"""
Climate on Zigbee Home Automation networks.
For more details on this platform, please refer to the documentation
at https://home-assistant.io/components/zha.climate/
"""
from __future__ import annotations
from datetime import datetime, timedelta
import functools
from random import randint
from zigpy.zcl.clusters.hvac import Fan as F, Thermostat as T
from homeassistant.components.climate import ClimateEntity
from homeassistant.components.climate.const import (
ATTR_HVAC_MODE,
ATTR_TARGET_TEMP_HIGH,
ATTR_TARGET_TEMP_LOW,
CURRENT_HVAC_COOL,
CURRENT_HVAC_FAN,
CURRENT_HVAC_HEAT,
CURRENT_HVAC_IDLE,
CURRENT_HVAC_OFF,
FAN_AUTO,
FAN_ON,
HVAC_MODE_COOL,
HVAC_MODE_DRY,
HVAC_MODE_FAN_ONLY,
HVAC_MODE_HEAT,
HVAC_MODE_HEAT_COOL,
HVAC_MODE_OFF,
PRESET_AWAY,
PRESET_BOOST,
PRESET_COMFORT,
PRESET_ECO,
PRESET_NONE,
SUPPORT_FAN_MODE,
SUPPORT_PRESET_MODE,
SUPPORT_TARGET_TEMPERATURE,
SUPPORT_TARGET_TEMPERATURE_RANGE,
)
from homeassistant.config_entries import ConfigEntry
from homeassistant.const import (
ATTR_TEMPERATURE,
PRECISION_TENTHS,
TEMP_CELSIUS,
Platform,
)
from homeassistant.core import HomeAssistant, callback
from homeassistant.helpers.dispatcher import async_dispatcher_connect
from homeassistant.helpers.entity_platform import AddEntitiesCallback
from homeassistant.helpers.event import async_track_time_interval
import homeassistant.util.dt as dt_util
from .core import discovery
from .core.const import (
CHANNEL_FAN,
CHANNEL_THERMOSTAT,
DATA_ZHA,
PRESET_COMPLEX,
PRESET_SCHEDULE,
SIGNAL_ADD_ENTITIES,
SIGNAL_ATTR_UPDATED,
)
from .core.registries import ZHA_ENTITIES
from .entity import ZhaEntity
ATTR_SYS_MODE = "system_mode"
ATTR_RUNNING_MODE = "running_mode"
ATTR_SETPT_CHANGE_SRC = "setpoint_change_source"
ATTR_SETPT_CHANGE_AMT = "setpoint_change_amount"
ATTR_OCCUPANCY = "occupancy"
ATTR_PI_COOLING_DEMAND = "pi_cooling_demand"
ATTR_PI_HEATING_DEMAND = "pi_heating_demand"
ATTR_OCCP_COOL_SETPT = "occupied_cooling_setpoint"
ATTR_OCCP_HEAT_SETPT = "occupied_heating_setpoint"
ATTR_UNOCCP_HEAT_SETPT = "unoccupied_heating_setpoint"
ATTR_UNOCCP_COOL_SETPT = "unoccupied_cooling_setpoint"
STRICT_MATCH = functools.partial(ZHA_ENTITIES.strict_match, Platform.CLIMATE)
MULTI_MATCH = functools.partial(ZHA_ENTITIES.multipass_match, Platform.CLIMATE)
RUNNING_MODE = {0x00: HVAC_MODE_OFF, 0x03: HVAC_MODE_COOL, 0x04: HVAC_MODE_HEAT}
SEQ_OF_OPERATION = {
0x00: (HVAC_MODE_OFF, HVAC_MODE_COOL), # cooling only
0x01: (HVAC_MODE_OFF, HVAC_MODE_COOL), # cooling with reheat
0x02: (HVAC_MODE_OFF, HVAC_MODE_HEAT), # heating only
0x03: (HVAC_MODE_OFF, HVAC_MODE_HEAT), # heating with reheat
# cooling and heating 4-pipes
0x04: (HVAC_MODE_OFF, HVAC_MODE_HEAT_COOL, HVAC_MODE_COOL, HVAC_MODE_HEAT),
# cooling and heating 4-pipes
0x05: (HVAC_MODE_OFF, HVAC_MODE_HEAT_COOL, HVAC_MODE_COOL, HVAC_MODE_HEAT),
0x06: (HVAC_MODE_COOL, HVAC_MODE_HEAT, HVAC_MODE_OFF), # centralite specific
0x07: (HVAC_MODE_HEAT_COOL, HVAC_MODE_OFF), # centralite specific
}
HVAC_MODE_2_SYSTEM = {
HVAC_MODE_OFF: T.SystemMode.Off,
