"""Support for Homekit sensors."""
from __future__ import annotations
from collections.abc import Callable
from dataclasses import dataclass
from aiohomekit.model.characteristics import Characteristic, CharacteristicsTypes
from aiohomekit.model.characteristics.const import ThreadNodeCapabilities, ThreadStatus
from aiohomekit.model.services import Service, ServicesTypes
from homeassistant.components.sensor import (
SensorDeviceClass,
SensorEntity,
SensorEntityDescription,
SensorStateClass,
)
from homeassistant.config_entries import ConfigEntry
from homeassistant.const import (
CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
CONCENTRATION_PARTS_PER_MILLION,
ELECTRIC_CURRENT_AMPERE,
ELECTRIC_POTENTIAL_VOLT,
ENERGY_KILO_WATT_HOUR,
LIGHT_LUX,
PERCENTAGE,
POWER_WATT,
PRESSURE_HPA,
TEMP_CELSIUS,
)
from homeassistant.core import HomeAssistant, callback
from homeassistant.helpers.entity import EntityCategory
from homeassistant.helpers.entity_platform import AddEntitiesCallback
from homeassistant.helpers.typing import ConfigType
from . import KNOWN_DEVICES, CharacteristicEntity, HomeKitEntity
from .connection import HKDevice
from .utils import folded_name
@dataclass
class HomeKitSensorEntityDescription(SensorEntityDescription):
"""Describes Homekit sensor."""
probe: Callable[[Characteristic], bool] | None = None
format: Callable[[Characteristic], str] | None = None
def thread_node_capability_to_str(char: Characteristic) -> str:
"""
Return the thread device type as a string.
The underlying value is a bitmask, but we want to turn that to
a human readable string. Some devices will have multiple capabilities.
For example, an NL55 is SLEEPY | MINIMAL. In that case we return the
"best" capability.
https://openthread.io/guides/thread-primer/node-roles-and-types
"""
val = ThreadNodeCapabilities(char.value)
if val & ThreadNodeCapabilities.BORDER_ROUTER_CAPABLE:
# can act as a bridge between thread network and e.g. WiFi
return "border_router_capable"
if val & ThreadNodeCapabilities.ROUTER_ELIGIBLE:
# radio always on, can be a router
return "router_eligible"
if val & ThreadNodeCapabilities.FULL:
# radio always on, but can't be a router
return "full"
if val & ThreadNodeCapabilities.MINIMAL:
# transceiver always on, does not need to poll for messages from its parent
return "minimal"
if val & ThreadNodeCapabilities.SLEEPY:
# normally disabled, wakes on occasion to poll for messages from its parent
return "sleepy"
# Device has no known thread capabilities
return "none"
def thread_status_to_str(char: Characteristic) -> str:
"""
Return the thread status as a string.
The underlying value is a bitmask, but we want to turn that to
a human readable string. So we check the flags in order. E.g. BORDER_ROUTER implies
ROUTER, so its more important to show that value.
"""
val = ThreadStatus(char.value)
if val & ThreadStatus.BORDER_ROUTER:
# Device has joined the Thread network and is participating
# in routing between mesh nodes.
# It's also the border router - bridging the thread network
# to WiFI/Ethernet/etc
return "border_router"
if val & ThreadStatus.LEADER:
# Device has joined the Thread network and is participating
# in routing between mesh nodes.
# It's also the leader. There's only one leader and it manages
# which nodes are routers.
return "leader"
if val & ThreadStatus.ROUTER:
# Device has joined the Thread network and is participating
# in routing between mesh nodes.
return "router"
if val & ThreadStatus.CHILD:
# Device has joined the Thread network as a child
# It's not participating in routing between mesh nodes
return "child"
if val & ThreadStatus.JOINING:
# Device is currently joining its Thread network
return "joining"
if val & ThreadStatus.DETACHED:
# Device is currently unable to reach its Thread network
return "detached"
