#include "Network.h" #include "PreferencesKeys.h" #include "MqttTopics.h" #include "networkDevices/W5500Device.h" #include "networkDevices/WifiDevice.h" #include "Logger.h" #include "Config.h" Network* Network::_inst = nullptr; RTC_NOINIT_ATTR char WiFi_fallbackDetect[14]; Network::Network(Preferences *preferences, const String& maintenancePathPrefix) : _preferences(preferences) { _inst = this; _hostname = _preferences->getString(preference_hostname); memset(_maintenancePathPrefix, 0, sizeof(_maintenancePathPrefix)); size_t len = maintenancePathPrefix.length(); for(int i=0; i < len; i++) { _maintenancePathPrefix[i] = maintenancePathPrefix.charAt(i); } setupDevice(); } void Network::setupDevice() { if(strcmp(WiFi_fallbackDetect, "wifi_fallback") == 0) { Log->println(F("Switching to WiFi device as fallback.")); _networkDeviceType = NetworkDeviceType::WiFi; } else { int hardwareDetect = _preferences->getInt(preference_network_hardware_detect); if(hardwareDetect == 0) { hardwareDetect = 26; _preferences->putInt(preference_network_hardware_detect, hardwareDetect); } if(hardwareDetect == -1) { Log->println(F("W5500 hardware is disable, using Wifi.")); _networkDeviceType = NetworkDeviceType::WiFi; } else { Log->print(F("Using PIN ")); Log->print(hardwareDetect); Log->println(F(" for network device selection")); pinMode(hardwareDetect, INPUT_PULLUP); _networkDeviceType = digitalRead(hardwareDetect) == HIGH ? NetworkDeviceType::WiFi : NetworkDeviceType::W5500; } } switch(_networkDeviceType) { case NetworkDeviceType::W5500: Log->println(F("Network device: W5500")); _device = new W5500Device(_hostname, _preferences); break; case NetworkDeviceType::WiFi: Log->println(F("Network device: Builtin WiFi")); _device = new WifiDevice(_hostname, _preferences); break; default: Log->println(F("Unknown network device type, defaulting to WiFi")); _device = new WifiDevice(_hostname, _preferences); break; } } void Network::initialize() { _restartOnDisconnect = _preferences->getBool(preference_restart_on_disconnect); _rssiPublishInterval = _preferences->getInt(preference_rssi_publish_interval); _hostname = _preferences->getString(preference_hostname); if(_hostname == "") { _hostname = "nukihub"; _preferences->putString(preference_hostname, _hostname); } if(_rssiPublishInterval == 0) { _rssiPublishInterval = -1; _preferences->putInt(preference_rssi_publish_interval, _rssiPublishInterval); } strcpy(_hostnameArr, _hostname.c_str()); _device->initialize(); Log->print(F("Host name: ")); Log->println(_hostname); String brokerAddr = _preferences->getString(preference_mqtt_broker); strcpy(_mqttBrokerAddr, brokerAddr.c_str()); int port = _preferences->getInt(preference_mqtt_broker_port); if(port == 0) { port = 1883; _preferences->putInt(preference_mqtt_broker_port, port); } String mqttUser = _preferences->getString(preference_mqtt_user); if(mqttUser.length() > 0) { size_t len = mqttUser.length(); for(int i=0; i < len; i++) { _mqttUser[i] = mqttUser.charAt(i); } } String mqttPass = _preferences->getString(preference_mqtt_password); if(mqttPass.length() > 0) { size_t len = mqttPass.length(); for(int i=0; i < len; i++) { _mqttPass[i] = mqttPass.charAt(i); } } Log->print(F("MQTT Broker: ")); Log->print(_mqttBrokerAddr); Log->print(F(":")); Log->println(port); _device->mqttClient()->setClientId(_hostnameArr); _device->mqttClient()->setCleanSession(MQTT_CLEAN_SESSIONS); _networkTimeout = _preferences->getInt(preference_network_timeout); if(_networkTimeout == 0) { _networkTimeout = -1; _preferences->putInt(preference_network_timeout, _networkTimeout); } } bool Network::update() { unsigned long ts = millis(); _device->update(); if(!