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Sergei Gusenkov
2026-05-22 21:52:50 +03:00
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libraries/Matter/examples/MatterWaterLeakDetector/MatterWaterLeakDetector.ino
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// Copyright 2025 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/*
* This example is an example code that will create a Matter Device which can be
* commissioned and controlled from a Matter Environment APP.
* Additionally the ESP32 will send debug messages indicating the Matter activity.
* Turning DEBUG Level ON may be useful to following Matter Accessory and Controller messages.
*
* The example will create a Matter Water Leak Detector Device.
* The Water Leak Detector state can be toggled by pressing the onboard button.
* The Water Leak Detector state will be indicated by the onboard LED.
* The Water Leak Detector state will be simulated to change every 20 seconds.
*
* The onboard button can be kept pressed for 5 seconds to decommission the Matter Node.
* The example will also show the manual commissioning code and QR code to be used in the Matter environment.
*
*/
// Matter Manager
#include <Matter.h>
#if !CONFIG_ENABLE_CHIPOBLE
// if the device can be commissioned using BLE, WiFi is not used - save flash space
#include <WiFi.h>
#endif
// List of Matter Endpoints for this Node
// Matter Water Leak Detector Endpoint
MatterWaterLeakDetector WaterLeakDetector;
// CONFIG_ENABLE_CHIPOBLE is enabled when BLE is used to commission the Matter Network
#if !CONFIG_ENABLE_CHIPOBLE
// WiFi is manually set and started
const char *ssid = "your-ssid"; // Change this to your WiFi SSID
const char *password = "your-password"; // Change this to your WiFi password
#endif
// LED will be used to indicate the Water Leak Detector state
// set your board RGB LED pin here
#ifdef RGB_BUILTIN
const uint8_t ledPin = RGB_BUILTIN;
#else
const uint8_t ledPin = 2; // Set your pin here if your board has not defined LED_BUILTIN
#warning "Do not forget to set the RGB LED pin"
#endif
// set your board USER BUTTON pin here - decommissioning and Manual Water Leak Detector toggle button
const uint8_t buttonPin = BOOT_PIN; // Set your pin here. Using BOOT Button.
// Button control
uint32_t button_time_stamp = 0; // debouncing control
bool button_state = false; // false = released | true = pressed
const uint32_t debounceTime = 250; // button debouncing time (ms)
const uint32_t decommissioningTimeout = 5000; // keep the button pressed for 5s, or longer, to decommission
void setup() {
// Initialize the USER BUTTON (Boot button) that will be used to decommission the Matter Node
// The button will also be used to manually toggle the Water Leak Detector state
pinMode(buttonPin, INPUT_PULLUP);
// Initialize the LED (light) GPIO and Matter End Point
pinMode(ledPin, OUTPUT);
Serial.begin(115200);
// CONFIG_ENABLE_CHIPOBLE is enabled when BLE is used to commission the Matter Network
#if !CONFIG_ENABLE_CHIPOBLE
// Manually connect to WiFi
WiFi.begin(ssid, password);
// Wait for connection
while (WiFi.status() != WL_CONNECTED) {
delay(500);
Serial.print(".");
}
Serial.println();
#endif
// set initial water leak detector state as false (default)
WaterLeakDetector.begin();
digitalWrite(ledPin, LOW); // LED OFF
// Matter beginning - Last step, after all EndPoints are initialized
Matter.begin();
// Check Matter Accessory Commissioning state, which may change during execution of loop()
if (!Matter.isDeviceCommissioned()) {
Serial.println("");
Serial.println("Matter Node is not commissioned yet.");
Serial.println("Initiate the device discovery in your Matter environment.");
Serial.println("Commission it to your Matter hub with the manual pairing code or QR code");
Serial.printf("Manual pairing code: %s\r\n", Matter.getManualPairingCode().c_str());
Serial.printf("QR code URL: %s\r\n", Matter.getOnboardingQRCodeUrl().c_str());
// waits for Matter Water Leak Detector Commissioning.
uint32_t timeCount = 0;
while (!Matter.isDeviceCommissioned()) {
delay(100);
if ((timeCount++ % 50) == 0) { // 50*100ms = 5 sec
Serial.println("Matter Node not commissioned yet. Waiting for commissioning.");
}
}
Serial.println("Matter Node is commissioned and connected to the network. Ready for use.");
}
}
bool simulatedHWWaterLeakDetector() {
// Simulated Water Leak Detector
static bool leakState = false;
static uint32_t lastTime = 0;
// Simulate a Water Leak Detector state change every 20 seconds
if (millis() - lastTime > 20000) {
leakState = !leakState;
lastTime = millis();
}
return leakState;
}
void loop() {
// Check if the button has been pressed
if (digitalRead(buttonPin) == LOW && !button_state) {
// deals with button debouncing
button_time_stamp = millis(); // record the time while the button is pressed.
button_state = true; // pressed.
