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9 Commits
| Author | SHA1 | Date | |
|---|---|---|---|
| 651ade7334 | |||
| 98a082dd67 | |||
| 1aa5465687 | |||
| 71ec165aca | |||
| d1ddd9ecbb | |||
| 5d023b13c1 | |||
| 551866b040 | |||
| b940f325f2 | |||
| 0b603489fd |
@ -11,6 +11,7 @@ ESP-NOW based switch for ESP8266. Alternate firmware for Tuya/SmartLife/eWeLink
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5. Possibility firmware update over OTA (if is allows the size of the flash memory).
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6. Web interface for settings.
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7. Optionally support one external one wire digital climate sensor (DS18B20, DHT11 or DHT22) with automatically added sensor configuration to Home Assistan via MQTT discovery as a sensor. Periodically transmission sensor status (every 300 seconds) to the gateway.
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8. Normal or reverse relay mode (normal by default).
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## Notes
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@ -29,6 +29,7 @@ function loadBlock() {
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}
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document.getElementsByTagName('body')[0].innerHTML = newString;
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setFirmvareValue('version', 'firmware');
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setGpioValue('workModeSelect', 'workMode');
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setGpioValue('relayPinSelect', 'relayPin');
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setGpioValue('relayPinTypeSelect', 'relayPinType');
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setGpioValue('ledPinSelect', 'ledPin');
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@ -71,7 +72,8 @@ function saveSetting(submit) {
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+ "&extButtonPin=" + getSelectValue('extButtonPinSelect')
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+ "&extButtonPinType=" + getSelectValue('extButtonPinTypeSelect')
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+ "&sensorPin=" + getSelectValue('sensorPinSelect')
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+ "&sensorType=" + getSelectValue('sensorTypeSelect');
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+ "&sensorType=" + getSelectValue('sensorTypeSelect')
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+ "&workMode=" + getSelectValue('workModeSelect');
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sendRequest(submit, server);
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alert("Please restart device for changes apply.");
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}
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@ -29,6 +29,15 @@
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title="ESP-NOW network name (1 to 20 characters)" />
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</div>
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<div class="wrapper">
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<p class="text-select">Work mode:</p>
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<input id="workMode" value="{{workMode}}" hidden />
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<p><select id="workModeSelect">
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<option value="0">NORMAL</option>
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<option value="1">REVERSE</option>
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</select></p>
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</div>
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<div class="wrapper">
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<p class="text-select">Relay GPIO:</p>
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<input id="relayPin" value="{{relayPin}}" hidden />
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@ -21,7 +21,6 @@
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```text
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Relay GPIO GPIO12 HIGH
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Led GPIO GPIO13 LOW
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Button GPIO GPIO04 RISING
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Ext sensor GPIO GPIO14 DS18B20
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```
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@ -2,8 +2,9 @@
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platform = espressif8266
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board = esp12e
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framework = arduino
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build_flags = -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK305
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board_build.filesystem = littlefs
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board_build.ldscript = eagle.flash.4m2m.ld
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board_build.ldscript = eagle.flash.4m1m.ld
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lib_deps =
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https://github.com/aZholtikov/ZHNetwork
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https://github.com/aZholtikov/ZHConfig
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@ -16,8 +17,9 @@ lib_deps =
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platform = espressif8266
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board = esp12e
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framework = arduino
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build_flags = -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK305
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board_build.filesystem = littlefs
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board_build.ldscript = eagle.flash.4m2m.ld
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board_build.ldscript = eagle.flash.4m1m.ld
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upload_port = 192.168.4.1
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upload_protocol = espota
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lib_deps =
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@ -32,8 +34,9 @@ lib_deps =
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platform = espressif8266
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board = esp8285
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framework = arduino
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build_flags = -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK305
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board_build.filesystem = littlefs
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board_build.ldscript = eagle.flash.2m256.ld
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board_build.ldscript = eagle.flash.2m64.ld
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lib_deps =
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https://github.com/aZholtikov/ZHNetwork
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https://github.com/aZholtikov/ZHConfig
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@ -46,8 +49,9 @@ lib_deps =
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platform = espressif8266
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board = esp8285
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framework = arduino
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build_flags = -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK305
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board_build.filesystem = littlefs
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board_build.ldscript = eagle.flash.2m256.ld
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board_build.ldscript = eagle.flash.2m64.ld
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upload_port = 192.168.4.1
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upload_protocol = espota
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lib_deps =
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@ -62,6 +66,7 @@ lib_deps =
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platform = espressif8266
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board = esp8285
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framework = arduino
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build_flags = -D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK305
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board_build.filesystem = littlefs
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board_build.ldscript = eagle.flash.1m64.ld
