tree: e0aa58c063269df246edf49cb0827d049e440a6d [path history] [tgz]
  1. main/
  2. third_party/
  3. .gitignore
  4. CMakeLists.txt
  5. partitions.csv
  6. README.md
  7. sdkconfig.defaults
  8. sdkconfig.defaults.esp32c2
  9. sdkconfig_c3devkit.defaults
  10. sdkconfig_m5stack.defaults
  11. sdkconfig_m5stack_rpc.defaults
examples/all-clusters-minimal-app/esp32/README.md

CHIP ESP32 All Clusters Example

A prototype application that demonstrates device commissioning and cluster control.

Please setup ESP-IDF and CHIP Environment and refer building and commissioning guides to get started.



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 <NODE ID> <ENDPOINT>

The client will send a single command packet and then exit.

levelcontrol

Usage:
  $ ./out/debug/chip-tool levelcontrol move-to-level Level=10 TransitionTime=0 OptionMask=0 OptionOverride=0 <NODE ID> <ENDPOINT>

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.