL_Flash.h b/TFT/src/User/Hal/gd32f30x/HAL_Flash.h new file mode 100644 index 0000000000..d37103fc08 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/HAL_Flash.h @@ -0,0 +1,9 @@ +#ifndef _HAL_FLASH_H_ +#define _HAL_FLASH_H_ + +#include "variants.h" // for uint8_t etc... + +void HAL_FlashRead(uint8_t *data, uint32_t len); +void HAL_FlashWrite(uint8_t *data, uint32_t len); + +#endif diff --git a/TFT/src/User/Hal/gd32f30x/Serial.c b/TFT/src/User/Hal/gd32f30x/Serial.c new file mode 100644 index 0000000000..daad4cdea9 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/Serial.c @@ -0,0 +1,340 @@ +#include "Serial.h" +#include "includes.h" + +// set this line to "true" to enable IDLE Line interrupt. It is no more needed, so always set this macro to "false" +#define IDLE_LINE_IT false + +DMA_CIRCULAR_BUFFER dmaL1DataRX[_UART_CNT] = {0}; // DMA / interrupt RX buffer +DMA_CIRCULAR_BUFFER dmaL1DataTX[_UART_CNT] = {0}; // DMA / interrupt TX buffer + +// config for USART DMA channels +const SERIAL_CFG Serial[_UART_CNT] = { +#ifdef TX_DMA_WRITE +// USART RCU DMAx DMAx RX Channel TX Channel + {USART0, RCU_DMA0, DMA0, 4, 3}, + {USART1, RCU_DMA0, DMA0, 5, 6}, + {USART2, RCU_DMA0, DMA0, 2, 1}, + {UART3, RCU_DMA1, DMA1, 2, 4}, + {UART4, RCU_DMA1, DMA1, 1, 3}, +#else +// USART RCU DMAx DMAx RX Channel + {USART0, RCU_DMA0, DMA0, 4}, + {USART1, RCU_DMA0, DMA0, 5}, + {USART2, RCU_DMA0, DMA0, 2}, + {UART3, RCU_DMA1, DMA1, 2}, + {UART4, RCU_DMA1, DMA1, 1}, +#endif +}; + +// disable RX DMA and clear all interrupt flags for a serial port +void Serial_DMA_DisableAndClearFlagsRX(uint8_t port) +{ + DMA_CHCTL(Serial[port].dma_stream, Serial[port].dma_channelRX) &= ~(1<<0); // disable RX DMA + + // table 12.5.2, 4 bits per channel, shift = channel * 4 + + switch (port) + { + case _USART1: + DMA_INTC(DMA0) = (0x0F << 16); // DMA0 channel 4 + break; + + case _USART2: + DMA_INTC(DMA0) = (0x0F << 20); // DMA0 channel 5 + break; + + case _USART3: + DMA_INTC(DMA0) = (0x0F << 8); // DMA0 channel 2 + break; + + case _UART4: + DMA_INTC(DMA1) = (0x0F << 8); // DMA1 channel 2 + break; + + case _UART5: + DMA_INTC(DMA1) = (0x0F << 4); // DMA1 channel 1 + break; + + case _USART6: + DMA_INTC(DMA1) = (0x0F << 20); // DMA1 channel 5 + break; + } +} + +#ifdef TX_DMA_WRITE + +// disable TX DMA and clear all interrupt flags for a serial port +void Serial_DMA_DisableAndClearFlagsTX(uint8_t port) +{ + DMA_CHCTL(Serial[port].dma_stream, Serial[port].dma_channelTX) &= ~(1<<0); // disable TX DMA + + // table 12.5.2, 4 bits per channel, shift = channel * 4 + + switch (port) + { + case _USART1: + DMA_INTC(DMA0) = (0x0F << 12); // DMA0 channel 3 + break; + + case _USART2: + DMA_INTC(DMA0) = (0x0F << 24); // DMA0 channel 6 + break; + + case _USART3: + DMA_INTC(DMA0) = (0x0F << 4); // DMA0 channel 1 + break; + + case _UART4: + DMA_INTC(DMA1) = (0x0F << 16); // DMA1 channel 4 + break; + + case _UART5: + DMA_INTC(DMA1) = (0x0F << 12); // DMA1 channel 3 + break; + + case _USART6: + DMA_INTC(DMA1) = (0x0F << 24); // DMA1 channel 6 + break; + } +} + +#endif + +void Serial_DMA_Config(uint8_t port) +{ + const SERIAL_CFG * cfg = &Serial[port]; + + rcu_periph_clock_enable(cfg->dma_rcc); // enable DMA clock + + Serial_DMA_DisableAndClearFlagsRX(port); // RX disable DMA and clear all interrupt flags + + DMA_CHPADDR(cfg->dma_stream, cfg->dma_channelRX) = (uint32_t)(&USART_DATA(cfg->uart)); // RX peripheral address (usart) + DMA_CHMADDR(cfg->dma_stream, cfg->dma_channelRX) = (uint32_t)(dmaL1DataRX[port].cache); // RX destination address (memory) + DMA_CHCNT(cfg->dma_stream, cfg->dma_channelRX) = (uint32_t)(dmaL1DataRX[port].cacheSize); // RX buffer size + + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelRX) = 0; // RX clear control register + + // primary serial port priority at highest level (TX higher than RX) + if (port == SERIAL_PORT) + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelRX) |= (2<<12); // RX priority level: High + else + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelRX) |= (0<<12); // RX priority level: Low + +//DMA_CHCTL(cfg->dma_stream, cfg->dma_channelRX) |= (0<<10); // RX memory data size: 8 bit +//DMA_CHCTL(cfg->dma_stream, cfg->dma_channelRX) |= (0<<8); // RX peripheral data size: 8 bit + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelRX) |= (1<<7); // RX memory increment mode +//DMA_CHCTL(cfg->dma_stream, cfg->dma_channelRX) |= (0<<6); // RX peripheral no increment mode + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelRX) |= (1<<5); // RX circular mode enabled +//DMA_CHCTL(cfg->dma_stream, cfg->dma_channelRX) |= (0<<4); // RX data transfer direction: Peripheral-to-memory + +#ifdef TX_DMA_WRITE // TX DMA based serial writing + Serial_DMA_DisableAndClearFlagsTX(port); // TX disable DMA and clear all interrupt flags + + DMA_CHPADDR(cfg->dma_stream, cfg->dma_channelTX) = (uint32_t)(&USART_DATA(cfg->uart)); // TX peripheral address (usart) + + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelTX) = 0; // TX clear control register + + // primary serial port priority at highest level (TX higher than RX) + if (port == SERIAL_PORT) + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelTX) |= (3<<12); // TX priority level: Very high + else + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelTX) |= (1<<12); // TX priority level: Medium + +//DMA_CHCTL(cfg->dma_stream, cfg->dma_channelTX) |= (0<<10); // TX memory data size: 8 bit +//DMA_CHCTL(cfg->dma_stream, cfg->dma_channelTX) |= (0<<8); // TX peripheral data size: 8 bit + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelTX) |= (1<<7); // TX memory increment mode +//DMA_CHCTL(cfg->dma_stream, cfg->dma_channelTX) |= (0<<6); // TX peripheral no increment mode +//DMA_CHCTL(cfg->dma_stream, cfg->dma_channelTX) |= (0<<5); // TX circular mode disabled + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelTX) |= (1<<4); // TX data transfer direction: Memory-to-Peripheral + + USART_CTL2(cfg->uart) |= (1<<7); // enable DMA transmitter (DMAT) +//DMA_CHCTL(cfg->dma_stream, cfg->dma_channelTX) |= (1<<0); // TX enable DMA, done later when needed +#endif + + USART_CTL2(cfg->uart) |= (1<<6); // enable DMA receiver (DMAR) + DMA_CHCTL(cfg->dma_stream, cfg->dma_channelRX) |= (1<<0); // RX enable DMA +} + +void Serial_ClearData(uint8_t port) +{ + dmaL1DataRX[port].wIndex = dmaL1DataRX[port].rIndex = dmaL1DataRX[port].flag = dmaL1DataRX[port].cacheSize = 0; + + if (dmaL1DataRX[port].cache != NULL) + { + free(dmaL1DataRX[port].cache); + dmaL1DataRX[port].cache = NULL; + } + + dmaL1DataTX[port].wIndex = dmaL1DataTX[port].rIndex = dmaL1DataTX[port].flag = dmaL1DataTX[port].cacheSize = 0; + + if (dmaL1DataTX[port].cache != NULL) + { + free(dmaL1DataTX[port].cache); + dmaL1DataTX[port].cache = NULL; + } +} + +void Serial_Config(uint8_t port, uint32_t cacheSizeRX, uint32_t cacheSizeTX, uint32_t baudrate) +{ + Serial_ClearData(port); + + dmaL1DataRX[port].cacheSize = cacheSizeRX; + dmaL1DataRX[port].cache = malloc(cacheSizeRX); + while (!dmaL1DataRX[port].cache); // RX