HVAC_MODE_HEAT_COOL: T.SystemMode.Auto,
HVAC_MODE_COOL: T.SystemMode.Cool,
HVAC_MODE_HEAT: T.SystemMode.Heat,
HVAC_MODE_FAN_ONLY: T.SystemMode.Fan_only,
HVAC_MODE_DRY: T.SystemMode.Dry,
}
SYSTEM_MODE_2_HVAC = {
T.SystemMode.Off: HVAC_MODE_OFF,
T.SystemMode.Auto: HVAC_MODE_HEAT_COOL,
T.SystemMode.Cool: HVAC_MODE_COOL,
T.SystemMode.Heat: HVAC_MODE_HEAT,
T.SystemMode.Emergency_Heating: HVAC_MODE_HEAT,
T.SystemMode.Pre_cooling: HVAC_MODE_COOL, # this is 'precooling'. is it the same?
T.SystemMode.Fan_only: HVAC_MODE_FAN_ONLY,
T.SystemMode.Dry: HVAC_MODE_DRY,
T.SystemMode.Sleep: HVAC_MODE_OFF,
}
ZCL_TEMP = 100
async def async_setup_entry(
hass: HomeAssistant,
config_entry: ConfigEntry,
async_add_entities: AddEntitiesCallback,
):
"""Set up the Zigbee Home Automation sensor from config entry."""
entities_to_create = hass.data[DATA_ZHA][Platform.CLIMATE]
unsub = async_dispatcher_connect(
hass,
SIGNAL_ADD_ENTITIES,
functools.partial(
discovery.async_add_entities, async_add_entities, entities_to_create
),
)
config_entry.async_on_unload(unsub)
@MULTI_MATCH(
channel_names=CHANNEL_THERMOSTAT,
aux_channels=CHANNEL_FAN,
stop_on_match_group=CHANNEL_THERMOSTAT,
)
class Thermostat(ZhaEntity, ClimateEntity):
"""Representation of a ZHA Thermostat device."""
DEFAULT_MAX_TEMP = 35
DEFAULT_MIN_TEMP = 7
def __init__(self, unique_id, zha_device, channels, **kwargs):
"""Initialize ZHA Thermostat instance."""
super().__init__(unique_id, zha_device, channels, **kwargs)
self._thrm = self.cluster_channels.get(CHANNEL_THERMOSTAT)
self._preset = PRESET_NONE
self._presets = []
self._supported_flags = SUPPORT_TARGET_TEMPERATURE
self._fan = self.cluster_channels.get(CHANNEL_FAN)
@property
def current_temperature(self):
"""Return the current temperature."""
if self._thrm.local_temp is None:
return None
return self._thrm.local_temp / ZCL_TEMP
@property
def extra_state_attributes(self):
"""Return device specific state attributes."""
data = {}
if self.hvac_mode:
mode = SYSTEM_MODE_2_HVAC.get(self._thrm.system_mode, "unknown")
data[ATTR_SYS_MODE] = f"[{self._thrm.system_mode}]/{mode}"
if self._thrm.occupancy is not None:
data[ATTR_OCCUPANCY] = self._thrm.occupancy
if self._thrm.occupied_cooling_setpoint is not None:
data[ATTR_OCCP_COOL_SETPT] = self._thrm.occupied_cooling_setpoint
if self._thrm.occupied_heating_setpoint is not None:
data[ATTR_OCCP_HEAT_SETPT] = self._thrm.occupied_heating_setpoint
if self._thrm.pi_heating_demand is not None:
data[ATTR_PI_HEATING_DEMAND] = self._thrm.pi_heating_demand
if self._thrm.pi_cooling_demand is not None:
data[ATTR_PI_COOLING_DEMAND] = self._thrm.pi_cooling_demand
unoccupied_cooling_setpoint = self._thrm.unoccupied_cooling_setpoint
if unoccupied_cooling_setpoint is not None:
data[ATTR_UNOCCP_COOL_SETPT] = unoccupied_cooling_setpoint
unoccupied_heating_setpoint = self._thrm.unoccupied_heating_setpoint
if unoccupied_heating_setpoint is not None:
data[ATTR_UNOCCP_HEAT_SETPT] = unoccupied_heating_setpoint
return data
@property
def fan_mode(self) -> str | None:
"""Return current FAN mode."""
