"""Track both clients and devices using UniFi controllers."""
from datetime import timedelta

from aiounifi.api import SOURCE_DATA, SOURCE_EVENT
from aiounifi.events import (
    ACCESS_POINT_UPGRADED,
    GATEWAY_UPGRADED,
    SWITCH_UPGRADED,
    WIRED_CLIENT_CONNECTED,
    WIRELESS_CLIENT_CONNECTED,
    WIRELESS_CLIENT_ROAM,
    WIRELESS_CLIENT_ROAMRADIO,
    WIRELESS_GUEST_CONNECTED,
    WIRELESS_GUEST_ROAM,
    WIRELESS_GUEST_ROAMRADIO,
)

from homeassistant.components.device_tracker import DOMAIN
from homeassistant.components.device_tracker.config_entry import ScannerEntity
from homeassistant.components.device_tracker.const import SOURCE_TYPE_ROUTER
from homeassistant.core import callback
from homeassistant.helpers.device_registry import CONNECTION_NETWORK_MAC
from homeassistant.helpers.dispatcher import async_dispatcher_connect
import homeassistant.util.dt as dt_util

from .const import ATTR_MANUFACTURER, DOMAIN as UNIFI_DOMAIN
from .unifi_client import UniFiClient
from .unifi_entity_base import UniFiBase

CLIENT_TRACKER = "client"
DEVICE_TRACKER = "device"

CLIENT_CONNECTED_ATTRIBUTES = [
    "_is_guest_by_uap",
    "ap_mac",
    "authorized",
    "essid",
    "ip",
    "is_11r",
    "is_guest",
    "note",
    "qos_policy_applied",
    "radio",
    "radio_proto",
    "vlan",
]

CLIENT_STATIC_ATTRIBUTES = [
    "hostname",
    "mac",
    "name",
    "oui",
]


CLIENT_CONNECTED_ALL_ATTRIBUTES = CLIENT_CONNECTED_ATTRIBUTES + CLIENT_STATIC_ATTRIBUTES

DEVICE_UPGRADED = (ACCESS_POINT_UPGRADED, GATEWAY_UPGRADED, SWITCH_UPGRADED)

WIRED_CONNECTION = (WIRED_CLIENT_CONNECTED,)
WIRELESS_CONNECTION = (
    WIRELESS_CLIENT_CONNECTED,
    WIRELESS_CLIENT_ROAM,
    WIRELESS_CLIENT_ROAMRADIO,
    WIRELESS_GUEST_CONNECTED,
    WIRELESS_GUEST_ROAM,
    WIRELESS_GUEST_ROAMRADIO,
)


async def async_setup_entry(hass, config_entry, async_add_entities):
    """Set up device tracker for UniFi component."""
    controller = hass.data[UNIFI_DOMAIN][config_entry.entry_id]
    controller.entities[DOMAIN] = {CLIENT_TRACKER: set(), DEVICE_TRACKER: set()}

    @callback
    def items_added(
        clients: set = controller.api.clients, devices: set = controller.api.devices
    ) -> None:
        """Update the values of the controller."""
        if controller.option_track_clients:
            add_client_entities(controller, async_add_entities, clients)

        if controller.option_track_devices:
            add_device_entities(controller, async_add_entities, devices)

    for signal in (controller.signal_update, controller.signal_options_update):
        config_entry.async_on_unload(
            async_dispatcher_connect(hass, signal, items_added)
        )

    items_added()


@callback
def add_client_entities(controller, async_add_entities, clients):
    """Add new client tracker entities from the controller."""
    trackers = []

    for mac in clients:
        if mac in controller.entities[DOMAIN][UniFiClientTracker.TYPE]:
            continue

        client = controller.api.clients[mac]

        if mac not in controller.wireless_clients:
            if not controller.option_track_wired_clients:
                continue
        elif (
            client.essid
            and controller.option_ssid_filter
            and client.essid not in controller.option_ssid_filter
        ):
            continue

        trackers.append(UniFiClientTracker(client, controller))

    if trackers:
        async_add_entities(trackers)


@callback
def add_device_entities(controller, async_add_entities, devices):
    """Add new device tracker entities from the controller."""
    trackers = []

    for mac in devices:
        if mac in controller.entities[DOMAIN][UniFiDeviceTracker.TYPE]:
            continue

        device = controller.api.devices[mac]
        trackers.append(UniFiDeviceTracker(device, controller))

    if trackers:
        async_add_entities(trackers)


class UniFiClientTracker(UniFiClient, ScannerEntity):
    """Representation of a network client."""

