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pc-nrfutil

Latest version License

nrfutil is a Python package that includes the nrfutil command line utility and the nordicsemi library.

Introduction

This application and its library offer the following features:

  • Device Firmware Update package generation
  • Cryptographic key generation, management and storage
  • Bootloader DFU settings generation and display
  • Device Firmware Update procedure over Bluetooth Low Energy
  • Device Firmware Update procedure over Thread
  • Device Firmware Update procedure over Zigbee

License

See the license file for details.

Versions

There are 2 different and incompatible DFU package formats:

  • legacy: used a simple structure and no security
  • modern: uses Google's protocol buffers for serialization and can be cryptographically signed

The DFU package format transitioned from legacy to modern in SDK 12.0. Depending on the SDK version that you are using you will need to select a release of this tool compatible with it:

  • Version 0.5.2 generates legacy firmware packages compatible with nRF SDK 11.0 and older
  • Versions 1.5.0 and later generate modern firmware packages compatible with nRF SDK 12.0 and newer
  • Versions 4.0.0 and later generate modern firmware packages compatible with nRF SDK 15.1 and newer
  • Versions 5.0.0 and later generate modern firmware packages compatible with nRF SDK 15.3 and newer

Note: In order to generate firmware images, compatible with nRF SDK 12.0 to nRF SDK 15.0, use --no-backup switch during generation of DFU settings.

Installing from PyPI

To install the latest published version from the Python Package Index simply type:

pip install nrfutil

This will also retrieve and install all additional required packages.

Note: Please refer to the pc-ble-driver-py PyPI installation note on Windows if you are running nrfutil on this operating system.

Note: When installing on macOS, you may need to add --ignore-installed six when running pip. See issue #79.

Note: To use the dfu ble, dfu thread, dfu zigbee or dfu ant option you will need to set up your boards to be able to communicate with your computer. You can find additional information here: Hardware setup.

Downloading precompiled Windows executable

A Windows standalone executable (.exe) of nrfutil is available for download on the Releases page.

Running and installing from source

You will need to clone the present repository first to run or install nrfutil from source.

Prerequisites

To install nrfutil from source the following prerequisites must be satisfied:

Additionally, if you want to generate a self-contained executable:

  • PyInstaller: pip install pyinstaller

IMPORTANT NOTE: py2exe is no longer supported and you must use PyInstaller instead to generate an executable

Requirements

To obtain and install all required Python packages simply run:

pip install -r requirements.txt

Running from source

You can run the program directly without installing it by executing:

python nordicsemi/__main__.py

Installing from source

To install the library to the local Python site-packages and script folder:

python setup.py install

To generate a self-contained executable version of the utility:

pyinstaller nrfutil.spec

// on Linux prefix with the full path:
pyinstaller /full/path/to/nrfutil.spec

Note: Some anti-virus programs will stop PyInstaller from executing correctly when it modifies the executable file.

Note: Please refer to the pc-ble-driver-py PyPI installation note on Windows if you are running nrfutil on this operating system.

Note: To use the dfu ble, dfu thread or dfu zigbee option you will need to set up your boards to be able to communicate with your computer. You can find additional information here: Hardware setup.

Usage

To get info on usage of nrfutil:

nrfutil --help

Commands

There are several commands that you can use to perform different tasks related to DFU:

pkg

This set of commands allow you to generate a package for Device Firmware Update.

generate

Generate a package (.zip file) that you can later use with a mobile application or any other means to update the firmware of an nRF5x IC over the air. This command takes several options that you can list using:

nrfutil pkg generate --help

Below is an example of the generation of a package in debug mode from an application's app.hex file:

nrfutil pkg generate --debug-mode --application app.hex --key-file key.pem app_dfu_package.zip

When using debug mode you don't need to specify versions for hardware and firmware, so you can develop without having to worry about versioning your application. If you want to generate a package for production, you will need to do so without the --debug-mode parameter and specify the versions:

nrfutil pkg generate --hw-version 51 --sd-req 0x80 --application-version 4 --application app.hex --key-file key.pem app_dfu_package.zip

The option --hw-version must correspond to the nRF5x IC used, i.e. 51 for nRF51x22 ICs and 52 for nRF52xxx ICs

The following table lists the FWIDs which are used to identify the SoftDevice versions both included in the package and installed on the target device to perform the required SoftDevice version check:

SoftDevice FWID (sd-req)
s112_nrf52_6.0.0 0xA7
s112_nrf52_6.1.0 0xB0
s112_nrf52_6.1.1 0xB8
s130_nrf51_1.0.0 0x67
s130_nrf51_2.0.0 0x80
s132_nrf52_2.0.0 0x81
s130_nrf51_2.0.1 0x87
s132_nrf52_2.0.1 0x88
s212_nrf52_2.0.1 0x8D
s332_nrf52_2.0.1 0x8E
s132_nrf52_3.0.0 0x8C
s132_nrf52_3.1.0 0x91
s132_nrf52_4.0.0 0x95
s132_nrf52_4.0.2 0x98
s132_nrf52_4.0.3 0x99
s132_nrf52_4.0.4 0x9E
s132_nrf52_4.0.5 0x9F
s212_nrf52_4.0.5 0x93
s332_nrf52_4.0.5 0x94
s132_nrf52_5.0.0 0x9D
s212_nrf52_5.0.0 0x9C
s332_nrf52_5.0.0 0x9B
s132_nrf52_5.1.0 0xA5
s132_nrf52_6.0.0 0xA8
s132_nrf52_6.1.0 0xAF
s132_nrf52_6.1.1 0xB7
s140_nrf52_6.0.0 0xA9
s140_nrf52_6.1.0 0xAE
s140_nrf52_6.1.1 0xB6
s212_nrf52_6.1.1 0xBC
s332_nrf52_6.1.1 0xBA
s340_nrf52_6.1.1 0xB9

Note: The Thread and Zigbee stacks don't use a SoftDevice but --sd-req option is required for compatibility reasons. You can provide any value for the option as it is ignored during DFU.

Not all combinations of Bootloader, SoftDevice and Application are possible when generating a package. The table below summarizes the support for different combinations.

The following conventions are used on the table:

  • BL: Bootloader
  • SD: SoftDevice
  • APP: Application
Combination Supported Notes
BL Yes See note 3 below
SD Yes See note 1 below
APP Yes
BL + SD Yes
BL + APP No Create two .zip packages instead
BL + SD + APP Yes See note 2 below
SD + APP Yes See notes 1 and 2 below

Note 1: SD must be of the same Major Version as the old BL may not be compatible with the new SD.

Note 2: When updating SD (+ BL) + APP the update is done in 2 following connections, unless a custom bootloader is used. First the SD (+ BL) is updated, then the bootloader will disconnect and the (new) BL will start advertising. Second connection to the bootloader will update the APP. However, the two SDs may have different IDs. The first update requires --sd-req to be set to the ID of the old SD. Update of the APP requires the ID of the new SD. In that case the new ID must be set using --sd-id parameter. This parameter is was added in nrfutil 3.1.0 and is required since 3.2.0 in case the package should contain SD (+ BL) + APP. Also, since version 3.2.0 the new ID is copied to --sd-req list so that in case of a link loss during APP update the DFU process can be restarted. In that case the new SD would overwrite itself, so --sd-req must contain also the ID of the new SD.

Note 3: When creating update packages of bootloaders compiled from nRF5 SDK 15.3.0 and higher, nrfutil version 5.0.0 must be used. This is because of changes to the bootloader projects in the nRF5 SDK, and if an old nrfutil version is used the size of the generated packages will be too large.

Boot validation for a SD or APP update can be activated by setting the --sd-boot-validation or --app-boot-validation to the preferred validation method. When boot validation is set, the bootloader will store the validation data (signature, hash or checksum) of the SD and/or APP in the bootloader setting page and verify the firmware in flash with the validation data on every boot. This is only supported by bootloaders using bootloader settings version 2, and is supported for both package and settings generation. See 'settings' for more information on bootloader settings versions.

Update packages of external applications, e.g. updates that are intended for a third party, can be generated by setting the --external-app option. When this option is set the receiving device will store the received update, but not activate it. Note: This functionality is experimental in the nRF5 SDK and not yet used in any examples.

The boolean option --zigbee enables the generation of Zigbee update file in addition to the zip package. The following example demonstrates the generation of such update file:

nrfutil pkg generate --hw-version 52 --sd-req 0 --application-version 0x01020101 --application nrf52840_xxaa.hex --key-file ../priv.pem app_dfu_package.zip --zigbee True --manufacturer-id 0xCAFE --image-type 0x1234 --comment good_image

Note 4: The generated Zigbee update file is named according to the recommendation of the Zigbee Specification (Zigbee Cluster Library Specification 11.5 - Zigbee Document 07-5123-06), so the user doesn't provide the name of the Update file.

display

Use this option to display the contents of a DFU package in a .zip file.

nrfutil pkg display package.zip

dfu

This set of commands allow you to perform an actual firmware update over a serial, BLE, Thread, Zigbee or ANT connection.

