"""Provides device conditions for sensors."""
from __future__ import annotations
import voluptuous as vol
from homeassistant.components.device_automation.exceptions import (
InvalidDeviceAutomationConfig,
)
from homeassistant.const import (
CONF_ABOVE,
CONF_BELOW,
CONF_ENTITY_ID,
CONF_TYPE,
DEVICE_CLASS_BATTERY,
DEVICE_CLASS_CO,
DEVICE_CLASS_CO2,
DEVICE_CLASS_CURRENT,
DEVICE_CLASS_ENERGY,
DEVICE_CLASS_GAS,
DEVICE_CLASS_HUMIDITY,
DEVICE_CLASS_ILLUMINANCE,
DEVICE_CLASS_NITROGEN_DIOXIDE,
DEVICE_CLASS_NITROGEN_MONOXIDE,
DEVICE_CLASS_NITROUS_OXIDE,
DEVICE_CLASS_OZONE,
DEVICE_CLASS_PM1,
DEVICE_CLASS_PM10,
DEVICE_CLASS_PM25,
DEVICE_CLASS_POWER,
DEVICE_CLASS_POWER_FACTOR,
DEVICE_CLASS_PRESSURE,
DEVICE_CLASS_SIGNAL_STRENGTH,
DEVICE_CLASS_SULPHUR_DIOXIDE,
DEVICE_CLASS_TEMPERATURE,
DEVICE_CLASS_VOLTAGE,
)
from homeassistant.core import HomeAssistant, HomeAssistantError, callback
from homeassistant.helpers import condition, config_validation as cv
from homeassistant.helpers.entity import get_device_class, get_unit_of_measurement
from homeassistant.helpers.entity_registry import (
async_entries_for_device,
async_get_registry,
)
from homeassistant.helpers.typing import ConfigType
from . import DOMAIN
# mypy: allow-untyped-defs, no-check-untyped-defs
DEVICE_CLASS_NONE = "none"
CONF_IS_BATTERY_LEVEL = "is_battery_level"
CONF_IS_CO = "is_carbon_monoxide"
CONF_IS_CO2 = "is_carbon_dioxide"
CONF_IS_CURRENT = "is_current"
CONF_IS_ENERGY = "is_energy"
CONF_IS_HUMIDITY = "is_humidity"
CONF_IS_GAS = "is_gas"
CONF_IS_ILLUMINANCE = "is_illuminance"
CONF_IS_NITROGEN_DIOXIDE = "is_nitrogen_dioxide"
CONF_IS_NITROGEN_MONOXIDE = "is_nitrogen_monoxide"
CONF_IS_NITROUS_OXIDE = "is_nitrous_oxide"
CONF_IS_OZONE = "is_ozone"
CONF_IS_PM1 = "is_pm1"
CONF_IS_PM10 = "is_pm10"
CONF_IS_PM25 = "is_pm25"
CONF_IS_POWER = "is_power"
CONF_IS_POWER_FACTOR = "is_power_factor"
CONF_IS_PRESSURE = "is_pressure"
CONF_IS_SIGNAL_STRENGTH = "is_signal_strength"
CONF_IS_SULPHUR_DIOXIDE = "is_sulphur_dioxide"
CONF_IS_TEMPERATURE = "is_temperature"
CONF_IS_VOLTAGE = "is_voltage"
CONF_IS_VALUE = "is_value"
ENTITY_CONDITIONS = {
DEVICE_CLASS_BATTERY: [{CONF_TYPE: CONF_IS_BATTERY_LEVEL}],
DEVICE_CLASS_CO: [{CONF_TYPE: CONF_IS_CO}],
DEVICE_CLASS_CO2: [{CONF_TYPE: CONF_IS_CO2}],
DEVICE_CLASS_CURRENT: [{CONF_TYPE: CONF_IS_CURRENT}],
DEVICE_CLASS_ENERGY: [{CONF_TYPE: CONF_IS_ENERGY}],
DEVICE_CLASS_GAS: [{CONF_TYPE: CONF_IS_GAS}],
DEVICE_CLASS_HUMIDITY: [{CONF_TYPE: CONF_IS_HUMIDITY}],
DEVICE_CLASS_ILLUMINANCE: [{CONF_TYPE: CONF_IS_ILLUMINANCE}],
DEVICE_CLASS_NITROGEN_DIOXIDE: [{CONF_TYPE: CONF_IS_NITROGEN_DIOXIDE}],
DEVICE_CLASS_NITROGEN_MONOXIDE: [{CONF_TYPE: CONF_IS_NITROGEN_MONOXIDE}],
DEVICE_CLASS_NITROUS_OXIDE: [{CONF_TYPE: CONF_IS_NITROUS_OXIDE}],
DEVICE_CLASS_OZONE: [{CONF_TYPE: CONF_IS_OZONE}],
DEVICE_CLASS_POWER: [{CONF_TYPE: CONF_IS_POWER}],
DEVICE_CLASS_POWER_FACTOR: [{CONF_TYPE: CONF_IS_POWER_FACTOR}],
DEVICE_CLASS_PM1: [{CONF_TYPE: CONF_IS_PM1}],
DEVICE_CLASS_PM10: [{CONF_TYPE: CONF_IS_PM10}],
DEVICE_CLASS_PM25: [{CONF_TYPE: CONF_IS_PM25}],