    DOMAIN = DOMAIN
    TYPE = CLIENT_TRACKER

    def __init__(self, client, controller):
        """Set up tracked client."""
        super().__init__(client, controller)

        self.heartbeat_check = False
        self._is_connected = False
        self._controller_connection_state_changed = False

        if client.last_seen:
            self._is_connected = (
                self.is_wired == client.is_wired
                and dt_util.utcnow()
                - dt_util.utc_from_timestamp(float(client.last_seen))
                < controller.option_detection_time
            )

        self.schedule_update = self._is_connected

    async def async_added_to_hass(self) -> None:
        """Watch object when added."""
        self.async_on_remove(
            async_dispatcher_connect(
                self.hass,
                f"{self.controller.signal_heartbeat_missed}_{self.unique_id}",
                self._make_disconnected,
            )
        )
        await super().async_added_to_hass()

    async def async_will_remove_from_hass(self) -> None:
        """Disconnect object when removed."""
        self.controller.async_heartbeat(self.unique_id)
        await super().async_will_remove_from_hass()

    @callback
    def async_signal_reachable_callback(self) -> None:
        """Call when controller connection state change."""
        self._controller_connection_state_changed = True
        super().async_signal_reachable_callback()

    @callback
    def async_update_callback(self) -> None:
        """Update the clients state."""

        if self._controller_connection_state_changed:
            self._controller_connection_state_changed = False

            if self.controller.available:
                self.schedule_update = True

            else:
                self.controller.async_heartbeat(self.unique_id)

        elif self.client.last_updated == SOURCE_EVENT:
            if (self.is_wired and self.client.event.event in WIRED_CONNECTION) or (
                not self.is_wired and self.client.event.event in WIRELESS_CONNECTION
            ):
                self._is_connected = True
                self.schedule_update = False
                self.controller.async_heartbeat(self.unique_id)
                self.heartbeat_check = False

            # Ignore extra scheduled update from wired bug
            elif not self.heartbeat_check:
                self.schedule_update = True

        elif (
            not self.client.event
            and self.client.last_updated == SOURCE_DATA
            and self.is_wired == self.client.is_wired
        ):
            self._is_connected = True
            self.schedule_update = True

        if self.schedule_update:
            self.schedule_update = False
            self.controller.async_heartbeat(
                self.unique_id, dt_util.utcnow() + self.controller.option_detection_time
            )
            self.heartbeat_check = True

        super().async_update_callback()

    @callback
    def _make_disconnected(self, *_):
        """No heart beat by device."""
        self._is_connected = False
        self.async_write_ha_state()

    @property
    def is_connected(self):
        """Return true if the client is connected to the network."""
        if (
            not self.is_wired
            and self.client.essid
            and self.controller.option_ssid_filter
            and self.client.essid not in self.controller.option_ssid_filter
        ):
            return False

        return self._is_connected

    @property
    def source_type(self):
        """Return the source type of the client."""
        return SOURCE_TYPE_ROUTER

    @property
    def unique_id(self) -> str:
        """Return a unique identifier for this client."""
        return f"{self.client.mac}-{self.controller.site}"

    @property
    def extra_state_attributes(self):
        """Return the client state attributes."""
        raw = self.client.raw

        attributes_to_check = CLIENT_STATIC_ATTRIBUTES
        if self.is_connected:
            attributes_to_check = CLIENT_CONNECTED_ALL_ATTRIBUTES

        attributes = {k: raw[k] for k in attributes_to_check if k in raw}
        attributes["is_wired"] = self.is_wired

        return attributes

    @property
    def ip_address(self) -> str:
        """Return the primary ip address of the device."""
        return self.client.raw.get("ip")

    @property
    def mac_address(self) -> str:
        """Return the mac address of the device."""
        return self.client.raw.get("mac")

    @property
    def hostname(self) -> str:
        """Return hostname of the device."""
        return self.client.raw.get("hostname")

    async def options_updated(self) -> None:
        """Config entry options are updated, remove entity if option is disabled."""
        if not self.controller.option_track_clients:
            await self.remove_item({self.client.mac})

        elif self.is_wired:
            if not self.controller.option_track_wired_clients:
                await self.remove_item({self.client.mac})

        elif (
            self.controller.option_ssid_filter
            and self.client.essid not in self.controller.option_ssid_filter
        ):
            await self.remove_item({self.client.mac})


class UniFiDeviceTracker(UniFiBase, ScannerEntity):
    """Representation of a network infrastructure device."""

