Bouffalo Lab Lighting ExampleThis example functions as a light bulb device type, with on/off and level capabilities and uses a test Vendor ID (VID) and a Product ID (PID) of 0x8005.
Current supported boards:
BL602DKBL706DKBL704LDKLegacy supported boards:
BL602-IoT-Matter-V1, here to purchase.BL602-NIGHT-LIGHTXT-ZB6-DevKitBL706-NIGHT-LIGHTWarning: Changing the VID/PID may cause compilation problems, we recommend leaving it as the default while using this example.
BL602/BL604 is combo chip-set for Wi-Fi 802.11b/g/n and BLE 5.0 base-band/MAC.
BL70x is combo chip-set for BLE and IEEE 802.15.4/ZigBee/Thread.
BL70x has fully certified with all Thread 1.3 features, included Thread SSED and Thread Border Router.
Bouffalo Lab has full connectives support for Matter Applications.
Bouffalo Lab for support.Bouffalo Lab for support.The following steps in this document were validated on Ubuntu 20.04.
Install dependencies as specified in the connectedhomeip repository: Building Matter.
Clone and initialize the connectedhomeip repo
git clone https://github.com/project-chip/connectedhomeip.git cd connectedhomeip git submodule update --init --recursive source ./scripts/activate.sh -p bouffalolab
Setup build environment for Bouffalo Lab SoC
./integrations/docker/images/stage-2/chip-build-bouffalolab/setup.sh
Script setpu.sh requires to select install path, and please execute following command to export BOUFFALOLAB_SDK_ROOT before building.
export BOUFFALOLAB_SDK_ROOT="Your install path"
The following steps take examples for BL602DK, BL704LDK and BL706DK.
Build lighting app with UART baudrate 2000000
./scripts/build/build_examples.py --target bouffalolab-bl602dk-light build ./scripts/build/build_examples.py --target bouffalolab-bl616dk-light-wifi build ./scripts/build/build_examples.py --target bouffalolab-bl704ldk-light build ./scripts/build/build_examples.py --target bouffalolab-bl706dk-light build
Build lighting app with RPC enabled and UART baudrate 115200.
./scripts/build/build_examples.py --target bouffalolab-bl602dk-light-light-rpc-115200 build ./scripts/build/build_examples.py --target bouffalolab-bl704ldk-light-light-rpc-115200 build ./scripts/build/build_examples.py --target bouffalolab-bl706dk-light-light-rpc-115200 build
-wifi, specifies to use Wi-Fi for Matter application.
-wifi could be elided.-thread, specifies to use Thread for Matter application.
-thread could be elided.-ethernet, specifies to use Ethernet for Matter application.
-littlefs, specifies to use littlefs for flash access.
-easyflash, specifies to use easyflash for flash access.
-easyflash and -littlefs.-mfd, enable Matter factory data feature, which load factory data from MFD partition
Bouffalo Lab for support.-shell, enable command line
-rpc, enable Pigweed RPC feature
-115200, set UART baudrate to 115200 for log and command line
-cdc, enable USB CDC feature, only support for BL706, and can't work with Ethernet Board
-resetCnt, enable feature to do factory reset when continues power cycle is greater than 3
-mot, to specify to use openthread stack under third_party/openthread/repo
-mot specified, Matter Thread will use openthread stack under Bouffalo Lab SDK-fp, to specify to enable frame pointer feature to print call stack when hit an exception for debug purpose.
Using script *.flash.py.
After building gets done, python script *.flash.py will generate under build output folder, such as
chip-bl602-lighting-example.flash.py for BL602chip-bl702-lighting-example.flash.py for BL702chip-bl702l-lighting-example.flash.py for BL702LDownload operation steps as below, please check help option of script for more detail.
Connect the board to your build machine
Put the board to the download mode:
Type following command for image download. Please set serial port accordingly, here we use /dev/ttyACM0 as a serial port example.
BL602DK, BL704LDK and BL706DK.
./out/bouffalolab-bl602dk-light-littlefs/chip-bl602-lighting-example.flash.py --port /dev/ttyACM0 ./out/bouffalolab-bl616dk-light-wifi/chip-bl616dk-lighting-example.flash.py --port /dev/ttyACM0 ./out/bouffalolab-bl704ldk-light-littlefs/chip-bl702l-lighting-example.flash.py --port /dev/ttyACM0 ./out/bouffalolab-bl706dk-light-littlefs/chip-bl702-lighting-example.flash.py --port /dev/ttyACM0
To wipe out flash and download image, please append --erase option. Take BL602DK as example.
