Sysbuild (System build)
Sysbuild is a higher-level build system that can be used to combine multiple other build systems together. It is a higher-level layer that combines one or more Zephyr build systems and optional additional build systems into a hierarchical build system.
For example, you can use sysbuild to build a Zephyr application together with the MCUboot bootloader, flash them both onto your device, and debug the results.
Sysbuild works by configuring and building at least a Zephyr application and, optionally, as many additional projects as you want. The additional projects can be either Zephyr applications or other types of builds you want to run.
Like Zephyr’s build system, sysbuild is written in CMake and uses Kconfig.
Definitions
The following are some key concepts used in this document:
- Single-image build
When sysbuild is used to create and manage just one Zephyr application’s build system.
- Multi-image build
When sysbuild is used to manage multiple build systems. The word “image” is used because your main goal is usually to generate the binaries of the firmware application images from each build system.
- Domain
Every Zephyr CMake build system managed by sysbuild.
- Multi-domain
When more than one Zephyr CMake build system (domain) is managed by sysbuild.
Architectural Overview
This figure is an overview of sysbuild’s inputs, outputs, and user interfaces:
The following are some key sysbuild features indicated in this figure:
You can run sysbuild either with west build or directly via
cmake
.You can use sysbuild to generate application images from each build system, shown above as ELF, BIN, and HEX files.
You can configure sysbuild or any of the build systems it manages using various configuration variables. These variables are namespaced so that sysbuild can direct them to the right build system. In some cases, such as the
BOARD
variable, these are shared among multiple build systems.Sysbuild itself is also configured using Kconfig. For example, you can instruct sysbuild to build the MCUboot bootloader, as well as to build and link your main Zephyr application as an MCUboot-bootable image, using sysbuild’s Kconfig files.
Sysbuild integrates with west’s Building, Flashing and Debugging commands. It does this by managing the Flash and debug runners, and specifically the
runners.yaml
files that each Zephyr build system will contain. These are packaged into a global view of how to flash and debug each build system in adomains.yaml
file generated and managed by sysbuild.Build names are prefixed with the target name and an underscore, for example the sysbuild target is prefixed with
sysbuild_
and if MCUboot is enabled as part of sysbuild, it will be prefixed withmcuboot_
. This also allows for running things like menuconfig with the prefix, for example (if using ninja)ninja sysbuild_menuconfig
to configure sysbuild or (if using make)make mcuboot_menuconfig
.
Building with sysbuild
As mentioned above, you can run sysbuild via west build
or cmake
.
Here is an example. For details, see Sysbuild (multi-domain builds) in
the west build documentation
.
west build -b reel_board --sysbuild samples/hello_world
Tip
To configure west build
to use --sysbuild
by default from now on,
run:
west config build.sysbuild True
Since sysbuild supports both single- and multi-image builds, this lets you use sysbuild all the time, without worrying about what type of build you are running.
To turn this off, run this before generating your build system:
west config build.sysbuild False
To turn this off for just one west build
command, run:
west build --no-sysbuild ...
Here is an example using CMake and Ninja.
cmake -Bbuild -GNinja -DBOARD=reel_board -DAPP_DIR=samples/hello_world share/sysbuild
ninja -Cbuild
To use sysbuild directly with CMake, you must specify the sysbuild
project as the source folder, and give -DAPP_DIR=<path-to-sample>
as
an extra CMake argument. APP_DIR
is the path to the main Zephyr
application managed by sysbuild.
Configuration namespacing
When building a single Zephyr application without sysbuild, all CMake cache
settings and Kconfig build options given on the command line as
-D<var>=<value>
or -DCONFIG_<var>=<value>
are handled by the Zephyr
build system.
However, when sysbuild combines multiple Zephyr build systems, there could be Kconfig settings exclusive to sysbuild (and not used by any of the applications). To handle this, sysbuild has namespaces for configuration variables. You can use these namespaces to direct settings either to sysbuild itself or to a specific Zephyr application managed by sysbuild using the information in these sections.