_device->isConnected()) { if(_restartOnDisconnect && millis() > 60000) { ESP.restart(); } Log->println(F("Network not connected. Trying reconnect.")); ReconnectStatus reconnectStatus = _device->reconnect(); switch(reconnectStatus) { case ReconnectStatus::CriticalFailure: strcpy(WiFi_fallbackDetect, "wifi_fallback"); Log->println("Network device has a critical failure, enable fallback to Wifi and reboot."); delay(200); ESP.restart(); break; case ReconnectStatus::Success: memset(WiFi_fallbackDetect, 0, sizeof(WiFi_fallbackDetect)); Log->println(F("Reconnect successful")); break; case ReconnectStatus::Failure: Log->println(F("Reconnect failed")); break; } } if(!_device->mqttClient()->connected()) { if(_networkTimeout > 0 && (ts - _lastConnectedTs > _networkTimeout * 1000) && ts > 60000) { Log->println("Network timeout has been reached, restarting ..."); delay(200); ESP.restart(); } bool success = reconnect(); if(!success) { return false; } } _lastConnectedTs = ts; if(_presenceCsv != nullptr && strlen(_presenceCsv) > 0) { bool success = publishString(_mqttPresencePrefix, mqtt_topic_presence, _presenceCsv); if(!success) { Log->println(F("Failed to publish presence CSV data.")); Log->println(_presenceCsv); } _presenceCsv = nullptr; } if(_device->signalStrength() != 127 && _rssiPublishInterval > 0 && ts - _lastRssiTs > _rssiPublishInterval) { _lastRssiTs = ts; int8_t rssi = _device->signalStrength(); if(rssi != _lastRssi) { publishInt(_maintenancePathPrefix, mqtt_topic_wifi_rssi, _device->signalStrength()); _lastRssi = rssi; } } if(_lastMaintenanceTs == 0 || (ts - _lastMaintenanceTs) > 30000) { publishULong(_maintenancePathPrefix, mqtt_topic_uptime, ts / 1000 / 60); // publishUInt(_maintenancePathPrefix, mqtt_topic_freeheap, esp_get_free_heap_size()); _lastMaintenanceTs = ts; } return true; } bool Network::reconnect() { _mqttConnectionState = 0; int port = _preferences->getInt(preference_mqtt_broker_port); while (!_device->mqttClient()->connected() && millis() > _nextReconnect) { Log->println(F("Attempting MQTT connection")); bool success = false; if(strlen(_mqttUser) == 0) { Log->println(F("MQTT: Connecting without credentials")); _device->mqttClient()->setServer(_mqttBrokerAddr, port); success = _device->mqttClient()->connect(); } else { Log->print(F("MQTT: Connecting with user: ")); Log->println(_mqttUser); _device->mqttClient()->setCredentials(_mqttUser, _mqttPass); _device->mqttClient()->setServer(_mqttBrokerAddr, port); success = _device->mqttClient()->connect(); } if (success) { Log->println(F("MQTT connected")); _mqttConnectionState = 1; delay(100); // TODO _device->mqttClient()->onMessage(Network::onMqttDataReceivedCallback); for(const String& topic : _subscribedTopics) { _device->mqttClient()->subscribe(topic.c_str(), MQTT_QOS_LEVEL); } if(_firstConnect) { _firstConnect = false; for(const auto& it : _initTopics) { _device->mqttClient()->publish(it.first.c_str(), MQTT_QOS_LEVEL, true, it.second.c_str()); } } delay(1000); _mqttConnectionState = 2; } else { Log->print(F("MQTT connect failed, rc=")); // Log->println(_device->mqttClient()->connectError()); _device->printError(); _mqttConnectionState = 0; _nextReconnect = millis() + 5000; } } return _mqttConnectionState > 0; } void Network::subscribe(const char* prefix, const char *path) { char prefixedPath[500]; buildMqttPath(prefix, path, prefixedPath); _subscribedTopics.push_back(prefixedPath); } void Network::initTopic(const char *prefix, const char *path, const char *value) { char prefixedPath[500]; buildMqttPath(prefix, path, prefixedPath); String pathStr = prefixedPath; String valueStr = value; _initTopics[pathStr] = valueStr; } void Network::buildMqttPath(const char* prefix, const char* path, char* outPath) { int