"""Sensor platform for Teslemetry integration.""" from __future__ import annotations from collections.abc import Callable from dataclasses import dataclass from datetime import datetime, timedelta from itertools import chain from homeassistant.components.sensor import ( SensorDeviceClass, SensorEntity, SensorEntityDescription, SensorStateClass, ) from homeassistant.config_entries import ConfigEntry from homeassistant.const import ( PERCENTAGE, EntityCategory, UnitOfElectricCurrent, UnitOfElectricPotential, UnitOfEnergy, UnitOfLength, UnitOfPower, UnitOfPressure, UnitOfSpeed, UnitOfTemperature, UnitOfTime, ) from homeassistant.core import HomeAssistant, callback from homeassistant.helpers.entity_platform import AddEntitiesCallback from homeassistant.helpers.typing import StateType from homeassistant.util import dt as dt_util from .const import DOMAIN from .entity import ( TeslemetryEnergyEntity, TeslemetryVehicleEntity, TeslemetryWallConnectorEntity, ) from .models import TeslemetryEnergyData, TeslemetryVehicleData @callback def minutes_to_datetime(value: StateType) -> datetime | None: """Convert relative minutes into absolute datetime.""" if isinstance(value, (int, float)) and value > 0: return dt_util.now() + timedelta(minutes=value) return None @dataclass(frozen=True, kw_only=True) class TeslemetrySensorEntityDescription(SensorEntityDescription): """Describes Teslemetry Sensor entity.""" value_fn: Callable[[StateType], StateType | datetime] = lambda x: x VEHICLE_DESCRIPTIONS: tuple[TeslemetrySensorEntityDescription, ...] = ( TeslemetrySensorEntityDescription( key="charge_state_usable_battery_level", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=PERCENTAGE, device_class=SensorDeviceClass.BATTERY, ), TeslemetrySensorEntityDescription( key="charge_state_charge_energy_added", state_class=SensorStateClass.TOTAL_INCREASING, native_unit_of_measurement=UnitOfEnergy.KILO_WATT_HOUR, device_class=SensorDeviceClass.ENERGY, suggested_display_precision=1, ), TeslemetrySensorEntityDescription( key="charge_state_charger_power", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPower.KILO_WATT, device_class=SensorDeviceClass.POWER, ), TeslemetrySensorEntityDescription( key="charge_state_charger_voltage", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfElectricPotential.VOLT, device_class=SensorDeviceClass.VOLTAGE, entity_category=EntityCategory.DIAGNOSTIC, ), TeslemetrySensorEntityDescription( key="charge_state_charger_actual_current", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfElectricCurrent.AMPERE, device_class=SensorDeviceClass.CURRENT, entity_category=EntityCategory.DIAGNOSTIC, ), TeslemetrySensorEntityDescription( key="charge_state_charge_rate", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfSpeed.MILES_PER_HOUR, device_class=SensorDeviceClass.SPEED, entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="charge_state_minutes_to_full_charge", device_class=SensorDeviceClass.TIMESTAMP, entity_category=EntityCategory.DIAGNOSTIC, value_fn=minutes_to_datetime, ), TeslemetrySensorEntityDescription( key="charge_state_battery_range", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfLength.MILES, device_class=SensorDeviceClass.DISTANCE, suggested_display_precision=1, ), TeslemetrySensorEntityDescription( key="drive_state_speed", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfSpeed.MILES_PER_HOUR, device_class=SensorDeviceClass.SPEED, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="drive_state_power", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPower.KILO_WATT, device_class=SensorDeviceClass.POWER, entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="drive_state_shift_state", icon="mdi:car-shift-pattern", options=["p", "d", "r", "n"], device_class=SensorDeviceClass.ENUM, value_fn=lambda x: x.lower() if isinstance(x, str) else x, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="vehicle_state_odometer", state_class=SensorStateClass.TOTAL_INCREASING, native_unit_of_measurement=UnitOfLength.MILES, device_class=SensorDeviceClass.DISTANCE, suggested_display_precision=0, entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="vehicle_state_tpms_pressure_fl", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPressure.BAR, suggested_unit_of_measurement=UnitOfPressure.PSI, device_class=SensorDeviceClass.PRESSURE, suggested_display_precision=1, entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="vehicle_state_tpms_pressure_fr", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPressure.BAR, suggested_unit_of_measurement=UnitOfPressure.PSI, device_class=SensorDeviceClass.PRESSURE, suggested_display_precision=1, entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="vehicle_state_tpms_pressure_rl", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPressure.BAR, suggested_unit_of_measurement=UnitOfPressure.PSI, device_class=SensorDeviceClass.PRESSURE, suggested_display_precision=1, entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="vehicle_state_tpms_pressure_rr", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPressure.BAR, suggested_unit_of_measurement=UnitOfPressure.PSI, device_class=SensorDeviceClass.PRESSURE, suggested_display_precision=1, entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="climate_state_inside_temp", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfTemperature.CELSIUS, device_class=SensorDeviceClass.TEMPERATURE, suggested_display_precision=1, ), TeslemetrySensorEntityDescription( key="climate_state_outside_temp", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfTemperature.CELSIUS, device_class=SensorDeviceClass.TEMPERATURE, suggested_display_precision=1, ), TeslemetrySensorEntityDescription( key="climate_state_driver_temp_setting", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfTemperature.CELSIUS, device_class=SensorDeviceClass.TEMPERATURE, suggested_display_precision=1, entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="climate_state_passenger_temp_setting", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfTemperature.CELSIUS, device_class=SensorDeviceClass.TEMPERATURE, suggested_display_precision=1, entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="drive_state_active_route_traffic_minutes_delay", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfTime.MINUTES, device_class=SensorDeviceClass.DURATION, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="drive_state_active_route_energy_at_arrival", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=PERCENTAGE, device_class=SensorDeviceClass.BATTERY, entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, ), TeslemetrySensorEntityDescription( key="drive_state_active_route_miles_to_arrival", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfLength.MILES, device_class=SensorDeviceClass.DISTANCE, ), TeslemetrySensorEntityDescription( key="drive_state_active_route_minutes_to_arrival", device_class=SensorDeviceClass.TIMESTAMP, value_fn=minutes_to_datetime, ), TeslemetrySensorEntityDescription( key="drive_state_active_route_destination", icon="mdi:map-marker", entity_category=EntityCategory.DIAGNOSTIC, ), ) ENERGY_DESCRIPTIONS: tuple[SensorEntityDescription, ...] = ( SensorEntityDescription( key="solar_power", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPower.WATT, suggested_unit_of_measurement=UnitOfPower.KILO_WATT, suggested_display_precision=2, device_class=SensorDeviceClass.POWER, icon="mdi:solar-power", ), SensorEntityDescription( key="energy_left", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfEnergy.WATT_HOUR, suggested_unit_of_measurement=UnitOfEnergy.KILO_WATT_HOUR, suggested_display_precision=2, device_class=SensorDeviceClass.ENERGY_STORAGE, entity_category=EntityCategory.DIAGNOSTIC, icon="mdi:battery", ), SensorEntityDescription( key="total_pack_energy", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfEnergy.WATT_HOUR, suggested_unit_of_measurement=UnitOfEnergy.KILO_WATT_HOUR, suggested_display_precision=2, device_class=SensorDeviceClass.ENERGY_STORAGE, entity_category=EntityCategory.DIAGNOSTIC, icon="mdi:battery-high", entity_registry_enabled_default=False, ), SensorEntityDescription( key="percentage_charged", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=PERCENTAGE, device_class=SensorDeviceClass.BATTERY, suggested_display_precision=2, ), SensorEntityDescription( key="battery_power", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPower.WATT, suggested_unit_of_measurement=UnitOfPower.KILO_WATT, suggested_display_precision=2, device_class=SensorDeviceClass.POWER, icon="mdi:home-battery", ), SensorEntityDescription( key="load_power", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPower.WATT, suggested_unit_of_measurement=UnitOfPower.KILO_WATT, suggested_display_precision=2, device_class=SensorDeviceClass.POWER, icon="mdi:power-plug", ), SensorEntityDescription( key="grid_power", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPower.WATT, suggested_unit_of_measurement=UnitOfPower.KILO_WATT, suggested_display_precision=2, device_class=SensorDeviceClass.POWER, icon="mdi:transmission-tower", ), SensorEntityDescription( key="grid_services_power", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPower.WATT, suggested_unit_of_measurement=UnitOfPower.KILO_WATT, suggested_display_precision=2, device_class=SensorDeviceClass.POWER, icon="mdi:transmission-tower", ), SensorEntityDescription( key="generator_power", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPower.WATT, suggested_unit_of_measurement=UnitOfPower.KILO_WATT, suggested_display_precision=2, device_class=SensorDeviceClass.POWER, icon="mdi:generator-stationary", entity_registry_enabled_default=False, ), ) WALL_CONNECTOR_DESCRIPTIONS: tuple[SensorEntityDescription, ...] = ( SensorEntityDescription( key="wall_connector_state", entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, icon="mdi:ev-station", ), SensorEntityDescription( key="wall_connector_fault_state", entity_category=EntityCategory.DIAGNOSTIC, entity_registry_enabled_default=False, icon="mdi:ev-station", ), SensorEntityDescription( key="wall_connector_power", state_class=SensorStateClass.MEASUREMENT, native_unit_of_measurement=UnitOfPower.WATT, suggested_unit_of_measurement=UnitOfPower.KILO_WATT, suggested_display_precision=2, device_class=SensorDeviceClass.POWER, icon="mdi:ev-station", ), SensorEntityDescription( key="vin", icon="mdi:car-electric", ), ) async def async_setup_entry( hass: HomeAssistant, entry: ConfigEntry, async_add_entities: AddEntitiesCallback ) -> None: """Set up the Teslemetry sensor platform from a config entry.""" data = hass.data[DOMAIN][entry.entry_id] async_add_entities( chain( ( # Add vehicles TeslemetryVehicleSensorEntity(vehicle, description) for vehicle in data.vehicles for description in VEHICLE_DESCRIPTIONS ), ( # Add energy sites TeslemetryEnergySensorEntity(energysite, description) for energysite in data.energysites for description in ENERGY_DESCRIPTIONS if description.key in energysite.coordinator.data ), ( # Add wall connectors TeslemetryWallConnectorSensorEntity(energysite, din, description) for energysite in data.energysites for din in energysite.coordinator.data.get("wall_connectors", {}) for description in WALL_CONNECTOR_DESCRIPTIONS ), ) ) class TeslemetryVehicleSensorEntity(TeslemetryVehicleEntity, SensorEntity): """Base class for Teslemetry vehicle metric sensors.""" entity_description: TeslemetrySensorEntityDescription def __init__( self, vehicle: TeslemetryVehicleData, description: TeslemetrySensorEntityDescription, ) -> None: """Initialize the sensor.""" super().__init__(vehicle, description.key) self.entity_description = description @property def native_value(self) -> StateType | datetime: """Return the state of the sensor.""" return self.entity_description.value_fn(self.get()) @property def available(self) -> bool: """Return if sensor is available.""" return super().available and self.get() is not None class TeslemetryEnergySensorEntity(TeslemetryEnergyEntity, SensorEntity): """Base class for Teslemetry energy site metric sensors.""" entity_description: SensorEntityDescription def __init__( self, energysite: TeslemetryEnergyData, description: SensorEntityDescription, ) -> None: """Initialize the sensor.""" super().__init__(energysite, description.key) self.entity_description = description @property def native_value(self) -> StateType: """Return the state of the sensor.""" return self.get() class TeslemetryWallConnectorSensorEntity(TeslemetryWallConnectorEntity, SensorEntity): """Base class for Teslemetry energy site metric sensors.""" entity_description: SensorEntityDescription def __init__( self, energysite: TeslemetryEnergyData, din: str, description: SensorEntityDescription, ) -> None: """Initialize the sensor.""" super().__init__( energysite, din, description.key, ) self.entity_description = description @property def native_value(self) -> StateType: """Return the state of the sensor.""" return self._value