The purpose of the chef app is to to:
Chef uses the shell app a starting point, but processes the data model defined on ZAP files during build time. This procedure is handled by its unified build script: chef.py
.
When processing ZAP files as part of the build process, Chef places the auto-generated zap artifacts under its out
temporary folder. Chef uses artifacts from zzz_generated
for CI/CD.
All device types available (.zap files) are found inside the devices
folder.
chef.py
the first time to create a config.yaml
configuration file. If you already have SDK environment variables such as IDF_PATH (esp32) and ZEPHYR_BASE (nrfconnect) it will use those values as default.config.yaml
. TTY is the path used by the platform to enumerate its device as a serial port. Typical values are:# ESP32 macOS TTY: /dev/tty.usbmodemXXXXXXX # ESP32 Linux TTY: /dev/ttyACM0 # NRFCONNECT macOS TTY: /dev/tty.usbserial-XXXXX # NRFCONNECT Linux TTY: /dev/ttyUSB0
$ chef.py -u
to update zap and the toolchain (on selected platforms).$ chef.py -gzbf -t <platform> -d lighting
. This command will run the ZAP GUI opening the devices/lighting.zap
file and will allow editing. It will then generate the zap artifacts, place them on the zap-generated
folder, run a build and flash the binary in your target.chef.py -h
to see all available commands.$ chef.py -g -d <device>
to open in the ZAP GUI a device to be used as a starting point.Save As
and save the file with the name of your new device type into the devices
folder. This device is now available for the script. See chef.py -h
for a list of devices available.<platform>
: build system and main.cpp
file for every supported platform. When porting a new platform, please minimize the source code in this folder, favoring the common
folder for code that is not platform related.common
: contains code shared between different platforms. It may contain source code that enables specific features such as LightingManager
class or LockManager
, as long as the application dynamically identify the presence of the relevant cluster configurations and it doesn't break the use cases where chef is built without these clusters.devices
: contains the data models that may be used with chef. As of Matter 1.0 the data models are defined using .zap files.out
: temporary folder used for placing ZAP generated artifacts.sample_app_util
: guidelines and scripts for generating file names for new device types committed to the devices
folder.config.yaml
: contains general configuration for the chef.py
script. As of Matter 1.0 this is used exclusively for toolchain and TTY interface paths.chef.py
: main script for generating samples. More info on its help chef.py -h
.All CI jobs for chef can be found in .github/workflows/chef.yaml
.
These jobs use a platform-specific image with base chip-build
. Such images contain the toolchain for the respective platform under /opt
.
CI jobs call chef with the options --ci -t $PLATFORM
. The --ci
option will execute builds for all devices specified in ci_allow_list
defined in cicd_config.json
(so long as these devices are also in /devices
) on the specified platform.
CI jobs also call the function bundle_$PLATFORM
at the end of each example build. This function should copy or move build output files from the build output location into _CD_STAGING_DIR
. Typically, the set of files touched is the minimal set of files needed to flash a device. See the function bundle_esp32
for reference.
First, implement a bundle_$PLATFORM
function.
Next, ensure that the examples in ci_allow_list
build in a container using the relevant platform image. You can simulate the workflow locally by mounting your CHIP repo into a container and executing the CI command:
docker run -it --mount source=$(pwd),target=/workspace,type=bind connectedhomeip/chip-build-$PLATFORM:$VERSION
In the container:
chown -R $(whoami) /workspace cd /workspace source ./scripts/bootstrap.sh source ./scripts/activate.sh ./examples/chef/chef.py --ci -t $PLATFORM
Once you are confident the CI examples build and bundle in a container, add a new job to the chef workflow.
Replace all instances of $PLATFORM
with the new platform. Replace $VERSION
with the image version used in the rest of the workflows, or update the image version for all images in the workflow as needed.
chef_$PLATFORM: name: Chef - $PLATFORM CI Examples runs-on: ubuntu-latest if: github.actor != 'restyled-io[bot]' container: image: connectedhomeip/chip-build-$PLATFORM:$VERSION options: --user root steps: - name: Checkout uses: actions/checkout@v3 - name: Checkout submodules & Bootstrap uses: ./.github/actions/checkout-submodules-and-bootstrap with: platform: $PLATFORM - name: CI Examples $PLATFORM shell: bash run: | ./scripts/run_in_build_env.sh "./examples/chef/chef.py --ci -t $PLATFORM"
Once CI is enabled for a platform, the platform may also be integrated into integrations/cloudbuild/
, where chef builds are defined in chef.yaml
. See the README
in this path for more information.
Note that the image used in chef.yaml
is chip-build-vscode
. See docker/images/chip-build-vscode/Dockerfile
for the source of this image. This image is a combination of the individual toolchain images. Therefore, before a platform is integrated into chef CD, the toolchain should be copied into chip-build-vscode
and chef.yaml
should be updated to use the new image version.
Finally, add the new platform to cd_platforms
in cicd_config.json
. The configuration should follow the following schema:
"$PLATFORM": { "output_archive_prefix_1": ["option_1", "option_2"], "output_archive_prefix_2": [], }
Take note of the configuration for linux
:
"linux": { "linux_x86": ["--cpu_type", "x64"], "linux_arm64_ipv6only": ["--cpu_type", "arm64", "--ipv6only"] },
This will produce output archives prefixed linux_x86
and linux_arm_64_ipv6only
and will append the respective options to each build command for these targets.
To test your configuration locally, you may employ a similar strategy as in CI:
docker run -it --mount source=$(pwd),target=/workspace,type=bind connectedhomeip/chip-build-vscode:$VERSION
In the container:
chown -R $(whoami) /workspace cd /workspace source ./scripts/bootstrap.sh source ./scripts/activate.sh ./examples/chef/chef.py --build_all --keep_going
You may also use the Google Cloud Build local builder as detailed in the README
of integrations/cloudbuild/
.
To add new devices for chef:
python sample_app_util.py zap <zap_file> --rename-file
to rename the example and place the new file in examples/chef/devices
.README
in examples/chef/sample_app_util/
for more info.scripts/tools/zap_regen_all.py
, commit zzz_generated
and examples/chef/devices
..github/workflows/zap_templates.yaml
.