if self._thrm.running_state is None:
return FAN_AUTO
if self._thrm.running_state & (
T.RunningState.Fan_State_On
| T.RunningState.Fan_2nd_Stage_On
| T.RunningState.Fan_3rd_Stage_On
):
return FAN_ON
return FAN_AUTO
@property
def fan_modes(self) -> list[str] | None:
"""Return supported FAN modes."""
if not self._fan:
return None
return [FAN_AUTO, FAN_ON]
@property
def hvac_action(self) -> str | None:
"""Return the current HVAC action."""
if (
self._thrm.pi_heating_demand is None
and self._thrm.pi_cooling_demand is None
):
return self._rm_rs_action
return self._pi_demand_action
@property
def _rm_rs_action(self) -> str | None:
"""Return the current HVAC action based on running mode and running state."""
if (running_state := self._thrm.running_state) is None:
return None
if running_state & (
T.RunningState.Heat_State_On | T.RunningState.Heat_2nd_Stage_On
):
return CURRENT_HVAC_HEAT
if running_state & (
T.RunningState.Cool_State_On | T.RunningState.Cool_2nd_Stage_On
):
return CURRENT_HVAC_COOL
if running_state & (
T.RunningState.Fan_State_On
| T.RunningState.Fan_2nd_Stage_On
| T.RunningState.Fan_3rd_Stage_On
):
return CURRENT_HVAC_FAN
if running_state & T.RunningState.Idle:
return CURRENT_HVAC_IDLE
if self.hvac_mode != HVAC_MODE_OFF:
return CURRENT_HVAC_IDLE
return CURRENT_HVAC_OFF
@property
def _pi_demand_action(self) -> str | None:
"""Return the current HVAC action based on pi_demands."""
heating_demand = self._thrm.pi_heating_demand
if heating_demand is not None and heating_demand > 0:
return CURRENT_HVAC_HEAT
cooling_demand = self._thrm.pi_cooling_demand
if cooling_demand is not None and cooling_demand > 0:
return CURRENT_HVAC_COOL
if self.hvac_mode != HVAC_MODE_OFF:
return CURRENT_HVAC_IDLE
return CURRENT_HVAC_OFF
@property
def hvac_mode(self) -> str | None:
"""Return HVAC operation mode."""
return SYSTEM_MODE_2_HVAC.get(self._thrm.system_mode)
@property
def hvac_modes(self) -> tuple[str, ...]:
"""Return the list of available HVAC operation modes."""
return SEQ_OF_OPERATION.get(self._thrm.ctrl_seqe_of_oper, (HVAC_MODE_OFF,))
@property
def precision(self):
"""Return the precision of the system."""
return PRECISION_TENTHS
@property
def preset_mode(self) -> str | None:
"""Return current preset mode."""
return self._preset
@property
def preset_modes(self) -> list[str] | None:
"""Return supported preset modes."""
return self._presets
@property
def supported_features(self):
"""Return the list of supported features."""
features = self._supported_flags
if HVAC_MODE_HEAT_COOL in self.hvac_modes:
features |= SUPPORT_TARGET_TEMPERATURE_RANGE
if self._fan is not None:
self._supported_flags |= SUPPORT_FAN_MODE
return features
@property
def target_temperature(self):
"""Return the temperature we try to reach."""
temp = None
if self.hvac_mode == HVAC_MODE_COOL:
if self.preset_mode == PRESET_AWAY:
temp = self._thrm.unoccupied_cooling_setpoint
else:
temp = self._thrm.occupied_cooling_setpoint
elif self.hvac_mode == HVAC_MODE_HEAT:
if self.preset_mode == PRESET_AWAY:
temp = self._thrm.unoccupied_heating_setpoint
else:
temp = self._thrm.occupied_heating_setpoint
if temp is None:
return temp
return round(temp / ZCL_TEMP, 1)
@property
def target_temperature_high(self):
"""Return the upper bound temperature we try to reach."""