}
uint32_t time_diff = millis() - button_time_stamp;
if (button_state && time_diff > debounceTime && digitalRead(buttonPin) == HIGH) {
button_state = false; // released
// button is released - toggle Leak State (Not Detected/Detected)
WaterLeakDetector.setLeak(!WaterLeakDetector.getLeak()); // same as WaterLeakDetector = !WaterLeakDetector;
Serial.printf("User button released. Setting the Water Leak Detector to %s.\r\n", WaterLeakDetector ? "Detected" : "Not Detected");
// LED will indicate the Water Leak Detector state
if (WaterLeakDetector) {
digitalWrite(ledPin, HIGH); // LED ON
} else {
digitalWrite(ledPin, LOW); // LED OFF
}
}
// Onboard User Button is kept pressed for longer than 5 seconds in order to decommission matter node
if (button_state && time_diff > decommissioningTimeout) {
Serial.println("Decommissioning Water Leak Detector Matter Accessory. It shall be commissioned again.");
Matter.decommission();
button_time_stamp = millis(); // avoid running decommissioning again, reboot takes a second or so
}
// Simulated Water Leak Detector
WaterLeakDetector.setLeak(simulatedHWWaterLeakDetector());
delay(50);
}
libraries/Matter/examples/MatterWaterLeakDetector/README.md
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# Matter Water Leak Detector Example
This example demonstrates how to create a Matter-compatible water leak detector device using an ESP32 SoC microcontroller.\
The application showcases Matter commissioning, device control via smart home ecosystems, manual control using a physical button, and automatic simulation of water leak detection state changes.
## Supported Targets
| SoC | Wi-Fi | Thread | BLE Commissioning | LED | Status |
| --- | ---- | ------ | ----------------- | --- | ------ |
| ESP32 | ✅ | ❌ | ❌ | Required | Fully supported |
| ESP32-S2 | ✅ | ❌ | ❌ | Required | Fully supported |
| ESP32-S3 | ✅ | ❌ | ✅ | Required | Fully supported |
| ESP32-C3 | ✅ | ❌ | ✅ | Required | Fully supported |
| ESP32-C5 | ❌ | ✅ | ✅ | Required | Supported (Thread only) |
| ESP32-C6 | ✅ | ❌ | ✅ | Required | Fully supported |
| ESP32-H2 | ❌ | ✅ | ✅ | Required | Supported (Thread only) |
### Note on Commissioning:
- **ESP32 & ESP32-S2** do not support commissioning over Bluetooth LE. For these chips, you must provide Wi-Fi credentials directly in the sketch code so they can connect to your network manually.
- **ESP32-C6** Although it has Thread support, the ESP32 Arduino Matter Library has been pre compiled using Wi-Fi only. In order to configure it for Thread-only operation it is necessary to build the project using Arduino as an IDF Component and to disable the Matter Wi-Fi station feature.
- **ESP32-C5** Although it has Wi-Fi 2.4 GHz and 5 GHz support, the ESP32 Arduino Matter Library has been pre compiled using Thread only. In order to configure it for Wi-Fi operation it is necessary to build the project using Arduino as an ESP-IDF component and disable Thread network, keeping only Wi-Fi station.
## Features
- Matter protocol implementation for a water leak detector device
- Support for both Wi-Fi and Thread(*) connectivity
- Water leak detection state indication using LED (ON = Detected, OFF = Not Detected)
- Automatic simulation of water leak detection state changes every 20 seconds
- Button control for toggling water leak detection state and factory reset
- Matter commissioning via QR code or manual pairing code
- Integration with Apple HomeKit, Amazon Alexa, and Google Home
(*) It is necessary to compile the project using Arduino as IDF Component.
## Hardware Requirements
- ESP32 compatible development board (see supported targets table)
- LED connected to GPIO pins (or using built-in LED) to indicate water leak detection state
- User button for manual control (uses BOOT button by default)
## Pin Configuration
- **LED**: Uses `RGB_BUILTIN` if defined, otherwise pin 2
- **Button**: Uses `BOOT_PIN` by default
## Software Setup
### Prerequisites
1. Install the Arduino IDE (2.0 or newer recommended)
2. Install ESP32 Arduino Core with Matter support
3. ESP32 Arduino libraries:
- `Matter`
- `Wi-Fi` (only for ESP32 and ESP32-S2)
### Configuration
Before uploading the sketch, configure the following:
1. **Wi-Fi credentials** (if not using BLE commissioning - mandatory for ESP32 | ESP32-S2):
```cpp
const char *ssid = "your-ssid"; // Change to your Wi-Fi SSID
const char *password = "your-password"; // Change to your Wi-Fi password
```
2. **LED pin configuration** (if not using built-in LED):
```cpp
const uint8_t ledPin = 2; // Set your LED pin here
```
3. **Button pin configuration** (optional):
By default, the `BOOT` button (GPIO 0) is used for the Water Leak Detector state toggle and factory reset. You can change this to a different pin if needed.
