#ifndef WLED_ENABLE_MQTT #error "This user mod requires MQTT to be enabled." #endif #pragma once #include "SHT85.h" #define USERMOD_SHT_TYPE_SHT30 0 #define USERMOD_SHT_TYPE_SHT31 1 #define USERMOD_SHT_TYPE_SHT35 2 #define USERMOD_SHT_TYPE_SHT85 3 class ShtUsermod : public Usermod { private: bool enabled = false; // Is usermod enabled or not bool firstRunDone = false; // Remembers if the first config load run had been done bool initDone = false; // Remembers if the mod has been completely initialised bool haMqttDiscovery = false; // Is MQTT discovery enabled or not bool haMqttDiscoveryDone = false; // Remembers if we already published the HA discovery topics // SHT vars SHT *shtTempHumidSensor = nullptr; // Instance of SHT lib byte shtType = 0; // SHT sensor type to be used. Default: SHT30 byte unitOfTemp = 0; // Temperature unit to be used. Default: Celsius (0 = Celsius, 1 = Fahrenheit) bool shtInitDone = false; // Remembers if SHT sensor has been initialised bool shtReadDataSuccess = false; // Did we have a successful data read and is a valid temperature and humidity available? const byte shtI2cAddress = 0x44; // i2c address of the sensor. 0x44 is the default for all SHT sensors. Change this, if needed unsigned long shtLastTimeUpdated = 0; // Remembers when we read data the last time bool shtDataRequested = false; // Reading data is done async. This remembers if we asked the sensor to read data float shtCurrentTempC = 0.0f; // Last read temperature in Celsius float shtCurrentHumidity = 0.0f; // Last read humidity in RH% void initShtTempHumiditySensor(); void cleanupShtTempHumiditySensor(); void cleanup(); inline bool isShtReady() { return shtInitDone; } // Checks if the SHT sensor has been initialised. void publishTemperatureAndHumidityViaMqtt(); void publishHomeAssistantAutodiscovery(); void appendDeviceToMqttDiscoveryMessage(JsonDocument& root); public: // Strings to reduce flash memory usage (used more than twice) static const char _name[]; static const char _enabled[]; static const char _shtType[]; static const char _unitOfTemp[]; static const char _haMqttDiscovery[]; void setup(); void loop(); void onMqttConnect(bool sessionPresent); void appendConfigData(); void addToConfig(JsonObject &root); bool readFromConfig(JsonObject &root); void addToJsonInfo(JsonObject& root); bool isEnabled() { return enabled; } float getTemperature(); float getTemperatureC() { return roundf(shtCurrentTempC * 10.0f) / 10.0f; } float getTemperatureF() { return (getTemperatureC() * 1.8f) + 32.0f; } float getHumidity() { return roundf(shtCurrentHumidity * 10.0f) / 10.0f; } const char* getUnitString(); uint16_t getId() { return USERMOD_ID_SHT; } }; // Strings to reduce flash memory usage (used more than twice) const char ShtUsermod::_name[] PROGMEM = "SHT-Sensor"; const char ShtUsermod::_enabled[] PROGMEM = "Enabled"; const char ShtUsermod::_shtType[] PROGMEM = "SHT-Type"; const char ShtUsermod::_unitOfTemp[] PROGMEM = "Unit"; const char ShtUsermod::_haMqttDiscovery[] PROGMEM = "Add-To-HA-MQTT-Discovery"; /** * Initialise SHT sensor. * * Using the correct constructor according to config and initialises it using the * global i2c pins. * * @return void */ void ShtUsermod::initShtTempHumiditySensor() { switch (shtType) { case USERMOD_SHT_TYPE_SHT30: shtTempHumidSensor = (SHT *) new SHT30(); break; case USERMOD_SHT_TYPE_SHT31: shtTempHumidSensor = (SHT *) new SHT31(); break; case USERMOD_SHT_TYPE_SHT35: shtTempHumidSensor = (SHT *) new SHT35(); break; case USERMOD_SHT_TYPE_SHT85: shtTempHumidSensor = (SHT *) new SHT85(); break; } shtTempHumidSensor->begin(shtI2cAddress); // uses &Wire if (shtTempHumidSensor->readStatus() == 0xFFFF) { DEBUG_PRINTF("[%s] SHT init failed!\n", _name); cleanup(); return; } shtInitDone = true; } /** * Cleanup the SHT sensor. * * Properly calls "reset" for the sensor then releases it from memory. * * @return void */ void ShtUsermod::cleanupShtTempHumiditySensor() { if (isShtReady()) { shtTempHumidSensor->reset(); delete shtTempHumidSensor; shtTempHumidSensor = nullptr; } shtInitDone = false; } /** * Cleanup the mod completely. * * Calls ::cleanupShtTempHumiditySensor() to cleanup the SHT sensor and * deallocates pins. * * @return void */ void ShtUsermod::cleanup() { cleanupShtTempHumiditySensor(); enabled = false; } /** * Publish temperature and humidity to WLED device topic. * * Will add a "/temperature" and "/humidity" topic to the WLED device topic. * Temperature will be written in configured unit. * * @return void */ void ShtUsermod::publishTemperatureAndHumidityViaMqtt() { if (!WLED_MQTT_CONNECTED) return; char buf[128]; snprintf_P(buf, 127, PSTR("%s/temperature"), mqttDeviceTopic); mqtt->publish(buf, 0, false, String(getTemperature()).c_str()); snprintf_P(buf, 127, PSTR("%s/humidity"), mqttDeviceTopic); mqtt->publish(buf, 0, false, String(getHumidity()).c_str()); } /** * If enabled, publishes HA MQTT device discovery topics. * * Will make Home Assistant add temperature and humidity as entities automatically. * * Note: Whenever usermods are part of the WLED integration in HA, this can be dropped. * * @return void */ void ShtUsermod::publishHomeAssistantAutodiscovery() { if (!WLED_MQTT_CONNECTED) return; char json_str[1024], buf[128]; size_t payload_size; StaticJsonDocument<1024> json; snprintf_P(buf, 127, PSTR("%s Temperature"), serverDescription); json[F("name")] = buf; snprintf_P(buf, 127, PSTR("%s/temperature"), mqttDeviceTopic); json[F("stat_t")] = buf; json[F("dev_cla")] = F("temperature"); json[F("stat_cla")] = F("measurement"); snprintf_P(buf, 127, PSTR("%s-temperature"), escapedMac.c_str()); json[F("uniq_id")] = buf; json[F("unit_of_meas")] = unitOfTemp ? F("°F") : F("°C"); appendDeviceToMqttDiscoveryMessage(json); payload_size = serializeJson(json, json_str); snprintf_P(buf, 127, PSTR("homeassistant/sensor/%s/%s-temperature/config"), escapedMac.c_str(), escapedMac.c_str()); mqtt->publish(buf, 0, true, json_str, payload_size); json.clear(); snprintf_P(buf, 127, PSTR("%s Humidity"), serverDescription); json[F("name")] = buf; snprintf_P(buf, 127, PSTR("%s/humidity"), mqttDeviceTopic); json[F("stat_t")] = buf; json[F("dev_cla")] = F("humidity"); json[F("stat_cla")] = F("measurement"); snprintf_P(buf, 127, PSTR("%s-humidity"), escapedMac.c_str()); json[F("uniq_id")] = buf; json[F("unit_of_meas")] = F("%"); appendDeviceToMqttDiscoveryMessage(json); payload_size = serializeJson(json, json_str); snprintf_P(buf, 127, PSTR("homeassistant/sensor/%s/%s-humidity/config"), escapedMac.c_str(), escapedMac.c_str()); mqtt->publish(buf, 0, true, json_str, payload_size); haMqttDiscoveryDone = true; } /** * Helper to add device