offset = 0; int i=0; while(prefix[i] != 0x00) { outPath[offset] = prefix[i]; ++offset; ++i; } i=0; while(path[i] != 0x00) { outPath[offset] = path[i]; ++i; ++offset; } outPath[offset] = 0x00; } void Network::registerMqttReceiver(MqttReceiver* receiver) { _mqttReceivers.push_back(receiver); } void Network::onMqttDataReceivedCallback(const espMqttClientTypes::MessageProperties& properties, const char* topic, const uint8_t* payload, size_t len, size_t index, size_t total) { uint8_t value[50] = {0}; size_t l = min(len, sizeof(value)-1); for(int i=0; ionMqttDataReceived(properties, topic, value, len, index, total); } void Network::onMqttDataReceived(const espMqttClientTypes::MessageProperties& properties, const char* topic, const uint8_t* payload, size_t len, size_t index, size_t total) { for(auto receiver : _mqttReceivers) { receiver->onMqttDataReceived(topic, (byte*)payload, index); } } MqttClientSetup *Network::mqttClient() { return _device->mqttClient(); } void Network::reconfigureDevice() { _device->reconfigure(); } void Network::setMqttPresencePath(char *path) { memset(_mqttPresencePrefix, 0, sizeof(_mqttPresencePrefix)); strcpy(_mqttPresencePrefix, path); } void Network::disableAutoRestarts() { _networkTimeout = 0; _restartOnDisconnect = false; } int Network::mqttConnectionState() { return _mqttConnectionState; } void Network::publishFloat(const char* prefix, const char* topic, const float value, const uint8_t precision) { char str[30]; dtostrf(value, 0, precision, str); char path[200] = {0}; buildMqttPath(prefix, topic, path); _device->mqttClient()->publish(path, MQTT_QOS_LEVEL, true, str); } void Network::publishInt(const char* prefix, const char *topic, const int value) { char str[30]; itoa(value, str, 10); char path[200] = {0}; buildMqttPath(prefix, topic, path); _device->mqttClient()->publish(path, MQTT_QOS_LEVEL, true, str); } void Network::publishUInt(const char* prefix, const char *topic, const unsigned int value) { char str[30]; utoa(value, str, 10); char path[200] = {0}; buildMqttPath(prefix, topic, path); _device->mqttClient()->publish(path, MQTT_QOS_LEVEL, true, str); } void Network::publishULong(const char* prefix, const char *topic, const unsigned long value) { char str[30]; utoa(value, str, 10); char path[200] = {0}; buildMqttPath(prefix, topic, path); _device->mqttClient()->publish(path, MQTT_QOS_LEVEL, true, str); } void Network::publishBool(const char* prefix, const char *topic, const bool value) { char str[2] = {0}; str[0] = value ? '1' : '0'; char path[200] = {0}; buildMqttPath(prefix, topic, path); _device->mqttClient()->publish(path, MQTT_QOS_LEVEL, true, str); } bool Network::publishString(const char* prefix, const char *topic, const char *value) { char path[200] = {0}; buildMqttPath(prefix, topic, path); return _device->mqttClient()->publish(path, MQTT_QOS_LEVEL, true, value) > 0; } void Network::publishHASSConfig(char* deviceType, const char* baseTopic, char* name, char* uidString, char* lockAction, char* unlockAction, char* openAction, char* lockedState, char* unlockedState) { String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery); if (discoveryTopic != "") { String configJSON = "{\"dev\":{\"ids\":[\"nuki_"; configJSON.concat(uidString); configJSON.concat("\"],\"mf\":\"Nuki\",\"mdl\":\""); configJSON.concat(deviceType); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\"},\"~\":\""); configJSON.concat(baseTopic); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\",\"unique_id\":\""); configJSON.concat(uidString); configJSON.concat("_lock\",\"cmd_t\":\"~"); configJSON.concat(mqtt_topic_lock_action); configJSON.concat("\",\"pl_lock\":\""); configJSON.concat(lockAction); configJSON.concat("\",\"pl_unlk\":\""); configJSON.concat(unlockAction); configJSON.concat("\",\"pl_open\":\""); configJSON.concat(openAction); configJSON.concat("\",\"stat_t\":\"~"); configJSON.concat(mqtt_topic_lock_binary_state); configJSON.concat("\",\"stat_locked\":\""); configJSON.concat(lockedState); configJSON.concat("\",\"stat_unlocked\":\""); configJSON.concat(unlockedState); configJSON.concat("\",\"opt\":\"false\"}"); String