#include "mqtt_fan.h" #include "esphome/core/log.h" #include "mqtt_const.h" #ifdef USE_MQTT #ifdef USE_FAN namespace esphome { namespace mqtt { static const char *const TAG = "mqtt.fan"; using namespace esphome::fan; MQTTFanComponent::MQTTFanComponent(Fan *state) : state_(state) {} Fan *MQTTFanComponent::get_state() const { return this->state_; } std::string MQTTFanComponent::component_type() const { return "fan"; } const EntityBase *MQTTFanComponent::get_entity() const { return this->state_; } void MQTTFanComponent::setup() { this->subscribe(this->get_command_topic_(), [this](const std::string &topic, const std::string &payload) { auto val = parse_on_off(payload.c_str()); switch (val) { case PARSE_ON: ESP_LOGD(TAG, "'%s' Turning Fan ON.", this->friendly_name().c_str()); this->state_->turn_on().perform(); break; case PARSE_OFF: ESP_LOGD(TAG, "'%s' Turning Fan OFF.", this->friendly_name().c_str()); this->state_->turn_off().perform(); break; case PARSE_TOGGLE: ESP_LOGD(TAG, "'%s' Toggling Fan.", this->friendly_name().c_str()); this->state_->toggle().perform(); break; case PARSE_NONE: default: ESP_LOGW(TAG, "Unknown state payload %s", payload.c_str()); this->status_momentary_warning("state", 5000); break; } }); if (this->state_->get_traits().supports_oscillation()) { this->subscribe(this->get_oscillation_command_topic(), [this](const std::string &topic, const std::string &payload) { auto val = parse_on_off(payload.c_str(), "oscillate_on", "oscillate_off"); switch (val) { case PARSE_ON: ESP_LOGD(TAG, "'%s': Setting oscillating ON", this->friendly_name().c_str()); this->state_->make_call().set_oscillating(true).perform(); break; case PARSE_OFF: ESP_LOGD(TAG, "'%s': Setting oscillating OFF", this->friendly_name().c_str()); this->state_->make_call().set_oscillating(false).perform(); break; case PARSE_TOGGLE: this->state_->make_call().set_oscillating(!this->state_->oscillating).perform(); break; case PARSE_NONE: ESP_LOGW(TAG, "Unknown Oscillation Payload %s", payload.c_str()); this->status_momentary_warning("oscillation", 5000); break; } }); } if (this->state_->get_traits().supports_speed()) { this->subscribe(this->get_speed_level_command_topic(), [this](const std::string &topic, const std::string &payload) { optional speed_level_opt = parse_number(payload); if (speed_level_opt.has_value()) { const int speed_level = speed_level_opt.value(); if (speed_level >= 0 && speed_level <= this->state_->get_traits().supported_speed_count()) { ESP_LOGD(TAG, "New speed level %d", speed_level); this->state_->make_call().set_speed(speed_level).perform(); } else { ESP_LOGW(TAG, "Invalid speed level %d", speed_level); this->status_momentary_warning("speed", 5000); } } else { ESP_LOGW(TAG, "Invalid speed level %s (int expected)", payload.c_str()); this->status_momentary_warning("speed", 5000); } }); } auto f = std::bind(&MQTTFanComponent::publish_state, this); this->state_->add_on_state_callback([this, f]() { this->defer("send", f); }); } void MQTTFanComponent::dump_config() { ESP_LOGCONFIG(TAG, "MQTT Fan '%s': ", this->state_->get_name().c_str()); LOG_MQTT_COMPONENT(true, true); if (this->state_->get_traits().supports_oscillation()) { ESP_LOGCONFIG(TAG, " Oscillation State Topic: '%s'", this->get_oscillation_state_topic().c_str()); ESP_LOGCONFIG(TAG, " Oscillation Command Topic: '%s'", this->get_oscillation_command_topic().c_str()); } if (this->state_->get_traits().supports_speed()) { ESP_LOGCONFIG(TAG, " Speed Level State Topic: '%s'", this->get_speed_level_state_topic().c_str()); ESP_LOGCONFIG(TAG, " Speed Level Command Topic: '%s'", this->get_speed_level_command_topic().c_str()); } } bool MQTTFanComponent::send_initial_state() { return this->publish_state(); } void MQTTFanComponent::send_discovery(JsonObject root, mqtt::SendDiscoveryConfig &config) { if (this->state_->get_traits().supports_oscillation()) { root[MQTT_OSCILLATION_COMMAND_TOPIC] = this->get_oscillation_command_topic(); root[MQTT_OSCILLATION_STATE_TOPIC] = this->get_oscillation_state_topic(); } if (this->state_->get_traits().supports_speed()) { root[MQTT_PERCENTAGE_COMMAND_TOPIC] = this->get_speed_level_command_topic(); root[MQTT_PERCENTAGE_STATE_TOPIC] = this->get_speed_level_state_topic(); root[MQTT_SPEED_RANGE_MAX] = this->state_->get_traits().supported_speed_count(); } } bool MQTTFanComponent::publish_state() { const char *state_s = this->state_->state ? "ON" : "OFF"; ESP_LOGD(TAG, "'%s' Sending state %s.", this->state_->get_name().c_str(), state_s); this->publish(this->get_state_topic_(), state_s); bool failed = false; if (this->state_->get_traits().supports_oscillation()) { bool success = this->publish(this->get_oscillation_state_topic(), this->state_->oscillating ? "oscillate_on" : "oscillate_off"); failed = failed || !success; } auto traits = this->state_->get_traits(); if (traits.supports_speed()) { std::string payload = to_string(this->state_->speed); bool success = this->publish(this->get_speed_level_state_topic(), payload); failed = failed || !success; } return !failed; } } // namespace mqtt } // namespace esphome #endif #endif // USE_MQTT