# Must be ThreadStatus.DISABLED
# Device is not currently connected to Thread and will not try to.
return "disabled"
SIMPLE_SENSOR: dict[str, HomeKitSensorEntityDescription] = {
CharacteristicsTypes.VENDOR_CONNECTSENSE_ENERGY_WATT: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_CONNECTSENSE_ENERGY_WATT,
name="Power",
device_class=SensorDeviceClass.POWER,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=POWER_WATT,
),
CharacteristicsTypes.VENDOR_CONNECTSENSE_ENERGY_AMPS: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_CONNECTSENSE_ENERGY_AMPS,
name="Current",
device_class=SensorDeviceClass.CURRENT,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=ELECTRIC_CURRENT_AMPERE,
),
CharacteristicsTypes.VENDOR_CONNECTSENSE_ENERGY_AMPS_20: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_CONNECTSENSE_ENERGY_AMPS_20,
name="Current",
device_class=SensorDeviceClass.CURRENT,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=ELECTRIC_CURRENT_AMPERE,
),
CharacteristicsTypes.VENDOR_CONNECTSENSE_ENERGY_KW_HOUR: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_CONNECTSENSE_ENERGY_KW_HOUR,
name="Energy kWh",
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=ENERGY_KILO_WATT_HOUR,
),
CharacteristicsTypes.VENDOR_EVE_ENERGY_WATT: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_EVE_ENERGY_WATT,
name="Power",
device_class=SensorDeviceClass.POWER,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=POWER_WATT,
),
CharacteristicsTypes.VENDOR_EVE_ENERGY_KW_HOUR: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_EVE_ENERGY_KW_HOUR,
name="Energy kWh",
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=ENERGY_KILO_WATT_HOUR,
),
CharacteristicsTypes.VENDOR_EVE_ENERGY_VOLTAGE: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_EVE_ENERGY_VOLTAGE,
name="Volts",
device_class=SensorDeviceClass.VOLTAGE,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=ELECTRIC_POTENTIAL_VOLT,
),
CharacteristicsTypes.VENDOR_EVE_ENERGY_AMPERE: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_EVE_ENERGY_AMPERE,
name="Amps",
device_class=SensorDeviceClass.CURRENT,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=ELECTRIC_CURRENT_AMPERE,
),
CharacteristicsTypes.VENDOR_KOOGEEK_REALTIME_ENERGY: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_KOOGEEK_REALTIME_ENERGY,
name="Power",
device_class=SensorDeviceClass.POWER,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=POWER_WATT,
),
CharacteristicsTypes.VENDOR_KOOGEEK_REALTIME_ENERGY_2: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_KOOGEEK_REALTIME_ENERGY_2,
name="Power",
device_class=SensorDeviceClass.POWER,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=POWER_WATT,
),
CharacteristicsTypes.VENDOR_EVE_DEGREE_AIR_PRESSURE: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_EVE_DEGREE_AIR_PRESSURE,
name="Air Pressure",
device_class=SensorDeviceClass.PRESSURE,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=PRESSURE_HPA,
),
CharacteristicsTypes.VENDOR_VOCOLINC_OUTLET_ENERGY: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.VENDOR_VOCOLINC_OUTLET_ENERGY,
name="Power",
device_class=SensorDeviceClass.POWER,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=POWER_WATT,
),
CharacteristicsTypes.TEMPERATURE_CURRENT: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.TEMPERATURE_CURRENT,
name="Current Temperature",
device_class=SensorDeviceClass.TEMPERATURE,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=TEMP_CELSIUS,
# This sensor is only for temperature characteristics that are not part
# of a temperature sensor service.
probe=(lambda char: char.service.type != ServicesTypes.TEMPERATURE_SENSOR),
),
CharacteristicsTypes.RELATIVE_HUMIDITY_CURRENT: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.RELATIVE_HUMIDITY_CURRENT,
name="Current Humidity",
device_class=SensorDeviceClass.HUMIDITY,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=PERCENTAGE,
