This example demonstrates the Matter Light-switch application on ESP platforms.
The demo application is intended to work on following categories of ESP32 devices:
Building the example application requires the use of the Espressif IoT Development Framework (ESP-IDF).
The VSCode devcontainer has these components pre-installed, so you can skip this step. To install these components manually, follow these steps:
Clone the Espressif ESP-IDF and checkout v4.4 release
$ mkdir ${HOME}/tools $ cd ${HOME}/tools $ git clone https://github.com/espressif/esp-idf.git $ cd esp-idf $ git checkout v4.4 $ git submodule update --init $ ./install.sh
Install ninja-build
$ sudo apt-get install ninja-build
Currently building in VSCode and deploying from native is not supported, so make sure the IDF_PATH has been exported(See the manual setup steps above).
Setting up the environment
$ cd ${HOME}/tools/esp-idf $ ./install.sh $ . ./export.sh $ cd {path-to-connectedhomeip}
To download and install packages.
$ source ./scripts/bootstrap.sh $ source ./scripts/activate.sh
If packages are already installed then simply activate them.
$ source ./scripts/activate.sh
Target Set
$ idf.py set-target esp32 or $ idf.py set-target esp32c3 or $ idf.py set-target esp32s3
To build the demo application.
$ idf.py build
After building the application, to flash it outside of VSCode, connect your device via USB. Then run the following command to flash the demo application onto the device and then monitor its output. If necessary, replace /dev/tty.SLAB_USBtoUART
(MacOS) with the correct USB device name for your system(like /dev/ttyUSB0
on Linux). Note that sometimes you might have to press and hold the boot
button on the device while it's trying to connect before flashing.
$ idf.py -p /dev/tty.SLAB_USBtoUART flash monitor
Note: Some users might have to install the VCP driver before the device shows up on /dev/tty
.
Quit the monitor by hitting Ctrl+]
.
Note: You can see a menu of various monitor commands by hitting Ctrl+t Ctrl+h
while the monitor is running.
If desired, the monitor can be run again like so:
$ idf.py -p /dev/tty.SLAB_USBtoUART monitor
Please build the standalone chip-tool as described here
Commissioning the Lighting device
$ ./out/debug/chip-tool pairing ble-wifi 12344321 <ssid> <passphrase> 20202021 3840
Commissioning the Lighting-switch device
$ ./out/debug/chip-tool pairing ble-wifi 12344320 <ssid> <passphrase> 20202021 3840
After successful commissioning, use the chip-tool to write the ACL in Lighting device to allow access from Lighting-switch device and chip-tool.
$ ./out/debug/chip-tool accesscontrol write acl '[{"fabricIndex": 1, "privilege": 5, "authMode": 2, "subjects": [112233], "targets": null },{"fabricIndex": 1, "privilege": 3, "authMode": 2, "subjects": [12344320], "targets": null }]' 12344321 0
After successful commissioning, use the chip-tool for binding in Lighting-switch.
$ ./out/debug/chip-tool binding write binding '[{"fabricIndex": 1, "node":20836, "endpoint":1, "cluster":6}]' 12344320 1
Test toggle:
Press boot
button to toggle LED.
Using matter shell on:
matter switch onoff on
off:
matter switch onoff off