#include #include /** * @brief Create a new ESPMegaIoT object * * @note You shold not create this object directly, Instead, you should use the ESPMegaPRO::iot object */ ESPMegaIoT::ESPMegaIoT() : mqtt(tcpClient) { tcpClient.setTimeout(TCP_TIMEOUT_SEC); // Initialize the components array for (int i = 0; i < 255; i++) { components[i] = NULL; } active = false; mqtt_connected = false; } /** * @brief Destroy the ESPMegaIoT object */ ESPMegaIoT::~ESPMegaIoT() { } /** * @brief The mqtt callback function, This function is called when a message is received on a subscribed topic * * This function is called when a message is received on a subscribed topic * The payload is copied to a buffer and a null terminator is added * The payload is then passed to the respective card's mqtt callback * * @param topic The topic of the message * @param payload The payload of the message in byte form * @param length The length of the payload */ void ESPMegaIoT::mqttCallback(char *topic, byte *payload, unsigned int length) { // Create a null terminated string from the payload memcpy(payload_buffer, payload, length); payload_buffer[length] = '\0'; // If the topic is not appended with the base topic, call only the absolute callbacks for (const auto &callback : mqtt_callbacks) { callback.second(topic, payload_buffer); } if (strncmp(topic, this->mqtt_config.base_topic, base_topic_length) != 0) { return; } // Remove the base topic from the topic char *topic_without_base = topic + strlen(this->mqtt_config.base_topic) + 1; for (const auto &callback : mqtt_relative_callbacks) { callback.second(topic_without_base, payload_buffer); } // Check for global state request if (!strcmp(topic_without_base,"requeststate")) { for (int i = 0; i < 255; i++) { if (components[i] != NULL) { components[i]->publishReport(); } } return; } // Check for global summary request if (!strcmp(topic_without_base,"requestinfo")) { this->publishSystemSummary(); return; } // Call the respective card's mqtt callback // Note that after the base topic, there should be the card id // /base_topic/card_id/... // First, get the card id in integer form char *card_id_str = strtok(topic_without_base, "/"); uint8_t card_id = atoi(card_id_str); // Check if the card is registered if (components[card_id] == NULL) { return; } components[card_id]->handleMqttMessage(topic_without_base + 3, payload_buffer); } /** * @brief Set the base topic for the IoT * * @param base_topic The base topic */ void ESPMegaIoT::setBaseTopic(char *base_topic) { strcpy(this->mqtt_config.base_topic, base_topic); base_topic_length = strlen(this->mqtt_config.base_topic); } /** * @brief Begin the ESPMegaIoT object * * @param cards The array of ExpansionCard objects */ void ESPMegaIoT::intr_begin(ExpansionCard *cards[]) { this->cards = cards; active = true; } /** * @brief The main loop for the ESPMegaIoT object * * @note Normally you should not call this function, Instead, you should call ESPMegaPRO::loop() */ void ESPMegaIoT::loop() { if (!active) return; // Call each component's loop function for (int i = 0; i < 255; i++) { if (components[i] != NULL) { components[i]->loop(); } } mqtt.loop(); sessionKeepAlive(); } /** * @brief Register an existing card for use with IoT * * This function registers an existing card for use with IoT * The card should be installed using ESPMegaPRO::installCard() before calling this function * * @param card_id The id of the card */ void ESPMegaIoT::registerCard(uint8_t card_id) { // Check if the card is already registered if (components[card_id] != NULL) { return; } // Get the card type uint8_t card_type = cards[card_id]->getType(); // Create the respective IoT component switch (card_type) { case CARD_TYPE_ANALOG: components[card_id] = new AnalogIoT(); components[card_id]->begin(card_id, cards[card_id], &mqtt, this->mqtt_config.base_topic); if (mqtt_connected) { components[card_id]->subscribe(); components[card_id]->publishReport(); } break; case CARD_TYPE_DIGITAL_INPUT: components[card_id] = new