# This sensor is only for humidity characteristics that are not part
# of a humidity sensor service.
probe=(lambda char: char.service.type != ServicesTypes.HUMIDITY_SENSOR),
),
CharacteristicsTypes.AIR_QUALITY: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.AIR_QUALITY,
name="Air Quality",
device_class=SensorDeviceClass.AQI,
state_class=SensorStateClass.MEASUREMENT,
),
CharacteristicsTypes.DENSITY_PM25: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.DENSITY_PM25,
name="PM2.5 Density",
device_class=SensorDeviceClass.PM25,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
),
CharacteristicsTypes.DENSITY_PM10: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.DENSITY_PM10,
name="PM10 Density",
device_class=SensorDeviceClass.PM10,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
),
CharacteristicsTypes.DENSITY_OZONE: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.DENSITY_OZONE,
name="Ozone Density",
device_class=SensorDeviceClass.OZONE,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
),
CharacteristicsTypes.DENSITY_NO2: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.DENSITY_NO2,
name="Nitrogen Dioxide Density",
device_class=SensorDeviceClass.NITROGEN_DIOXIDE,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
),
CharacteristicsTypes.DENSITY_SO2: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.DENSITY_SO2,
name="Sulphur Dioxide Density",
device_class=SensorDeviceClass.SULPHUR_DIOXIDE,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
),
CharacteristicsTypes.DENSITY_VOC: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.DENSITY_VOC,
name="Volatile Organic Compound Density",
device_class=SensorDeviceClass.VOLATILE_ORGANIC_COMPOUNDS,
state_class=SensorStateClass.MEASUREMENT,
native_unit_of_measurement=CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
),
CharacteristicsTypes.THREAD_NODE_CAPABILITIES: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.THREAD_NODE_CAPABILITIES,
name="Thread Capabilities",
device_class="homekit_controller__thread_node_capabilities",
entity_category=EntityCategory.DIAGNOSTIC,
format=thread_node_capability_to_str,
),
CharacteristicsTypes.THREAD_STATUS: HomeKitSensorEntityDescription(
key=CharacteristicsTypes.THREAD_STATUS,
name="Thread Status",
device_class="homekit_controller__thread_status",
entity_category=EntityCategory.DIAGNOSTIC,
format=thread_status_to_str,
),
}
class HomeKitSensor(HomeKitEntity, SensorEntity):
"""Representation of a HomeKit sensor."""
_attr_state_class = SensorStateClass.MEASUREMENT
@property
def name(self) -> str | None:
"""Return the name of the device."""
full_name = super().name
default_name = self.default_name
if (
default_name
and full_name
and folded_name(default_name) not in folded_name(full_name)
):
return f"{full_name} {default_name}"
return full_name
class HomeKitHumiditySensor(HomeKitSensor):
"""Representation of a Homekit humidity sensor."""
_attr_device_class = SensorDeviceClass.HUMIDITY
_attr_native_unit_of_measurement = PERCENTAGE
def get_characteristic_types(self) -> list[str]:
"""Define the homekit characteristics the entity is tracking."""
return [CharacteristicsTypes.RELATIVE_HUMIDITY_CURRENT]
@property
def default_name(self) -> str:
"""Return the default name of the device."""
return "Humidity"
@property
def native_value(self) -> float:
"""Return the current humidity."""
return self.service.value(CharacteristicsTypes.RELATIVE_HUMIDITY_CURRENT)
class HomeKitTemperatureSensor(HomeKitSensor):
"""Representation of a Homekit temperature sensor."""
_attr_device_class = SensorDeviceClass.TEMPERATURE
_attr_native_unit_of_measurement = TEMP_CELSIUS
def get_characteristic_types(self) -> list[str]:
"""Define the homekit characteristics the entity is tracking."""
return [CharacteristicsTypes.TEMPERATURE_CURRENT]
@property
def default_name(self) -> str:
"""Return the default name of the device."""
return "Temperature"
@property
def native_value(self) -> float:
"""Return the current temperature in Celsius."""
return self.service.value(CharacteristicsTypes.TEMPERATURE_CURRENT)
class HomeKitLightSensor(HomeKitSensor):
"""Representation of a Homekit light level sensor."""
_attr_device_class = SensorDeviceClass.ILLUMINANCE
_attr_native_unit_of_measurement = LIGHT_LUX
def get_characteristic_types(self) -> list[str]:
"""Define the homekit characteristics the entity is tracking."""
return [CharacteristicsTypes.LIGHT_LEVEL_CURRENT]
@property
def default_name(self) -> str:
"""Return the default name of the device."""
return "Light Level"
@property
def native_value(self) -> int:
"""Return the current light level in lux."""
return self.service.value(CharacteristicsTypes.LIGHT_LEVEL_CURRENT)
class HomeKitCarbonDioxideSensor(HomeKitSensor):
"""Representation of a Homekit Carbon Dioxide sensor."""
_attr_device_class = SensorDeviceClass.CO2
_attr_native_unit_of_measurement = CONCENTRATION_PARTS_PER_MILLION
def get_characteristic_types(self) -> list[str]:
"""Define the homekit characteristics the entity is tracking."""
return [CharacteristicsTypes.CARBON_DIOXIDE_LEVEL]
@property
def default_name(self) -> str:
"""Return the default name of the device."""
return "Carbon Dioxide"
@property
def native_value(self) -> int:
"""Return the current CO2 level in ppm."""
return self.service.value(CharacteristicsTypes.CARBON_DIOXIDE_LEVEL)
class HomeKitBatterySensor(HomeKitSensor):
"""Representation of a Homekit battery sensor."""