path = discoveryTopic; path.concat("/lock/"); path.concat(uidString); path.concat("/smartlock/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, configJSON.c_str()); // Battery critical configJSON = "{\"dev\":{\"ids\":[\"nuki_"; configJSON.concat(uidString); configJSON.concat("\"],\"mf\":\"Nuki\",\"mdl\":\""); configJSON.concat(deviceType); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\"},\"~\":\""); configJSON.concat(baseTopic); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat(" battery low\",\"unique_id\":\""); configJSON.concat(uidString); configJSON.concat("_battery_low\",\"dev_cla\":\"battery\",\"ent_cat\":\"diagnostic\",\"pl_off\":\"0\",\"pl_on\":\"1\",\"stat_t\":\"~"); configJSON.concat(mqtt_topic_battery_critical); configJSON.concat("\"}"); path = discoveryTopic; path.concat("/binary_sensor/"); path.concat(uidString); path.concat("/battery_low/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, configJSON.c_str()); // Keypad battery critical configJSON = "{\"dev\":{\"ids\":[\"nuki_"; configJSON.concat(uidString); configJSON.concat("\"],\"mf\":\"Nuki\",\"mdl\":\""); configJSON.concat(deviceType); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\"},\"~\":\""); configJSON.concat(baseTopic); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat(" keypad battery low\",\"unique_id\":\""); configJSON.concat(uidString); configJSON.concat("_keypad_battery_low\",\"dev_cla\":\"battery\",\"ent_cat\":\"diagnostic\",\"pl_off\":\"0\",\"pl_on\":\"1\",\"stat_t\":\"~"); configJSON.concat(mqtt_topic_battery_keypad_critical); configJSON.concat("\"}"); path = discoveryTopic; path.concat("/binary_sensor/"); path.concat(uidString); path.concat("/keypad_battery_low/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, configJSON.c_str()); // Battery voltage configJSON = "{\"dev\":{\"ids\":[\"nuki_"; configJSON.concat(uidString); configJSON.concat("\"],\"mf\":\"Nuki\",\"mdl\":\""); configJSON.concat(deviceType); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\"},\"~\":\""); configJSON.concat(baseTopic); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat(" battery voltage\",\"unique_id\":\""); configJSON.concat(uidString); configJSON.concat( "_battery_voltage\",\"dev_cla\":\"voltage\",\"ent_cat\":\"diagnostic\",\"stat_t\":\"~"); configJSON.concat(mqtt_topic_battery_voltage); configJSON.concat("\",\"stat_cla\":\"measurement\",\"unit_of_meas\":\"V\""); configJSON.concat("}"); path = discoveryTopic; path.concat("/sensor/"); path.concat(uidString); path.concat("/battery_voltage/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, configJSON.c_str()); // Trigger configJSON = "{\"dev\":{\"ids\":[\"nuki_"; configJSON.concat(uidString); configJSON.concat("\"],\"mf\":\"Nuki\",\"mdl\":\""); configJSON.concat(deviceType); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\"},\"~\":\""); configJSON.concat(baseTopic); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat(" trigger\",\"unique_id\":\""); configJSON.concat(uidString); configJSON.concat( "_trigger\",\"ent_cat\":\"diagnostic\",\"stat_t\":\"~"); configJSON.concat(mqtt_topic_lock_trigger); configJSON.concat("\",\"enabled_by_default\":true}"); path = discoveryTopic; path.concat("/sensor/"); path.concat(uidString); path.concat("/trigger/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, configJSON.c_str()); } } void