    DOMAIN = DOMAIN
    TYPE = DEVICE_TRACKER

    def __init__(self, device, controller):
        """Set up tracked device."""
        super().__init__(device, controller)

        self.device = self._item
        self._is_connected = device.state == 1
        self._controller_connection_state_changed = False
        self.schedule_update = False

    async def async_added_to_hass(self) -> None:
        """Watch object when added."""
        self.async_on_remove(
            async_dispatcher_connect(
                self.hass,
                f"{self.controller.signal_heartbeat_missed}_{self.unique_id}",
                self._make_disconnected,
            )
        )
        await super().async_added_to_hass()

    async def async_will_remove_from_hass(self) -> None:
        """Disconnect object when removed."""
        self.controller.async_heartbeat(self.unique_id)
        await super().async_will_remove_from_hass()

    @callback
    def async_signal_reachable_callback(self) -> None:
        """Call when controller connection state change."""
        self._controller_connection_state_changed = True
        super().async_signal_reachable_callback()

    @callback
    def async_update_callback(self) -> None:
        """Update the devices' state."""

        if self._controller_connection_state_changed:
            self._controller_connection_state_changed = False

            if self.controller.available:
                if self._is_connected:
                    self.schedule_update = True

            else:
                self.controller.async_heartbeat(self.unique_id)

        elif self.device.last_updated == SOURCE_DATA:
            self._is_connected = True
            self.schedule_update = True

        elif (
            self.device.last_updated == SOURCE_EVENT
            and self.device.event.event in DEVICE_UPGRADED
        ):
            self.hass.async_create_task(self.async_update_device_registry())
            return

        if self.schedule_update:
            self.schedule_update = False
            self.controller.async_heartbeat(
                self.unique_id,
                dt_util.utcnow() + timedelta(seconds=self.device.next_interval + 60),
            )

        super().async_update_callback()

    @callback
    def _make_disconnected(self, *_):
        """No heart beat by device."""
        self._is_connected = False
        self.async_write_ha_state()

    @property
    def is_connected(self):
        """Return true if the device is connected to the network."""
        return self._is_connected

    @property
    def source_type(self):
        """Return the source type of the device."""
        return SOURCE_TYPE_ROUTER

    @property
    def name(self) -> str:
        """Return the name of the device."""
        return self.device.name or self.device.model

    @property
    def unique_id(self) -> str:
        """Return a unique identifier for this device."""
        return self.device.mac

    @property
    def available(self) -> bool:
        """Return if controller is available."""
        return not self.device.disabled and self.controller.available

    @property
    def device_info(self):
        """Return a device description for device registry."""
        info = {
            "connections": {(CONNECTION_NETWORK_MAC, self.device.mac)},
            "manufacturer": ATTR_MANUFACTURER,
            "model": self.device.model,
            "sw_version": self.device.version,
        }

        if self.device.name:
            info["name"] = self.device.name

        return info

    async def async_update_device_registry(self) -> None:
        """Update device registry."""
        device_registry = await self.hass.helpers.device_registry.async_get_registry()

        device_registry.async_get_or_create(
            config_entry_id=self.controller.config_entry.entry_id, **self.device_info
        )

    @property
    def extra_state_attributes(self):
        """Return the device state attributes."""
        if self.device.state == 0:
            return {}

        attributes = {}

        if self.device.has_fan:
            attributes["fan_level"] = self.device.fan_level

        if self.device.overheating:
            attributes["overheating"] = self.device.overheating

        if self.device.upgradable:
            attributes["upgradable"] = self.device.upgradable

        return attributes

    async def options_updated(self) -> None:
        """Config entry options are updated, remove entity if option is disabled."""
        if not self.controller.option_track_devices:
            await self.remove_item({self.device.mac})