malloc failed, blocking! + + dmaL1DataTX[port].cacheSize = cacheSizeTX; + dmaL1DataTX[port].cache = malloc(cacheSizeTX); + while (!dmaL1DataTX[port].cache); // TX malloc failed, blocking! + + UART_Config(port, baudrate, USART_INT_IDLE, IDLE_LINE_IT); // configure serial line with or without IDLE Line interrupt + + Serial_DMA_Config(port); +} + +void Serial_DeConfig(uint8_t port) +{ + Serial_ClearData(port); + + Serial_DMA_DisableAndClearFlagsRX(port); // disable RX DMA and clear all interrupt flags + +#ifdef TX_DMA_WRITE + Serial_DMA_DisableAndClearFlagsTX(port); // disable TX DMA and clear all interrupt flags +#endif + + UART_DeConfig(port); +} + +#ifdef TX_DMA_WRITE // TX DMA based serial writing + +// DMA serial write support function +void Serial_Send_TX(uint8_t port) +{ + // setup DMA transfer, and wait for serial Transfer Complete (TX) interrupt in ISR + if (dmaL1DataTX[port].wIndex >= dmaL1DataTX[port].rIndex) + dmaL1DataTX[port].flag = dmaL1DataTX[port].wIndex - dmaL1DataTX[port].rIndex; + else // split transfer into 2 parts + dmaL1DataTX[port].flag = dmaL1DataTX[port].cacheSize - dmaL1DataTX[port].rIndex; + + Serial_DMA_DisableAndClearFlagsTX(port); // disable TX DMA and clear all interrupt flags + + DMA_CHMADDR(Serial[port].dma_stream, Serial[port].dma_channelTX) = (uint32_t)(&dmaL1DataTX[port].cache[dmaL1DataTX[port].rIndex]); // TX data start address + DMA_CHCNT(Serial[port].dma_stream, Serial[port].dma_channelTX) = dmaL1DataTX[port].flag; // number of bytes to transfer + + USART_CTL0(Serial[port].uart) |= USART_CTL0_TCIE; // enable Transfer Complete (TC) serial interrupt + DMA_CHCTL(Serial[port].dma_stream, Serial[port].dma_channelTX) |= (1<<0); // enable TX DMA +} + +void Serial_Put(uint8_t port, const char * msg) +{ + while (*msg) + { + // setup TX DMA, if no '\n' yet, but buffer is full AND DMA is not in progress already (waiting for Transfer Complete interrupt) + if ((((dmaL1DataTX[port].wIndex + 1) % dmaL1DataTX[port].cacheSize) == dmaL1DataTX[port].rIndex) && + ((USART_CTL0(Serial[port].uart) & USART_CTL0_TCIE) == 0)) + Serial_Send_TX(port); + + // blocking! wait for buffer to become available + while (((dmaL1DataTX[port].wIndex + 1) % dmaL1DataTX[port].cacheSize) == dmaL1DataTX[port].rIndex) { } + + dmaL1DataTX[port].cache[dmaL1DataTX[port].wIndex] = *msg; // copy character to cache + dmaL1DataTX[port].wIndex = (dmaL1DataTX[port].wIndex + 1) % dmaL1DataTX[port].cacheSize; // update wIndex + + if ((*msg == '\n') && ((USART_CTL0(Serial[port].uart) & USART_CTL0_TCIE) == 0)) + Serial_Send_TX(port); // start DMA process if command is complete and DMA is not in progress already + + msg++; // let the compiler optimize this, no need to do it manually! + } +} + +#else // TX interrupt based serial writing + +void Serial_Put(uint8_t port, const char * msg) +{ + while (*msg) + { + // blocking! wait for buffer to become available + while (((dmaL1DataTX[port].wIndex + 1) % dmaL1DataTX[port].cacheSize) == dmaL1DataTX[port].rIndex) { }; + + dmaL1DataTX[port].cache[dmaL1DataTX[port].wIndex] = *msg++; + dmaL1DataTX[port].wIndex = (dmaL1DataTX[port].wIndex + 1) % dmaL1DataTX[port].cacheSize; + + USART_CTL0(Serial[port].uart) |= USART_CTL0_TBEIE; // set TBE interrupt bit to start the serial transfer + } +} + +#endif + +// ISR, serial interrupt handler +void USART_IRQHandler(uint8_t port) +{ +#if IDLE_LINE_IT == true // IDLE Line interrupt + if ((USART_STAT0(Serial[port].uart) & USART_STAT0_IDLEF) != RESET) // check for IDLE Line interrupt + { + USART_STAT0(Serial[port].uart); // clear IDLE Line bit + USART_DATA(Serial[port].uart); + + dmaL1DataRX[port].wIndex = dmaL1DataRX[port].cacheSize - DMA_CHCNT(Serial[port].dma_stream, Serial[port].dma_channelRX); + } +#endif + +#ifdef TX_DMA_WRITE // TX DMA based serial writing + if ((USART_STAT0(Serial[port].uart) & USART_STAT0_TC) != RESET) // check for Transfer Complete (TC) interrupt + { + USART_STAT0(Serial[port].uart) &= ~USART_STAT0_TC; // clear Transfer Complete (TC) bit + + // NOTE 1: use the serial TC, not the DMA TC because this only indicates DMA is done, peripheral might be still busy + // NOTE 2: the TC interrupt is sometimes called while DMA is still active, so check NDTR status! + // + if (DMA_CHCNT(Serial[port].dma_stream, Serial[port].dma_channelTX) == 0) // sending is complete + { + dmaL1DataTX[port].rIndex = (dmaL1DataTX[port].rIndex + dmaL1DataTX[port].flag) % dmaL1DataTX[port].cacheSize; + dmaL1DataTX[port].flag = 0; + + if (dmaL1DataTX[port].wIndex != dmaL1DataTX[port].rIndex) // is more data available? + Serial_Send_TX(port); // continue sending data + else + USART_CTL0(Serial[port].uart) &= ~USART_CTL0_TCIE; // disable Transfer Complete (TC) interrupt, nothing more to do + } + // else: more data is coming, wait for next Transfer Complete (TC) interrupt + } +#else // TX interrupt based serial writing + if ((USART_STAT0(Serial[port].uart) & USART_STAT0_TBE) != RESET) // check for TBE interrupt + { + if (dmaL1DataTX[port].rIndex == dmaL1DataTX[port].wIndex) // no more data? + { + USART_CTL0(Serial[port].uart) &= ~USART_CTL0_TBEIE; // disable TBE interrupt + } + else + { + USART_DATA(Serial[port].uart) = (uint8_t)dmaL1DataTX[port].cache[dmaL1DataTX[port].rIndex]; // write next available character + + dmaL1DataTX[port].rIndex = (dmaL1DataTX[port].rIndex + 1) % dmaL1DataTX[port].cacheSize; // increase reading index + } + } +#endif +} + +void USART0_IRQHandler(void) +{ + USART_IRQHandler(_USART1); +} + +void USART1_IRQHandler(void) +{ + USART_IRQHandler(_USART2); +} + +void USART2_IRQHandler(void) +{ + USART_IRQHandler(_USART3); +} + +void UART3_IRQHandler(void) +{ + USART_IRQHandler(_UART4); +} + +void UART4_IRQHandler(void) +{ + USART_IRQHandler(_UART5); +} diff --git a/TFT/src/User/Hal/gd32f30x/Serial.h b/TFT/src/User/Hal/gd32f30x/Serial.h new file mode 100644 index 0000000000..d66960ba5a --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/Serial.h @@ -0,0 +1,62 @@ +#ifndef _SERIAL_H_ +#define _SERIAL_H_ + +#include +#include "variants.h" // for uint32_t etc... +#include "uart.h" + +// comment out this line to use TX interrupt based serial writing instead of TX DMA based serial writing +#define TX_DMA_WRITE + +typedef struct +{ + char * cache; + uint32_t cacheSize; + volatile uint32_t wIndex; // writing index + volatile uint32_t rIndex; // reading index + volatile uint32_t flag; // custom flag (for custom usage by the application) +} DMA_CIRCULAR_BUFFER; + +// config for USART DMA channels +typedef struct +{ + uint32_t uart; + rcu_periph_enum dma_rcc; // uint32_t + uint32_t dma_stream; + uint32_t dma_channelRX; +#ifdef TX_DMA_WRITE + uint32_t dma_channelTX; +#endif +} SERIAL_CFG; + +extern DMA_CIRCULAR_BUFFER dmaL1DataRX[_UART_CNT]; +extern const SERIAL_CFG Serial[_UART_CNT]; + +void Serial_Config(uint8_t port, uint32_t cacheSizeRX, uint32_t cacheSizeTX, uint32_t baudrate); +void Serial_DeConfig(uint8_t port); + +// retrieve the next reading index in the RX message queue of the provided physical serial port: +// - port: physical serial port +// +// - return value: next reading index +static inline uint32_t Serial_GetReadingIndexRX(uint8_t port) +{ + return dmaL1DataRX[port].rIndex; +} + +// retrieve the next writing index in the RX message queue of the provided physical serial port +// based on Interrupt/DMA status while writing serial data in the background: +// - port: physical serial port +// +// - return value: next writing index +static inline uint32_t Serial_GetWritingIndexRX(uint8_t port) +{ + return dmaL1DataRX[port].cacheSize - DMA_CHCNT(Serial[port].dma_stream, Serial[port].dma_channelRX); +} + +// send a zero terminated message to UART port +// - port: index of serial port +// - msg: message to send +void Serial_Put(uint8_t port, const char * msg); + +#endif diff --git a/TFT/src/User/Hal/gd32f30x/lcd.c b/TFT/src/User/Hal/gd32f30x/lcd.c new file mode 100644 index 0000000000..8a84e71670 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/lcd.c @@ -0,0 +1,214 @@ +#include "lcd.h" +#include "GPIO_Init.h" +#include "delay.h" + +#ifdef STM32_HAS_FSMC + +uint16_t LCD_RD_DATA(void) +{ + volatile uint16_t ram; + ram = LCD->LCD_RAM; + return ram; +} + +void LCD_WriteReg(uint8_t LCD_Reg, uint16_t LCD_RegValue) +{ + LCD->LCD_REG = LCD_Reg; + LCD->LCD_RAM = LCD_RegValue; +} + +uint16_t LCD_ReadReg(uint8_t LCD_Reg) +{ + LCD_WR_REG(LCD_Reg); + Delay_us(5); + return LCD_RD_DATA(); +} + +void LCD_GPIO_Config(void) +{ + rcu_periph_clock_enable(RCU_EXMC); + // fsmc 16bit data pins + GPIO_InitSet(PD0, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PD1, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PD8, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PD9, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PD10, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PD14, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PD15, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PE7, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PE8, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PE9, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PE10, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PE11, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PE12, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PE13, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PE14, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PE15, MGPIO_MODE_AF_PP, 0); + + /*Configure the control line corresponding to FSMC + * PD4-FSMC_NOE :LCD-RD + * PD5-FSMC_NWE :LCD-WR + * PD7-FSMC_NE1 :LCD-CS + * PE2-FSMC_A23 :LCD-RS LCD-RS data or cmd + */ + GPIO_InitSet(PD4, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PD5, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PE2, MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(PD7, MGPIO_MODE_AF_PP, 0); +} + +void LCD_EXMC_Config(void) +{ + exmc_norsram_parameter_struct EXMC_NORSRAMInitStructure; + exmc_norsram_timing_parameter_struct readWriteTiming,writeTiming; ; + + /* EXMC configuration */ + readWriteTiming.asyn_address_setuptime = 1U; + readWriteTiming.asyn_address_holdtime = 0U; + readWriteTiming.asyn_data_setuptime = 15U; + readWriteTiming.bus_latency = 0U; + readWriteTiming.syn_clk_division = 0U; + readWriteTiming.syn_data_latency = 0U; + readWriteTiming.asyn_access_mode = EXMC_ACCESS_MODE_A; + + writeTiming.asyn_address_setuptime = 1U; + writeTiming.asyn_address_holdtime = 0U; + writeTiming.asyn_data_setuptime = TFTLCD_DRIVER_SPEED; + writeTiming.bus_latency = 0U; + writeTiming.syn_clk_division = 0U; + writeTiming.syn_data_latency = 0U; + writeTiming.asyn_access_mode = EXMC_ACCESS_MODE_A; + + EXMC_NORSRAMInitStructure.norsram_region = EXMC_BANK0_NORSRAM_REGION0; + EXMC_NORSRAMInitStructure.write_mode = EXMC_ASYN_WRITE; + EXMC_NORSRAMInitStructure.extended_mode = DISABLE; + EXMC_NORSRAMInitStructure.asyn_wait = DISABLE; + EXMC_NORSRAMInitStructure.nwait_signal = DISABLE; + EXMC_NORSRAMInitStructure.memory_write = ENABLE; + EXMC_NORSRAMInitStructure.nwait_config = EXMC_NWAIT_CONFIG_BEFORE; + EXMC_NORSRAMInitStructure.wrap_burst_mode = DISABLE; + EXMC_NORSRAMInitStructure.nwait_polarity = EXMC_NWAIT_POLARITY_LOW; + EXMC_NORSRAMInitStructure.burst_mode = DISABLE; + EXMC_NORSRAMInitStructure.databus_width = EXMC_NOR_DATABUS_WIDTH_16B; + EXMC_NORSRAMInitStructure.memory_type = EXMC_MEMORY_TYPE_NOR; + EXMC_NORSRAMInitStructure.address_data_mux = DISABLE; + EXMC_NORSRAMInitStructure.read_write_timing = &readWriteTiming; + EXMC_NORSRAMInitStructure.write_timing = &writeTiming; + + exmc_norsram_init(&EXMC_NORSRAMInitStructure); + /* enable EXMC SARM bank0 */ + exmc_norsram_enable(EXMC_BANK0_NORSRAM_REGION0); +} + +void LCD_HardwareConfig(void) +{ + LCD_GPIO_Config(); + LCD_EXMC_Config(); +} + +#else + +void LCD_WR_REG(uint16_t data) +{ + LCD_RS_CLR; + LCD_CS_CLR; + DATAOUT(data); + LCD_WR_CLR; + LCD_WR_SET; + LCD_CS_SET; +} + +void LCD_WR_DATA(uint16_t data) +{ + LCD_RS_SET; + LCD_CS_CLR; + DATAOUT(data); + LCD_WR_CLR; + LCD_WR_SET; + LCD_CS_SET; +} + +uint16_t LCD_RD_DATA(void) +{ + #if defined(MKS_TFT) + #define LCD_DATA_PORT GPIOE + #else + #define LCD_DATA_PORT GPIOC + #endif + + volatile uint16_t ram; + // LCD_DATA_PORT->CRL = 0X88888888; 1000 1000 1000 1000 1000 1000 1000 1000 + // LCD_DATA_PORT->CRH = 0X88888888; 1000 1000 1000 1000 1000 1000 1000 1000 + gpio_init(LCD_DATA_PORT, GPIO_MODE_IPU, 0, GPIO_PIN_ALL); + // LCD_DATA_PORT->ODR = 0X0000; + gpio_port_write(LCD_DATA_PORT, 0X0000); + + LCD_RS_SET; + LCD_CS_CLR; + LCD_RD_CLR; // double for delay. + LCD_RD_CLR; + ram = DATAIN(); + LCD_RD_SET; + LCD_CS_SET; + + // LCD_DATA_PORT->CRL = 0X33333333; 0011 0011 0011 0011 0011 0011 0011 0011 + // LCD_DATA_PORT->CRH = 0X33333333; 0011 0011 0011 0011 0011 0011 0011 0011 + gpio_init(LCD_DATA_PORT, GPIO_MODE_OUT_PP, GPIO_OSPEED_50MHZ, GPIO_PIN_ALL); + // LCD_DATA_PORT->ODR = 0XFFFF; + gpio_port_write(LCD_DATA_PORT, 0XFFFF); + return ram; +} + +void LCD_GPIO_Config(void) +{ +#if defined(MKS_TFT) + // GPIO_InitTypeDef GPIO_InitStructure; + /* GPIO Ports Clock Enable */ + + // RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOE | RCC_APB2Periph_GPIOC | RCC_APB2Periph_GPIOD | RCC_APB2Periph_GPIOB, ENABLE); + /* Configure GPIO pin Output Level */ + + /* Configure GPIO pins : Pin1_Pin Pin2_Pin */ + + // GPIO_InitStructure.GPIO_Pin = GPIO_Pin_14 | GPIO_Pin_9; + // GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP; + // GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; + // GPIO_Init(GPIOB, &GPIO_InitStructure); + gpio_init(GPIOB, GPIO_MODE_OUT_PP, GPIO_OSPEED_50MHZ, GPIO_PIN_14 | GPIO_PIN_9); + + // GPIO_InitStructure.GPIO_Pin = GPIO_Pin_13 | GPIO_Pin_15; + // GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP; + // GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; + // GPIO_Init(GPIOD, &GPIO_InitStructure); + gpio_init(GPIOD, GPIO_MODE_OUT_PP, GPIO_OSPEED_50MHZ, GPIO_PIN_13 | GPIO_PIN_15); + + // GPIO_InitStructure.GPIO_Pin = GPIO_Pin_8 | GPIO_Pin_9; + // GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP; + // GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; + // GPIO_Init(GPIOC, &GPIO_InitStructure); + gpio_init(GPIOC, GPIO_MODE_OUT_PP, GPIO_OSPEED_50MHZ, GPIO_PIN_8 | GPIO_PIN_9); + + // GPIO_InitStructure.GPIO_Pin = GPIO_Pin_5; + // GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU; + // GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; + // GPIO_Init(GPIOC, &GPIO_InitStructure); + gpio_init(GPIOC, GPIO_MODE_IPU, GPIO_OSPEED_50MHZ, GPIO_PIN_5); + + // GPIO_InitStructure.GPIO_Pin = GPIO_Pin_All; + // GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; + // GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP; + // GPIO_Init(GPIOE, &GPIO_InitStructure); + gpio_init(GPIOE, GPIO_MODE_OUT_PP, GPIO_OSPEED_50MHZ, GPIO_PIN_ALL); + + LCD_RD_SET; // set this as we only change it when reading +#else + #error "don't support LCD-GPIO yet" +#endif +} + +void LCD_HardwareConfig(void) +{ + LCD_GPIO_Config(); +} + +#endif diff --git a/TFT/src/User/Hal/gd32f30x/lcd.h b/TFT/src/User/Hal/gd32f30x/lcd.h new file mode 100644 index 0000000000..0e4d80f968 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/lcd.h @@ -0,0 +1,52 @@ +#ifndef _LCD_H_ +#define _LCD_H_ + +#include +#include "variants.h" // for STM32_HAS_FSMC etc... + +#ifdef STM32_HAS_FSMC + + typedef struct + { + volatile uint16_t LCD_REG; + volatile uint16_t LCD_RAM; + } LCD_TypeDef; + + #define LCD_BASE ((uint32_t)(0x60000000 | 0x00FFFFFE)) // 1111 1111 1111 1111 1111 1110 + #define LCD ((LCD_TypeDef *) LCD_BASE) + + #define LCD_WR_REG(regval) do{ LCD->LCD_REG = regval; }while(0) + #define LCD_WR_DATA(data) do{ LCD->LCD_RAM = data; }while(0) + +#else + #if defined(MKS_TFT) + /* + #define LCD_WR PB14 + #define LCD_RS PD13 + #define LCD_CS PC8 + #define LCD_RD PD15 + */ + // GPIO_SetLevel + #define LCD_CS_SET gpio_bit_set(GPIOC, GPIO_PIN_8 ) // Chip Select Port PC8 //片选端口 + #define LCD_RS_SET gpio_bit_set(GPIOD, GPIO_PIN_13) // Data / command PD13 //数据/命令 + #define LCD_WR_SET gpio_bit_set(GPIOB, GPIO_PIN_14) // Write data PB14 //写数据 + #define LCD_RD_SET gpio_bit_set(GPIOD, GPIO_PIN_15) // Read data PD15 //读数据 + + #define LCD_CS_CLR gpio_bit_reset(GPIOC, GPIO_PIN_8) // Chip select port PC8 //片选端口 + #define LCD_RS_CLR gpio_bit_reset(GPIOD, GPIO_PIN_13) // Data / command PD13 //数据/命令 + #define LCD_WR_CLR gpio_bit_reset(GPIOB, GPIO_PIN_14) // Write data PB14 //写数据 + #define LCD_RD_CLR gpio_bit_reset(GPIOD, GPIO_PIN_15) // Read data PD15 //读数据 + + #define DATAOUT(x) do{gpio_port_write(GPIOE, x);}while(0) // Data output //数据输出 + #define DATAIN() gpio_input_port_get(GPIOE) // Data input //数据输入 + #else + #error "don't support LCD-GPIO yet" + #endif + void LCD_WR_REG(uint16_t data); + void LCD_WR_DATA(uint16_t data); +#endif + +void LCD_HardwareConfig(void); +uint16_t LCD_RD_DATA(void); + +#endif diff --git a/TFT/src/User/Hal/gd32f30x/lcd_dma.c b/TFT/src/User/Hal/gd32f30x/lcd_dma.c new file mode 100644 index 0000000000..0a1af8584e --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/lcd_dma.c @@ -0,0 +1,98 @@ +#include "lcd_dma.h" +#include "variants.h" // for STM32_HAS_FSMC etc... +#include "lcd.h" +#include "spi.h" +#include "LCD_Init.h" +#include "w25qxx.h" +#include "delay.h" +#include "debug.h" + +#ifdef STM32_HAS_FSMC +#if W25Qxx_SPI == _SPI1 + #define W25QXX_SPI_NUM SPI0 + #define W25QXX_SPI_DMA DMA0 + #define W25QXX_SPI_DMA_RCU RCU_DMA0 + #define W25QXX_SPI_DMA_CHANNEL DMA_CH1 + #define W25QXX_SPI_DMA_IFCR_BIT 5 +#elif W25Qxx_SPI == _SPI2 + #define W25QXX_SPI_NUM SPI1 + #define W25QXX_SPI_DMA DMA0 + #define W25QXX_SPI_DMA_RCU RCU_DMA0 + #define W25QXX_SPI_DMA_CHANNEL DMA_CH3 + #define W25QXX_SPI_DMA_IFCR_BIT 13 +#elif W25Qxx_SPI == _SPI3 + #define W25QXX_SPI_NUM SPI2 + #define W25QXX_SPI_DMA DMA1 + #define W25QXX_SPI_DMA_RCU RCU_DMA1 + #define W25QXX_SPI_DMA_CHANNEL DMA_CH0 + #define W25QXX_SPI_DMA_IFCR_BIT 1 +#endif + +// SPI --> FSMC DMA (LCD_RAM) +// 16bits, SPI_RX to LCD_RAM. +void LCD_DMA_Config(void) +{ + rcu_periph_clock_enable(W25QXX_SPI_DMA_RCU); // Turn on the DMA clock + Delay_ms(5); // Wait for the DMA clock to stabilize + DMA_CHPADDR(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) = (uint32_t)&SPI_DATA(W25QXX_SPI_NUM); // The peripheral address is: SPI-> DR + DMA_CHMADDR(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) = (uint32_t)&LCD->LCD_RAM; // The target address is LCD_RAM + DMA_CHCNT(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) = 0; // DMA1, the amount of data transferred, temporarily set to 0 + DMA_CHCTL(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) = 0x00000000; // Reset + DMA_CHCTL(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) |= 0<<4; // Read from peripheral + DMA_CHCTL(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) |= 0<<5; // Normal mode + DMA_CHCTL(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) |= 0<<6; // Peripheral address non-incremental mode + DMA_CHCTL(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) |= 0<<7; // Memory non-incremental mode + DMA_CHCTL(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) |= LCD_DATA_16BIT<<8; // Peripheral data width is 16 bits + DMA_CHCTL(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) |= LCD_DATA_16BIT<<10; // Memory data width 16 bits + DMA_CHCTL(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) |= 1<<12; // Medium priority + DMA_CHCTL(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) |= 0<<14; // Non-memory to memory mode +} + +#define LCD_DMA_MAX_TRANS 65535 // DMA 65535 bytes one frame + +// start DMA transfer from SPI->DR to FSMC +// the max bytes of one frame is LCD_DMA_MAX_TRANS 65535 +void lcd_frame_segment_display(uint16_t size, uint32_t addr) +{ + DMA_CHCNT(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) = size; + + W25Qxx_SPI_CS_Set(0); + W25Qxx_SPI_Read_Write_Byte(CMD_FAST_READ_DATA); + W25Qxx_SPI_Read_Write_Byte((uint8_t)((addr)>>16)); + W25Qxx_SPI_Read_Write_Byte((uint8_t)((addr)>>8)); + W25Qxx_SPI_Read_Write_Byte((uint8_t)addr); + W25Qxx_SPI_Read_Write_Byte(0XFF); // 8 dummy clock + + //set SPI to 16bit DMA rx only mode + SPI_CTL0(W25QXX_SPI_NUM) &= ~(1<<6); + SPI_CTL1(W25QXX_SPI_NUM) |= 1<<0; // enable SPI rx DMA + SPI_CTL0(W25QXX_SPI_NUM) |= LCD_DATA_16BIT<<11; // 16bit data frame + SPI_CTL0(W25QXX_SPI_NUM) |= 1<<10; // rx only + + DMA_CHCTL(W25QXX_SPI_DMA, W25QXX_SPI_DMA_CHANNEL) |= 1<<0; // enable dma channel + SPI_CTL0(W25QXX_SPI_NUM) |= 1<<6; // enable SPI + + while (((DMA_INTF(W25QXX_SPI_DMA) & (1< + +#define _SPI1 0 +#define _SPI2 1 +#define _SPI3 2 +#define _SPI_CNT 3 + +void SPI_GPIO_Init(uint8_t port); +void SPI_Slave_GPIO_Init(uint8_t port); +void SPI_Config(uint8_t port); +void SPI_DeConfig(uint8_t port); +void SPI_Protocol_Init(uint8_t port, uint8_t baudrate); +uint16_t SPI_Read_Write(uint8_t port, uint16_t d); + +#endif diff --git a/TFT/src/User/Hal/gd32f30x/spi_slave.c b/TFT/src/User/Hal/gd32f30x/spi_slave.c new file mode 100644 index 0000000000..4f0aeec476 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/spi_slave.c @@ -0,0 +1,140 @@ +#include "spi_slave.h" +#include "includes.h" // for infoSettings, ST7920_EMULATOR etc... +#include "spi.h" +#include "GPIO_Init.h" +#include "HD44780.h" + +#if defined(ST7920_EMULATOR) +// TODO: +// now support SPI2 and PB12 CS only +// more compatibility changes are needed +// Config for SPI Channel +#if ST7920_SPI == _SPI1 + #define ST7920_SPI_NUM SPI0 +#elif ST7920_SPI == _SPI2 + #define ST7920_SPI_NUM SPI1 +#elif ST7920_SPI == _SPI3 + #define ST7920_SPI_NUM SPI2 +#endif + +CIRCULAR_QUEUE *spi_queue = NULL; + +void SPI_Slave_CS_Config(void); // forward declaration + +void SPI_ReEnable(uint8_t mode) +{ + SPI_CTL0(ST7920_SPI_NUM) = (0<<15) // 0:2-line 1: 1-line + | (0<<14) // in bidirectional mode 0:read only 1: read/write + | (0<<13) // 0:disable CRC 1:enable CRC + | (0<<12) // 0:Data phase (no CRC phase) 1:Next transfer is CRC (CRC phase) + | (0<<11) // 0:8-bit data frame 1:16-bit data frame + | (1<<10) // 0:Full duplex 1:Receive-only + | (1<<9) // 0:enable NSS 1:disable NSS (Software slave management) + | (0<<8) // This bit has an effect only when the SSM bit is set. The value of this bit is forced onto the NSS pin and the IO value of the NSS pin is ignored + | (0<<7) // 0:MSB 1:LSB + | (7<<3) // bit3-5 000:fPCLK/2 001:fPCLK/4 010:fPCLK/8 011:fPCLK/16 + // 100:fPCLK/32 101:fPCLK/64 110:fPCLK/128 111:fPCLK/256 + | (0<<2) // 0:Slave 1:Master + | (mode<<1) // CPOL + | (mode<<0); // CPHA + + SPI_CTL1(ST7920_SPI_NUM) |= 1<<6; // RX buffer not empty interrupt enable SPI_I2S_IT_RXNE +} + +void SPI_Slave(CIRCULAR_QUEUE *queue) +{ + spi_queue = queue; + + // initializes the initial queue indexes before the queue is used. + // Otherwise, dirty values will let the system probably freeze when the queue is used + spi_queue->index_r = spi_queue->index_w = spi_queue->count = 0; + + SPI_Slave_GPIO_Init(ST7920_SPI); + GPIO_InitSet(PB12, MGPIO_MODE_IPU, 0); // CS + + nvic_irq_enable(SPI1_IRQn, 1U, 0U); + + rcu_periph_clock_enable(RCU_SPI1); + + SPI_Slave_CS_Config(); + SPI_ReEnable(0); // spi mode0 + + if ((GPIO_ISTAT(GPIOB) & (1<<12)) != 0) + { + SPI_CTL0(ST7920_SPI_NUM) |= (1<<6); + } +} + +void SPI_SlaveDeInit(void) +{ + nvic_irq_disable(SPI1_IRQn); + nvic_irq_disable(EXTI10_15_IRQn); + + spi_disable(ST7920_SPI_NUM); + + spi_queue = NULL; +} + +void SPI1_IRQHandler(void) +{ + spi_queue->data[spi_queue->index_w] = SPI_DATA(ST7920_SPI_NUM); + spi_queue->index_w = (spi_queue->index_w + 1) % CIRCULAR_QUEUE_SIZE; +} + +bool SPI_SlaveGetData(uint8_t *data) +{ + bool dataRead = false; + + if (spi_queue->index_r != spi_queue->index_w) + { + *data = spi_queue->data[spi_queue->index_r]; + spi_queue->index_r = (spi_queue->index_r + 1) % CIRCULAR_QUEUE_SIZE; + + dataRead = true; + } + + return dataRead; +} + +// External interruption arrangement +void SPI_Slave_CS_Config(void) +{ + gpio_exti_source_select(GPIO_EVENT_PORT_GPIOB, GPIO_EVENT_PIN_12); + + exti_init(EXTI_12, EXTI_INTERRUPT, EXTI_TRIG_BOTH); + exti_interrupt_flag_clear(EXTI_12); + nvic_irq_enable(EXTI10_15_IRQn, 0U, 1U); +} +#endif + +#ifdef HAS_EMULATOR +// External interruption +void EXTI10_15_IRQHandler(void) +{ + switch (infoSettings.marlin_type) + { + #ifdef LCD2004_EMULATOR + case LCD2004: + HD44780_writeData(); + break; + #endif + + #ifdef ST7920_EMULATOR + case LCD12864: + if ((GPIO_ISTAT(GPIOB) & (1<<12)) != 0) + { + SPI_ReEnable(!!(GPIO_ISTAT(GPIOB)& (1<<13))); // Adaptive spi mode0 / mode3 + SPI_CTL0(ST7920_SPI_NUM) |= (1<<6); + } + else + { + rcu_periph_reset_enable(RCU_SPI1RST); + rcu_periph_reset_disable(RCU_SPI1RST); // Reset SPI1 + } + + EXTI_PD = 1<<12; // Clear interrupt status register + break; + #endif + } +} +#endif diff --git a/TFT/src/User/Hal/gd32f30x/spi_slave.h b/TFT/src/User/Hal/gd32f30x/spi_slave.h new file mode 100644 index 0000000000..58ce091326 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/spi_slave.h @@ -0,0 +1,12 @@ +#ifndef _SPI_SLAVE_H_ +#define _SPI_SLAVE_H_ + +#include +#include +#include "CircularQueue.h" + +void SPI_Slave(CIRCULAR_QUEUE *queue); +void SPI_SlaveDeInit(void); +bool SPI_SlaveGetData(uint8_t *data); + +#endif diff --git a/TFT/src/User/Hal/gd32f30x/timer_pwm.c b/TFT/src/User/Hal/gd32f30x/timer_pwm.c new file mode 100644 index 0000000000..89923f7315 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/timer_pwm.c @@ -0,0 +1,70 @@ +#include "timer_pwm.h" +#include "includes.h" // for mcuClocks + +typedef struct { + uint32_t tim; + uint32_t rcc_src; + uint8_t apb; +} TIMER; + +static TIMER pwmTimer[_TIM_CNT] = { + {TIMER0, RCU_TIMER0, 2}, // Timer1 APB2 bit0 + {TIMER1, RCU_TIMER1, 1}, // Timer2 APB1 bit0 + {TIMER2, RCU_TIMER2, 1}, // Timer3 APB1 bit1 + {TIMER3, RCU_TIMER3, 1}, // Timer4 APB1 bit2 + {TIMER4, RCU_TIMER4, 1}, // Timer5 APB1 bit3 + {TIMER5, RCU_TIMER5, 1}, // Timer6 APB1 bit4 + {TIMER6, RCU_TIMER6, 1}, // Timer7 APB1 bit5 + {TIMER7, RCU_TIMER7, 2}, // Timer8 APB2 bit1 + {TIMER8, RCU_TIMER8, 2}, // Timer9 APB2 bit16 + {TIMER9, RCU_TIMER9, 2}, // Timer10 APB2 bit17 + {TIMER10, RCU_TIMER10, 2}, // Timer11 APB2 bit18 + {TIMER11, RCU_TIMER11, 1}, // Timer12 APB1 bit6 + {TIMER12, RCU_TIMER12, 1}, // Timer13 APB1 bit7 + {TIMER13, RCU_TIMER13, 1}, // Timer14 APB1 bit8 +}; + +void TIM_PWM_SetDutyCycle(uint16_t tim_ch, uint8_t duty) +{ + uint16_t timerIndex = TIMER_GET_TIM(tim_ch); + uint16_t channel = TIMER_GET_CH(tim_ch); + const TIMER* timer = &pwmTimer[timerIndex]; + switch (channel) + { + case 0: TIMER_CH0CV(timer->tim) = duty; break; + case 1: TIMER_CH1CV(timer->tim) = duty; break; + case 2: TIMER_CH2CV(timer->tim) = duty; break; + case 3: TIMER_CH3CV(timer->tim) = duty; break; + } +} + +void TIM_PWM_Init(uint16_t tim_ch) +{ + uint16_t timerIndex = TIMER_GET_TIM(tim_ch); + uint16_t channel = TIMER_GET_CH(tim_ch); + const TIMER* timer = &pwmTimer[timerIndex]; + uint32_t timerTmpClk = (timer->apb == 1) ? mcuClocks.PCLK1_Timer_Frequency : mcuClocks.PCLK2_Timer_Frequency; + + rcu_periph_clock_enable(timer->rcc_src); + + // Set PWM frequency to 500Hz + TIMER_CAR(timer->tim) = 100 - 1; + TIMER_PSC(timer->tim) = timerTmpClk / (500 * 100) - 1; + + switch (channel) + { + case 0: TIMER_CHCTL0(timer->tim) |= (6<<4) | (1<<3); break; // CH1 PWM0 mode + case 1: TIMER_CHCTL0(timer->tim) |= (6<<12) | (1<<11); break; // CH2 PWM0 mode + case 2: TIMER_CHCTL1(timer->tim) |= (6<<4) | (1<<3); break; // CH3 PWM0 mode + case 3: TIMER_CHCTL1(timer->tim) |= (6<<12) | (1<<11); break; // CH4 PWM0 mode + } + + TIMER_CHCTL2(timer->tim) |= 1 << (2 * channel); //enable channle + TIMER_CTL0(timer->tim) = (1 << 7) // Auto-reload preload enable + | (1 << 0); // Enbale timer + + if (timer->tim == TIMER0 || timer->tim == TIMER7) + { // TIM1 & TIM8 advanced timer need config BDTR register for PWM + TIMER_CCHP(timer->tim) |= 1 << 15; // Main output enable + } +} diff --git a/TFT/src/User/Hal/gd32f30x/timer_pwm.h b/TFT/src/User/Hal/gd32f30x/timer_pwm.h new file mode 100644 index 0000000000..8fa08d5535 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/timer_pwm.h @@ -0,0 +1,104 @@ +#ifndef _TIMER_PWM_H_ +#define _TIMER_PWM_H_ + +#include + +#define _TIM1 0 +#define _TIM2 1 +#define _TIM3 2 +#define _TIM4 3 +#define _TIM5 4 +#define _TIM6 5 // NOTE: TIM6 & TIM7 basic timer, can not PWM generation +#define _TIM7 6 +#define _TIM8 7 +#define _TIM9 8 +#define _TIM10 9 +#define _TIM11 10 +#define _TIM12 11 +#define _TIM13 12 +#define _TIM14 13 +#define _TIM15 14 +#define _TIM_CNT 15 + +#define _TIM1_CH1 (((_TIM1)<<8) + 0) +#define _TIM1_CH2 (((_TIM1)<<8) + 1) +#define _TIM1_CH3 (((_TIM1)<<8) + 2) +#define _TIM1_CH4 (((_TIM1)<<8) + 3) + +#define _TIM2_CH1 (((_TIM2)<<8) + 0) +#define _TIM2_CH2 (((_TIM2)<<8) + 1) +#define _TIM2_CH3 (((_TIM2)<<8) + 2) +#define _TIM2_CH4 (((_TIM2)<<8) + 3) + +#define _TIM3_CH1 (((_TIM3)<<8) + 0) +#define _TIM3_CH2 (((_TIM3)<<8) + 1) +#define _TIM3_CH3 (((_TIM3)<<8) + 2) +#define _TIM3_CH4 (((_TIM3)<<8) + 3) + +#define _TIM4_CH1 (((_TIM4)<<8) + 0) +#define _TIM4_CH2 (((_TIM4)<<8) + 1) +#define _TIM4_CH3 (((_TIM4)<<8) + 2) +#define _TIM4_CH4 (((_TIM4)<<8) + 3) + +#define _TIM5_CH1 (((_TIM5)<<8) + 0) +#define _TIM5_CH2 (((_TIM5)<<8) + 1) +#define _TIM5_CH3 (((_TIM5)<<8) + 2) +#define _TIM5_CH4 (((_TIM5)<<8) + 3) + +#define _TIM6_CH1 (((_TIM6)<<8) + 0) +#define _TIM6_CH2 (((_TIM6)<<8) + 1) +#define _TIM6_CH3 (((_TIM6)<<8) + 2) +#define _TIM6_CH4 (((_TIM6)<<8) + 3) + +#define _TIM7_CH1 (((_TIM7)<<8) + 0) +#define _TIM7_CH2 (((_TIM7)<<8) + 1) +#define _TIM7_CH3 (((_TIM7)<<8) + 2) +#define _TIM7_CH4 (((_TIM7)<<8) + 3) + +#define _TIM8_CH1 (((_TIM8)<<8) + 0) +#define _TIM8_CH2 (((_TIM8)<<8) + 1) +#define _TIM8_CH3 (((_TIM8)<<8) + 2) +#define _TIM8_CH4 (((_TIM8)<<8) + 3) + +#define _TIM9_CH1 (((_TIM9)<<8) + 0) +#define _TIM9_CH2 (((_TIM9)<<8) + 1) +#define _TIM9_CH3 (((_TIM9)<<8) + 2) +#define _TIM9_CH4 (((_TIM9)<<8) + 3) + +#define _TIM10_CH1 (((_TIM10)<<8) + 0) +#define _TIM10_CH2 (((_TIM10)<<8) + 1) +#define _TIM10_CH3 (((_TIM10)<<8) + 2) +#define _TIM10_CH4 (((_TIM10)<<8) + 3) + +#define _TIM11_CH1 (((_TIM11)<<8) + 0) +#define _TIM11_CH2 (((_TIM11)<<8) + 1) +#define _TIM11_CH3 (((_TIM11)<<8) + 2) +#define _TIM11_CH4 (((_TIM11)<<8) + 3) + +#define _TIM12_CH1 (((_TIM12)<<8) + 0) +#define _TIM12_CH2 (((_TIM12)<<8) + 1) +#define _TIM12_CH3 (((_TIM12)<<8) + 2) +#define _TIM12_CH4 (((_TIM12)<<8) + 3) + +#define _TIM13_CH1 (((_TIM13)<<8) + 0) +#define _TIM13_CH2 (((_TIM13)<<8) + 1) +#define _TIM13_CH3 (((_TIM13)<<8) + 2) +#define _TIM13_CH4 (((_TIM13)<<8) + 3) + +#define _TIM14_CH1 (((_TIM14)<<8) + 0) +#define _TIM14_CH2 (((_TIM14)<<8) + 1) +#define _TIM14_CH3 (((_TIM14)<<8) + 2) +#define _TIM14_CH4 (((_TIM14)<<8) + 3) + +#define _TIM15_CH1 (((_TIM15)<<8) + 0) +#define _TIM15_CH2 (((_TIM15)<<8) + 1) +#define _TIM15_CH3 (((_TIM15)<<8) + 2) +#define _TIM15_CH4 (((_TIM15)<<8) + 3) + +#define TIMER_GET_TIM(n) ((n>>8) & 0xFF) +#define TIMER_GET_CH(n) (n & 0xFF) + +void TIM_PWM_SetDutyCycle(uint16_t tim_ch, uint8_t duty); +void TIM_PWM_Init(uint16_t tim_ch); + +#endif diff --git a/TFT/src/User/Hal/gd32f30x/uart.c b/TFT/src/User/Hal/gd32f30x/uart.c new file mode 100644 index 0000000000..366799db6c --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/uart.c @@ -0,0 +1,137 @@ +#include "uart.h" +#include "variants.h" // for USART1_TX_PIN etc... +#include "GPIO_Init.h" + +// USART1 (GD USART0) default pins config +#ifndef USART1_TX_PIN + #define USART1_TX_PIN PA9 +#endif +#ifndef USART1_RX_PIN + #define USART1_RX_PIN PA10 +#endif +// USART2 (GD USART1) default pins config +#ifndef USART2_TX_PIN + #define USART2_TX_PIN PA2 +#endif +#ifndef USART2_RX_PIN + #define USART2_RX_PIN PA3 +#endif +// USART3 (GD USART2) default pins config +#ifndef USART3_TX_PIN + #define USART3_TX_PIN PB10 +#endif +#ifndef USART3_RX_PIN + #define USART3_RX_PIN PB11 +#endif +// UART4 (GD UART3) default pins config +#ifndef UART4_TX_PIN + #define UART4_TX_PIN PC10 +#endif +#ifndef UART4_RX_PIN + #define UART4_RX_PIN PC11 +#endif +// UART5 (GD UART4) default pins config +#ifndef UART5_TX_PIN + #define UART5_TX_PIN PC12 +#endif +#ifndef UART5_RX_PIN + #define UART5_RX_PIN PD2 +#endif + +static rcu_periph_reset_enum rcu_uart_rst[_UART_CNT] = { + RCU_USART0RST, + RCU_USART1RST, + RCU_USART2RST, + RCU_UART3RST, + RCU_UART4RST, +}; + +static rcu_periph_enum rcu_uart_en[_UART_CNT] = { + RCU_USART0, + RCU_USART1, + RCU_USART2, + RCU_UART3, + RCU_UART4, +}; + +static uint32_t const uart[_UART_CNT] = { + USART0, // TX--PA9 RX--PA10 + USART1, // TX--PA2 RX--PA3 + USART2, // TX--PB10 RX--PB11 + UART3, // TX--PC10 RX--PC11 + UART4, // TX--PC12 RX--PD2 +}; + +static const uint16_t uart_tx[_UART_CNT] = {USART1_TX_PIN, USART2_TX_PIN, USART3_TX_PIN, UART4_TX_PIN, UART5_TX_PIN}; // TX +static const uint16_t uart_rx[_UART_CNT] = {USART1_RX_PIN, USART2_RX_PIN, USART3_RX_PIN, UART4_RX_PIN, UART5_RX_PIN}; // RX + +void UART_GPIO_Init(uint8_t port) +{ + GPIO_InitSet(uart_tx[port], MGPIO_MODE_AF_PP, 0); + GPIO_InitSet(uart_rx[port], MGPIO_MODE_IPU, 0); +} + +void UART_GPIO_DeInit(uint8_t port) +{ + // set tx/rx to input + GPIO_InitSet(uart_tx[port], MGPIO_MODE_IPN, 0); + GPIO_InitSet(uart_rx[port], MGPIO_MODE_IPN, 0); +} + +void UART_Protocol_Init(uint8_t port,uint32_t baud) +{ + rcu_periph_clock_enable(rcu_uart_en[port]); // Enable clock + + usart_deinit(uart[port]); + usart_baudrate_set(uart[port], baud); + usart_word_length_set(uart[port], USART_WL_8BIT); + usart_stop_bit_set(uart[port], USART_STB_1BIT); + usart_parity_config(uart[port], USART_PM_NONE); + usart_hardware_flow_rts_config(uart[port], USART_RTS_DISABLE); + usart_hardware_flow_cts_config(uart[port], USART_CTS_DISABLE); + usart_receive_config(uart[port], USART_RECEIVE_ENABLE); + usart_transmit_config(uart[port], USART_TRANSMIT_ENABLE); + usart_enable(uart[port]); +} + +void UART_IRQ_Init(uint8_t port, uint16_t usart_it, bool idle_interrupt) +{ + uint32_t IRQ_Channel[_UART_CNT] = {USART0_IRQn, USART1_IRQn, USART2_IRQn, UART3_IRQn, UART4_IRQn }; + nvic_irq_enable(IRQ_Channel[port], 0U, 0U); + + if (idle_interrupt) // enable or disable serial line IDLE interrupt + { + usart_interrupt_enable(uart[port], usart_it); + usart_interrupt_flag_clear(uart[port], usart_it); + } +} + +void UART_Config(uint8_t port, uint32_t baud, uint16_t usart_it, bool idle_interrupt) +{ + UART_Protocol_Init(port, baud); + UART_IRQ_Init(port, usart_it, idle_interrupt); + UART_GPIO_Init(port); // After all initialization is completed, enable IO, otherwise a 0xFF will be sent automatically after power-on +} + +void UART_DeConfig(uint8_t port) +{ + UART_GPIO_DeInit(port); + + rcu_periph_reset_enable(rcu_uart_rst[port]); // Reset clock + rcu_periph_reset_disable(rcu_uart_rst[port]); +} + +void UART_Write(uint8_t port, uint8_t d) +{ + while ((USART_STAT0(uart[port]) & (1 << USART_FLAG_TC)) == (uint16_t)RESET); + USART_DATA(uart[port]) = ((uint16_t)d & (uint16_t)0x01FF); +} + +void UART_Puts(uint8_t port, uint8_t *str) +{ + while (*str) + { + while ((USART_STAT0(uart[port]) & (1 << USART_FLAG_TC)) == (uint16_t)RESET); + USART_DATA(uart[port]) = ((uint16_t)*str++ & (uint16_t)0x01FF); + } +} diff --git a/TFT/src/User/Hal/gd32f30x/uart.h