The following example shows how to build Hello World with MCUboot enabled, applying to both images debug optimizations:
west build -b reel_board --sysbuild samples/hello_world -- -DSB_CONFIG_BOOTLOADER_MCUBOOT=y -DCONFIG_DEBUG_OPTIMIZATIONS=y -Dmcuboot_CONFIG_DEBUG_OPTIMIZATIONS=y
cmake -Bbuild -GNinja -DBOARD=reel_board -DAPP_DIR=samples/hello_world -DSB_CONFIG_BOOTLOADER_MCUBOOT=y -DCONFIG_DEBUG_OPTIMIZATIONS=y -Dmcuboot_CONFIG_DEBUG_OPTIMIZATIONS=y share/sysbuild
ninja -Cbuild
See the following subsections for more information.
CMake variable namespacing
CMake variable settings can be passed to CMake using -D<var>=<value>
on the
command line. You can also set Kconfig options via CMake as
-DCONFIG_<var>=<value>
or -D<namespace>_CONFIG_<var>=<value>
.
Since sysbuild is the entry point for the build system, and sysbuild is written in CMake, all CMake variables are first processed by sysbuild.
Sysbuild creates a namespace for each domain. The namespace prefix is the domain’s application name. See Adding Zephyr applications to sysbuild for more information.
To set the variable <var>
in the namespace <namespace>
, use this syntax:
-D<namespace>_<var>=<value>
For example, to set the CMake variable FOO
in the my_sample
application
build system to the value BAR
, run the following commands:
west build --sysbuild ... -- -Dmy_sample_FOO=BAR
cmake -Dmy_sample_FOO=BAR ...
Kconfig namespacing
To set the sysbuild Kconfig option <var>
to the value <value>
, use this syntax:
-DSB_CONFIG_<var>=<value>
In the previous example, SB_CONFIG
is the namespace prefix for sysbuild’s Kconfig
options.
To set a Zephyr application’s Kconfig option instead, use this syntax:
-D<namespace>_CONFIG_<var>=<value>
In the previous example, <namespace>
is the application name discussed above in
CMake variable namespacing.
For example, to set the Kconfig option FOO
in the my_sample
application
build system to the value BAR
, run the following commands:
west build --sysbuild ... -- -Dmy_sample_CONFIG_FOO=BAR
cmake -Dmy_sample_CONFIG_FOO=BAR ...
Tip
When no <namespace>
is used, the Kconfig setting is passed to the main
Zephyr application my_sample
.
This means that passing -DCONFIG_<var>=<value>
and
-Dmy_sample_CONFIG_<var>=<value>
are equivalent.
This allows you to build the same application with or without sysbuild using the same syntax for setting Kconfig values at CMake time. For example, the following commands will work in the same way:
west build -b <board> my_sample -- -DCONFIG_FOO=BAR
west build -b <board> --sysbuild my_sample -- -DCONFIG_FOO=BAR
Sysbuild flashing using west flash
You can use west flash to flash applications with sysbuild.
When invoking west flash
on a build consisting of multiple images, each
image is flashed in sequence. Extra arguments such as --runner jlink
are
passed to each invocation.
For more details, see Multi-domain flashing.
Sysbuild debugging using west debug
You can use west debug
to debug the main application, whether you are using sysbuild or not.
Just follow the existing west debug guide to debug the main sample.
To debug a different domain (Zephyr application), such as mcuboot
, use
the --domain
argument, as follows:
west debug --domain mcuboot
For more details, see Multi-domain debugging.
Building a sample with MCUboot
Sysbuild supports MCUboot natively.
To build a sample like hello_world
with MCUboot,
enable MCUboot and build and flash the sample as follows:
west build -b reel_board --sysbuild samples/hello_world -- -DSB_CONFIG_BOOTLOADER_MCUBOOT=y
cmake -Bbuild -GNinja -DBOARD=reel_board -DAPP_DIR=samples/hello_world -DSB_CONFIG_BOOTLOADER_MCUBOOT=y share/sysbuild
ninja -Cbuild
This builds hello_world
and mcuboot
for the reel_board
, and then
flashes both the mcuboot
and hello_world
application images to the
board.
More detailed information regarding the use of MCUboot with Zephyr can be found in the MCUboot with Zephyr documentation page on the MCUboot website.
