import logging
import threading
from typing import Any, Callable

import paho.mqtt.client as mqtt
from paho.mqtt.enums import CallbackAPIVersion

from frigate.comms.dispatcher import Communicator
from frigate.config import FrigateConfig

logger = logging.getLogger(__name__)


class MqttClient(Communicator):  # type: ignore[misc]
    """Frigate wrapper for mqtt client."""

    def __init__(self, config: FrigateConfig) -> None:
        self.config = config
        self.mqtt_config = config.mqtt
        self.connected = False

    def subscribe(self, receiver: Callable) -> None:
        """Wrapper for allowing dispatcher to subscribe."""
        self._dispatcher = receiver
        self._start()

    def publish(self, topic: str, payload: Any, retain: bool = False) -> None:
        """Wrapper for publishing when client is in valid state."""
        if not self.connected:
            logger.debug(f"Unable to publish to {topic}: client is not connected")
            return

        self.client.publish(
            f"{self.mqtt_config.topic_prefix}/{topic}", payload, retain=retain
        )

    def stop(self) -> None:
        self.client.disconnect()

    def _set_initial_topics(self) -> None:
        """Set initial state topics."""
        for camera_name, camera in self.config.cameras.items():
            self.publish(
                f"{camera_name}/recordings/state",
                "ON" if camera.record.enabled_in_config else "OFF",
                retain=True,
            )
            self.publish(
                f"{camera_name}/snapshots/state",
                "ON" if camera.snapshots.enabled else "OFF",
                retain=True,
            )
            self.publish(
                f"{camera_name}/audio/state",
                "ON" if camera.audio.enabled_in_config else "OFF",
                retain=True,
            )
            self.publish(
                f"{camera_name}/detect/state",
                "ON" if camera.detect.enabled else "OFF",
                retain=True,
            )
            self.publish(
                f"{camera_name}/motion/state",
                "ON",
                retain=True,
            )
            self.publish(
                f"{camera_name}/improve_contrast/state",
                "ON" if camera.motion.improve_contrast else "OFF",  # type: ignore[union-attr]
                retain=True,
            )
            self.publish(
                f"{camera_name}/ptz_autotracker/state",
                "ON" if camera.onvif.autotracking.enabled_in_config else "OFF",
                retain=True,
            )
            self.publish(
                f"{camera_name}/motion_threshold/state",
                camera.motion.threshold,  # type: ignore[union-attr]
                retain=True,
            )
            self.publish(
                f"{camera_name}/motion_contour_area/state",
                camera.motion.contour_area,  # type: ignore[union-attr]
                retain=True,
            )
            self.publish(
                f"{camera_name}/motion",
                "OFF",
                retain=False,
            )
            self.publish(
                f"{camera_name}/birdseye/state",
                "ON" if camera.birdseye.enabled else "OFF",
                retain=True,
            )
            self.publish(
                f"{camera_name}/birdseye_mode/state",
                (
                    camera.birdseye.mode.value.upper()
                    if camera.birdseye.enabled
                    else "OFF"
                ),
                retain=True,
            )

        if self.config.notifications.enabled_in_config:
            self.publish(
                "notifications/state",
                "ON" if self.config.notifications.enabled else "OFF",
                retain=True,
            )

        self.publish("available", "online", retain=True)

    def on_mqtt_command(
        self, client: mqtt.Client, userdata: Any, message: mqtt.MQTTMessage
    ) -> None:
        self._dispatcher(
            message.topic.replace(f"{self.mqtt_config.topic_prefix}/", "", 1),
            message.payload.decode(),
        )

    def _on_connect(
        self,
        client: mqtt.Client,
        userdata: Any,
        flags: Any,
        reason_code: mqtt.ReasonCode,
        properties: Any,
    ) -> None:
        """Mqtt connection callback."""
        threading.current_thread().name = "mqtt"
        if reason_code != 0:
            if reason_code == "Server unavailable":
                logger.error(
                    "Unable to connect to MQTT server: MQTT Server unavailable"
                )
            elif reason_code == "Bad user name or password":
                logger.error(
                    "Unable to connect to MQTT server: MQTT Bad username or password"
                )
            elif reason_code == "Not authorized":
                logger.error("Unable to connect to MQTT server: MQTT Not authorized")
            else:
                logger.error(
                    "Unable to connect to MQTT server: Connection refused. Error code: "
                    + reason_code.getName()
                )

        self.connected = True
        logger.debug("MQTT connected")
        client.subscribe(f"{self.mqtt_config.topic_prefix}/#")
        self._set_initial_topics()

    def _on_disconnect(
        self,
        client: mqtt.Client,
        userdata: Any,
        flags: Any,
        reason_code: mqtt.ReasonCode,
        properties: Any,
    ) -> None:
        """Mqtt disconnection callback."""
        self.connected = False
        logger.error("MQTT disconnected")

    def _start(self) -> None:
        """Start mqtt client."""
        self.client = mqtt.Client(
            callback_api_version=CallbackAPIVersion.VERSION2,
            client_id=self.mqtt_config.client_id,
        )
        self.client.on_connect = self._on_connect
        self.client.on_disconnect = self._on_disconnect
        self.client.will_set(
            self.mqtt_config.topic_prefix + "/available",
            payload="offline",
            qos=1,
            retain=True,
        )

        # register callbacks
        callback_types = [
            "recordings",
            "snapshots",
            "detect",
            "audio",
            "motion",
            "improve_contrast",
            "ptz_autotracker",
            "motion_threshold",
            "motion_contour_area",
            "birdseye",
            "birdseye_mode",
        ]

        for name in self.config.cameras.keys():
            for callback in callback_types:
                self.client.message_callback_add(
                    f"{self.mqtt_config.topic_prefix}/{name}/{callback}/set",
                    self.on_mqtt_command,
                )

            if self.config.cameras[name].onvif.host:
                self.client.message_callback_add(
                    f"{self.mqtt_config.topic_prefix}/{name}/ptz",
                    self.on_mqtt_command,
                )

        if self.config.notifications.enabled_in_config:
            self.client.message_callback_add(
                f"{self.mqtt_config.topic_prefix}/notifications/set",
                self.on_mqtt_command,
            )

        self.client.message_callback_add(
            f"{self.mqtt_config.topic_prefix}/onConnect", self.on_mqtt_command
        )

        self.client.message_callback_add(
            f"{self.mqtt_config.topic_prefix}/restart", self.on_mqtt_command
        )

        if self.mqtt_config.tls_ca_certs is not None:
            if (
                self.mqtt_config.tls_client_cert is not None
                and self.mqtt_config.tls_client_key is not None
            ):
                self.client.tls_set(
                    self.mqtt_config.tls_ca_certs,
                    self.mqtt_config.tls_client_cert,
                    self.mqtt_config.tls_client_key,
                )
            else:
                self.client.tls_set(self.mqtt_config.tls_ca_certs)
        if self.mqtt_config.tls_insecure is not None:
            self.client.tls_insecure_set(self.mqtt_config.tls_insecure)
        if self.mqtt_config.user is not None:
            self.client.username_pw_set(
                self.mqtt_config.user, password=self.mqtt_config.password
            )
        try:
            # https://stackoverflow.com/a/55390477
            # with connect_async, retries are handled automatically
            self.client.connect_async(self.mqtt_config.host, self.mqtt_config.port, 60)
            self.client.loop_start()
        except Exception as e:
            logger.error(f"Unable to connect to MQTT server: {e}")
            return