ESPMegaPRO-v3-SDK/Template Project/lib/ESPMegaPRO/ESPMegaIoT.cpp

#include <ESPMegaIoT.hpp>
#include <ETH.h>
#define NETWORK_CONFIG_ADDRESS 34
#define MQTT_CONFIG_ADDRESS 34 + sizeof(NetworkConfig)

ESPMegaIoT::ESPMegaIoT() : mqtt(tcpClient)
{
    tcpClient.setTimeout(1);
    // Initialize the components array
    for (int i = 0; i < 255; i++)
    {
        components[i] = NULL;
    }
    active = false;
    mqtt_connected = false;
}

ESPMegaIoT::~ESPMegaIoT()
{
    // Delete the mqtt server
    delete[] mqtt_server;
    delete[] mqtt_user;
    delete[] mqtt_password;
}

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';
    // Remove the base topic from the topic
    char *topic_without_base = topic + strlen(base_topic) + 1;
    if (user_relative_mqtt_callback != NULL)
    {
        user_relative_mqtt_callback(topic_without_base + 3, payload_buffer);
    }
    if (user_mqtt_callback != NULL)
    {
        user_mqtt_callback(topic, payload_buffer);
    }
    // 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);
}

void ESPMegaIoT::setBaseTopic(char *base_topic)
{
    strcpy(this->base_topic, base_topic);
    base_topic_length = strlen(base_topic);
}

void ESPMegaIoT::intr_begin(ExpansionCard *cards[])
{
    this->cards = cards;
    active = true;
}
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();
}

// Register Existing Card for use with IoT
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, base_topic);
    //     break;
    case CARD_TYPE_DIGITAL_INPUT:
        components[card_id] = new DigitalInputIoT();
        components[card_id]->begin(card_id, cards[card_id], &mqtt, 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, base_topic);
        if (mqtt_connected)
        {
            components[card_id]->subscribe();
            components[card_id]->publishReport();
        }
        break;
    default:
        Serial.println("Unsupported card type");
        return;
    }
}
void ESPMegaIoT::deregisterCard(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;
}
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();
}
void ESPMegaIoT::subscribeToTopic(char *topic)
{
    mqtt.subscribe(topic);
}
void ESPMegaIoT::unsubscribeFromTopic(char *topic)
{
    mqtt.unsubscribe(topic);
}
void ESPMegaIoT::connectToWifi(char *ssid, char *password)
{
    WiFi.begin(ssid, password);
}
void ESPMegaIoT::connectToWifi(char *ssid)
{
    WiFi.begin(ssid);
}
void ESPMegaIoT::disconnectFromWifi()
{
    WiFi.disconnect();
}
bool ESPMegaIoT::wifiConnected()
{
    return WiFi.status() == WL_CONNECTED;
}
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.connect(client_id, mqtt_user, mqtt_password))
    {
        sessionKeepAlive();
        mqttSubscribe();
        // Publish all cards
        for (int i = 0; i < 255; i++)
        {
            if (components[i] != NULL)
            {
                components[i]->publishReport();
            }
        }
        mqtt_connected = true;
        return true;
    }
    mqtt_connected = false;
    return false;
}
bool ESPMegaIoT::connectToMqtt(char *client_id, char *mqtt_server, uint16_t mqtt_port)
{
    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.connect(client_id))
    {
        sessionKeepAlive();
        mqttSubscribe();
        // Publish all cards
        for (int i = 0; i < 255; i++)
        {
            if (components[i] != NULL)
            {
                components[i]->publishReport();
            }
        }
        mqtt_connected = true;
        return true;
    }
    Serial.println("Failed to connect to mqtt");
    mqtt_connected = false;
    return false;
}
void ESPMegaIoT::disconnectFromMqtt()
{
    mqtt.disconnect();
}
void ESPMegaIoT::publishToTopic(char *topic, char *payload)
{
    mqtt.publish(topic, payload);
}
void ESPMegaIoT::registerMqttCallback(void (*callback)(char *, char *))
{
    user_mqtt_callback = callback;
}
void ESPMegaIoT::mqttSubscribe()
{
    if (user_subscribe_callback != NULL)
    {
        user_subscribe_callback();
    }
    // Subscribe to all topics
    for (int i = 0; i < 255; i++)
    {
        if (components[i] != NULL)
        {
            components[i]->subscribe();
        }
    }
}

void ESPMegaIoT::publishRelative(uint8_t card_id, char *topic, char *payload)
{
    char absolute_topic[100];
    sprintf(absolute_topic, "%s/%d/%s", base_topic, card_id, topic);
    mqtt.publish(absolute_topic, payload);
}