Note
The deprecated MCUBoot Kconfig option CONFIG_ZEPHYR_TRY_MASS_ERASE
will
perform a full chip erase when flashed. If this option is enabled, then
flashing only MCUBoot, for example using west flash --domain mcuboot
, may
erase the entire flash, including the main application image.
Sysbuild Kconfig file
You can set sysbuild’s Kconfig options for a single application using
configuration files. By default, sysbuild looks for a configuration file named
sysbuild.conf
in the application top-level directory.
In the following example, there is a sysbuild.conf
file that enables building and flashing with
MCUboot whenever sysbuild is used:
<home>/application
├── CMakeLists.txt
├── prj.conf
└── sysbuild.conf
SB_CONFIG_BOOTLOADER_MCUBOOT=y
You can set a configuration file to use with the
-DSB_CONF_FILE=<sysbuild-conf-file>
CMake build setting.
For example, you can create sysbuild-mcuboot.conf
and then
specify this file when building with sysbuild, as follows:
west build -b reel_board --sysbuild samples/hello_world -- -DSB_CONF_FILE=sysbuild-mcuboot.conf
cmake -Bbuild -GNinja -DBOARD=reel_board -DAPP_DIR=samples/hello_world -DSB_CONF_FILE=sysbuild-mcuboot.conf share/sysbuild
ninja -Cbuild
Sysbuild targets
Sysbuild creates build targets for each image (including sysbuild itself) for the following modes:
menuconfig
hardenconfig
guiconfig
For the main application (as is the same without using sysbuild) these can be
ran normally without any prefix. For other images (including sysbuild), these
are ran with a prefix of the image name and an underscore e.g. sysbuild_
or
mcuboot_
, using ninja or make - for details on how to run image build
targets that do not have mapped build targets in sysbuild, see the
Dedicated image build targets section.
Dedicated image build targets
Not all build targets for images are given equivalent prefixed build targets
when sysbuild is used, for example build targets like ram_report
,
rom_report
, footprint
, puncover
and pahole
are not exposed.
When using Trusted Firmware, this includes build
targets prefix with tfm_
and bl2_
, for example: tfm_rom_report
and bl2_ram_report
. To run these build targets, the build directory of the
image can be provided to west/ninja/make along with the name of the build
target to execute and it will run.
Assuming that a project has been configured and built using west
using sysbuild with mcuboot enabled in the default build
folder
location, the rom_report
build target for mcuboot
can be ran
with:
west build -d build/mcuboot -t rom_report
Assuming that a project has been configured using cmake
and built
using ninja
using sysbuild with mcuboot enabled, the rom_report
build target for mcuboot
can be ran with:
ninja -C mcuboot rom_report
Assuming that a project has been configured using cmake
and built
using make
using sysbuild with mcuboot enabled, the rom_report
build target for mcuboot
can be ran with:
make -C mcuboot rom_report
Adding Zephyr applications to sysbuild
You can use the ExternalZephyrProject_Add()
function to add Zephyr
applications as sysbuild domains. Call this CMake function from your
application’s sysbuild.cmake
file, or any other CMake file you know will
run as part sysbuild CMake invocation.
Targeting the same board
To include my_sample
as another sysbuild domain, targeting the same board
as the main image, use this example:
ExternalZephyrProject_Add(
APPLICATION my_sample
SOURCE_DIR <path-to>/my_sample
)
This could be useful, for example, if your board requires you to build and flash an SoC-specific bootloader along with your main application.
Targeting a different board
In sysbuild and Zephyr CMake build system a board may refer to:
A physical board with a single core SoC.
A specific core on a physical board with a multi-core SoC, such as nRF5340 DK.
A specific SoC on a physical board with multiple SoCs, such as nRF9160 DK and nRF9160 DK - nRF52840.
If your main application, for example, is built for mps2_an521
, and your
helper application must target the mps2_an521_remote
board (cpu1), add
a CMake function call that is structured as follows:
ExternalZephyrProject_Add(
APPLICATION my_sample
SOURCE_DIR <path-to>/my_sample
BOARD mps2_an521_remote
)
This could be useful, for example, if your main application requires another helper Zephyr application to be built and flashed alongside it, but the helper runs on another core in your SoC.
