"""Support for Amcrest IP camera sensors.""" from datetime import timedelta import logging from amcrest import AmcrestError from homeassistant.const import CONF_NAME, CONF_SENSORS, UNIT_PERCENTAGE from homeassistant.helpers.dispatcher import async_dispatcher_connect from homeassistant.helpers.entity import Entity from .const import DATA_AMCREST, DEVICES, SENSOR_SCAN_INTERVAL_SECS, SERVICE_UPDATE from .helpers import log_update_error, service_signal _LOGGER = logging.getLogger(__name__) SCAN_INTERVAL = timedelta(seconds=SENSOR_SCAN_INTERVAL_SECS) SENSOR_PTZ_PRESET = "ptz_preset" SENSOR_SDCARD = "sdcard" # Sensor types are defined like: Name, units, icon SENSORS = { SENSOR_PTZ_PRESET: ["PTZ Preset", None, "mdi:camera-iris"], SENSOR_SDCARD: ["SD Used", UNIT_PERCENTAGE, "mdi:sd"], } async def async_setup_platform(hass, config, async_add_entities, discovery_info=None): """Set up a sensor for an Amcrest IP Camera.""" if discovery_info is None: return name = discovery_info[CONF_NAME] device = hass.data[DATA_AMCREST][DEVICES][name] async_add_entities( [ AmcrestSensor(name, device, sensor_type) for sensor_type in discovery_info[CONF_SENSORS] ], True, ) class AmcrestSensor(Entity): """A sensor implementation for Amcrest IP camera.""" def __init__(self, name, device, sensor_type): """Initialize a sensor for Amcrest camera.""" self._name = f"{name} {SENSORS[sensor_type][0]}" self._signal_name = name self._api = device.api self._sensor_type = sensor_type self._state = None self._attrs = {} self._unit_of_measurement = SENSORS[sensor_type][1] self._icon = SENSORS[sensor_type][2] self._unsub_dispatcher = None @property def name(self): """Return the name of the sensor.""" return self._name @property def state(self): """Return the state of the sensor.""" return self._state @property def device_state_attributes(self): """Return the state attributes.""" return self._attrs @property def icon(self): """Icon to use in the frontend, if any.""" return self._icon @property def unit_of_measurement(self): """Return the units of measurement.""" return self._unit_of_measurement @property def available(self): """Return True if entity is available.""" return self._api.available def update(self): """Get the latest data and updates the state.""" if not self.available: return _LOGGER.debug("Updating %s sensor", self._name) try: if self._sensor_type == SENSOR_PTZ_PRESET: self._state = self._api.ptz_presets_count elif self._sensor_type == SENSOR_SDCARD: storage = self._api.storage_all try: self._attrs[ "Total" ] = f"{storage['total'][0]:.2f} {storage['total'][1]}" except ValueError: self._attrs[ "Total" ] = f"{storage['total'][0]} {storage['total'][1]}" try: self._attrs[ "Used" ] = f"{storage['used'][0]:.2f} {storage['used'][1]}" except ValueError: self._attrs["Used"] = f"{storage['used'][0]} {storage['used'][1]}" try: self._state = f"{storage['used_percent']:.2f}" except ValueError: self._state = storage["used_percent"] except AmcrestError as error: log_update_error(_LOGGER, "update", self.name, "sensor", error) async def async_on_demand_update(self): """Update state.""" self.async_schedule_update_ha_state(True) async def async_added_to_hass(self): """Subscribe to update signal.""" self._unsub_dispatcher = async_dispatcher_connect( self.hass, service_signal(SERVICE_UPDATE, self._signal_name), self.async_on_demand_update, ) async def async_will_remove_from_hass(self): """Disconnect from update signal.""" self._unsub_dispatcher()