This project is used to develop applications for the STM32 - ST's ARM Cortex-Mx MCUs. It uses cmake and GCC, along with newlib (libc), STM32CubeMX or ChibiOS.
- cmake >= 3.0
- GCC toolchain with newlib (optional).
- STM32CubeMX package for STM32F0, STM32F1, STM32F2, STM32F3, STM32F4, STM32F7, STM32L0, families.
- CMake common toolchain file, that configures cmake to use the arm toolchain.
- CMake toolchain file that can generate a tunable linker script
- CMake STM32 family-specific toolchain file, that configures family-specific parameters.
- CMake modules to find and configure CMSIS and STM32HAL components.
- CMake modules to find and configure ChibiOS components.
- CMake project template.
stm32-blinky
- blink LED using timers and PWM.stm32-newlib
- show date using uart and libc functions from newlib.stm32-chibios
- blink led using ChibiOS/NIL.
First of all you need to configure toolchain and libraries, you can do this by editing gcc_stm32.cmake
or, preferably, by passing it through the command line.
TOOLCHAIN_PREFIX
- where toolchain is located, default:/usr
TARGET_TRIPLET
- toolchain target triplet, default:arm-none-eabi
STM32_CHIP
- STM32 device code, e.g.STM32F407VG
orSTM32F103VG
STM32_FAMILY
- STM32 family (F0, F1, F4, etc.) currently, F0, F1, F2, F4 and F7 families are supported. Note: IfSTM32_CHIP
variable is set,STM32_FAMILY
is optional.STM32Cube_DIR
- path to STM32CubeMX directory default:/opt/STM32Cube_FW_F0_V1.4.0 /opt/STM32Cube_FW_F1_V1.1.0 /opt/STM32Cube_FW_F2_V1.1.0 /opt/STM32Cube_FW_F4_V1.6.0
To use the toolchain, you'll need to copy contents of the cmake
folder into cmake's modules path, or use the CMAKE_MODULE_PATH
variable.
cmake -DSTM32_CHIP=<chip> -DCMAKE_TOOLCHAIN_FILE=<path_to_gcc_stm32.cmake> -DCMAKE_BUILD_TYPE=Debug <path_to_source_dir>
Where <chip>
is the STM32 chip name (e.g. STM32F100C8
, STM32F407IG
).
This command will generate Makefile for project. For a Release
build, change CMAKE_BUILD_TYPE
.
The script will try to detect chip parameters automatically from the chip name (type, flash/ram size), or, you can set these directly with these variables:
STM32_CHIP_TYPE
- family-dependent chip type. Global variableSTM32_CHIP_TYPES
contains list of valid types for current family (e.g207xG
)STM32_FLASH_SIZE
- chip flash size (e.g. 64K)STM32_RAM_SIZE
- chip RAM size (e.g. 4K)
cmake -DSTM32_CHIP=<chip> -DCMAKE_TOOLCHAIN_FILE=<path_to_gcc_stm32.cmake> -DCMAKE_BUILD_TYPE=Debug -G "Eclipse CDT4 - Unix Makefiles" <path_to_source_dir>
- To build elf file:
make
- To build .hex:
make <project name>.hex
- To build .bin:
make <project name>.bin
You can use cmake variables below to tune the generated linker. To specify a custom linker script, set STM32_LINKER_SCRIPT
(you can still use these variables in your custom script).
STM32_FLASH_ORIGIN
- Start address of flash (default: 0x08000000)STM32_RAM_ORIGIN
- Start address of RAM (default: 0x20000000)STM32_FLASH_SIZE
- Flash size (default: from chip name)STM32_RAM_SIZE
- RAM size (default: from chip name)STM32_MIN_STACK_SIZE
- Minimum stack size for error detection at link-time (default: 512 bytes)STM32_MIN_HEAP_SIZE
- Minimum heap size for error detection at link-time (default: 0 bytes)STM32_CCRAM_ORIGIN
- Start address of Core-Coupled RAM (default: 0x10000000)STM32_CCRAM_SIZE
- Core-Coupled RAM size (default: 64 KiB)
STM32_GET_CHIP_TYPE(CHIP CHIP_TYPE)
- gets chip type from chip name.STM32_GET_CHIP_PARAMETERS(CHIP FLASH_SIZE RAM_SIZE CCRAM_SIZE)
- gets chip ram/flash size from chip name.STM32_SET_FLASH_PARAMS(TARGET ...)
- sets chip flash/ram parameters for target.STM32_SET_CHIP_DEFINITIONS(TARGET CHIP_TYPE)
- sets chip family and type-specific compiler flags for target.STM32_SET_TARGET_PROPERTIES(TARGET)
- sets all needed parameters and compiler flags for target.STM32_GENERATE_LIBRARIES(NAME SOURCES LIBRARIES)
- generates libraries for all chip types in family. Resulting libraries stored in LIBRARIES and have names in ${NAME}${FAMILY}${CHIP_TYPE} format.
This project also supports ChibiOS v3.x.x and ChibiOS v16.x.x (both nil and rt kernels).
CMake modules for ChibiOS can find specified ChibiOS components using the COMPONENTS directive.
See project stm32-chibios
for example usage.