The example is based on Matter and the NXP MW320 SDK to demonstrates device commissioning and cluster control over a low-power, WiFi 802.11n network.
The example targets the NXP MW320 WiFi Micro controller Soc development kit.
Building the example application is quite straightforward. It can be done via following commands:
$ cd examples/all-clusters-app/nxp/mw320/ $ git submodule update --init $ source third_party/connectedhomeip/scripts/activate.sh $ gn gen out/debug $ ninja -v -C out/debug
Example application binary file “chip-mw320-all-clusters-app.bin” will be generated under directory “out/debug”.
Note:
Tinycrypt ECC operations:
Note: This solution is temporary.
In order to use the tinycrypt ecc operations, use the following build arguments:
$ gn gen out/debug --args='treat_warnings_as_errors=false mbedtls_repo="//third_party/connectedhomeip/third_party/nxp/libs/mbedtls" chip_crypto="tinycrypt"'
Connect MW320 to Ubuntu USB port and open Linux text-based serial port communications program at second USB interface (/dev/ttyUSB1):
$ TERM=linux minicom -D /dev/ttyUSB1 -b 115200
Prepare MW320 download firmware image:
$ ln -sf third_party/connectedhomeip/third_party/nxp/mw320_sdk/repo mw320_sdk $ mw320_sdk/tools/mw_img_conv/bin/mw_img_conv mcufw out/debug/chip-mw320-all-clusters-app.bin out/debug/all-cluster-mw320.mcufw.bin 0x1F010000 $ cp out/debug/all-cluster-mw320.mcufw.bin mw320_sdk/mw320_matter_flash/Matter/.
Install OpenOCD (Open On-Chip Debugger):
$ sudo apt-get install openocd
Flashing firmware image to MW320:
$ cd mw320_sdk/mw320_matter_flash $ sudo python2 flashprog.py -l Matter/layout-4m.txt --boot2 Matter/boot2.bin --wififw Matter/mw32x_uapsta_W14.88.36.p172.bin --mcufw Matter/all-cluster-mw320.mcufw.bin -r
After MW320 is reset, console will allow you to enter commands: