import json import logging import threading from wsgiref.simple_server import make_server import paho.mqtt.client as mqtt from ws4py.server.wsgirefserver import ( WebSocketWSGIHandler, WebSocketWSGIRequestHandler, WSGIServer, ) from ws4py.server.wsgiutils import WebSocketWSGIApplication from ws4py.websocket import WebSocket from frigate.config import FrigateConfig from frigate.util import restart_frigate logger = logging.getLogger(__name__) def create_mqtt_client(config: FrigateConfig, camera_metrics): mqtt_config = config.mqtt def on_recordings_command(client, userdata, message): payload = message.payload.decode() logger.debug(f"on_recordings_toggle: {message.topic} {payload}") camera_name = message.topic.split("/")[-3] record_settings = config.cameras[camera_name].record if payload == "ON": if not record_settings.enabled: logger.info(f"Turning on recordings for {camera_name} via mqtt") record_settings.enabled = True elif payload == "OFF": if record_settings.enabled: logger.info(f"Turning off recordings for {camera_name} via mqtt") record_settings.enabled = False else: logger.warning(f"Received unsupported value at {message.topic}: {payload}") state_topic = f"{message.topic[:-4]}/state" client.publish(state_topic, payload, retain=True) def on_snapshots_command(client, userdata, message): payload = message.payload.decode() logger.debug(f"on_snapshots_toggle: {message.topic} {payload}") camera_name = message.topic.split("/")[-3] snapshots_settings = config.cameras[camera_name].snapshots if payload == "ON": if not snapshots_settings.enabled: logger.info(f"Turning on snapshots for {camera_name} via mqtt") snapshots_settings.enabled = True elif payload == "OFF": if snapshots_settings.enabled: logger.info(f"Turning off snapshots for {camera_name} via mqtt") snapshots_settings.enabled = False else: logger.warning(f"Received unsupported value at {message.topic}: {payload}") state_topic = f"{message.topic[:-4]}/state" client.publish(state_topic, payload, retain=True) def on_detect_command(client, userdata, message): payload = message.payload.decode() logger.debug(f"on_detect_toggle: {message.topic} {payload}") camera_name = message.topic.split("/")[-3] detect_settings = config.cameras[camera_name].detect if payload == "ON": if not camera_metrics[camera_name]["detection_enabled"].value: logger.info(f"Turning on detection for {camera_name} via mqtt") camera_metrics[camera_name]["detection_enabled"].value = True detect_settings.enabled = True if not camera_metrics[camera_name]["motion_enabled"].value: logger.info( f"Turning on motion for {camera_name} due to detection being enabled." ) camera_metrics[camera_name]["motion_enabled"].value = True state_topic = f"{message.topic[:-11]}/motion/state" client.publish(state_topic, payload, retain=True) elif payload == "OFF": if camera_metrics[camera_name]["detection_enabled"].value: logger.info(f"Turning off detection for {camera_name} via mqtt") camera_metrics[camera_name]["detection_enabled"].value = False detect_settings.enabled = False else: logger.warning(f"Received unsupported value at {message.topic}: {payload}") state_topic = f"{message.topic[:-4]}/state" client.publish(state_topic, payload, retain=True) def on_motion_command(client, userdata, message): payload = message.payload.decode() logger.debug(f"on_motion_toggle: {message.topic} {payload}") camera_name = message.topic.split("/")[-3] if payload == "ON": if not camera_metrics[camera_name]["motion_enabled"].value: logger.info(f"Turning on motion for {camera_name} via mqtt") camera_metrics[camera_name]["motion_enabled"].value = True elif payload == "OFF": if camera_metrics[camera_name]["detection_enabled"].value: logger.error( f"Turning off motion is not allowed when detection is enabled." ) return if camera_metrics[camera_name]["motion_enabled"].value: logger.info(f"Turning off motion for {camera_name} via mqtt") camera_metrics[camera_name]["motion_enabled"].value = False else: logger.warning(f"Received