tree: 72deaba23f27154e93b544a31084da1b9921abe9 [path history] [tgz]
  1. include/
  2. src/
  3. third_party/
  4. .gn
  5. args.gni
  6. BUILD.gn
  7. ota_base_build.sh
  8. ota_update_build.sh
  9. README.md
examples/lighting-app/p6/README.md

#CHIP P6 Lighting Example

An example showing the use of Matter on the Infineon CY8CKIT-062S2-43012 board.

Introduction

The P6 lighting example provides a baseline demonstration of a Light control device, built using Matter and the Infineon Modustoolbox SDK. It can be controlled by Matter controller over Wi-Fi network.

The P6 device can be commissioned over Bluetooth Low Energy where the device and the Matter controller will exchange security information with the Rendezvous procedure. Wi-Fi Network credentials are then provided to the P6 device which will then join the network.

Building

  • Modustoolbox Software

    Refer to integrations/docker/images/chip-build-infineon/Dockerfile or scripts/examples/gn_p6_example.sh for downloading the Software and related tools.

  • Install some additional tools (likely already present for Matter developers): $ sudo apt install gcc g++ clang ninja-build python python3-venv libssl-dev libavahi-client-dev libglib2.0-dev git cmake python3-pip

  • Supported hardware: CY8CKIT-062S2-43012

  • Build the example application:

      $ ./scripts/examples/gn_p6_example.sh ./examples/lighting-app/p6 out/lighting_app_p6
    
  • To delete generated executable, libraries and object files use:

      $ cd ~/connectedhomeip
      $ rm -rf out/
    

Flashing the Application

  • Put CY8CKIT-062S2-43012 board on KitProg3 CMSIS-DAP Mode by pressing the MODE SELECT button. KITPROG3 STATUS LED is ON confirms board is in proper mode.

  • On the command line:

      $ cd ~/connectedhomeip
      $ python3 out/lighting_app_p6/chip-p6-lock-example.flash.py
    

Commissioning and cluster control

Commissioning can be carried out using BLE.

Setting up Chip tool

Once P6 is up and running, we need to set up chip-tool on Raspberry Pi 4 to perform commissioning and cluster control.

  • Set up python controller.

       $ cd {path-to-connectedhomeip}
       $ ./scripts/examples/gn_build_example.sh examples/chip-tool out/debug
    
  • Execute the controller.

       $ ./out/debug/chip-tool
    

Commissioning over BLE

Run the built executable and pass it the discriminator and pairing code of the remote device, as well as the network credentials to use.

     $ ./out/debug/chip-tool pairing ble-wifi 1234 ${SSID} ${PASSWORD} 20202021 3840

     Parameters:
     1. Discriminator: 3840
     2. Setup-pin-code: 20202021
     3. Node ID: 1234 (you can assign any node id)
     4. SSID : Wi-Fi SSID
     5. PASSWORD : Wi-Fi Password

Notes

Raspberry Pi 4 BLE connection issues can be avoided by running the following commands. These power cycle the BlueTooth hardware and disable BR/EDR mode.

      $ sudo btmgmt -i hci0 power off
      $ sudo btmgmt -i hci0 bredr off
      $ sudo btmgmt -i hci0 power on

Cluster control

  • After successful commissioning, use the OnOff cluster command to toggle device between On or Off states.

    $ ./out/debug/chip-tool onoff on 1234 1

    $ ./out/debug/chip-tool onoff off 1234 1

  • Cluster OnOff can also be done using the USER_BTN1 button on the board. This button is configured with APP_LIGHT_BUTTON in include/AppConfig.h. Press USER_BTN1 on the board to toggle between Light ON and OFF states. Light ON and OFF can be observed with ‘LED9’ on the board. This LED is configured with LIGHT_LED in include/AppConfig.h.

OTA Software Update

For the description of Software Update process with infineon P6 example applications see Infineon P6 OTA Software Update