# CHIP ESP32 All Clusters Example A prototype application that demonstrates device commissioning and cluster control. Please [setup ESP-IDF and CHIP Environment](../../../docs/platforms/esp32/setup_idf_chip.md) and refer [building and commissioning](../../../docs/platforms/esp32/build_app_and_commission.md) guides to get started. --- - [Cluster control](#cluster-control) - [Matter OTA guide](../../../docs/platforms/esp32/ota.md) - [RPC console and Device Tracing](../../../docs/platforms/esp32/rpc_console.md) --- ### Cluster control #### onoff To use the Client to send Matter commands, run the built executable and pass it the target cluster name, the target command name as well as an endpoint id. ``` $ ./out/debug/chip-tool onoff on ``` The client will send a single command packet and then exit. #### levelcontrol ```bash Usage: $ ./out/debug/chip-tool levelcontrol move-to-level Level=10 TransitionTime=0 OptionMask=0 OptionOverride=0 ``` --- This demo app illustrates controlling OnOff cluster (Server) attributes of an endpoint. For `ESP32-DevKitC`, `ESP32-WROVER-KIT_V4.1` and `ESP32C3-DevKitM`, a GPIO (configurable through `STATUS_LED_GPIO_NUM` in `main/main.cpp`) is updated through the on/off/toggle commands from the `python-controller`. For `M5Stack`, a virtual Green LED on the display is used for the same. If you wish to see the actual effect of the commands on `ESP32-DevKitC`, `ESP32-WROVER-KIT_V4.1`, you will have to connect an external LED to GPIO `STATUS_LED_GPIO_NUM`. For `ESP32C3-DevKitM`, the on-board LED will show the actual effect of the commands.