Note: When using Homebrew Python on macOS, you may encounter an error: Fatal Python error: PyThreadState_Get: no current thread Abort trap: 6. See issue #46.

ant

Perform a full DFU procedure over an ANT connection. This command takes several options that you can list using:

nrfutil dfu ant --help

Below is an example of the execution of a DFU procedure of the file generated above over ANT using an nRF52 connectivity IC connected to COM3:

nrfutil dfu ant -pkg app_dfu_package.zip --port 0
ble

Perform a full DFU procedure over a BLE connection. This command takes several options that you can list using:

nrfutil dfu ble --help

Below is an example of the execution of a DFU procedure of the file generated above over BLE using an nRF52 connectivity IC connected to COM3, where the remote BLE device to be upgraded is called "MyDevice":

nrfutil dfu ble -ic NRF52 -pkg app_dfu_package.zip -p COM3 -n "MyDevice" -f

The -f option instructs nrfutil to actually program the board connected to COM3 with the connectivity software required to operate as a serialized SoftDevice. Use with caution as this will overwrite the contents of the IC's flash memory.

Thread

Note: DFU over Thread is experimental

Perform a full DFU procedure over a Thread. This command takes several options that you can list using:

nrfutil dfu thread --help

Below is an example of the execution of a DFU procedure on all devices in a Thread network using a file generated above and a connectivity IC connected to COM3.

nrfutil dfu ble -pkg app_dfu_package.zip -p COM3 -f

The -f option instructs nrfutil to actually program the board connected to COM3 with the connectivity software required to operate as a network co-processor (NCP). Use with caution as this will overwrite the contents of the IC's flash memory.

Zigbee

Note: DFU over Zigbee OTA is experimental

Perform a full DFU procedure over Zigbee network using ZCL OTA Upgrade Cluster. This command takes several options that you can list using:

nrfutil dfu zigbee --help

Below is an example of the execution of a DFU procedure using a file generated above using a OTA Upgrade server deployed on a DK with a OTA Upgrade Server operating on the 802.15.4 channel.

nrfutil dfu zigbee -f CAFE-1234-good_image.zigbee -snr 683604699 -chan 20
Serial

Perform a full DFU procedure over a UART serial line. The DFU target shall be configured to use some of its digital I/O pins as UART.

Please note that most Nordic development kit boards have an interface MCU which transparently maps digital pins 6 and 8 into a CDC ACM USB interface (A.K.A. "USB virtual serial port"). Use serial DFU mode when communicating with a nRF chip in this way. Otherwise you may connect the digital I/O pins to an RS232 connector.

This command takes several options that you can list using:

nrfutil dfu serial --help

Below is an example of the execution of a DFU procedure of the file generated above over COM3:

nrfutil dfu serial -pkg app_dfu_package.zip -p COM3

Alternatively, the serial number of a connected device can be specified:

nrfutil dfu serial -pkg app_dfu_package.zip -snr 00FEFEAB1234
usb-serial

Perform a full DFU procedure over a CDC ACM USB connection (A.K.A. "USB virtual serial port"). The DFU target shall be a chip with USB pins (i.e. nRF52840), and shall be running a bootloader enabling a USB-CDC interface.

In the case of the nRF52840 development kit board, the usb-serial DFU mode is used when communicating with the board through the female USB port marked "nRF USB", which is wired to the USB pins in the nRF chip.

nrfutil dfu usb-serial --help

Below is an example of the execution of a DFU procedure of the file generated above over COM3:

nrfutil dfu usb-serial -pkg app_dfu_package.zip -p COM3

Alternatively, the serial number of a connected device can be specified:

nrfutil dfu usb-serial -pkg app_dfu_package.zip -snr 00FEFEAB1234

keys

This set of commands allow you to generate and display cryptographic keys used to sign and verify DFU packages.

generate

Generate a private (signing) key and store it in a file in PEM format. The following will generate a private key and store it in a file named private.pem:

nrfutil keys generate private.pem
display

Display a private (signing) or public (verification) key from a PEM file taken as input. This command takes several options that you can list using:

nrfutil keys display --help

Below is an example of displaying a public key in code format from the key file generated above:

nrfutil keys display --key pk --format code private.pem

settings

This set of commands allow you to generate and display Bootloader DFU settings, which must be present on the last page of available flash memory for the bootloader to function correctly.

