#include #include #include #include // Demo PLC firmware using the ESPMegaPRO OOP library ESPMegaPRO espmega = ESPMegaPRO(); const uint16_t irCode[15][4][4][1] = {0}; const char* mode_names[] = {"Off", "Fan-only", "Cool"}; const char* fan_speed_names[] = {"Auto", "Low", "Medium", "High"}; size_t getInfraredCode(uint8_t mode, uint8_t fan_speed, uint8_t temperature, const uint16_t** codePtr) { // Change the code pointer to point to the IR timing array *codePtr = &(irCode[mode][fan_speed][temperature][0]); return sizeof(irCode[mode][fan_speed][temperature]) / sizeof(uint16_t); } AirConditioner ac = { .max_temperature = 30, .min_temperature = 16, .modes = 4, .mode_names = mode_names, .fan_speeds = 4, .fan_speed_names = fan_speed_names, .getInfraredCode = &getInfraredCode }; ClimateCard climateCard = ClimateCard(14, ac); void input_change_callback(uint8_t pin, uint8_t value) { Serial.print("Input change callback: "); Serial.print(pin); Serial.print(" "); Serial.println(value); } void setup() { // Set each class's log level esp_log_level_set("ESPMegaPRO", ESP_LOG_VERBOSE); esp_log_level_set("DigitalOutputCard", ESP_LOG_VERBOSE); esp_log_level_set("DigitalOutputIoT", ESP_LOG_VERBOSE); esp_log_level_set("DigitalInputCard", ESP_LOG_VERBOSE); esp_log_level_set("DigitalInputIoT", ESP_LOG_VERBOSE); esp_log_level_set("AnalogCard", ESP_LOG_VERBOSE); esp_log_level_set("AnalogIoT", ESP_LOG_VERBOSE); esp_log_level_set("ClimateCard", ESP_LOG_VERBOSE); esp_log_level_set("ClimateIoT", ESP_LOG_VERBOSE); esp_log_level_set("InternalDisplay", ESP_LOG_VERBOSE); esp_log_level_set("InternalDisplayIoT", ESP_LOG_VERBOSE); espmega.begin(); espmega.enableIotModule(); ETH.begin(); espmega.iot->bindEthernetInterface(Ð); NetworkConfig config = { .ip = {192, 168, 0, 11}, .gateway = {192, 168, 0, 1}, .subnet = {255, 255, 255, 0}, .dns1 = {192, 168, 0, 1}, .dns2 = {192, 168, 0, 1}, .useStaticIp = true, .useWifi = false, .wifiUseAuth = false, }; strcpy(config.ssid, "ssid"); strcpy(config.password, "password"); strcpy(config.hostname, "espmega"); Serial.println("Setting network config"); espmega.iot->setNetworkConfig(config); Serial.println("Connecting to network"); espmega.iot->connectNetwork(); Serial.println("Begin MQTT Modules"); MqttConfig mqtt_config = { .mqtt_port = 1883, .mqtt_useauth = false }; Serial.println("Setting MQTT Server"); strcpy(mqtt_config.mqtt_server, "192.168.0.26"); strcpy(mqtt_config.base_topic, "/espmegaoop"); Serial.println("Loading MQTT Config Struct to IoT Module"); espmega.iot->setMqttConfig(mqtt_config); Serial.println("Connecting to MQTT"); espmega.iot->connectToMqtt(); Serial.println("Registering Output Card"); espmega.iot->registerCard(0); Serial.println("Registering Input Card"); espmega.iot->registerCard(1); Serial.println("Registering Input Change Callback"); espmega.inputs.registerCallback(input_change_callback); Serial.println("Installing Climate Card"); espmega.installCard(2, &climateCard); climateCard.bindFRAM(&espmega.fram, 2000); climateCard.loadStateFromFRAM(); climateCard.setFRAMAutoSave(true); Serial.println("Enabling Internal Display"); espmega.enableInternalDisplay(&Serial); espmega.display->bindClimateCard(&climateCard); Serial.println("Initialization Routine Complete"); } void loop() { espmega.loop(); }