information to MQTT discovery topic. * * @return void */ void ShtUsermod::appendDeviceToMqttDiscoveryMessage(JsonDocument& root) { JsonObject device = root.createNestedObject(F("dev")); device[F("ids")] = escapedMac.c_str(); device[F("name")] = serverDescription; device[F("sw")] = versionString; device[F("mdl")] = ESP.getChipModel(); device[F("mf")] = F("espressif"); } /** * Setup the mod. * * Allocates i2c pins as PinOwner::HW_I2C, so they can be allocated multiple times. * And calls ::initShtTempHumiditySensor() to initialise the sensor. * * @see Usermod::setup() * @see UsermodManager::setup() * * @return void */ void ShtUsermod::setup() { if (enabled) { // GPIOs can be set to -1 , so check they're gt zero if (i2c_sda < 0 || i2c_scl < 0) { DEBUG_PRINTF("[%s] I2C bus not initialised!\n", _name); cleanup(); return; } initShtTempHumiditySensor(); initDone = true; } firstRunDone = true; } /** * Actually reading data (async) from the sensor every 30 seconds. * * If last reading is at least 30 seconds, it will trigger a reading using * SHT::requestData(). We will then continiously check SHT::dataReady() if * data is ready to be read. If so, it's read, stored locally and published * via MQTT. * * @see Usermod::loop() * @see UsermodManager::loop() * * @return void */ void ShtUsermod::loop() { if (!enabled || !initDone || strip.isUpdating()) return; if (isShtReady()) { if (millis() - shtLastTimeUpdated > 30000 && !shtDataRequested) { shtTempHumidSensor->requestData(); shtDataRequested = true; shtLastTimeUpdated = millis(); } if (shtDataRequested) { if (shtTempHumidSensor->dataReady()) { if (shtTempHumidSensor->readData(false)) { shtCurrentTempC = shtTempHumidSensor->getTemperature(); shtCurrentHumidity = shtTempHumidSensor->getHumidity(); publishTemperatureAndHumidityViaMqtt(); shtReadDataSuccess = true; } else { shtReadDataSuccess = false; } shtDataRequested = false; } } } } /** * Whenever MQTT is connected, publish HA autodiscovery topics. * * Is only donce once. * * @see Usermod::onMqttConnect() * @see UsermodManager::onMqttConnect() * * @return void */ void ShtUsermod::onMqttConnect(bool sessionPresent) { if (haMqttDiscovery && !haMqttDiscoveryDone) publishHomeAssistantAutodiscovery(); } /** * Add dropdown for sensor type and unit to UM config page. * * @see Usermod::appendConfigData() * @see UsermodManager::appendConfigData() * * @return void */ void ShtUsermod::appendConfigData() { oappend(SET_F("dd=addDropdown('")); oappend(_name); oappend(SET_F("','")); oappend(_shtType); oappend(SET_F("');")); oappend(SET_F("addOption(dd,'SHT30',0);")); oappend(SET_F("addOption(dd,'SHT31',1);")); oappend(SET_F("addOption(dd,'SHT35',2);")); oappend(SET_F("addOption(dd,'SHT85',3);")); oappend(SET_F("dd=addDropdown('")); oappend(_name); oappend(SET_F("','")); oappend(_unitOfTemp); oappend(SET_F("');")); oappend(SET_F("addOption(dd,'Celsius',0);")); oappend(SET_F("addOption(dd,'Fahrenheit',1);")); } /** * Add config data to be stored in cfg.json. * * @see Usermod::addToConfig() * @see UsermodManager::addToConfig() * * @return void */ void ShtUsermod::addToConfig(JsonObject &root) { JsonObject top = root.createNestedObject(FPSTR(_name)); // usermodname top[FPSTR(_enabled)] = enabled; top[FPSTR(_shtType)] = shtType; top[FPSTR(_unitOfTemp)] = unitOfTemp; top[FPSTR(_haMqttDiscovery)] = haMqttDiscovery; } /** * Apply