if self.hvac_mode != HVAC_MODE_HEAT_COOL:
return None
if self.preset_mode == PRESET_AWAY:
temp = self._thrm.unoccupied_cooling_setpoint
else:
temp = self._thrm.occupied_cooling_setpoint
if temp is None:
return temp
return round(temp / ZCL_TEMP, 1)
@property
def target_temperature_low(self):
"""Return the lower bound temperature we try to reach."""
if self.hvac_mode != HVAC_MODE_HEAT_COOL:
return None
if self.preset_mode == PRESET_AWAY:
temp = self._thrm.unoccupied_heating_setpoint
else:
temp = self._thrm.occupied_heating_setpoint
if temp is None:
return temp
return round(temp / ZCL_TEMP, 1)
@property
def temperature_unit(self):
"""Return the unit of measurement used by the platform."""
return TEMP_CELSIUS
@property
def max_temp(self) -> float:
"""Return the maximum temperature."""
temps = []
if HVAC_MODE_HEAT in self.hvac_modes:
temps.append(self._thrm.max_heat_setpoint_limit)
if HVAC_MODE_COOL in self.hvac_modes:
temps.append(self._thrm.max_cool_setpoint_limit)
if not temps:
return self.DEFAULT_MAX_TEMP
return round(max(temps) / ZCL_TEMP, 1)
@property
def min_temp(self) -> float:
"""Return the minimum temperature."""
temps = []
if HVAC_MODE_HEAT in self.hvac_modes:
temps.append(self._thrm.min_heat_setpoint_limit)
if HVAC_MODE_COOL in self.hvac_modes:
temps.append(self._thrm.min_cool_setpoint_limit)
if not temps:
return self.DEFAULT_MIN_TEMP
return round(min(temps) / ZCL_TEMP, 1)
async def async_added_to_hass(self):
"""Run when about to be added to hass."""
await super().async_added_to_hass()
self.async_accept_signal(
self._thrm, SIGNAL_ATTR_UPDATED, self.async_attribute_updated
)
async def async_attribute_updated(self, record):
"""Handle attribute update from device."""
if (
record.attr_name in (ATTR_OCCP_COOL_SETPT, ATTR_OCCP_HEAT_SETPT)
and self.preset_mode == PRESET_AWAY
):
# occupancy attribute is an unreportable attribute, but if we get
# an attribute update for an "occupied" setpoint, there's a chance
# occupancy has changed
if await self._thrm.get_occupancy() is True:
self._preset = PRESET_NONE
self.debug("Attribute '%s' = %s update", record.attr_name, record.value)
self.async_write_ha_state()
async def async_set_fan_mode(self, fan_mode: str) -> None:
"""Set fan mode."""
if fan_mode not in self.fan_modes:
self.warning("Unsupported '%s' fan mode", fan_mode)
return
if fan_mode == FAN_ON:
mode = F.FanMode.On
else:
mode = F.FanMode.Auto
await self._fan.async_set_speed(mode)
async def async_set_hvac_mode(self, hvac_mode: str) -> None:
"""Set new target operation mode."""
if hvac_mode not in self.hvac_modes:
self.warning(
"can't set '%s' mode. Supported modes are: %s",
hvac_mode,
self.hvac_modes,
)
return
if await self._thrm.async_set_operation_mode(HVAC_MODE_2_SYSTEM[hvac_mode]):
self.async_write_ha_state()
async def async_set_preset_mode(self, preset_mode: str) -> None:
"""Set new preset mode."""
if preset_mode not in self.preset_modes:
self.debug("preset mode '%s' is not supported", preset_mode)
return
if (
self.preset_mode
not in (
preset_mode,
PRESET_NONE,
)
and not await self.async_preset_handler(self.preset_mode, enable=False)
):
self.debug("Couldn't turn off '%s' preset", self.preset_mode)
return
if preset_mode != PRESET_NONE and not await self.async_preset_handler(
preset_mode, enable=True
):
self.debug("Couldn't turn on '%s' preset", preset_mode)
return
self._preset = preset_mode
self.async_write_ha_state()
async def async_set_temperature(self, **kwargs):
"""Set new target temperature."""
