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esphome/esphome/components/mqtt/mqtt_backend_esp32.cpp

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#ifdef USE_ESP32
#include <string>
#include "mqtt_backend_esp32.h"
#include "esphome/core/log.h"
#include "esphome/core/helpers.h"
namespace esphome {
namespace mqtt {
static const char *const TAG = "mqtt.idf";
bool MQTTBackendESP32::initialize_() {
#if ESP_IDF_VERSION_MAJOR < 5
mqtt_cfg_.user_context = (void *) this;
mqtt_cfg_.buffer_size = MQTT_BUFFER_SIZE;
mqtt_cfg_.host = this->host_.c_str();
mqtt_cfg_.port = this->port_;
mqtt_cfg_.keepalive = this->keep_alive_;
mqtt_cfg_.disable_clean_session = !this->clean_session_;
if (!this->username_.empty()) {
mqtt_cfg_.username = this->username_.c_str();
if (!this->password_.empty()) {
mqtt_cfg_.password = this->password_.c_str();
}
}
if (!this->lwt_topic_.empty()) {
mqtt_cfg_.lwt_topic = this->lwt_topic_.c_str();
this->mqtt_cfg_.lwt_qos = this->lwt_qos_;
this->mqtt_cfg_.lwt_retain = this->lwt_retain_;
if (!this->lwt_message_.empty()) {
mqtt_cfg_.lwt_msg = this->lwt_message_.c_str();
mqtt_cfg_.lwt_msg_len = this->lwt_message_.size();
}
}
if (!this->client_id_.empty()) {
mqtt_cfg_.client_id = this->client_id_.c_str();
}
if (ca_certificate_.has_value()) {
mqtt_cfg_.cert_pem = ca_certificate_.value().c_str();
mqtt_cfg_.skip_cert_common_name_check = skip_cert_cn_check_;
mqtt_cfg_.transport = MQTT_TRANSPORT_OVER_SSL;
} else {
mqtt_cfg_.transport = MQTT_TRANSPORT_OVER_TCP;
}
#else
mqtt_cfg_.broker.address.hostname = this->host_.c_str();
mqtt_cfg_.broker.address.port = this->port_;
mqtt_cfg_.session.keepalive = this->keep_alive_;
mqtt_cfg_.session.disable_clean_session = !this->clean_session_;
if (!this->username_.empty()) {
mqtt_cfg_.credentials.username = this->username_.c_str();
if (!this->password_.empty()) {
mqtt_cfg_.credentials.authentication.password = this->password_.c_str();
}
}
if (!this->lwt_topic_.empty()) {
mqtt_cfg_.session.last_will.topic = this->lwt_topic_.c_str();
this->mqtt_cfg_.session.last_will.qos = this->lwt_qos_;
this->mqtt_cfg_.session.last_will.retain = this->lwt_retain_;
if (!this->lwt_message_.empty()) {
mqtt_cfg_.session.last_will.msg = this->lwt_message_.c_str();
mqtt_cfg_.session.last_will.msg_len = this->lwt_message_.size();
}
}
if (!this->client_id_.empty()) {
mqtt_cfg_.credentials.client_id = this->client_id_.c_str();
}
if (ca_certificate_.has_value()) {
mqtt_cfg_.broker.verification.certificate = ca_certificate_.value().c_str();
mqtt_cfg_.broker.verification.skip_cert_common_name_check = skip_cert_cn_check_;
mqtt_cfg_.broker.address.transport = MQTT_TRANSPORT_OVER_SSL;
} else {
mqtt_cfg_.broker.address.transport = MQTT_TRANSPORT_OVER_TCP;
}
#endif
auto *mqtt_client = esp_mqtt_client_init(&mqtt_cfg_);
if (mqtt_client) {
handler_.reset(mqtt_client);
is_initalized_ = true;
esp_mqtt_client_register_event(mqtt_client, MQTT_EVENT_ANY, mqtt_event_handler, this);
return true;
} else {
ESP_LOGE(TAG, "Failed to initialize IDF-MQTT");
return false;
}
}
void MQTTBackendESP32::loop() {
// process new events
// handle only 1 message per loop iteration
if (!mqtt_events_.empty()) {
auto &event = mqtt_events_.front();
mqtt_event_handler_(event);
mqtt_events_.pop();
}
}
void MQTTBackendESP32::mqtt_event_handler_(const Event &event) {
ESP_LOGV(TAG, "Event dispatched from event loop event_id=%d", event.event_id);
switch (event.event_id) {
case MQTT_EVENT_BEFORE_CONNECT:
ESP_LOGV(TAG, "MQTT_EVENT_BEFORE_CONNECT");
break;
case MQTT_EVENT_CONNECTED:
ESP_LOGV(TAG, "MQTT_EVENT_CONNECTED");
this->is_connected_ = true;
this->on_connect_.call(event.session_present);
break;
case MQTT_EVENT_DISCONNECTED:
ESP_LOGV(TAG, "MQTT_EVENT_DISCONNECTED");
// TODO is there a way to get the disconnect reason?