Network::publishHASSConfigBatLevel(char *deviceType, const char *baseTopic, char *name, char *uidString, char *lockAction, char *unlockAction, char *openAction, char *lockedState, char *unlockedState) { String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery); if (discoveryTopic != "") { // Battery level String configJSON = "{\"dev\":{\"ids\":[\"nuki_"; configJSON.concat(uidString); configJSON.concat("\"],\"mf\":\"Nuki\",\"mdl\":\""); configJSON.concat(deviceType); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\"},\"~\":\""); configJSON.concat(baseTopic); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat(" battery level\",\"unique_id\":\""); configJSON.concat(uidString); configJSON.concat( "_battery_level\",\"dev_cla\":\"battery\",\"ent_cat\":\"diagnostic\",\"stat_t\":\"~"); configJSON.concat(mqtt_topic_battery_level); configJSON.concat("\",\"stat_cla\":\"measurement\",\"unit_of_meas\":\"%\""); configJSON.concat("}"); String path = discoveryTopic; path.concat("/sensor/"); path.concat(uidString); path.concat("/battery_level/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, configJSON.c_str()); } } void Network::publishHASSConfigDoorSensor(char *deviceType, const char *baseTopic, char *name, char *uidString, char *lockAction, char *unlockAction, char *openAction, char *lockedState, char *unlockedState) { String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery); if (discoveryTopic != "") { String configJSON = "{\"dev\":{\"ids\":[\"nuki_"; configJSON.concat(uidString); configJSON.concat("\"],\"mf\":\"Nuki\",\"mdl\":\""); configJSON.concat(deviceType); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\"},\"~\":\""); configJSON.concat(baseTopic); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat(" door sensor\",\"unique_id\":\""); configJSON.concat(uidString); configJSON.concat( "_door_sensor\",\"dev_cla\":\"door\",\"stat_t\":\"~"); configJSON.concat(mqtt_topic_lock_door_sensor_state); configJSON.concat("\",\"pl_off\":\"doorClosed\",\"pl_on\":\"doorOpened\",\"pl_not_avail\":\"unavailable\""); configJSON.concat("}"); String path = discoveryTopic; path.concat("/binary_sensor/"); path.concat(uidString); path.concat("/door_sensor/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, configJSON.c_str()); } } void Network::publishHASSConfigRingDetect(char *deviceType, const char *baseTopic, char *name, char *uidString, char *lockAction, char *unlockAction, char *openAction, char *lockedState, char *unlockedState) { String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery); if (discoveryTopic != "") { String configJSON = "{\"dev\":{\"ids\":[\"nuki_"; configJSON.concat(uidString); configJSON.concat("\"],\"mf\":\"Nuki\",\"mdl\":\""); configJSON.concat(deviceType); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\"},\"~\":\""); configJSON.concat(baseTopic); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat(" ring\",\"unique_id\":\""); configJSON.concat(uidString); configJSON.concat( "_ring\",\"dev_cla\":\"sound\",\"stat_t\":\"~"); configJSON.concat(mqtt_topic_lock_state); configJSON.concat("\",\"pl_off\":\"locked\",\"pl_on\":\"ring\"}"); String path = discoveryTopic; path.concat("/binary_sensor/"); path.concat(uidString); path.concat("/ring/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, configJSON.c_str()); } } void Network::publishHASSWifiRssiConfig(char *deviceType, const char *baseTopic, char *name, char *uidString) { if(_device->signalStrength() == 127) { return; } String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery); if (discoveryTopic != "") { String configJSON = "{\"dev\":{\"ids\":[\"nuki_"; configJSON.concat(uidString); configJSON.concat("\"],\"mf\":\"Nuki\",\"mdl\":\""); configJSON.concat(deviceType); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\"},\"~\":\""); configJSON.concat(baseTopic); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat(" WiFi signal strength\",\"unique_id\":\""); configJSON.concat(uidString); configJSON.concat( "_wifi_signal_strength\",\"dev_cla\":\"signal_strength\",\"ent_cat\":\"diagnostic\",\"stat_t\":\"~"); configJSON.concat(mqtt_topic_wifi_rssi); configJSON.concat("\",\"stat_cla\":\"measurement\",\"unit_of_meas\":\"dBm\""); configJSON.concat("}"); String path = discoveryTopic; path.concat("/sensor/"); path.concat(uidString); path.concat("/wifi_signal_strength/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, configJSON.c_str()); } } void Network::publishHASSBleRssiConfig(char *deviceType, const char *baseTopic, char *name, char *uidString) { String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery); if (discoveryTopic != "") { String configJSON = "{\"dev\":{\"ids\":[\"nuki_"; configJSON.concat(uidString); configJSON.concat("\"],\"mf\":\"Nuki\",\"mdl\":\""); configJSON.concat(deviceType); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat("\"},\"~\":\""); configJSON.concat(baseTopic); configJSON.concat("\",\"name\":\""); configJSON.concat(name); configJSON.concat(" bluetooth signal strength\",\"unique_id\":\""); configJSON.concat(uidString); configJSON.concat("_bluetooth_signal_strength\",\"dev_cla\":\"signal_strength\",\"ent_cat\":\"diagnostic\",\"stat_t\":\"~"); configJSON.concat(mqtt_topic_lock_rssi); configJSON.concat("\",\"stat_cla\":\"measurement\",\"unit_of_meas\":\"dBm\""); configJSON.concat("}"); String path = discoveryTopic; path.concat("/sensor/"); path.concat(uidString); path.concat("/bluetooth_signal_strength/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, configJSON.c_str()); } } void Network::removeHASSConfig(char* uidString) { String discoveryTopic = _preferences->getString(preference_mqtt_hass_discovery); if(discoveryTopic != "") { String path = discoveryTopic; path.concat("/lock/"); path.concat(uidString); path.concat("/smartlock/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, ""); path = discoveryTopic; path.concat("/binary_sensor/"); path.concat(uidString); path.concat("/battery_low/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, ""); path = discoveryTopic; path.concat("/sensor/"); path.concat(uidString); path.concat("/battery_voltage/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, ""); path = discoveryTopic; path.concat("/sensor/"); path.concat(uidString); path.concat("/trigger/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, ""); path = discoveryTopic; path.concat("/sensor/"); path.concat(uidString); path.concat("/battery_level/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, ""); path = discoveryTopic; path.concat("/binary_sensor/"); path.concat(uidString); path.concat("/door_sensor/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, ""); path = discoveryTopic; path.concat("/binary_sensor/"); path.concat(uidString); path.concat("/ring/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, ""); path = discoveryTopic; path.concat("/sensor/"); path.concat(uidString); path.concat("/wifi_signal_strength/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, ""); path = discoveryTopic; path.concat("/sensor/"); path.concat(uidString); path.concat("/bluetooth_signal_strength/config"); _device->mqttClient()->publish(path.c_str(), MQTT_QOS_LEVEL, true, ""); } } void Network::publishPresenceDetection(char *csv) { _presenceCsv = csv; } const NetworkDeviceType Network::networkDeviceType() { return _networkDeviceType; }