Signing Binaries
The west sign
extension command can be used to
sign a Zephyr application binary for consumption by a bootloader using an
external tool. In some configurations, west sign
is also used to invoke
an external, post-processing tool that “stitches” the final components of
the image together. Run west sign -h
for command line help.
MCUboot / imgtool
The Zephyr build system has special support for signing binaries for use with
the MCUboot bootloader using the imgtool program provided by its
developers. You can both build and sign this type of application binary in one
step by setting some Kconfig options. If you do, west flash
will use the
signed binaries.
If you use this feature, you don’t need to run west sign
yourself; the
build system will do it for you.
Here is an example workflow, which builds and flashes MCUboot, as well as the
Hello World application for chain-loading by MCUboot. Run these commands
from the zephyrproject
workspace you created in the
Getting Started Guide.
west build -b YOUR_BOARD bootloader/mcuboot/boot/zephyr -d build-mcuboot
west build -b YOUR_BOARD zephyr/samples/hello_world -d build-hello-signed -- \
-DCONFIG_BOOTLOADER_MCUBOOT=y \
-DCONFIG_MCUBOOT_SIGNATURE_KEY_FILE=\"bootloader/mcuboot/root-rsa-2048.pem\"
west flash -d build-mcuboot
west flash -d build-hello-signed
Notes on the above commands:
YOUR_BOARD
should be changed to match your boardThe
CONFIG_MCUBOOT_SIGNATURE_KEY_FILE
value is the insecure default provided and used by by MCUboot for development and testingYou can change the
hello_world
application directory to any other application that can be loaded by MCUboot, such as the SMP Server Sample
For more information on these and other related configuration options, see:
CONFIG_BOOTLOADER_MCUBOOT
: build the application for loading by MCUbootCONFIG_MCUBOOT_SIGNATURE_KEY_FILE
: the key file to use withwest sign
. If you have your own key, change this appropriatelyCONFIG_MCUBOOT_EXTRA_IMGTOOL_ARGS
: optional additional command line arguments forimgtool
CONFIG_MCUBOOT_GENERATE_CONFIRMED_IMAGE
: also generate a confirmed image, which may be more useful for flashing in production environments than the OTA-able default imageOn Windows, if you get “Access denied” issues, the recommended fix is to run
pip3 install imgtool
, then retry with a pristine build directory.
If your west flash
runner uses an image format
supported by imgtool, you should see something like this on your device’s
serial console when you run west flash -d build-mcuboot
:
*** Booting Zephyr OS build zephyr-v2.3.0-2310-gcebac69c8ae1 ***
[00:00:00.004,669] <inf> mcuboot: Starting bootloader
[00:00:00.011,169] <inf> mcuboot: Primary image: magic=unset, swap_type=0x1, copy_done=0x3, image_ok=0x3
[00:00:00.021,636] <inf> mcuboot: Boot source: none
[00:00:00.027,313] <wrn> mcuboot: Failed reading image headers; Image=0
[00:00:00.035,064] <err> mcuboot: Unable to find bootable image
Then, you should see something like this when you run west flash -d
build-hello-signed
:
*** Booting Zephyr OS build zephyr-v2.3.0-2310-gcebac69c8ae1 ***
[00:00:00.004,669] <inf> mcuboot: Starting bootloader
[00:00:00.011,169] <inf> mcuboot: Primary image: magic=unset, swap_type=0x1, copy_done=0x3, image_ok=0x3
[00:00:00.021,636] <inf> mcuboot: Boot source: none
[00:00:00.027,374] <inf> mcuboot: Swap type: none
[00:00:00.115,142] <inf> mcuboot: Bootloader chainload address offset: 0xc000
[00:00:00.123,168] <inf> mcuboot: Jumping to the first image slot
*** Booting Zephyr OS build zephyr-v2.3.0-2310-gcebac69c8ae1 ***
Hello World! nrf52840dk_nrf52840
Whether west flash
supports this feature depends on your runner. The
nrfjprog
and pyocd
runners work with the above flow. If your runner
does not support this flow and you would like it to, please send a patch or
file an issue for adding support.
Extending signing externally
The signing script used when running west flash
can be extended or replaced
to change features or introduce different signing mechanisms. By default with
MCUboot enabled, signing is setup by the cmake/mcuboot.cmake
file in
Zephyr which adds extra post build commands for generating the signed images.
The file used for signing can be replaced by adjusting the SIGNING_SCRIPT
property on the zephyr_property_target, ideally done by a module using:
if(CONFIG_BOOTLOADER_MCUBOOT)
set_target_properties(zephyr_property_target PROPERTIES SIGNING_SCRIPT ${CMAKE_CURRENT_LIST_DIR}/custom_signing.cmake)
endif()
This will include the custom signing CMake file instead of the default Zephyr one when projects are built with MCUboot signing support enabled. The base Zephyr MCUboot signing file can be used as a reference for creating a new signing system or extending the default behaviour.
rimage
rimage configuration uses a different approach that does not rely on Kconfig or CMake but on west config instead, similar to Permanent CMake Arguments.
Signing involves a number of “wrapper” scripts stacked on top of each other: west
flash
invokes west build
which invokes cmake
and ninja
which invokes
west sign
which invokes imgtool
or rimage. As long as the signing
parameters desired are the default ones and fairly static, these indirections are
not a problem. On the other hand, passing imgtool
or rimage
options through
all these layers can causes issues typical when the layers don’t abstract
anything. First, this usually requires boilerplate code in each layer. Quoting
whitespace or other special characters through all the wrappers can be
difficult. Reproducing a lower west sign
command to debug some build-time issue
can be very time-consuming: it requires at least enabling and searching verbose
build logs to find which exact options were used. Copying these options from the
build logs can be unreliable: it may produce different results because of subtle
environment differences. Last and worst: new signing feature and options are
impossible to use until more boilerplate code has been added in each layer.
To avoid these issues, rimage
parameters can bet set in west config
instead. Here’s a workspace/.west/config
example:
[sign]
# Not needed when invoked from CMake
tool = rimage
[rimage]
# Quoting is optional and works like in Unix shells
# Not needed when rimage can be found in the default PATH
path = "/home/me/zworkspace/build-rimage/rimage"
# Not needed when using the default development key
extra-args = -i 4 -k 'keys/key argument with space.pem'
In order to support quoting, values are parsed by Python’s shlex.split()
like in
One-Time CMake Arguments.
The extra-args
are passed directly to the rimage
command. The example
above has the same effect as appending them on command line after --
like this:
west sign --tool rimage -- -i 4 -k 'keys/key argument with space.pem'
. In case
both are used, the command-line arguments go last.