bool ESPMegaIoT::mqttReconnect()
{
    if (mqtt_useauth)
    {
        return this->connectToMqtt(client_id, mqtt_server, mqtt_port, mqtt_user, mqtt_password);
    }
    else
    {
        return this->connectToMqtt(client_id, mqtt_server, mqtt_port);
    }
}

void ESPMegaIoT::sessionKeepAlive()
{
    static unsigned long lastSessionKeepAlive = 0;
    if (millis() - lastSessionKeepAlive > 30000)
    {
        lastSessionKeepAlive = millis();
        // Check if mqtt is connected
        if (!mqtt.connected())
        {
            // Try to reconnect
            mqtt_connected = mqttReconnect();
        }
    }
}

void ESPMegaIoT::registerRelativeMqttCallback(void (*callback)(char *, char *))
{
    user_relative_mqtt_callback = callback;
}

void ESPMegaIoT::publishRelative(char *topic, char *payload)
{
    char absolute_topic[100];
    sprintf(absolute_topic, "%s/%s", base_topic, topic);
    mqtt.publish(absolute_topic, payload);
}

void ESPMegaIoT::subscribeRelative(char *topic)
{
    char absolute_topic[100];
    sprintf(absolute_topic, "%s/%s", base_topic, topic);
    mqtt.subscribe(absolute_topic);
}

void ESPMegaIoT::registerSubscribeCallback(void (*callback)(void))
{
    user_subscribe_callback = callback;
}

void ESPMegaIoT::setNetworkConfig(NetworkConfig network_config)
{
    this->network_config = network_config;
    client_id = network_config.hostname;
}

void ESPMegaIoT::loadNetworkConfig()
{
    // Load the network config from FRAM
    fram->read(0, (uint8_t *)&network_config, sizeof(NetworkConfig));
}

void ESPMegaIoT::saveNetworkConfig()
{
    // Save the network config to FRAM
    fram->write(NETWORK_CONFIG_ADDRESS, (uint8_t *)&network_config, sizeof(NetworkConfig));
}

void ESPMegaIoT::ethernetBegin()
{
    ethernetIface->setHostname(network_config.hostname);
}

void ESPMegaIoT::loadMqttConfig()
{
    // Load the mqtt config from FRAM
    MqttConfig mqtt_config;
    fram->read(sizeof(NetworkConfig), (uint8_t *)&mqtt_config, sizeof(MqttConfig));
    // Populate the mqtt connection parameters
    strcpy(mqtt_server, mqtt_config.mqtt_server);
    mqtt_port = mqtt_config.mqtt_port;
    strcpy(mqtt_user, mqtt_config.mqtt_user);
    strcpy(mqtt_password, mqtt_config.mqtt_password);
    mqtt_useauth = mqtt_config.mqtt_useauth;
}

void ESPMegaIoT::saveMqttConfig()
{
    // Save the mqtt config to FRAM
    MqttConfig mqtt_config;
    strcpy(mqtt_config.mqtt_server, mqtt_server);
    mqtt_config.mqtt_port = mqtt_port;
    strcpy(mqtt_config.mqtt_user, mqtt_user);
    strcpy(mqtt_config.mqtt_password, mqtt_password);
    mqtt_config.mqtt_useauth = mqtt_useauth;
    fram->write(MQTT_CONFIG_ADDRESS, (uint8_t *)&mqtt_config, sizeof(MqttConfig));
}

void ESPMegaIoT::connectToMqtt()
{
    if (mqtt_useauth)
    {
        this->connectToMqtt(client_id, mqtt_server, mqtt_port, mqtt_user, mqtt_password);
    }
    else
    {
        this->connectToMqtt(client_id, mqtt_server, mqtt_port);
    }
}

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);
    }
}

void ESPMegaIoT::setMqttConfig(MqttConfig mqtt_config)
{
    if (mqtt_server != nullptr) {
        delete[] mqtt_server;
    }
    this->mqtt_server = new char[32];
    strcpy(mqtt_server, mqtt_config.mqtt_server);
    mqtt_port = mqtt_config.mqtt_port;
    if (mqtt_user != nullptr) {
        delete[] mqtt_user;
    }
    this->mqtt_user = new char[32];
    strcpy(mqtt_user, mqtt_config.mqtt_user);
    if (mqtt_password != nullptr) {
        delete[] mqtt_password;
    }
    this->mqtt_password = new char[32];
    strcpy(mqtt_password, mqtt_config.mqtt_password);
    mqtt_useauth = mqtt_config.mqtt_useauth;
    strcpy(base_topic, mqtt_config.base_topic);
}

void ESPMegaIoT::bindEthernetInterface(ETHClass *ethernetIface)
{
    this->ethernetIface = ethernetIface;
}

IoTComponent* ESPMegaIoT::getComponent(uint8_t card_id)
{
    return components[card_id];
}