$ cargo build
$ cargo run --example onoff_light
- Install all build prerequisites described here
- Build with the following command line:
export MCU=esp32; export CARGO_TARGET_XTENSA_ESP32_ESPIDF_LINKER=ldproxy; export RUSTFLAGS="-C default-linker-libraries"; export WIFI_SSID=ssid;export WIFI_PASS=pass; cargo build --example onoff_light --no-default-features --features esp-idf --target xtensa-esp32-espidf -Zbuild-std=std,panic_abort
- If you are building for a different Espressif MCU, change the
MCUvariable, thextensa-esp32-espidftarget and the name of theCARGO_TARGET_<esp-idf-target-uppercase>_LINKERvariable to match your MCU and its Rust target. Available Espressif MCUs and targets are:- esp32 / xtensa-esp32-espidf
- esp32s2 / xtensa-esp32s2-espidf
- esp32s3 / xtensa-esp32s3-espidf
- esp32c3 / riscv32imc-esp-espidf
- esp32c5 / riscv32imc-esp-espidf
- esp32c6 / risxcv32imac-esp-espidf
- Put in
WIFI_SSID/WIFI_PASSthe SSID & password for your wireless router - Flash using the
espflashutility described in the build prerequsites' link above
Coming soon!
With the chip-tool (the current tool for testing Matter) use the Ethernet commissioning mechanism:
$ chip-tool pairing code 12344321 <Pairing-Code>
Or alternatively:
$ chip-tool pairing ethernet 12344321 123456 0 <IP-Address> 5540
Interact with the device
# Read server-list
$ chip-tool descriptor read server-list 12344321 0
# Read On/Off status
$ chip-tool onoff read on-off 12344321 1
# Toggle On/Off by invoking the command
$ chip-tool onoff on 12344321 1
- Secure Channel:
- PASE
- CASE
- Interactions:
- Invoke Command(s), Read Attribute(s), Write Attribute(s)
- Commissioning:
- over Ethernet
- Network Commissioning Cluster
- General Commissioning Cluster
- Operational Certificates Cluster
- Some TODO are captured here
The matter-rs project is a work-in-progress and does NOT yet fully implement Matter.