Targeting conditionally using Kconfig
You can control whether extra applications are included as sysbuild domains using Kconfig.
If the extra application image is specific to the board or an application,
you can create two additional files: sysbuild.cmake
and Kconfig.sysbuild
.
For an application, this would look like this:
<home>/application
├── CMakeLists.txt
├── prj.conf
├── Kconfig.sysbuild
└── sysbuild.cmake
In the previous example, sysbuild.cmake
would be structured as follows:
if(SB_CONFIG_SECOND_SAMPLE)
ExternalZephyrProject_Add(
APPLICATION second_sample
SOURCE_DIR <path-to>/second_sample
)
endif()
Kconfig.sysbuild
would be structured as follows:
source "sysbuild/Kconfig"
config SECOND_SAMPLE
bool "Second sample"
default y
This will include second_sample
by default, while still allowing you to
disable it using the Kconfig option SECOND_SAMPLE
.
For more information on setting sysbuild Kconfig options, see Kconfig namespacing.
Building without flashing
You can mark my_sample
as a build-only application in this manner:
ExternalZephyrProject_Add(
APPLICATION my_sample
SOURCE_DIR <path-to>/my_sample
BUILD_ONLY TRUE
)
As a result, my_sample
will be built as part of the sysbuild build invocation,
but it will be excluded from the default image sequence used by west flash
.
Instead, you may use the outputs of this domain for other purposes - for example,
to produce a secondary image for DFU, or to merge multiple images together.
You can also replace TRUE
with another boolean constant in CMake, such as
a Kconfig option, which would make my_sample
conditionally build-only.
Note
Applications marked as build-only can still be flashed manually, using
west flash --domain my_sample
. As such, the BUILD_ONLY
option only
controls the default behavior of west flash
.
Zephyr application configuration
When adding a Zephyr application to sysbuild, such as MCUboot, then the configuration files from the application (MCUboot) itself will be used.
When integrating multiple applications with each other, then it is often necessary to make adjustments to the configuration of extra images.
Sysbuild gives users the ability of creating Kconfig fragments or devicetree overlays that will be used together with the application’s default configuration. Sysbuild also allows users to change Application Configuration Directory in order to give users full control of an image’s configuration.
Zephyr application Kconfig fragment and devicetree overlay
In the folder of the main application, create a Kconfig fragment or a devicetree
overlay under a sysbuild folder, where the name of the file is
<image>.conf
or <image>.overlay
, for example if your main
application includes my_sample
then create a sysbuild/my_sample.conf
file or a devicetree overlay sysbuild/my_sample.overlay
.
A Kconfig fragment could look as:
# sysbuild/my_sample.conf
CONFIG_FOO=n
Zephyr application configuration directory
In the folder of the main application, create a new folder under
sysbuild/<image>/
.
This folder will then be used as APPLICATION_CONFIG_DIR
when building
<image>
.
As an example, if your main application includes my_sample
then create a
sysbuild/my_sample/
folder and place any configuration files in
there as you would normally do:
<home>/application
├── CMakeLists.txt
├── prj.conf
└── sysbuild
└── my_sample
├── prj.conf
├── app.overlay
└── boards
├── <board_A>.conf
├── <board_A>.overlay
├── <board_B>.conf
└── <board_B>.overlay
All configuration files under the sysbuild/my_sample/
folder will now
be used when my_sample
is included in the build, and the default
configuration files for my_sample
will be ignored.
This give you full control on how images are configured when integrating those
with application
.
Sysbuild file suffix support
File suffix support through the makevar:FILE_SUFFIX is supported in sysbuild (see File Suffixes for details on this feature in applications). For sysbuild, a globally provided option will be passed down to all images. In addition, the image configuration file will have this value applied and used (instead of the build type) if the file exists.