low_temp = kwargs.get(ATTR_TARGET_TEMP_LOW)
high_temp = kwargs.get(ATTR_TARGET_TEMP_HIGH)
temp = kwargs.get(ATTR_TEMPERATURE)
hvac_mode = kwargs.get(ATTR_HVAC_MODE)
if hvac_mode is not None:
await self.async_set_hvac_mode(hvac_mode)
thrm = self._thrm
if self.hvac_mode == HVAC_MODE_HEAT_COOL:
success = True
if low_temp is not None:
low_temp = int(low_temp * ZCL_TEMP)
success = success and await thrm.async_set_heating_setpoint(
low_temp, self.preset_mode == PRESET_AWAY
)
self.debug("Setting heating %s setpoint: %s", low_temp, success)
if high_temp is not None:
high_temp = int(high_temp * ZCL_TEMP)
success = success and await thrm.async_set_cooling_setpoint(
high_temp, self.preset_mode == PRESET_AWAY
)
self.debug("Setting cooling %s setpoint: %s", low_temp, success)
elif temp is not None:
temp = int(temp * ZCL_TEMP)
if self.hvac_mode == HVAC_MODE_COOL:
success = await thrm.async_set_cooling_setpoint(
temp, self.preset_mode == PRESET_AWAY
)
elif self.hvac_mode == HVAC_MODE_HEAT:
success = await thrm.async_set_heating_setpoint(
temp, self.preset_mode == PRESET_AWAY
)
else:
self.debug("Not setting temperature for '%s' mode", self.hvac_mode)
return
else:
self.debug("incorrect %s setting for '%s' mode", kwargs, self.hvac_mode)
return
if success:
self.async_write_ha_state()
async def async_preset_handler(self, preset: str, enable: bool = False) -> bool:
"""Set the preset mode via handler."""
handler = getattr(self, f"async_preset_handler_{preset}")
return await handler(enable)
@MULTI_MATCH(
channel_names={CHANNEL_THERMOSTAT, "sinope_manufacturer_specific"},
manufacturers="Sinope Technologies",
stop_on_match_group=CHANNEL_THERMOSTAT,
)
class SinopeTechnologiesThermostat(Thermostat):
"""Sinope Technologies Thermostat."""
manufacturer = 0x119C
update_time_interval = timedelta(minutes=randint(45, 75))
def __init__(self, unique_id, zha_device, channels, **kwargs):
"""Initialize ZHA Thermostat instance."""
super().__init__(unique_id, zha_device, channels, **kwargs)
self._presets = [PRESET_AWAY, PRESET_NONE]
self._supported_flags |= SUPPORT_PRESET_MODE
self._manufacturer_ch = self.cluster_channels["sinope_manufacturer_specific"]
@property
def _rm_rs_action(self) -> str | None:
"""Return the current HVAC action based on running mode and running state."""
running_mode = self._thrm.running_mode
if running_mode == T.SystemMode.Heat:
return CURRENT_HVAC_HEAT
if running_mode == T.SystemMode.Cool:
return CURRENT_HVAC_COOL
running_state = self._thrm.running_state
if running_state and running_state & (
T.RunningState.Fan_State_On
| T.RunningState.Fan_2nd_Stage_On
| T.RunningState.Fan_3rd_Stage_On
):
return CURRENT_HVAC_FAN
if self.hvac_mode != HVAC_MODE_OFF and running_mode == T.SystemMode.Off:
return CURRENT_HVAC_IDLE
return CURRENT_HVAC_OFF
@callback
def _async_update_time(self, timestamp=None) -> None:
"""Update thermostat's time display."""
secs_2k = (
dt_util.now().replace(tzinfo=None) - datetime(2000, 1, 1, 0, 0, 0, 0)
).total_seconds()
self.debug("Updating time: %s", secs_2k)
self._manufacturer_ch.cluster.create_catching_task(
self._manufacturer_ch.cluster.write_attributes(
{"secs_since_2k": secs_2k}, manufacturer=self.manufacturer
)
)
async def async_added_to_hass(self):
"""Run when about to be added to Hass."""