unsupported value at {message.topic}: {payload}") state_topic = f"{message.topic[:-4]}/state" client.publish(state_topic, payload, retain=True) def on_improve_contrast_command(client, userdata, message): payload = message.payload.decode() logger.debug(f"on_improve_contrast_toggle: {message.topic} {payload}") camera_name = message.topic.split("/")[-3] motion_settings = config.cameras[camera_name].motion if payload == "ON": if not camera_metrics[camera_name]["improve_contrast_enabled"].value: logger.info(f"Turning on improve contrast for {camera_name} via mqtt") camera_metrics[camera_name]["improve_contrast_enabled"].value = True motion_settings.improve_contrast = True elif payload == "OFF": if camera_metrics[camera_name]["improve_contrast_enabled"].value: logger.info(f"Turning off improve contrast for {camera_name} via mqtt") camera_metrics[camera_name]["improve_contrast_enabled"].value = False motion_settings.improve_contrast = False else: logger.warning(f"Received unsupported value at {message.topic}: {payload}") state_topic = f"{message.topic[:-4]}/state" client.publish(state_topic, payload, retain=True) def on_motion_threshold_command(client, userdata, message): try: payload = int(message.payload.decode()) except ValueError: logger.warning( f"Received unsupported value at {message.topic}: {message.payload.decode()}" ) return logger.debug(f"on_motion_threshold_toggle: {message.topic} {payload}") camera_name = message.topic.split("/")[-3] motion_settings = config.cameras[camera_name].motion logger.info(f"Setting motion threshold for {camera_name} via mqtt: {payload}") camera_metrics[camera_name]["motion_threshold"].value = payload motion_settings.threshold = payload state_topic = f"{message.topic[:-4]}/state" client.publish(state_topic, payload, retain=True) def on_motion_contour_area_command(client, userdata, message): try: payload = int(message.payload.decode()) except ValueError: logger.warning( f"Received unsupported value at {message.topic}: {message.payload.decode()}" ) return logger.debug(f"on_motion_contour_area_toggle: {message.topic} {payload}") camera_name = message.topic.split("/")[-3] motion_settings = config.cameras[camera_name].motion logger.info( f"Setting motion contour area for {camera_name} via mqtt: {payload}" ) camera_metrics[camera_name]["motion_contour_area"].value = payload motion_settings.contour_area = payload state_topic = f"{message.topic[:-4]}/state" client.publish(state_topic, payload, retain=True) def on_restart_command(client, userdata, message): restart_frigate() def on_connect(client, userdata, flags, rc): threading.current_thread().name = "mqtt" if rc != 0: if rc == 3: logger.error( "Unable to connect to MQTT server: MQTT Server unavailable" ) elif rc == 4: logger.error( "Unable to connect to MQTT server: MQTT Bad username or password" ) elif rc == 5: logger.error("Unable to connect to MQTT server: MQTT Not authorized") else: logger.error( "Unable to connect to MQTT server: Connection refused. Error code: " + str(rc) ) logger.debug("MQTT connected") client.subscribe(f"{mqtt_config.topic_prefix}/#") client.publish(mqtt_config.topic_prefix + "/available", "online", retain=True) client = mqtt.Client(client_id=mqtt_config.client_id) client.on_connect = on_connect client.will_set( mqtt_config.topic_prefix + "/available", payload="offline", qos=1, retain=True ) # register callbacks for name in config.cameras.keys(): client.message_callback_add( f"{mqtt_config.topic_prefix}/{name}/recordings/set", on_recordings_command ) client.message_callback_add( f"{mqtt_config.topic_prefix}/{name}/snapshots/set", on_snapshots_command ) client.message_callback_add( f"{mqtt_config.topic_prefix}/{name}/detect/set", on_detect_command ) client.message_callback_add( f"{mqtt_config.topic_prefix}/{name}/motion/set", on_motion_command ) client.message_callback_add( f"{mqtt_config.topic_prefix}/{name}/improve_contrast/set", on_improve_contrast_command, ) client.message_callback_add( f"{mqtt_config.topic_prefix}/{name}/motion_threshold/set", on_motion_threshold_command, ) client.message_callback_add( f"{mqtt_config.topic_prefix}/{name}/motion_contour_area/set", on_motion_contour_area_command, ) client.message_callback_add( f"{mqtt_config.topic_prefix}/restart", on_restart_command ) if not mqtt_config.tls_ca_certs is None: if ( not mqtt_config.tls_client_cert is None and not mqtt_config.tls_client_key is None ): client.tls_set( mqtt_config.tls_ca_certs, mqtt_config.tls_client_cert, mqtt_config.tls_client_key, ) else: client.tls_set(mqtt_config.tls_ca_certs) if not mqtt_config.tls_insecure is None: client.tls_insecure_set(mqtt_config.tls_insecure) if not mqtt_config.user is None: client.username_pw_set(mqtt_config.user, password=mqtt_config.password) try: client.connect(mqtt_config.host, mqtt_config.port, 60) except Exception as e: logger.error(f"Unable to connect to MQTT server: {e}") raise client.loop_start() for name in config.cameras.keys(): client.publish( f"{mqtt_config.topic_prefix}/{name}/recordings/state", "ON" if config.cameras[name].record.enabled else "OFF", retain=True, ) client.publish( f"{mqtt_config.topic_prefix}/{name}/snapshots/state", "ON" if config.cameras[name].snapshots.enabled else "OFF", retain=True, ) client.publish( f"{mqtt_config.topic_prefix}/{name}/detect/state", "ON" if config.cameras[name].detect.enabled else "OFF", retain=True, ) client.publish( f"{mqtt_config.topic_prefix}/{name}/motion/state", "ON", retain=True, ) client.publish( f"{mqtt_config.topic_prefix}/{name}/improve_contrast/state", "ON" if config.cameras[name].motion.improve_contrast else "OFF", retain=True, ) client.publish( f"{mqtt_config.topic_prefix}/{name}/motion_threshold/state", config.cameras[name].motion.threshold, retain=True, ) client.publish( f"{mqtt_config.topic_prefix}/{name}/motion_contour_area/state", config.cameras[name].motion.contour_area, retain=True, ) client.publish( f"{mqtt_config.topic_prefix}/{name}/motion", "OFF", retain=False, ) return client class MqttSocketRelay: def __init__(self, mqtt_client, topic_prefix): self.mqtt_client = mqtt_client self.topic_prefix = topic_prefix def start(self): class MqttWebSocket(WebSocket): topic_prefix = self.topic_prefix mqtt_client = self.mqtt_client def received_message(self, message): try: json_message = json.loads(message.data.decode("utf-8")) json_message = { "topic": f"{self.topic_prefix}/{json_message['topic']}", "payload": json_message.get("payload"), "retain": json_message.get("retain", False), } except Exception as e: logger.warning("Unable to parse websocket message as valid json.") return logger.debug( f"Publishing mqtt message from websockets at {json_message['topic']}." ) self.mqtt_client.publish( json_message["topic"], json_message["payload"], retain=json_message["retain"], ) # start a websocket server on 5002 WebSocketWSGIHandler.http_version = "1.1" self.websocket_server = make_server( "127.0.0.1", 5002, server_class=WSGIServer, handler_class=WebSocketWSGIRequestHandler, app=WebSocketWSGIApplication(handler_cls=MqttWebSocket), ) self.websocket_server.initialize_websockets_manager() self.websocket_thread = threading.Thread( target=self.websocket_server.serve_forever ) def send(client, userdata, message): """Sends mqtt messages to clients.""" try: logger.debug(f"Received mqtt message on {message.topic}.") ws_message = json.dumps( { "topic": message.topic.replace(f"{self.topic_prefix}/", ""), "payload": message.payload.decode(), } ) except Exception as e: # if the payload can't be decoded don't relay to clients logger.debug( f"MQTT payload for {message.topic} wasn't text. Skipping..." ) return self.websocket_server.manager.broadcast(ws_message) self.mqtt_client.message_callback_add(f"{self.topic_prefix}/#", send) self.websocket_thread.start() def stop(self): self.websocket_server.manager.close_all() self.websocket_server.manager.stop() self.websocket_server.manager.join() self.websocket_server.shutdown() self.websocket_thread.join()