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lib_deps =
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87
src/main.cpp
87
src/main.cpp
@ -32,13 +32,14 @@ typedef struct
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std::vector<espnow_message_t> espnowMessage;
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const String firmware{"1.21"};
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const String firmware{"1.4"};
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String espnowNetName{"DEFAULT"};
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uint8_t workMode{0};
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String deviceName = "ESP-NOW switch " + String(ESP.getChipId(), HEX);
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bool relayStatus{false};
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uint8_t relayPin{0};
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uint8_t relayPinType{1};
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uint8_t buttonPin{0};
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@ -51,13 +52,12 @@ uint8_t ledPinType{0};
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uint8_t sensorPin{0};
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uint8_t sensorType{0};
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bool relayStatus{false};
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bool wasMqttAvailable{false};
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uint8_t gatewayMAC[6]{0};
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const String payloadOn{"ON"};
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const String payloadOff{"OFF"};
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ZHNetwork myNet;
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AsyncWebServer webServer(80);
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@ -100,10 +100,12 @@ void setup()
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if (sensorType == ENST_DHT11 || sensorType == ENST_DHT22)
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dht.setup(sensorPin, DHTesp::AUTO_DETECT);
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}
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if (relayPin)
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{
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pinMode(relayPin, OUTPUT);
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if (workMode)
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digitalWrite(relayPin, relayPinType ? !relayStatus : relayStatus);
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else
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digitalWrite(relayPin, relayPinType ? relayStatus : !relayStatus);
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}
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if (ledPin)
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@ -201,11 +203,21 @@ void onUnicastReceiving(const char *data, const uint8_t *sender)
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if (incomingData.payloadsType == ENPT_SET)
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{
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deserializeJson(json, incomingData.message);
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relayStatus = json["set"] == payloadOn ? true : false;
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relayStatus = json["set"] == "ON" ? true : false;
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if (relayPin)
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{
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if (workMode)
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digitalWrite(relayPin, relayPinType ? !relayStatus : relayStatus);
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else
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digitalWrite(relayPin, relayPinType ? relayStatus : !relayStatus);
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}
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if (ledPin)
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{
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if (workMode)
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digitalWrite(ledPin, ledPinType ? !relayStatus : relayStatus);
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else
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digitalWrite(ledPin, ledPinType ? relayStatus : !relayStatus);
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}
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saveConfig();
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sendStatusMessage();
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}
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@ -239,6 +251,7 @@ void onConfirmReceiving(const uint8_t *target, const uint16_t id, const bool sta
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void loadConfig()
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{
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ETS_GPIO_INTR_DISABLE();
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if (!LittleFS.exists("/config.json"))
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saveConfig();
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File file = LittleFS.open("/config.json", "r");
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@ -258,11 +271,15 @@ void loadConfig()
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ledPinType = json["ledPinType"];
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sensorPin = json["sensorPin"];
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sensorType = json["sensorType"];
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workMode = json["workMode"];
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file.close();
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delay(50);
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ETS_GPIO_INTR_ENABLE();
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}
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void saveConfig()
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{
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ETS_GPIO_INTR_DISABLE();
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StaticJsonDocument<512> json;
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json["firmware"] = firmware;
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json["espnowNetName"] = espnowNetName;
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@ -278,10 +295,13 @@ void saveConfig()
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json["ledPinType"] = ledPinType;
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json["sensorPin"] = sensorPin;
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json["sensorType"] = sensorType;
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json["workMode"] = workMode;
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json["system"] = "empty";
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File file = LittleFS.open("/config.json", "w");
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serializeJsonPretty(json, file);
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file.close();
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delay(50);
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ETS_GPIO_INTR_ENABLE();
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}
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void setupWebServer()
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@ -301,6 +321,7 @@ void setupWebServer()
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ledPinType = request->getParam("ledPinType")->value().toInt();
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sensorPin = request->getParam("sensorPin")->value().toInt();
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sensorType = request->getParam("sensorType")->value().toInt();
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workMode = request->getParam("workMode")->value().toInt();
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deviceName = request->getParam("deviceName")->value();
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espnowNetName = request->getParam("espnowNetName")->value();
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request->send(200);
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@ -326,19 +347,29 @@ void setupWebServer()
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void IRAM_ATTR buttonInterrupt()
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{
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ETS_GPIO_INTR_DISABLE();
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buttonInterruptTimer.once_ms(100, switchingRelay); // For prevent contact chatter.