DigitalInputIoT(); components[card_id]->begin(card_id, cards[card_id], &mqtt, this->mqtt_config.base_topic); if (mqtt_connected) { components[card_id]->subscribe(); components[card_id]->publishReport(); } break; case CARD_TYPE_DIGITAL_OUTPUT: components[card_id] = new DigitalOutputIoT(); components[card_id]->begin(card_id, cards[card_id], &mqtt, this->mqtt_config.base_topic); if (mqtt_connected) { components[card_id]->subscribe(); components[card_id]->publishReport(); } break; case CARD_TYPE_CLIMATE: components[card_id] = new ClimateIoT(); components[card_id]->begin(card_id, cards[card_id], &mqtt, this->mqtt_config.base_topic); if (mqtt_connected) { components[card_id]->subscribe(); components[card_id]->publishReport(); } break; case CARD_TYPE_CT: components[card_id] = new CurrentTransformerIoT(); components[card_id]->begin(card_id, cards[card_id], &mqtt, this->mqtt_config.base_topic); if (mqtt_connected) { components[card_id]->subscribe(); components[card_id]->publishReport(); } default: ESP_LOGE("ESPMegaIoT", "Registering card %d failed: Unknown card", card_id); return; } } /** * @brief Unregister a card * * @param card_id The id of the card */ void ESPMegaIoT::unregisterCard(uint8_t card_id) { // Check if the card is registered if (components[card_id] == NULL) { return; } // Delete the IoT component delete components[card_id]; components[card_id] = NULL; } /** * @brief Publish all cards's reports */ void ESPMegaIoT::publishCard(uint8_t card_id) { // Check if the card is registered if (components[card_id] == NULL) { return; } // Publish the card components[card_id]->publishReport(); } /** * @brief Subscribe to a topic * * @param topic The topic to subscribe to */ void ESPMegaIoT::subscribe(const char *topic) { mqtt.subscribe(topic); } /** * @brief Unsubscribe from a topic * * @param topic The topic to unsubscribe from */ void ESPMegaIoT::unsubscribeFromTopic(const char *topic) { mqtt.unsubscribe(topic); } /** * @brief Connect to a wifi network * * @param ssid The SSID of the wifi network * @param password The password of the wifi network */ void ESPMegaIoT::connectToWifi(const char *ssid, const char *password) { WiFi.begin(ssid, password); } /** * @brief Connect to a unsecured wifi network * * @param ssid The SSID of the wifi network */ void ESPMegaIoT::connectToWifi(const char *ssid) { WiFi.begin(ssid); } /** * @brief Disconnect from the wifi network */ void ESPMegaIoT::disconnectFromWifi() { WiFi.disconnect(); } /** * @brief Check if the wifi is connected * * @return True if the wifi is connected, false otherwise */ bool ESPMegaIoT::wifiConnected() { return WiFi.status() == WL_CONNECTED; } /** * @brief Connect to a MQTT broker with authentication * * @param client_id The client id to use * @param mqtt_server The MQTT server to connect to * @param mqtt_port The MQTT port to connect to * @param mqtt_user The MQTT username to use * @param mqtt_password The MQTT password to use * @return True if the connection is successful, false otherwise */ bool ESPMegaIoT::connectToMqtt(char *client_id, char *mqtt_server, uint16_t mqtt_port, char *mqtt_user, char *mqtt_password) { mqtt.setServer(mqtt_server, mqtt_port); auto boundCallback = std::bind(&ESPMegaIoT::mqttCallback, this, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3); mqtt.setCallback(boundCallback); if (mqtt_user == nullptr || mqtt_password == nullptr || strlen(mqtt_user) == 0 || strlen(mqtt_password) == 0) { mqtt_connected = false; ESP_LOGE("ESPMegaIoT", "MQTT Connection failed: Username or password not set but MQTT use_auth is true"); return false; } // Create availability topic char availability_topic[base_topic_length + 15]; sprintf(availability_topic, "%s/availability", this->mqtt_config.base_topic); if (mqtt.connect(client_id, mqtt_user, mqtt_password, availability_topic, 0, true, "offline")) { sessionKeepAlive(); mqttSubscribe(); // Publish all cards for (int i = 0; i < 255; i++) { if (components[i] != NULL) { components[i]->publishReport(); } } mqtt_connected = true; mqtt.publish(availability_topic, "online", true); return true; } mqtt_connected = false; return false; } /** * @brief Connect to a MQTT broker without authentication * * @param client_id The client id to use * @param mqtt_server The MQTT server to connect to * @param mqtt_port The MQTT port to connect to * @return True if the connection is successful, false otherwise */ bool ESPMegaIoT::connectToMqtt(char *client_id, char *mqtt_server, uint16_t mqtt_port) { ESP_LOGD("ESPMegaIoT", "Setting MQTT server to %s:%d", mqtt_server, mqtt_port); mqtt.setServer(mqtt_server, mqtt_port); auto boundCallback = std::bind(&ESPMegaIoT::mqttCallback, this, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3); ESP_LOGD("ESPMegaIoT", "Binding MQTT callback"); mqtt.setCallback(boundCallback); // Create availability topic char availability_topic[base_topic_length + 15]; sprintf(availability_topic, "%s/availability", this->mqtt_config.base_topic); if (mqtt.connect(client_id, availability_topic, 0, true, "offline")) { ESP_LOGD("ESPMegaIoT", "MQTT Connected, Calling session keep alive"); sessionKeepAlive(); ESP_LOGD("ESPMegaIoT", "Subscribing to topics"); mqttSubscribe(); ESP_LOGD("ESPMegaIoT", "Publishing reports"); // Publish all cards for (int i = 0; i < 255; i++) { if (components[i] != NULL) { components[i]->publishReport(); } } ESP_LOGI("ESPMegaIoT", "MQTT Connected OK."); mqtt_connected = true; mqtt.publish(availability_topic, "online", true); return true; } ESP_LOGW("ESPMegaIoT", "MQTT Connection failed: %d", mqtt.state()); mqtt_connected = false; return false; } /** * @brief Disconnect from the MQTT broker */ void ESPMegaIoT::disconnectFromMqtt() { mqtt.disconnect(); } /** * @brief Publish a message to a topic * * @param topic The topic to publish to * @param payload The payload to publish */ void ESPMegaIoT::publish(const char *topic, const char *payload) { mqtt.publish(topic, payload); } /** * @brief Publish a message to a topic * * @param topic The topic to publish to * @param payload The payload to publish * @param length The length of the payload */ void ESPMegaIoT::publish(const char *topic, const char *payload, unsigned int length) { mqtt.publish(topic, (const uint8_t *)payload, length); } /** * @brief Register a callback for MQTT messages * * @param callback The callback function * @return The handler for the callback */ uint16_t ESPMegaIoT::registerMqttCallback(std::function callback) { mqtt_callbacks[mqtt_callbacks_handler_index] = callback; return mqtt_callbacks_handler_index++; } /** * @brief Unregister a callback * * @param handler The handler of the callback */ void ESPMegaIoT::unregisterMqttCallback(uint16_t handler) { mqtt_callbacks.erase(handler); } /** * @brief Subscribe to all components's topics and all other topics */ void ESPMegaIoT::mqttSubscribe() { ESP_LOGD("ESPMegaIoT", "Begin MQTT Subscription"); for (const auto &callback : subscribe_callbacks) { callback.second(); mqtt.loop(); } // Subscribe to all topics for (int i = 0; i < 255; i++) { if (components[i] != NULL) { ESP_LOGD("ESPMegaIoT", "Subscribing component %d", i); components[i]->subscribe(); mqtt.loop(); } } // Global topics this->subscribeRelative("requeststate"); this->subscribeRelative("requestinfo"); } /** * @brief Publish relative to the base topic */ void ESPMegaIoT::publishRelative(uint8_t card_id, char *topic, char *payload) { char absolute_topic[100]; sprintf(absolute_topic, "%s/%d/%s", this->mqtt_config.base_topic, card_id, topic); mqtt.publish(absolute_topic, payload); } /** * @brief Subscribe relative to the base topic */ bool ESPMegaIoT::mqttReconnect() { if (this->mqtt_config.mqtt_useauth) { return this->connectToMqtt(this->network_config.hostname, this->mqtt_config.mqtt_server, this->mqtt_config.mqtt_port, this->mqtt_config.mqtt_user, this->mqtt_config.mqtt_password); } else { return this->connectToMqtt(this->network_config.hostname, this->mqtt_config.mqtt_server, this->mqtt_config.mqtt_port); } } /** * @brief Keep the MQTT session alive * @note This