Matter supports configuring the build with GN, a fast and scalable meta-build system that generates inputs to ninja.
Tested on:
- macOS 10.15
- Debian 10
- Ubuntu 20.04 LTS
Build system features:
- Very fast and small footprint
- Cross-platform handling: (Linux, Darwin, embedded arm, etc.)
- Multiple toolchains & cross toolchain dependencies
- Integrates automated testing framework:
ninja check
- Introspection:
gn desc
- Automatic formatting:
gn format
To check out the Matter repository:
git clone --recurse-submodules [email protected]:project-chip/connectedhomeip.git
If you already have a checkout, run the following command to sync submodules:
git submodule update --init
Before building, you'll need to install a few OS specific dependencies.
On Debian-based Linux distributions such as Ubuntu, these dependencies can be satisfied with the following:
sudo apt-get install git gcc g++ python pkg-config libssl-dev libdbus-1-dev \
libglib2.0-dev libavahi-client-dev ninja-build python3-venv python3-dev \
python3-pip unzip libgirepository1.0-dev libcairo2-dev
On macOS, first install Xcode from the Mac App Store. The remaining dependencies can be installed and satisfied using Brew:
brew install openssl pkg-config
However, that does not expose the package to pkg-config
. To fix that, one
needs to run something like the following:
Intel:
cd /usr/local/lib/pkgconfig
ln -s ../../Cellar/[email protected]/1.1.1g/lib/pkgconfig/* .
where [email protected]/1.1.1g
may need to be replaced with the actual version of
OpenSSL installed by Brew.
Apple Silicon:
export PKG_CONFIG_PATH=$PKG_CONFIG_PATH:"/opt/homebrew/opt/openssl@3/lib/pkgconfig"
Note: If using MacPorts, port install openssl
is sufficient to satisfy this
dependency.
Using rpi-imager
, install the Ubuntu 21.04 64-bit server OS for arm64
architectures on a micro SD card. This release will have bluez 5.55 or newer
which is required for BLE functionality.
Boot the SD card, login with the default user account "ubuntu" and password "ubuntu", then proceed with "How to install prerequisites on Linux".
Finally, install some Raspberry Pi specific dependencies:
sudo apt-get install pi-bluetooth
You need to reboot your RPi after install pi-bluetooth
.
By default, wpa_supplicant is not allowed to update (overwrite) configuration, if you want the Matter app to be able to store the configuration changes permanently, we need to make the following changes.
- Edit the dbus-fi.w1.wpa_supplicant1.service file to use configuration file instead.
sudo nano /etc/systemd/system/dbus-fi.w1.wpa_supplicant1.service
Change the wpa_supplicant start parameters to:
ExecStart=/sbin/wpa_supplicant -u -s -i wlan0 -c /etc/wpa_supplicant/wpa_supplicant.conf
- Add the wpa-supplicant configuration file
sudo nano /etc/wpa_supplicant/wpa_supplicant.conf
And add the following content to the file:
ctrl_interface=DIR=/run/wpa_supplicant
update_config=1
Finally, reboot your RPi.
Before running any other build command, the scripts/activate.sh
environment
setup script should be sourced at the top level. This script takes care of
downloading GN, ninja, and setting up a Python environment with libraries used
to build and test.
source scripts/activate.sh
If this script says the environment is out of date, it can be updated by running:
source scripts/bootstrap.sh
The scripts/bootstrap.sh
script re-creates the environment from scratch, which
is expensive, so avoid running it unless the environment is out of date.
This will build all sources, libraries, and tests for the host platform:
source scripts/activate.sh
gn gen out/host
ninja -C out/host
This generates a configuration suitable for debugging. To configure an optimized
build, specify is_debug=false
:
gn gen out/host --args='is_debug=false'
ninja -C out/host
The directory name out/host
can be any directory, although it's conventional
to build within the out
directory. This example uses host
to emphasize that
we're building for the host system. Different build directories can be used for
different configurations, or a single directory can be used and reconfigured as
necessary via gn args
.
To run all tests, run:
ninja -C out/host check
To run only the tests in src/inet/tests, you can run:
ninja -C out/host src/inet/tests:tests_run
Note that the build system caches passing tests, so if you see
ninja: no work to do
that means that the tests passed in a previous build.
The build is configured by setting build arguments. These are set by passing the
--args
option to gn gen
, by running gn args
on the output directory, or by
hand editing args.gn
in the output directory. To configure a new build or edit
the arguments to existing build, run:
source scripts/activate.sh
gn args out/custom
ninja -C out/custom
Two key builtin build arguments are target_os
and target_cpu
, which control
the OS & CPU of the build.
To see help for all available build arguments:
gn gen out/custom
gn args --list out/custom
Examples can be built in two ways, as separate projects that add Matter in the third_party directory, or in the top level Matter project.
To build the chip-shell
example as a separate project:
cd examples/shell
gn gen out/debug
ninja -C out/debug
To build it at the top level, see below under "Unified Builds".
To build a unified configuration that approximates the set of continuous builds:
source scripts/activate.sh
gn gen out/unified --args='is_debug=true target_os="all"'
ninja -C out/unified all
This can be used prior to change submission to configure, build, and test the gcc, clang, mbedtls, & examples configurations all together in one parallel build. Each configuration has a separate subdirectory in the output dir.
This unified build can be used for day to day development, although it's more expensive to build everything for every edit. To save time, you can name the configuration to build:
ninja -C out/unified host_gcc
ninja -C out/unified check_host_gcc
Replace host_gcc
with the name of the configuration, which is found in the
root BUILD.gn
.
You can also fine tune the configurations generated via arguments such as:
gn gen out/unified --args='is_debug=true target_os="all" enable_host_clang_build=false'
For a full list, see the root BUILD.gn
.
Note that in the unified build, targets have multiple instances and need to be
disambiguated by adding a (toolchain)
suffix. Use gn ls out/debug
to list
all of the target instances. For example:
gn desc out/unified '//src/controller(//build/toolchain/host:linux_x64_clang)'
Note: Some platforms that can be built as part of the unified build require downloading additional SDKs. To add these to the build, the location of the SDK installation must be provided as a build argument. For example, to add the Simplelink cc13x2_26x2 examples to the unified build, install the SDK and add the following build arguments:
gn gen out/unified --args="target_os=\"all\" enable_ti_simplelink_builds=true ti_simplelink_sdk_root=\"/path/to/sdk\" ti_sysconfig_root=\"/path/to/sysconfig\""
GN has builtin help via
gn help
Recommended topics:
gn help execution
gn help grammar
gn help toolchain
Also see the quick start guide.
GN has various introspection tools to help examine the build configuration.
To show all of the targets in an output directory:
gn ls out/host
To show all of the files that will be built:
gn outputs out/host '*'
To show the GN representation of a configured target:
gn desc out/host //src/inet --all
To dump the GN representation of the entire build as JSON:
gn desc out/host/ '*' --all --format=json
To show the dependency tree:
gn desc out/host //:all deps --tree --all
To find dependency paths:
gn path out/host //src/transport/tests:tests //src/system
To list useful information for linking against libCHIP:
gn desc out/host //src/lib include_dirs
gn desc out/host //src/lib defines
gn desc out/host //src/lib outputs
# everything as JSON
gn desc out/host //src/lib --format=json
If you make any change to the GN build system, the next build will regenerate the ninja files automatically. No need to do anything.