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buttonInterruptTimer.once_ms(500, switchingRelay); // For prevent contact chatter.
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}
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void switchingRelay()
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{
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ETS_GPIO_INTR_ENABLE();
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relayStatus = !relayStatus;
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if (relayPin)
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{
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if (workMode)
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digitalWrite(relayPin, relayPinType ? !relayStatus : relayStatus);
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else
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digitalWrite(relayPin, relayPinType ? relayStatus : !relayStatus);
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}
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if (ledPin)
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{
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if (workMode)
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digitalWrite(ledPin, ledPinType ? !relayStatus : relayStatus);
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else
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digitalWrite(ledPin, ledPinType ? relayStatus : !relayStatus);
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}
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saveConfig();
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sendStatusMessage();
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ETS_GPIO_INTR_ENABLE();
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}
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void sendAttributesMessage(const uint8_t type)
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@ -394,22 +425,22 @@ void sendConfigMessage(const uint8_t type)
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StaticJsonDocument<sizeof(esp_now_payload_data_t::message)> json;
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if (type == ENST_NONE)
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{
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json["name"] = deviceName;
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json["unit"] = 1;
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json["type"] = HACT_SWITCH;
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json["class"] = HASWDC_SWITCH;
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json["template"] = "state";
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json["payload_on"] = payloadOn;
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json["payload_off"] = payloadOff;
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json[MCMT_DEVICE_NAME] = deviceName;
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json[MCMT_DEVICE_UNIT] = 1;
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json[MCMT_COMPONENT_TYPE] = HACT_SWITCH;
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json[MCMT_DEVICE_CLASS] = HASWDC_SWITCH;
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json[MCMT_VALUE_TEMPLATE] = "state";
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}
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if (type == ENST_DS18B20 || type == ENST_DHT11 || type == ENST_DHT22)
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{
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outgoingData.deviceType = ENDT_SENSOR;
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json["name"] = deviceName + " temperature";
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json["unit"] = 2;
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json["type"] = HACT_SENSOR;
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json["class"] = HASDC_TEMPERATURE;
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json["template"] = "temperature";
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json[MCMT_DEVICE_NAME] = deviceName + " temperature";
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json[MCMT_DEVICE_UNIT] = 2;
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json[MCMT_COMPONENT_TYPE] = HACT_SENSOR;
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json[MCMT_DEVICE_CLASS] = HASDC_TEMPERATURE;
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json[MCMT_VALUE_TEMPLATE] = "temperature";
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json[MCMT_UNIT_OF_MEASUREMENT] = "°C";
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json[MCMT_EXPIRE_AFTER] = 900;
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}
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serializeJsonPretty(json, outgoingData.message);
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memcpy(&message.message, &outgoingData, sizeof(esp_now_payload_data_t));
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@ -420,11 +451,13 @@ void sendConfigMessage(const uint8_t type)
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if (type == ENST_DHT11 || type == ENST_DHT22)
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{
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outgoingData.deviceType = ENDT_SENSOR;
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json["name"] = deviceName + " humidity";
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json["unit"] = 3;
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json["type"] = HACT_SENSOR;
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json["class"] = HASDC_HUMIDITY;
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json["template"] = "humidity";
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json[MCMT_DEVICE_NAME] = deviceName + " humidity";
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json[MCMT_DEVICE_UNIT] = 3;
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json[MCMT_COMPONENT_TYPE] = HACT_SENSOR;
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json[MCMT_DEVICE_CLASS] = HASDC_HUMIDITY;
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json[MCMT_VALUE_TEMPLATE] = "humidity";
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json[MCMT_UNIT_OF_MEASUREMENT] = "%";
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json[MCMT_EXPIRE_AFTER] = 900;
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serializeJsonPretty(json, outgoingData.message);
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memcpy(&message.message, &outgoingData, sizeof(esp_now_payload_data_t));
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@ -443,7 +476,7 @@ void sendStatusMessage(const uint8_t type)
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espnow_message_t message;
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StaticJsonDocument<sizeof(esp_now_payload_data_t::message)> json;
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if (type == ENST_NONE)
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json["state"] = relayStatus ? payloadOn : payloadOff;
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json["state"] = relayStatus ? "ON" : "OFF";
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if (type == ENST_DS18B20)
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{
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outgoingData.deviceType = ENDT_SENSOR;
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Reference in New Issue
Block a user