./out/bouffalolab-bl602dk-light/chip-bl602-lighting-example.flash.py --port /dev/ttyACM0 --erase
Note, better to append --erase option to download image for BL602 develop board at first time.
You can open the serial console. For example, if the device is at /dev/ttyACM0 with UART baudrate 2000000 built:
```shell picocom -b 2000000 /dev/ttyACM0 ```
To reset the board, Click the RESET or EN button.
To toggle the light bulb’s on/off state by clicking BOOT button, which also toggles the LED.
To do factory reset, press BOOT button over 4 seconds, release BOOT button after led blink stopped.
Please follow chip_tool_guide and guide to build and use chip-tool for test.
Thread wireless protocol runs on BL706, which needs a Thread border router to connect Thread network to Wi-Fi/Ethernet network. Please follow this guide to setup a raspberry Pi border router.
After Thread border router setup, please type following command on Thread border router to get Thread network credential.
sudo ot-ctl dataset active -x
Reset the board or factory reset the board
Enter build out folder of chip-tool and running the following command to do BLE commission
Wi-Fi
./chip-tool pairing ble-wifi <node_id> <wifi_ssid> <wifi_passwd> 20202021 3840
Thread
./chip-tool pairing ble-thread <node_id> hex:<thread_operational_dataset> 20202021 3840
<node_id>, which is node ID assigned to device within chip-tool fabric
<wifi_ssid>, Wi-Fi network SSID
<wifi_passwd>, Wi-FI network password
<thread_operational_dataset>, Thread network credential which runningsudo ot-ctl dataset active -xcommand on border router to get.
After successful commissioning, cluster commands available to control the board.
OnOff cluster
The following command shows to toggle the LED on the board
$ ./chip-tool onoff toggle <node_id> 1
Level cluster
The following command shows to move level to 128.
$ ./chip-tool levelcontrol move-to-level 128 10 0 0 <node_id> 1
Color cluster
The following command shows to change hue and saturation to 240 and 100
$ ./chip-tool colorcontrol move-to-hue-and-saturation 240 100 0 0 0 <node_id> 1
Identify Light
The following command shows to identify the board 10 seconds
./chip-tool identify identify 10 <node_id> 1
Please take guide for more detail on ota-provider-app build and usage.
Bouffalo Lab Matter OTA image contains two parts:
Bouffalo Lab OTA bootable image:Script *.flash.py builds Bouffalo Lab bootable image and call ota_image_tool.py to add Matter recognition header. Take BL602DK as example.
./out/bouffalolab-bl602dk-light/chip-bl602-lighting-example.flash.py --build-ota --vendor-id <vendor id> --product-id <product id> --version <version> --version-str <version string> --digest-algorithm <digest algorithm>
lighting-app.ota should have greater software version which is defined by macro
CHIP_DEVICE_CONFIG_DEVICE_SOFTWARE_VERSIONin CHIPProjectConfig.h
Start ota-provider-app for lighting-app.ota
$ rm -r /tmp/chip_* $ ./chip-ota-provider-app -f <path_to_ota_bin>/lighting-app.ota
where <path_to_ota_bin> is the folder for lighting-app.ota.
Provision ota-provider-app with assigned node id to 1
$ ./chip-tool pairing onnetwork 1 20202021 $ ./chip-tool accesscontrol write acl '[{"fabricIndex": 1, "privilege": 5, "authMode": 2, "subjects": [112233], "targets": null}, {"fabricIndex": 1, "privilege": 3, "authMode": 2, "subjects": null, "targets": null}]' 1 0
./chip-tool otasoftwareupdaterequestor announce-otaprovider 1 0 0 0 <node_id_to_lighting_app> 0where
<node_id_to_lighting_app> is node id of BL602/BL702 lighting app.Build chip-console following this guide
Start the console
$ chip-console --device /dev/ttyUSB0 -b 2000000
Get or Set the light state
rpcs.chip.rpc.Lighting.Get()
rpcs.chip.rpc.Lighting.Set(on=True, level=128)