Given the example project:
<home>/application
├── CMakeLists.txt
├── prj.conf
├── sysbuild.conf
├── sysbuild_test_key.conf
└── sysbuild
├── mcuboot.conf
├── mcuboot_max_log.conf
└── my_sample.conf
If
FILE_SUFFIX
is not defined and bothmcuboot
andmy_sample
images are included,mcuboot
will use themcuboot.conf
Kconfig fragment file andmy_sample
will use themy_sample.conf
Kconfig fragment file. Sysbuild itself will use thesysbuild.conf
Kconfig fragment file.If
FILE_SUFFIX
is set tomax_log
and bothmcuboot
andmy_sample
images are included,mcuboot
will use themcuboot_max_log.conf
Kconfig fragment file andmy_sample
will use themy_sample.conf
Kconfig fragment file (as it will fallback to the file without the suffix). Sysbuild itself will use thesysbuild.conf
Kconfig fragment file (as it will fallback to the file without the suffix).If
FILE_SUFFIX
is set totest_key
and bothmcuboot
andmy_sample
images are included,mcuboot
will use themcuboot.conf
Kconfig fragment file andmy_sample
will use themy_sample.conf
Kconfig fragment file (as it will fallback to the files without the suffix). Sysbuild itself will use thesysbuild_test_key.conf
Kconfig fragment file. This can be used to apply a different sysbuild configuration, for example to use a different signing key in MCUboot and when signing the main application.
The FILE_SUFFIX
can also be applied only to single images by prefixing the variable with the
image name:
west build -b reel_board --sysbuild file_suffix_example -- -DSB_CONFIG_BOOTLOADER_MCUBOOT=y -Dmcuboot_FILE_SUFFIX="max_log"
cmake -Bbuild -GNinja -DBOARD=reel_board -DAPP_DIR=<app_dir> -DSB_CONFIG_BOOTLOADER_MCUBOOT=y -Dmcuboot_FILE_SUFFIX="max_log" share/sysbuild
ninja -Cbuild
Adding dependencies among Zephyr applications
Sometimes, in a multi-image build, you may want certain Zephyr applications to
be configured or flashed in a specific order. For example, if you need some
information from one application’s build system to be available to another’s,
then the first thing to do is to add a configuration dependency between them.
Separately, you can also add flashing dependencies to control the sequence of
images used by west flash
; this could be used if a specific flashing order
is required by an SoC, a _runner_, or something else.
By default, sysbuild will configure and flash applications in the order that
they are added, as ExternalZephyrProject_Add()
calls are processed by CMake.
You can use the sysbuild_add_dependencies()
function to make adjustments to
this order, according to your needs. Its usage is similar to the standard
add_dependencies()
function in CMake.
Here is an example of adding configuration dependencies for my_sample
:
sysbuild_add_dependencies(IMAGE CONFIGURE my_sample sample_a sample_b)
This will ensure that sysbuild will run CMake for sample_a
and sample_b
(in some order) before doing the same for my_sample
, when building these
domains in a single invocation.
If you want to add flashing dependencies instead, then do it like this:
sysbuild_add_dependencies(IMAGE FLASH my_sample sample_a sample_b)
As a result, my_sample
will be flashed after sample_a
and sample_b
(in some order), when flashing these domains in a single invocation.
Note
Adding flashing dependencies is not allowed for build-only applications.
If my_sample
had been created with BUILD_ONLY TRUE
, then the above
call to sysbuild_add_dependencies()
would have produced an error.
Adding non-Zephyr applications to sysbuild
You can include non-Zephyr applications in a multi-image build using the standard CMake module ExternalProject. Please refer to the CMake documentation for usage details.
When using ExternalProject
, the non-Zephyr application will be built as
part of the sysbuild build invocation, but west flash
or west debug
will not be aware of the application. Instead, you must manually flash and
debug the application.
Extending sysbuild
Sysbuild can be extended by other modules to give it additional functionality or include other configuration or images, an example could be to add support for another bootloader or external signing method.
Modules can be extended by adding custom CMake or Kconfig files as normal modules do, this will cause the files to be included in each image that is part of a project. Alternatively, there are sysbuild-specific module extension files which can be used to include CMake and Kconfig files for the overall sysbuild image itself, this is where e.g. a custom image for a particular board or SoC can be added.