b/TFT/src/User/Hal/gd32f30x/uart.h new file mode 100644 index 0000000000..e312f10ae4 --- /dev/null +++ b/TFT/src/User/Hal/gd32f30x/uart.h @@ -0,0 +1,20 @@ +#ifndef _UART_H_ +#define _UART_H_ + +#include +#include + +#define _USART1 0 // USART0 +#define _USART2 1 // USART1 +#define _USART3 2 // USART2 +#define _UART4 3 // UART3 +#define _UART5 4 // UART4 +#define _USART6 5 +#define _UART_CNT 6 + +void UART_Config(uint8_t port, uint32_t baud, uint16_t usart_it, bool idle_interrupt); +void UART_DeConfig(uint8_t port); +void UART_Puts(uint8_t port, uint8_t *str); +void UART_Write(uint8_t port, uint8_t d); + +#endif diff --git a/TFT/src/User/Variants/pin_MKS_GD_TFT28_V1_2-4.h b/TFT/src/User/Variants/pin_MKS_GD_TFT28_V1_2-4.h new file mode 100644 index 0000000000..97706234fd --- /dev/null +++ b/TFT/src/User/Variants/pin_MKS_GD_TFT28_V1_2-4.h @@ -0,0 +1,42 @@ +#ifndef _PIN_MKS_GD_TFT28_V1_24_H_ // modify to actual filename !!! +#define _PIN_MKS_GD_TFT28_V1_24_H_ // modify to actual filename !!! + +// MCU type (STM32F10x, STM32F2xx, STM32F4xx, gd32f20x, gd32f30x) +#ifndef MCU_TYPE + #define MCU_TYPE + #include "gd32f30x.h" +#endif + +// Update folder for fonts and icons +#ifndef UPDATE_DIR + #define UPDATE_DIR "TFT28" +#endif + +// Hardware version config +#ifndef HARDWARE_VERSION + #define HARDWARE_VERSION "GD_TFT28_V4.0" +#endif + +// USB Disk support +#ifndef USB_FLASH_DRIVE_SUPPORT + #define USB_FLASH_DRIVE_SUPPORT + #define USE_USB_FS + #define USE_USB_OTG_FS +#endif + +// SERIAL_PORT: communicating with host (Marlin, RRF etc...) +// SERIAL_PORT_X: communicating with other controllers (OctoPrint, ESP3D, other UART Touch Screen etc...) +#ifndef SERIAL_PORT + #define SERIAL_PORT _USART2 // default USART port + #define SERIAL_PORT_2 _USART3 + #define SERIAL_PORT_3 _USART1 + #define USART2_TX_PIN PD5 + #define USART2_RX_PIN PD6 + #define USART3_TX_PIN PD8 + #define USART3_RX_PIN PD9 + #define SERIAL_PORT_4 _UART4 +#endif + +#include "pin_MKS_TFT32_V1_4.h" + +#endif diff --git a/TFT/src/User/Variants/pin_MKS_TFT32_V1_4.h b/TFT/src/User/Variants/pin_MKS_TFT32_V1_4.h index d56251a26b..980c24ce2e 100644 --- a/TFT/src/User/Variants/pin_MKS_TFT32_V1_4.h +++ b/TFT/src/User/Variants/pin_MKS_TFT32_V1_4.h @@ -2,7 +2,10 @@ #define _PIN_MKS_TFT32_V1_4_H_ // modify to actual filename !!! // MCU type (STM32F10x, STM32F2xx, STM32F4xx) -#include "stm32f10x.h" +#ifndef MCU_TYPE + #define MCU_TYPE + #include "stm32f10x.h" +#endif // Portrait Mode support // Comment the following line in case the TFT variant supports Portrait Mode diff --git a/TFT/src/User/Variants/variants.h b/TFT/src/User/Variants/variants.h index 8863ed8450..aaea8629a8 100644 --- a/TFT/src/User/Variants/variants.h +++ b/TFT/src/User/Variants/variants.h @@ -71,6 +71,8 @@ #include "pin_MKS_TFT32L_V3_0.h" #elif defined(MKS_TFT35_V1_0) #include "pin_MKS_TFT35_V1_0.h" +#elif defined(MKS_GD_TFT28_V1_24) + #include "pin_MKS_GD_TFT28_V1_2-4.h" #endif #define LCD_ENCODER_SUPPORT (defined(LCD_ENCA_PIN) && defined(LCD_ENCB_PIN) && defined(LCD_BTN_PIN)) diff --git a/TFT/src/User/config.ini b/TFT/src/User/config.ini index 257c5f6bb7..3e6c94bd00 100644 --- a/TFT/src/User/config.ini +++ b/TFT/src/User/config.ini @@ -23,6 +23,8 @@ # MKS_TFT32_V1_3 / MKS_TFT32_V1_4 / MKS_TFT32L_V3_0 # MKS_TFT35_V1_0 # +# MKS_GD_TFT28_V1_2-4 +# # Firmware source: https://github.com/bigtreetech/BIGTREETECH-TouchScreenFirmware diff --git a/TFT/src/User/config_rrf.ini b/TFT/src/User/config_rrf.ini index 2eed6bc15f..f51b3f96b2 100644 --- a/TFT/src/User/config_rrf.ini +++ b/TFT/src/User/config_rrf.ini @@ -23,6 +23,8 @@ # MKS_TFT32_V1_3 / MKS_TFT32_V1_4 / MKS_TFT32L_V3_0 # MKS_TFT35_V1_0 # +# MKS_GD_TFT28_V1_2-4 +# # Firmware source: https://github.com/bigtreetech/BIGTREETECH-TouchScreenFirmware diff --git a/TFT/src/User/main.c b/TFT/src/User/main.c index 10ff93539c..c7778b415e 100644 --- a/TFT/src/User/main.c +++ b/TFT/src/User/main.c @@ -90,6 +90,11 @@ void InfoHost_HandleOkAck(int16_t target_tx_slots) int main(void) { + #if defined GD32F3XX + // Required due to enabling interrupt after vector table relocation + __enable_irq(); + #endif + SystemClockInit(); SCB->VTOR = VECT_TAB_FLASH; diff --git a/TFT/src/User/os_timer.c b/TFT/src/User/os_timer.c index 320944f090..d3aaa1f28b 100644 --- a/TFT/src/User/os_timer.c +++ b/TFT/src/User/os_timer.c @@ -11,7 +11,7 @@ volatile static OS_COUNTER os_counter = {0, 0}; void OS_InitTimerMs(void) { -#ifdef GD32F2XX +#if defined GD32F2XX || defined GD32F3XX nvic_irq_enable(TIMER6_IRQn, 2U, 0U); rcu_periph_clock_enable(RCU_TIMER6); @@ -38,7 +38,7 @@ void OS_InitTimerMs(void) #endif } -#ifdef GD32F2XX +#if defined GD32F2XX || defined GD32F3XX void TIMER6_IRQHandler(void) { if ((TIMER_INTF(TIMER6) & TIMER_INTF_UPIF) != 0) diff --git a/buildroot/boards/GD32F305VC_0x7000.json b/buildroot/boards/GD32F305VC_0x7000.json new file mode 100644 index 0000000000..cd21878ea7 --- /dev/null +++ b/buildroot/boards/GD32F305VC_0x7000.json @@ -0,0 +1,60 @@ +{ + "build": { + "core": "gd32", + "cpu": "cortex-m4", + "extra_flags": "-DGD32F3 -DGD32F305 -DGD32F30x -DGD32F30X_CL", + "f_cpu": "120000000L", + "mcu": "gd32f305vct6", + "spl_series": "GD32F30x", + "series": "GD32F305", + "hwids": [ + [ + "0x1EAF", + "0x0003" + ], + [ + "0x1EAF", + "0x0004" + ] + ], + "spl_sub_series": "CL" + }, + "debug": { + "jlink_device": "GD32F305VC", + "openocd_target": "stm32f1x", + "svd_path": "GD32F30x_CL.svd", + "default_tools": [ + "stlink" + ], + "openocd_extra_pre_target_args": [ + "-c", + "set CPUTAPID 0x2ba01477" + ] + }, + "frameworks": [ + "spl" + ], + "name": "GD32F305VC (64k RAM, 256k Flash)", + "upload": { + "disable_flushing": false, + "offset_address": "0x8007000", + "maximum_ram_size": 65536, + "maximum_size": 262144, + "protocol": "stlink", + "protocols": [ + "jlink", + "cmsis-dap", + "stlink", + "blackmagic", + "sipeed-rv-debugger", + "serial", + "gdlinkcli", + "dfu" + ], + "require_upload_port": true, + "use_1200bps_touch": false, + "wait_for_upload_port": false + }, + "url": "https://www.gigadevice.com/microcontroller/gd32f305vct6/", + "vendor": "GigaDevice" +} diff --git a/buildroot/ldscripts/gd32f30xxC_0x7000_iap.ld b/buildroot/ldscripts/gd32f30xxC_0x7000_iap.ld new file mode 100644 index 0000000000..9ddb3ffbc3 --- /dev/null +++ b/buildroot/ldscripts/gd32f30xxC_0x7000_iap.ld @@ -0,0 +1,147 @@ +/* + * + * Automatically generated file + * PlatformIO default linker script template for STM32 F1/F2/F3/F4/F7/L0/L1/L4 + * + */ + +/* Entry Point */ +ENTRY(Reset_Handler) + +/* Generate a link error if heap and stack don't fit into RAM */ +_Min_Heap_Size = 0x5000; /* required amount of heap */ +_Min_Stack_Size = 0x2000; /* required amount of stack */ + +/* Specify the memory areas */ +MEMORY +{ + FLASH (rx) : ORIGIN = 0x08007000, LENGTH = 256K - 28K + RAM (xrw) : ORIGIN = 0x20000000, LENGTH = 64K + MEMORY_B1 (rx) : ORIGIN = 0x60000000, LENGTH = 0K +} + +/* Highest address of the user mode stack */ +/* _estack = ALIGN(ORIGIN(RAM) + LENGTH(RAM) - 16 ,8); /* end of RAM */ +_estack = 0x20010000; /* end of RAM */ + +/* Define output sections */ +SECTIONS +{ + /* The startup code goes first into FLASH */ + .isr_vector : + { + . = ALIGN(4); + KEEP(*(.isr_vector)) /* Startup code */ + . = ALIGN(4); + } >FLASH + + /* The program code and other data goes into FLASH */ + .text : + { + . = ALIGN(4); + *(.text) /* .text sections (code) */ + *(.text*) /* .text* sections (code) */ + *(.rodata) /* .rodata sections (constants, strings, etc.) */ + *(.rodata*) /* .rodata* sections (constants, strings, etc.) */ + *(.glue_7) /* glue arm to thumb code */ + *(.glue_7t) /* glue thumb to arm code */ + + KEEP (*(.init)) + KEEP (*(.fini)) + + . = ALIGN(4); + _etext = .; /* define a global symbols at end of code */ + } >FLASH + + + .ARM.extab : { *(.ARM.extab* .gnu.linkonce.armextab.