```cpp
const uint8_t buttonPin = BOOT_PIN; // Set your button pin here
```
## Building and Flashing
1. Open the `MatterWaterLeakDetector.ino` sketch in the Arduino IDE.
2. Select your ESP32 board from the **Tools > Board** menu.
<!-- vale off -->
3. Select **"Huge APP (3MB No OTA/1MB SPIFFS)"** from **Tools > Partition Scheme** menu.
<!-- vale on -->
4. Enable **"Erase All Flash Before Sketch Upload"** option from **Tools** menu.
5. Connect your ESP32 board to your computer via USB.
6. Click the **Upload** button to compile and flash the sketch.
## Expected Output
Once the sketch is running, open the Serial Monitor at a baud rate of **115200**. The Wi-Fi connection messages will be displayed only for ESP32 and ESP32-S2. Other targets will use Matter CHIPoBLE to automatically setup the IP Network. You should see output similar to the following, which provides the necessary information for commissioning:
```
Connecting to your-wifi-ssid
.......
Wi-Fi connected
IP address: 192.168.1.100
Matter Node is not commissioned yet.
Initiate the device discovery in your Matter environment.
Commission it to your Matter hub with the manual pairing code or QR code
Manual pairing code: 34970112332
QR code URL: https://project-chip.github.io/connectedhomeip/qrcode.html?data=MT%3A6FCJ142C00KA0648G00
Matter Node not commissioned yet. Waiting for commissioning.
Matter Node not commissioned yet. Waiting for commissioning.
...
Matter Node is commissioned and connected to the network. Ready for use.
User button released. Setting the Water Leak Detector to Detected.
User button released. Setting the Water Leak Detector to Not Detected.
```
## Using the Device
### Manual Control
The user button (BOOT button by default) provides manual control:
- **Short press of the button**: Toggle water leak detector state (Not Detected/Detected)
- **Long press (>5 seconds)**: Factory reset the device (decommission)
### Automatic Simulation
The water leak detector state automatically toggles every 20 seconds to simulate a real water leak detector. The LED will reflect the current state:
- **LED ON**: Water leak is Detected
- **LED OFF**: Water leak is Not Detected
### Smart Home Integration
Use a Matter-compatible hub (like an Apple HomePod, Google Nest Hub, or Amazon Echo) to commission the device.
Check for Matter Water Leak Detector endpoint support within the Matter Controller developer webpage.
This endpoint is part of the latest Matter supported device list and it may not be fully supported by your Matter environment.
You can also try the Home Assistant Matter feature in order to test it.
#### Apple Home
1. Open the Home app on your iOS device
2. Tap the "+" button > Add Accessory
3. Scan the QR code displayed in the Serial Monitor, or
4. Tap "I Don't Have a Code or Cannot Scan" and enter the manual pairing code
5. Follow the prompts to complete setup
6. The device will appear as a water leak detector in your Home app
7. You can monitor the water leak detection state (Detected/Not Detected) and receive notifications when the state changes
#### Amazon Alexa
1. Open the Alexa app
2. Tap More > Add Device > Matter
3. Select "Scan QR code" or "Enter code manually"
4. Complete the setup process
5. The water leak detector will appear in your Alexa app
6. You can monitor the water leak detection state and set up routines based on state changes
#### Google Home
1. Open the Google Home app
2. Tap "+" > Set up device > New device
3. Choose "Matter device"
4. Scan the QR code or enter the manual pairing code
5. Follow the prompts to complete setup
6. The water leak detector will appear in your Google Home app
## Code Structure
The MatterWaterLeakDetector example consists of the following main components:
1. **`setup()`**: Initializes hardware (button, LED), configures Wi-Fi (if needed), sets up the Matter Water Leak Detector endpoint with initial state (Not Detected), and waits for Matter commissioning.
2. **`loop()`**: Handles button input for toggling water leak detection state and factory reset, and automatically simulates water leak detection state changes every 20 seconds.
3. **`simulatedHWWaterLeakDetector()`**: Simulates a hardware water leak detector by toggling the water leak detection state every 20 seconds.
## Troubleshooting
- **Device not visible during commissioning**: Ensure Wi-Fi or Thread connectivity is properly configured
- **LED not responding**: Verify pin configurations and connections
- **Water leak detector state not updating**: Check Serial Monitor output to verify state changes are being processed
- **Failed to commission**: Try factory resetting the device by long-pressing the button. Other option would be to erase the SoC Flash Memory by using `Arduino IDE Menu` -> `Tools` -> `Erase All Flash Before Sketch Upload: "Enabled"` or directly with `esptool.py --port <PORT> erase_flash`
- **No serial output**: Check baudrate (115200) and USB connection
## Related Documentation
- [Matter Overview](https://docs.espressif.com/projects/arduino-esp32/en/latest/matter/matter.html)
- [Matter Endpoint Base Class](https://docs.espressif.com/projects/arduino-esp32/en/latest/matter/matter_ep.html)
- [Matter Water Leak Detector Endpoint](https://docs.espressif.com/projects/arduino-esp32/en/latest/matter/ep_water_leak_detector.html)
## License
This example is licensed under the Apache License, Version 2.0.
libraries/Matter/examples/MatterWaterLeakDetector/ci.yml
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fqbn_append: PartitionScheme=huge_app
requires:
- CONFIG_ESP_MATTER_ENABLE_DATA_MODEL=y