function is called automatically by the ESPMegaIoT object, You should not call this function directly */ void ESPMegaIoT::sessionKeepAlive() { // This reconnect the MQTT if it disconnect. // If a disconnect happens, this will reconnect the MQTT within 1 second. // A connection attempt will be made at most once every MQTT_RECONNECT_INTERVAL // This have the effect of reconnecting to the server immediately if the connection is lost // and the connection was previously stable for at least MQTT_RECONNECT_INTERVAL // But will not reconnect if the connection was unstable and the connection was lost static unsigned long lastSessionKeepAlive = 0; static unsigned long lastConnectionAttempt = 0; if (millis() - lastSessionKeepAlive > 1000) { lastSessionKeepAlive = millis(); // Check if mqtt is connected if (!mqtt.connected()) { // Try to reconnect if lastConnectionAttempt exceed MQTT_RECONNECT_INTERVAL if (millis() - lastConnectionAttempt > MQTT_RECONNECT_INTERVAL) { lastConnectionAttempt = millis(); mqtt_connected = mqttReconnect(); } } } } /** * @brief Register a callback for MQTT messages relative to the base topic * * The message's base topic will be removed before calling the callback * * @param callback The callback function * @return The handler for the callback */ uint16_t ESPMegaIoT::registerRelativeMqttCallback(std::function callback) { mqtt_relative_callbacks[mqtt_relative_callbacks_handler_index] = callback; return mqtt_relative_callbacks_handler_index++; } /** * @brief Unregister a relative MQTT callback * * @param handler The handler of the callback */ void ESPMegaIoT::unregisterRelativeMqttCallback(uint16_t handler) { mqtt_relative_callbacks.erase(handler); } /** * @brief Publish a message relative to the base topic * * @param topic The topic to publish to * @param payload The payload to publish */ void ESPMegaIoT::publishRelative(const char *topic, const char *payload) { char absolute_topic[100]; sprintf(absolute_topic, "%s/%s", this->mqtt_config.base_topic, topic); mqtt.publish(absolute_topic, payload); mqtt.loop(); } /** * @brief Publish a message relative to the base topic * * @param topic The topic to publish to * @param payload The payload to publish * @param length The length of the payload */ void ESPMegaIoT::publishRelative(const char *topic, const char *payload, unsigned int length) { char absolute_topic[100]; sprintf(absolute_topic, "%s/%s", this->mqtt_config.base_topic, topic); mqtt.publish(absolute_topic, (const uint8_t *)payload, length); mqtt.loop(); } /** * @brief Subscribe to a topic relative to the base topic * * @param topic The topic to subscribe to */ void ESPMegaIoT::subscribeRelative(const char *topic) { char absolute_topic[100]; sprintf(absolute_topic, "%s/%s", this->mqtt_config.base_topic, topic); mqtt.subscribe(absolute_topic); mqtt.loop(); } /** * @brief Register a function to be called when the ESPMegaIoT object is subscribing to topics * * @param callback The callback function * @return The handler for the callback */ uint16_t ESPMegaIoT::registerSubscribeCallback(std::function callback) { subscribe_callbacks[subscribe_callbacks_handler_index] = callback; return subscribe_callbacks_handler_index++; } /** * @brief Unregister a subscribe callback * * @param handler The handler of the callback */ void ESPMegaIoT::unregisterSubscribeCallback(uint16_t handler) { subscribe_callbacks.erase(handler); } /** * @brief Set the network config * * @param network_config The network config struct */ void ESPMegaIoT::setNetworkConfig(NetworkConfig network_config) { this->network_config = network_config; } /** * @brief Load the network config from FRAM */ void ESPMegaIoT::loadNetworkConfig() { // Load the network config from FRAM network_config.ip = fram->read32(IOT_FRAM_ADDRESS); network_config.gateway = fram->read32(IOT_FRAM_ADDRESS + 4); network_config.subnet = fram->read32(IOT_FRAM_ADDRESS + 8); network_config.dns1 = fram->read32(IOT_FRAM_ADDRESS + 12); network_config.dns2 = fram->read32(IOT_FRAM_ADDRESS + 