*) } >FLASH + .ARM : { + __exidx_start = .; + *(.ARM.exidx*) + __exidx_end = .; + } >FLASH + + .ARM.attributes : { *(.ARM.attributes) } > FLASH + + .preinit_array : + { + PROVIDE_HIDDEN (__preinit_array_start = .); + KEEP (*(.preinit_array*)) + PROVIDE_HIDDEN (__preinit_array_end = .); + } >FLASH + .init_array : + { + PROVIDE_HIDDEN (__init_array_start = .); + KEEP (*(SORT(.init_array.*))) + KEEP (*(.init_array*)) + PROVIDE_HIDDEN (__init_array_end = .); + } >FLASH + .fini_array : + { + PROVIDE_HIDDEN (__fini_array_start = .); + KEEP (*(.fini_array*)) + KEEP (*(SORT(.fini_array.*))) + PROVIDE_HIDDEN (__fini_array_end = .); + } >FLASH + + /* used by the startup to initialize data */ + _sidata = .; + + /* Initialized data sections goes into RAM, load LMA copy after code */ + .data : AT ( _sidata ) + { + . = ALIGN(4); + _sdata = .; /* create a global symbol at data start */ + *(.data) /* .data sections */ + *(.data*) /* .data* sections */ + + . = ALIGN(4); + _edata = .; /* define a global symbol at data end */ + } >RAM + + /* Uninitialized data section */ + . = ALIGN(4); + .bss : + { + /* This is used by the startup in order to initialize the .bss secion */ + _sbss = .; /* define a global symbol at bss start */ + __bss_start__ = _sbss; + *(.bss) + *(.bss*) + *(COMMON) + + . = ALIGN(4); + _ebss = .; /* define a global symbol at bss end */ + __bss_end__ = _ebss; + } >RAM + + PROVIDE ( end = _ebss ); + PROVIDE ( _end = _ebss ); + + /* User_heap_stack section, used to check that there is enough RAM left */ + ._user_heap_stack : + { + . = ALIGN(4); + . = . + _Min_Heap_Size; + . = . + _Min_Stack_Size; + . = ALIGN(4); + } >RAM + + /* MEMORY_bank1 section, code must be located here explicitly */ + /* Example: extern int foo(void) __attribute__ ((section (".mb1text"))); */ + .memory_b1_text : + { + *(.mb1text) /* .mb1text sections (code) */ + *(.mb1text*) /* .mb1text* sections (code) */ + *(.mb1rodata) /* read-only data (constants) */ + *(.mb1rodata*) + } >MEMORY_B1 + + /* Remove information from the standard libraries */ + /DISCARD/ : + { + libc.a ( * ) + libm.a ( * ) + libgcc.a ( * ) + } +} diff --git a/buildroot/scripts/gd32f30xxC_0x7000_iap.py b/buildroot/scripts/gd32f30xxC_0x7000_iap.py new file mode 100644 index 0000000000..014da9fae4 --- /dev/null +++ b/buildroot/scripts/gd32f30xxC_0x7000_iap.py @@ -0,0 +1,12 @@ +import os + +Import("env") + +# Relocate firmware from 0x08000000 to 0x08007000 +custom_ld_script = os.path.abspath("buildroot/ldscripts/gd32f30xxC_0x7000_iap.ld") + +for i, flag in enumerate(env["LINKFLAGS"]): + if "-Wl,-T" in flag: + env["LINKFLAGS"][i] = "-Wl,-T" + custom_ld_script + elif flag == "-T": + env["LINKFLAGS"][i + 1] = custom_ld_script diff --git a/platformio.ini b/platformio.ini index 7dbeec516c..6900f6577c 100644 --- a/platformio.ini +++ b/platformio.ini @@ -39,21 +39,23 @@ ;MKS_TFT32_V1_4_NOBL ;MKS_TFT32L_V3_0 ;MKS_TFT35_V1_0 +;MKS_GD_TFT28_V1_2-4 [platformio] src_dir = TFT boards_dir = buildroot/boards ;Build only Target - BIGTREE_TFT35_V3_0 -default_envs = BIGTREE_TFT35_V3_0 +default_envs = MKS_GD_TFT28_V1_2-4 ;Build all Targets -;default_envs = BIGTREE_TFT24_V1_1, BIGTREE_TFT28_V1_0, BIGTREE_TFT28_V3_0, BIGTREE_TFT35_V1_0, BIGTREE_TFT35_V1_1, BIGTREE_TFT35_V1_2, BIGTREE_TFT35_V2_0, BIGTREE_TFT35_V3_0, BIGTREE_TFT35_E3_V3_0, BIGTREE_TFT35_B1_V3_0, BIGTREE_TFT43_V3_0, BIGTREE_TFT50_V3_0, BIGTREE_TFT70_V3_0, BIGTREE_GD_TFT24_V1_1, BIGTREE_GD_TFT35_V2_0, BIGTREE_GD_TFT35_V3_0, BIGTREE_GD_TFT35_E3_V3_0, BIGTREE_GD_TFT35_B1_V3_0, BIGTREE_GD_TFT43_V3_0, BIGTREE_GD_TFT50_V3_0, BIGTREE_GD_TFT70_V3_0, MKS_TFT28_V3_0, MKS_TFT28_V4_0, MKS_TFT28_NEW_GENIUS, MKS_TFT32_V1_3, MKS_TFT32_V1_4, MKS_TFT32_V1_4_NOBL, MKS_TFT32L_V3_0, MKS_TFT35_V1_0 +;default_envs = BIGTREE_TFT24_V1_1, BIGTREE_TFT28_V1_0, BIGTREE_TFT28_V3_0, BIGTREE_TFT35_V1_0, BIGTREE_TFT35_V1_1, BIGTREE_TFT35_V1_2, BIGTREE_TFT35_V2_0, BIGTREE_TFT35_V3_0, BIGTREE_TFT35_E3_V3_0, BIGTREE_TFT35_B1_V3_0, BIGTREE_TFT43_V3_0, BIGTREE_TFT50_V3_0, BIGTREE_TFT70_V3_0, BIGTREE_GD_TFT24_V1_1, BIGTREE_GD_TFT35_V2_0, BIGTREE_GD_TFT35_V3_0, BIGTREE_GD_TFT35_E3_V3_0, BIGTREE_GD_TFT35_B1_V3_0, BIGTREE_GD_TFT43_V3_0, BIGTREE_GD_TFT50_V3_0, BIGTREE_GD_TFT70_V3_0, MKS_TFT28_V3_0, MKS_TFT28_V4_0, MKS_TFT28_NEW_GENIUS, MKS_TFT32_V1_3, MKS_TFT32_V1_4, MKS_TFT32_V1_4_NOBL, MKS_TFT32L_V3_0, MKS_TFT35_V1_0, MKS_GD_TFT28_V1_2-4 [common] default_src_filter = + - - - - - - - + - - ${json.default_src_filter} extra_scripts = pre:buildroot/scripts/pre_install_dependencies.py pre:buildroot/scripts/custom_filename.py @@ -144,6 +146,20 @@ build_flags = ${common.build_flags} -ITFT/src/User/Hal/STM32_USB_HOST_Library/Usr/inc -ITFT/src/User/Hal/STM32_USB_OTG_Driver/inc +[gd32f30x] +default_src_filter = ${common.default_src_filter} + + + + + + +build_flags = ${common.build_flags} + -ITFT/src/Libraries/cmsis/Core-CM4 + -ITFT/src/Libraries/cmsis/gd32f30x + -ITFT/src/Libraries/fwlib/gd32f30x + -ITFT/src/Libraries/fwlib/gd32f30x/inc + -ITFT/src/User/Hal/gd32f30x + -ITFT/src/User/Hal/STM32_USB_HOST_Library/Core/inc + -ITFT/src/User/Hal/STM32_USB_HOST_Library/Class/MSC/inc + -ITFT/src/User/Hal/STM32_USB_HOST_Library/Usr/inc + -ITFT/src/User/Hal/STM32_USB_OTG_Driver/inc + [json] default_src_filter = + build_flags = -ITFT/src/Libraries/json @@ -659,3 +675,28 @@ build_flags = ${stm32f4xx.build_flags} ${base64_png.build_flags} -DHARDWARE_SHORT="M35V10" -DMKS_TFT35_V1_0= -DMKS_TFT= + +# GigaDevice versions + +# +# MKS GD TFT28 V4.0 +# +[env:MKS_GD_TFT28_V1_2-4] +extends = common_gd32 +board = GD32F305VC_0X7000 +build_src_filter = ${gd32f30x.default_src_filter} ${base64_png.default_src_filter} +upload_protocol = stlink +debug_tool = stlink +extra_scripts = ${common.extra_scripts} + buildroot/scripts/gd32f30xxC_0x7000_iap.py +build_flags = ${gd32f30x.build_flags} ${base64_png.build_flags} + -DGD32F3XX= + -DHXTAL_VALUE=25000000ul + -DVECT_TAB_FLASH=0x08007000 + -DRAM_SIZE=64 ; Available RAM size in kbytes + ; -DBINARY_FILENAME="mkstft28evo" ; To override the default binary filename provided by -DHARDWARE + ; -DBINARY_DIRECTORY="mkstft28evo" ; To override the default release directory + -DHARDWARE="MKS_GD_TFT28_V1_2-4" + -DHARDWARE_SHORT="M28GDV2" + -DMKS_GD_TFT28_V1_24= + -DMKS_TFT=