config on boot or save of UM config page. * * This is called whenever WLED boots and loads cfg.json, or when the UM config * page is saved. Will properly re-instantiate the SHT class upon type change and * publish HA discovery after enabling. * * @see Usermod::readFromConfig() * @see UsermodManager::readFromConfig() * * @return bool */ bool ShtUsermod::readFromConfig(JsonObject &root) { JsonObject top = root[FPSTR(_name)]; if (top.isNull()) { DEBUG_PRINTF("[%s] No config found. (Using defaults.)\n", _name); return false; } bool oldEnabled = enabled; byte oldShtType = shtType; byte oldUnitOfTemp = unitOfTemp; bool oldHaMqttDiscovery = haMqttDiscovery; getJsonValue(top[FPSTR(_enabled)], enabled); getJsonValue(top[FPSTR(_shtType)], shtType); getJsonValue(top[FPSTR(_unitOfTemp)], unitOfTemp); getJsonValue(top[FPSTR(_haMqttDiscovery)], haMqttDiscovery); // First run: reading from cfg.json, nothing to do here, will be all done in setup() if (!firstRunDone) { DEBUG_PRINTF("[%s] First run, nothing to do\n", _name); } // Check if mod has been en-/disabled else if (enabled != oldEnabled) { enabled ? setup() : cleanup(); DEBUG_PRINTF("[%s] Usermod has been en-/disabled\n", _name); } // Config has been changed, so adopt to changes else if (enabled) { if (oldShtType != shtType) { cleanupShtTempHumiditySensor(); initShtTempHumiditySensor(); } if (oldUnitOfTemp != unitOfTemp) { publishTemperatureAndHumidityViaMqtt(); publishHomeAssistantAutodiscovery(); } if (oldHaMqttDiscovery != haMqttDiscovery && haMqttDiscovery) { publishHomeAssistantAutodiscovery(); } DEBUG_PRINTF("[%s] Config (re)loaded\n", _name); } return true; } /** * Adds the temperature and humidity actually to the info section and /json info. * * This is called every time the info section is opened ot /json is called. * * @see Usermod::addToJsonInfo() * @see UsermodManager::addToJsonInfo() * * @return void */ void ShtUsermod::addToJsonInfo(JsonObject& root) { if (!enabled && !isShtReady()) { return; } JsonObject user = root["u"]; if (user.isNull()) user = root.createNestedObject("u"); JsonArray jsonTemp = user.createNestedArray(F("Temperature")); JsonArray jsonHumidity = user.createNestedArray(F("Humidity")); if (shtLastTimeUpdated == 0 || !shtReadDataSuccess) { jsonTemp.add(0); jsonHumidity.add(0); if (shtLastTimeUpdated == 0) { jsonTemp.add(F(" Not read yet")); jsonHumidity.add(F(" Not read yet")); } else { jsonTemp.add(F(" Error")); jsonHumidity.add(F(" Error")); } return; } jsonHumidity.add(getHumidity()); jsonHumidity.add(F(" RH")); jsonTemp.add(getTemperature()); jsonTemp.add(getUnitString()); // sensor object JsonObject sensor = root[F("sensor")]; if (sensor.isNull()) sensor = root.createNestedObject(F("sensor")); jsonTemp = sensor.createNestedArray(F("temp")); jsonTemp.add(getTemperature()); jsonTemp.add(getUnitString()); jsonHumidity = sensor.createNestedArray(F("humidity")); jsonHumidity.add(getHumidity()); jsonHumidity.add(F(" RH")); } /** * Getter for last read temperature for configured unit. * * @return float */ float ShtUsermod::getTemperature() { return unitOfTemp ? getTemperatureF() : getTemperatureC(); } /** * Returns the current configured unit as human readable string. * * @return const char* */ const char* ShtUsermod::getUnitString() { return unitOfTemp ? "°F" : "°C"; }