An example showing the use of Matter on the Infineon CYW30739 platform.
The CYW30739 lighting example provides a baseline demonstration of a Light control device, built using Matter and the Infineon Modustoolbox SDK. It can be controlled by a Matter controller over Thread network.
The CYW30739 device can be commissioned over Bluetooth Low Energy where the device and the Matter controller will exchange security information with the Rendez-vous procedure. Target Thread Network information including the active dataset and CASE credentials are then provided.
Build the example application:
$ cd ~/connectedhomeip $ git submodule update --init $ ./scripts/examples/gn_build_example.sh examples/lighting-app/infineon/cyw30739 out/lighting-app
To delete generated executable, libraries and object files use:
$ cd ~/connectedhomeip $ rm -rf ./out/
OR use GN/Ninja directly
$ cd ~/connectedhomeip/examples/lighting-app/infineon/cyw30739 $ git submodule update --init $ source third_party/connectedhomeip/scripts/activate.sh $ gn gen out/debug $ ninja -C out/debug
To delete generated executable, libraries and object files use:
$ cd ~/connectedhomeip/examples/lighting-app/infineon/cyw30739 $ rm -rf out/
Infineon CYW30739 examples use test certifications, keys, and CD by default. For a production build, manufacturers can provision certifications, keys, and CD by the following arguments:
matter_dac
, matter_dac_key
, matter_pai
, matter_cd
$ ./scripts/examples/gn_build_example.sh examples/lighting-app/infineon/cyw30739 out/lighting-app \ 'matter_dac="/path/to/dac.der"' \ 'matter_dac_key="/path/to/dac_key.der"' \ 'matter_pai="/path/to/pai.der"' \ 'matter_cd="/path/to/cd.der"'
Put the CYW30739 in to the recovery mode before running the flash script.
RECOVERY
button on the board.RESET
button on the board.RESET
button.RECOVERY
button.On the command line:
$ cd ~/connectedhomeip/examples/lighting-app/infineon/cyw30739 $ python3 out/debug/chip-cyw30739-lighting-example.flash.py
It is assumed here that you already have an OpenThread border router configured and running. If not see the following guide Openthread_border_router for more information on how to setup a border router on a raspberryPi.
You can provision and control the Chip device using the python controller, Chip tool standalone, Android or iOS app
Here is an example with the Python controller:
$ chip-device-ctrl chip-device-ctrl > connect -ble 3840 20202021 1234 chip-device-ctrl > zcl NetworkCommissioning AddThreadNetwork 1234 0 0 operationalDataset=hex:0e080000000000000000000300000b35060004001fffe00208dead00beef00cafe0708fddead00beef000005108e11d8ea8ffaa875713699f59e8807e0030a4f70656e5468726561640102c2980410edc641eb63b100b87e90a9980959befc0c0402a0fff8 breadcrumb=0 timeoutMs=1000 chip-device-ctrl > zcl NetworkCommissioning EnableNetwork 1234 0 0 networkID=hex:dead00beef00cafe breadcrumb=0 timeoutMs=1000 chip-device-ctrl > close-ble chip-device-ctrl > resolve 1234 chip-device-ctrl > zcl OnOff Toggle 1234 1 0