16); fram->read(IOT_FRAM_ADDRESS + 20, (uint8_t *)network_config.hostname, 32); network_config.useStaticIp = fram->read8(IOT_FRAM_ADDRESS + 52); network_config.useWifi = fram->read8(IOT_FRAM_ADDRESS + 53); network_config.wifiUseAuth = fram->read8(IOT_FRAM_ADDRESS + 54); fram->read(IOT_FRAM_ADDRESS + 55, (uint8_t *)network_config.ssid, 32); fram->read(IOT_FRAM_ADDRESS + 87, (uint8_t *)network_config.password, 32); // If ip,gateway,subnet,dns1,dns2 is 0, the device is not configured // set to default values // ip: 192.168.0.99 // gateway: 192.168.0.1 // subnet: 255.255.255.0 // dns1: 1.1.1.1 // dns2: 9.9.9.9 if ((uint32_t)network_config.ip == 0 && (uint32_t)network_config.gateway == 0 && (uint32_t)network_config.subnet == 0 && (uint32_t)network_config.dns1 == 0 && (uint32_t)network_config.dns2 == 0) { network_config.ip = IPAddress(192, 168, 0, 99); network_config.gateway = IPAddress(192, 168, 0, 1); network_config.subnet = IPAddress(255, 255, 255, 0); network_config.dns1 = IPAddress(1, 1, 1, 1); network_config.useStaticIp = true; } } /** * @brief Save the network config to FRAM */ void ESPMegaIoT::saveNetworkConfig() { // Save the network config to FRAM fram->write32(IOT_FRAM_ADDRESS, network_config.ip); fram->write32(IOT_FRAM_ADDRESS + 4, network_config.gateway); fram->write32(IOT_FRAM_ADDRESS + 8, network_config.subnet); fram->write32(IOT_FRAM_ADDRESS + 12, network_config.dns1); fram->write32(IOT_FRAM_ADDRESS + 16, network_config.dns2); fram->write(IOT_FRAM_ADDRESS + 20, (uint8_t *)network_config.hostname, 32); fram->write8(IOT_FRAM_ADDRESS + 52, network_config.useStaticIp); fram->write8(IOT_FRAM_ADDRESS + 53, network_config.useWifi); fram->write8(IOT_FRAM_ADDRESS + 54, network_config.wifiUseAuth); fram->write(IOT_FRAM_ADDRESS + 55, (uint8_t *)network_config.ssid, 32); fram->write(IOT_FRAM_ADDRESS + 87, (uint8_t *)network_config.password, 32); } /** * @brief Begin the ethernet interface */ void ESPMegaIoT::ethernetBegin() { ethernetIface->setHostname(network_config.hostname); } /** * @brief Load the MQTT config from FRAM */ void ESPMegaIoT::loadMqttConfig() { // Load the mqtt config from FRAM // We skip bytes 119-127 because they are reserved for the network config mqtt_config.mqtt_port = fram->read16(IOT_FRAM_ADDRESS + 128); fram->read(IOT_FRAM_ADDRESS + 130, (uint8_t *)mqtt_config.mqtt_server, 32); fram->read(IOT_FRAM_ADDRESS + 162, (uint8_t *)mqtt_config.mqtt_user, 32); fram->read(IOT_FRAM_ADDRESS + 194, (uint8_t *)mqtt_config.mqtt_password, 32); mqtt_config.mqtt_useauth = fram->read8(IOT_FRAM_ADDRESS + 226); fram->read(IOT_FRAM_ADDRESS + 227, (uint8_t *)mqtt_config.base_topic, 32); this->base_topic_length = strlen(mqtt_config.base_topic); } /** * @brief Save the MQTT config to FRAM */ void ESPMegaIoT::saveMqttConfig() { fram->write16(IOT_FRAM_ADDRESS + 128, mqtt_config.mqtt_port); fram->write(IOT_FRAM_ADDRESS + 130, (uint8_t *)mqtt_config.mqtt_server, 32); fram->write(IOT_FRAM_ADDRESS + 162, (uint8_t *)mqtt_config.mqtt_user, 32); fram->write(IOT_FRAM_ADDRESS + 194, (uint8_t *)mqtt_config.mqtt_password, 32); fram->write8(IOT_FRAM_ADDRESS + 226, mqtt_config.mqtt_useauth); fram->write(IOT_FRAM_ADDRESS + 227, (uint8_t *)mqtt_config.base_topic, 32); } /** * @brief Connect to MQTT with the current config */ void ESPMegaIoT::connectToMqtt() { if (mqtt_config.mqtt_useauth) { ESP_LOGD("ESPMegaIoT", "Connecting to MQTT with auth"); this->connectToMqtt(network_config.hostname, mqtt_config.mqtt_server, mqtt_config.mqtt_port, mqtt_config.mqtt_user, mqtt_config.mqtt_password); } else { ESP_LOGD("ESPMegaIoT", "Connecting to MQTT without auth"); this->connectToMqtt(network_config.hostname, mqtt_config.mqtt_server, mqtt_config.mqtt_port); } } /** * @brief Connect to the network using the current config */ void ESPMegaIoT::connectNetwork() { if (network_config.useWifi) { if (network_config.wifiUseAuth) this->connectToWifi(network_config.ssid, network_config.password); else this->connectToWifi(network_config.ssid); if (network_config.useStaticIp) WiFi.config(network_config.ip, network_config.gateway, network_config.subnet); else WiFi.config(INADDR_NONE, INADDR_NONE, INADDR_NONE); } else { this->ethernetBegin(); if (network_config.useStaticIp) ethernetIface->config(network_config.ip, network_config.gateway, network_config.subnet, network_config.dns1, network_config.dns2); } } /** * @brief Set the MQTT config * * @param mqtt_config The MQTT config struct */ void ESPMegaIoT::setMqttConfig(MqttConfig mqtt_config) { this->mqtt_config = mqtt_config; this->base_topic_length = strlen(mqtt_config.base_topic); } /** * @brief Bind an ethernet interface to the ESPMegaIoT object * * @param ethernetIface The ethernet interface to bind (ETH for ESPMegaPRO R3) */ void ESPMegaIoT::bindEthernetInterface(ETHClass *ethernetIface) { this->ethernetIface = ethernetIface; } /** * @brief Get the IoTComponent object for a card * * @param card_id The id of the card * @return The IoTComponent object for the card */ IoTComponent *ESPMegaIoT::getComponent(uint8_t card_id) { return components[card_id]; } /** * @brief Get the network config * * @warning You should not modify the returned struct directly * * @return The network config struct */ NetworkConfig *ESPMegaIoT::getNetworkConfig() { return &network_config; } /** * @brief Get the MQTT config * * @warning You should not modify the returned struct directly * * @return The MQTT config struct */ MqttConfig *ESPMegaIoT::getMqttConfig() { return &mqtt_config; } /** * @brief Check if the MQTT is connected * * @return True if the MQTT is connected, false otherwise */ bool ESPMegaIoT::mqttConnected() { // return mqtt_connected; return mqtt.connected(); } /** * @brief Check if the network is connected * * @return True if the network is connected, false otherwise */ bool ESPMegaIoT::networkConnected() { if (network_config.useWifi) return WiFi.status() == WL_CONNECTED; else return ethernetIface->linkUp(); } /** * @brief Bind a FRAM object to the ESPMegaIoT object * @note This class is hardcode to use the FRAM address 34-300 * * @param fram The FRAM object to bind */ void ESPMegaIoT::bindFRAM(FRAM *fram) { this->fram = fram; } /** * @brief Get the Wifi IP address * * @return The Wifi IP address */ IPAddress ESPMegaIoT::getWifiIp() { return WiFi.localIP(); } /** * @brief Get the Ethernet IP Address * * @return The Ethernet IP Address */ IPAddress ESPMegaIoT::getETHIp() { return ETH.localIP(); } /** * @brief Get the IP address of the currently active network interface * * @return The IP address of the currently active network interface */ IPAddress ESPMegaIoT::getIp() { if (network_config.useWifi) return this->getWifiIp(); else return this->getETHIp(); } /** * @brief Get the MAC Address of the Ethernet interface * * @return The MAC Address of the Ethernet interface */ String ESPMegaIoT::getETHMac() { return ETH.macAddress(); } /** * @brief Get the MAC Address of the Wifi interface * * @return The MAC Address of the Wifi interface */ String ESPMegaIoT::getWifiMac() { return WiFi.macAddress(); } /** * @brief Get the MAC Address of the currently active network interface * * @return The MAC Address of the currently active network interface */ String ESPMegaIoT::getMac() { if (network_config.useWifi) return this->getWifiMac(); else return this->getETHMac(); } /** * @brief Publish a json object containing the system summary */ void ESPMegaIoT::publishSystemSummary() { char payload[1024]; StaticJsonDocument<1024> doc; JsonObject root = doc.to(); root["ip"] = this->getIp().toString(); root["firmware"] = SW_VERSION; root["sdk_version"] = SDK_VESRION; root["board_model"] = BOARD_MODEL; JsonArray cards = root.createNestedArray("cards"); for (int i = 0; i < 255; i++) { if (components[i] != NULL) { JsonObject card = cards.createNestedObject(); card["id"] = i; card["type"] = components[i]->getType(); } } serializeJson(doc, payload); ESP_LOGD("ESPMegaIoT", "Publishing system summary: %s", payload); mqtt.loop(); this->publishRelative("info", payload, strlen(payload)); }