After SDK 15.1 release, there is an additional page used in order to backup Bootloader DFU settings during value updates. The backup is stored in a flash page before the DFU settings. As a result, the generated hex file will contain a copy of DFU setting in order to keep settings and their backup consistent.

In order to generate DFU setting page without backup (compatibility mode), please use --no-backup switch.

generate

Generate a flash page of Bootloader DFU settings and store it in a file in .hex format. This command takes several options that you can list using:

nrfutil settings generate --help

You can generate a .hex file with Bootloader DFU settings matching a particular flashed application by providing the application .hex to nrfutil:

nrfutil settings generate --family NRF52 --application app.hex --application-version 3 --bootloader-version 2 --bl-settings-version 1 sett.hex

The --family setting depends on the nRF IC that you are targeting:

nRF IC Family Setting
nRF51xxx NRF51
nRF52832 NRF52
nRF52832-QFAB NRF52QFAB
nRF52810 NRF52810
nRF52840 NRF52840

The --bl-settings-version depends on the SDK version used. Check the following table to find out which version to use:

SDK Version BL Settings Version
12.0 - 1
15.3.0 - 2

The Bootloader DFU settings version supported and used by the SDK you are using can be found in nrf_dfu_types.h in the bootloader library. Even though bootloaders compiled from nRF5 SDK 15.3.0 and higher only use version 2, they can be configured to support settings pages of version 1. If a new bootloader boots with a version 1 settings page, the bootloader will translate the settings page to version 2 before booting. When using settings page version 2, boot validation for SD and APP can be generated with the settings page using the --sd-boot-validation and --app-boot-validation in the same way as for DFU packages.

display

Use this option to display the contents of the Bootloader DFU settings present in a .hex file. The .hex file might be a full dump of the IC's flash memory, obtained with nrfjprog:

nrfjprog --readcode flash_dump.hex

After you have obtained the contents of the flash memory, use nrfutil to decode the Bootloader DFU settings section:

nrfutil settings display flash_dump.hex

Note: nrfutil will autodetect the IC family when displaying the contents of the Bootloader DFU settings.

version

This command displays the version of nrfutil.

zigbee

Use this command to issue some zigbee-only related commands. Currently only generation of production config is supported.

production_config

Use this option to generate the production config .hex file out of the production config description in YAML format. You can provide the offset where the hex should be located.

nrfutil zigbee production_config config_description.yaml config_hex.hex --offset 0xFC000

Init Packet customisation

If you want to modify the Init Packet, which is the packet that contains all of the metadata and that is sent before the actual firmware images, you will need to recompile the Google Protocol Buffers .proto file and adapt nrfutil itself.

Note that if you modify the format of the Init Packet, you will need to do the same in the bootloader, meaning that you will have to recompile it to adapt it to the new format.

Modifying the Protocol Buffers file

Edit dfu-cc.proto and modify the Init packet to suit your needs. Additional information on the format of .proto files can be found here.

Protocol Buffers versions

Both versions 2 and 3 of Protocol Buffers library can be used, but make sure that the language version is version 2, a.k.a proto2. A new syntax keyword was added in Protocol Buffers v3 to specify language version of a .proto file. If syntax = "proto3"; is not included, then proto2 language version will be used.

Compiling the Protocol Buffers file

After you have modified the .proto file you will need to compile it to generate the corresponding Python file that will be then usable from the nrfutil source code. To do that install the Protocol Buffers compiler from here and then execute:

$ protoc --python_out=<dest_folder> dfu-cc.proto

Where <dest_folder> is an empty folder where the Protocol Buffers compiler will write its output.

After compilation is complete, a file named <dest_folder>/dfu_cc_pb2.py will be created. You can then use this file to overwrite the one in nordicsemi/dfu to start using the new Init Packet format.

Adapting nrfutil to the new Init Packet format

Once you have the customized dfu_cc_pb2.py file in your repository you will need to adapt the actual tool to conform to the new format you have designed. To do that you will need to alter several of the Python source files included, as well as potentially having to modify the command-line options to fit the contents of your Init Packet. Refer to init_packet_pb.py and package.py for the contents themselves, and to __main__.py for the command-line options.

Adapting the bootloader to the new Init Packet format

Since you have modified the Init Packet format you will have to do the same with the embedded bootloader, which can be found in the Nordic nRF5 SDK under examples/dfu/bootloader_secure.

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