this->is_connected_ = false;
this->on_disconnect_.call(MQTTClientDisconnectReason::TCP_DISCONNECTED);
break;
case MQTT_EVENT_SUBSCRIBED:
ESP_LOGV(TAG, "MQTT_EVENT_SUBSCRIBED, msg_id=%d", event.msg_id);
// hardcode QoS to 0. QoS is not used in this context but required to mirror the AsyncMqtt interface
this->on_subscribe_.call((int) event.msg_id, 0);
break;
case MQTT_EVENT_UNSUBSCRIBED:
ESP_LOGV(TAG, "MQTT_EVENT_UNSUBSCRIBED, msg_id=%d", event.msg_id);
this->on_unsubscribe_.call((int) event.msg_id);
break;
case MQTT_EVENT_PUBLISHED:
ESP_LOGV(TAG, "MQTT_EVENT_PUBLISHED, msg_id=%d", event.msg_id);
this->on_publish_.call((int) event.msg_id);
break;
case MQTT_EVENT_DATA: {
static std::string topic;
if (event.topic.length() > 0) {
topic = event.topic;
}
ESP_LOGV(TAG, "MQTT_EVENT_DATA %s", topic.c_str());
this->on_message_.call(event.topic.length() > 0 ? topic.c_str() : nullptr, event.data.data(), event.data.size(),
event.current_data_offset, event.total_data_len);
} break;
case MQTT_EVENT_ERROR:
ESP_LOGE(TAG, "MQTT_EVENT_ERROR");
if (event.error_handle.error_type == MQTT_ERROR_TYPE_TCP_TRANSPORT) {
ESP_LOGE(TAG, "Last error code reported from esp-tls: 0x%x", event.error_handle.esp_tls_last_esp_err);
ESP_LOGE(TAG, "Last tls stack error number: 0x%x", event.error_handle.esp_tls_stack_err);
ESP_LOGE(TAG, "Last captured errno : %d (%s)", event.error_handle.esp_transport_sock_errno,
strerror(event.error_handle.esp_transport_sock_errno));
} else if (event.error_handle.error_type == MQTT_ERROR_TYPE_CONNECTION_REFUSED) {
ESP_LOGE(TAG, "Connection refused error: 0x%x", event.error_handle.connect_return_code);
} else {
ESP_LOGE(TAG, "Unknown error type: 0x%x", event.error_handle.error_type);
}
break;
default:
ESP_LOGV(TAG, "Other event id:%d", event.event_id);
break;
}
}
/// static - Dispatch event to instance method
void MQTTBackendESP32::mqtt_event_handler(void *handler_args, esp_event_base_t base, int32_t event_id,
void *event_data) {
MQTTBackendESP32 *instance = static_cast<MQTTBackendESP32 *>(handler_args);
// queue event to decouple processing
if (instance) {
auto event = *static_cast<esp_mqtt_event_t *>(event_data);
instance->mqtt_events_.push(Event(event));
}
}
} // namespace mqtt
} // namespace esphome
#endif // USE_ESP32
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