_attr_device_class = SensorDeviceClass.BATTERY
_attr_native_unit_of_measurement = PERCENTAGE
def get_characteristic_types(self) -> list[str]:
"""Define the homekit characteristics the entity is tracking."""
return [
CharacteristicsTypes.BATTERY_LEVEL,
CharacteristicsTypes.STATUS_LO_BATT,
CharacteristicsTypes.CHARGING_STATE,
]
@property
def default_name(self) -> str:
"""Return the default name of the device."""
return "Battery"
@property
def icon(self) -> str:
"""Return the sensor icon."""
if not self.available or self.state is None:
return "mdi:battery-unknown"
# This is similar to the logic in helpers.icon, but we have delegated the
# decision about what mdi:battery-alert is to the device.
icon = "mdi:battery"
if self.is_charging and self.state > 10:
percentage = int(round(self.state / 20 - 0.01)) * 20
icon += f"-charging-{percentage}"
elif self.is_charging:
icon += "-outline"
elif self.is_low_battery:
icon += "-alert"
elif self.state < 95:
percentage = max(int(round(self.state / 10 - 0.01)) * 10, 10)
icon += f"-{percentage}"
return icon
@property
def is_low_battery(self) -> bool:
"""Return true if battery level is low."""
return self.service.value(CharacteristicsTypes.STATUS_LO_BATT) == 1
@property
def is_charging(self) -> bool:
"""Return true if currently charing."""
# 0 = not charging
# 1 = charging
# 2 = not chargeable
return self.service.value(CharacteristicsTypes.CHARGING_STATE) == 1
@property
def native_value(self) -> int:
"""Return the current battery level percentage."""
return self.service.value(CharacteristicsTypes.BATTERY_LEVEL)
class SimpleSensor(CharacteristicEntity, SensorEntity):
"""
A simple sensor for a single characteristic.
This may be an additional secondary entity that is part of another service. An
example is a switch that has an energy sensor.
These *have* to have a different unique_id to the normal sensors as there could
be multiple entities per HomeKit service (this was not previously the case).
"""
entity_description: HomeKitSensorEntityDescription
def __init__(
self,
conn: HKDevice,
info: ConfigType,
char: Characteristic,
description: HomeKitSensorEntityDescription,
) -> None:
"""Initialise a secondary HomeKit characteristic sensor."""
self.entity_description = description
super().__init__(conn, info, char)
def get_characteristic_types(self) -> list[str]:
"""Define the homekit characteristics the entity is tracking."""
return [self._char.type]
@property
def name(self) -> str:
"""Return the name of the device if any."""
if name := self.accessory.name:
return f"{name} {self.entity_description.name}"
return f"{self.entity_description.name}"
@property
def native_value(self) -> str | int | float:
"""Return the current sensor value."""
val = self._char.value
if self.entity_description.format:
return self.entity_description.format(val)
return val
ENTITY_TYPES = {
ServicesTypes.HUMIDITY_SENSOR: HomeKitHumiditySensor,
ServicesTypes.TEMPERATURE_SENSOR: HomeKitTemperatureSensor,
ServicesTypes.LIGHT_SENSOR: HomeKitLightSensor,
ServicesTypes.CARBON_DIOXIDE_SENSOR: HomeKitCarbonDioxideSensor,
ServicesTypes.BATTERY_SERVICE: HomeKitBatterySensor,
}
async def async_setup_entry(
hass: HomeAssistant,
config_entry: ConfigEntry,
async_add_entities: AddEntitiesCallback,
) -> None:
"""Set up Homekit sensors."""
hkid = config_entry.data["AccessoryPairingID"]
conn = hass.data[KNOWN_DEVICES][hkid]
@callback
def async_add_service(service: Service) -> bool:
if not (entity_class := ENTITY_TYPES.get(service.type)):
return False
info = {"aid": service.accessory.aid, "iid": service.iid}
async_add_entities([entity_class(conn, info)], True)
return True
conn.add_listener(async_add_service)
@callback
def async_add_characteristic(char: Characteristic) -> bool:
if not (description := SIMPLE_SENSOR.get(char.type)):
return False
if description.probe and not description.probe(char):
return False
info = {"aid": char.service.accessory.aid, "iid": char.service.iid}
async_add_entities([SimpleSensor(conn, info, char, description)], True)
return True
conn.add_char_factory(async_add_characteristic)