DEVICE_CLASS_PRESSURE: [{CONF_TYPE: CONF_IS_PRESSURE}],
DEVICE_CLASS_SIGNAL_STRENGTH: [{CONF_TYPE: CONF_IS_SIGNAL_STRENGTH}],
DEVICE_CLASS_SULPHUR_DIOXIDE: [{CONF_TYPE: CONF_IS_SULPHUR_DIOXIDE}],
DEVICE_CLASS_TEMPERATURE: [{CONF_TYPE: CONF_IS_TEMPERATURE}],
DEVICE_CLASS_VOLTAGE: [{CONF_TYPE: CONF_IS_VOLTAGE}],
DEVICE_CLASS_NONE: [{CONF_TYPE: CONF_IS_VALUE}],
}
CONDITION_SCHEMA = vol.All(
cv.DEVICE_CONDITION_BASE_SCHEMA.extend(
{
vol.Required(CONF_ENTITY_ID): cv.entity_id,
vol.Required(CONF_TYPE): vol.In(
[
CONF_IS_BATTERY_LEVEL,
CONF_IS_CO,
CONF_IS_CO2,
CONF_IS_CURRENT,
CONF_IS_ENERGY,
CONF_IS_GAS,
CONF_IS_HUMIDITY,
CONF_IS_ILLUMINANCE,
CONF_IS_OZONE,
CONF_IS_NITROGEN_DIOXIDE,
CONF_IS_NITROGEN_MONOXIDE,
CONF_IS_NITROUS_OXIDE,
CONF_IS_POWER,
CONF_IS_POWER_FACTOR,
CONF_IS_PM1,
CONF_IS_PM10,
CONF_IS_PM25,
CONF_IS_PRESSURE,
CONF_IS_SIGNAL_STRENGTH,
CONF_IS_SULPHUR_DIOXIDE,
CONF_IS_TEMPERATURE,
CONF_IS_VOLTAGE,
CONF_IS_VALUE,
]
),
vol.Optional(CONF_BELOW): vol.Any(vol.Coerce(float)),
vol.Optional(CONF_ABOVE): vol.Any(vol.Coerce(float)),
}
),
cv.has_at_least_one_key(CONF_BELOW, CONF_ABOVE),
)
async def async_get_conditions(
hass: HomeAssistant, device_id: str
) -> list[dict[str, str]]:
"""List device conditions."""
conditions: list[dict[str, str]] = []
entity_registry = await async_get_registry(hass)
entries = [
entry
for entry in async_entries_for_device(entity_registry, device_id)
if entry.domain == DOMAIN
]
for entry in entries:
device_class = get_device_class(hass, entry.entity_id) or DEVICE_CLASS_NONE
unit_of_measurement = get_unit_of_measurement(hass, entry.entity_id)
if not unit_of_measurement:
continue
templates = ENTITY_CONDITIONS.get(
device_class, ENTITY_CONDITIONS[DEVICE_CLASS_NONE]
)
conditions.extend(
{
**template,
"condition": "device",
"device_id": device_id,
"entity_id": entry.entity_id,
"domain": DOMAIN,
}
for template in templates
)
return conditions
@callback
def async_condition_from_config(
config: ConfigType, config_validation: bool
) -> condition.ConditionCheckerType:
"""Evaluate state based on configuration."""
if config_validation:
config = CONDITION_SCHEMA(config)
numeric_state_config = {
condition.CONF_CONDITION: "numeric_state",
condition.CONF_ENTITY_ID: config[CONF_ENTITY_ID],
}
if CONF_ABOVE in config:
numeric_state_config[condition.CONF_ABOVE] = config[CONF_ABOVE]
if CONF_BELOW in config:
numeric_state_config[condition.CONF_BELOW] = config[CONF_BELOW]
return condition.async_numeric_state_from_config(numeric_state_config)
async def async_get_condition_capabilities(hass, config):
"""List condition capabilities."""
try:
unit_of_measurement = get_unit_of_measurement(hass, config[CONF_ENTITY_ID])
except HomeAssistantError:
unit_of_measurement = None
if not unit_of_measurement:
raise InvalidDeviceAutomationConfig(
"No unit of measurement found for condition entity {config[CONF_ENTITY_ID]}"
)
return {
"extra_fields": vol.Schema(
{
vol.Optional(
CONF_ABOVE, description={"suffix": unit_of_measurement}
): vol.Coerce(float),
vol.Optional(
CONF_BELOW, description={"suffix": unit_of_measurement}
): vol.Coerce(float),
}
)
}