await super().async_added_to_hass()
async_track_time_interval(
self.hass, self._async_update_time, self.update_time_interval
)
self._async_update_time()
async def async_preset_handler_away(self, is_away: bool = False) -> bool:
"""Set occupancy."""
mfg_code = self._zha_device.manufacturer_code
res = await self._thrm.write_attributes(
{"set_occupancy": 0 if is_away else 1}, manufacturer=mfg_code
)
self.debug("set occupancy to %s. Status: %s", 0 if is_away else 1, res)
return res
@MULTI_MATCH(
channel_names=CHANNEL_THERMOSTAT,
aux_channels=CHANNEL_FAN,
manufacturers="Zen Within",
stop_on_match_group=CHANNEL_THERMOSTAT,
)
class ZenWithinThermostat(Thermostat):
"""Zen Within Thermostat implementation."""
@MULTI_MATCH(
channel_names=CHANNEL_THERMOSTAT,
aux_channels=CHANNEL_FAN,
manufacturers="Centralite",
models={"3157100", "3157100-E"},
stop_on_match_group=CHANNEL_THERMOSTAT,
)
class CentralitePearl(ZenWithinThermostat):
"""Centralite Pearl Thermostat implementation."""
@STRICT_MATCH(
channel_names=CHANNEL_THERMOSTAT,
manufacturers={
"_TZE200_ckud7u2l",
"_TZE200_ywdxldoj",
"_TZE200_cwnjrr72",
"_TZE200_b6wax7g0",
"_TZE200_2atgpdho",
"_TZE200_pvvbommb",
"_TZE200_4eeyebrt",
"_TYST11_ckud7u2l",
"_TYST11_ywdxldoj",
"_TYST11_cwnjrr72",
"_TYST11_2atgpdho",
},
)
class MoesThermostat(Thermostat):
"""Moes Thermostat implementation."""
def __init__(self, unique_id, zha_device, channels, **kwargs):
"""Initialize ZHA Thermostat instance."""
super().__init__(unique_id, zha_device, channels, **kwargs)
self._presets = [
PRESET_NONE,
PRESET_AWAY,
PRESET_SCHEDULE,
PRESET_COMFORT,
PRESET_ECO,
PRESET_BOOST,
PRESET_COMPLEX,
]
self._supported_flags |= SUPPORT_PRESET_MODE
@property
def hvac_modes(self) -> tuple[str, ...]:
"""Return only the heat mode, because the device can't be turned off."""
return (HVAC_MODE_HEAT,)
async def async_attribute_updated(self, record):
"""Handle attribute update from device."""
if record.attr_name == "operation_preset":
if record.value == 0:
self._preset = PRESET_AWAY
if record.value == 1:
self._preset = PRESET_SCHEDULE
if record.value == 2:
self._preset = PRESET_NONE
if record.value == 3:
self._preset = PRESET_COMFORT
if record.value == 4:
self._preset = PRESET_ECO
if record.value == 5:
self._preset = PRESET_BOOST
if record.value == 6:
self._preset = PRESET_COMPLEX
await super().async_attribute_updated(record)
async def async_preset_handler(self, preset: str, enable: bool = False) -> bool:
"""Set the preset mode."""
mfg_code = self._zha_device.manufacturer_code
if not enable:
return await self._thrm.write_attributes(
{"operation_preset": 2}, manufacturer=mfg_code
)
if preset == PRESET_AWAY:
return await self._thrm.write_attributes(
{"operation_preset": 0}, manufacturer=mfg_code
)
if preset == PRESET_SCHEDULE:
return await self._thrm.write_attributes(
{"operation_preset": 1}, manufacturer=mfg_code
)
if preset == PRESET_COMFORT:
return await self._thrm.write_attributes(
{"operation_preset": 3}, manufacturer=mfg_code
)
if preset == PRESET_ECO:
return await self._thrm.write_attributes(
{"operation_preset": 4}, manufacturer=mfg_code
)
if preset == PRESET_BOOST:
return await self._thrm.write_attributes(
{"operation_preset": 5}, manufacturer=mfg_code
)
if preset == PRESET_COMPLEX:
return await self._thrm.write_attributes(
{"operation_preset": 6}, manufacturer=mfg_code
)
return False