"""Support for Netatmo Smart thermostats."""
import logging
from typing import List, Optional
import voluptuous as vol
from homeassistant.components.climate import ClimateEntity
from homeassistant.components.climate.const import (
CURRENT_HVAC_HEAT,
CURRENT_HVAC_IDLE,
DEFAULT_MIN_TEMP,
HVAC_MODE_AUTO,
HVAC_MODE_HEAT,
HVAC_MODE_OFF,
PRESET_AWAY,
PRESET_BOOST,
SUPPORT_PRESET_MODE,
SUPPORT_TARGET_TEMPERATURE,
)
from homeassistant.const import (
ATTR_BATTERY_LEVEL,
ATTR_TEMPERATURE,
PRECISION_HALVES,
STATE_OFF,
TEMP_CELSIUS,
)
from homeassistant.core import callback
from homeassistant.helpers import config_validation as cv, entity_platform
from homeassistant.helpers.dispatcher import async_dispatcher_connect
from .const import (
ATTR_HEATING_POWER_REQUEST,
ATTR_SCHEDULE_NAME,
DATA_HANDLER,
DATA_HOMES,
DATA_SCHEDULES,
DOMAIN,
EVENT_TYPE_CANCEL_SET_POINT,
EVENT_TYPE_SET_POINT,
EVENT_TYPE_THERM_MODE,
MANUFACTURER,
SERVICE_SET_SCHEDULE,
SIGNAL_NAME,
)
from .data_handler import HOMEDATA_DATA_CLASS_NAME, HOMESTATUS_DATA_CLASS_NAME
from .netatmo_entity_base import NetatmoBase
_LOGGER = logging.getLogger(__name__)
PRESET_FROST_GUARD = "Frost Guard"
PRESET_SCHEDULE = "Schedule"
PRESET_MANUAL = "Manual"
SUPPORT_FLAGS = SUPPORT_TARGET_TEMPERATURE | SUPPORT_PRESET_MODE
SUPPORT_HVAC = [HVAC_MODE_HEAT, HVAC_MODE_AUTO, HVAC_MODE_OFF]
SUPPORT_PRESET = [PRESET_AWAY, PRESET_BOOST, PRESET_FROST_GUARD, PRESET_SCHEDULE]
STATE_NETATMO_SCHEDULE = "schedule"
STATE_NETATMO_HG = "hg"
STATE_NETATMO_MAX = "max"
STATE_NETATMO_AWAY = PRESET_AWAY
STATE_NETATMO_OFF = STATE_OFF
STATE_NETATMO_MANUAL = "manual"
STATE_NETATMO_HOME = "home"
PRESET_MAP_NETATMO = {
PRESET_FROST_GUARD: STATE_NETATMO_HG,
PRESET_BOOST: STATE_NETATMO_MAX,
PRESET_SCHEDULE: STATE_NETATMO_SCHEDULE,
PRESET_AWAY: STATE_NETATMO_AWAY,
STATE_NETATMO_OFF: STATE_NETATMO_OFF,
}
NETATMO_MAP_PRESET = {
STATE_NETATMO_HG: PRESET_FROST_GUARD,
STATE_NETATMO_MAX: PRESET_BOOST,
STATE_NETATMO_SCHEDULE: PRESET_SCHEDULE,
STATE_NETATMO_AWAY: PRESET_AWAY,
STATE_NETATMO_OFF: STATE_NETATMO_OFF,
STATE_NETATMO_MANUAL: STATE_NETATMO_MANUAL,
}
HVAC_MAP_NETATMO = {
PRESET_SCHEDULE: HVAC_MODE_AUTO,
STATE_NETATMO_HG: HVAC_MODE_AUTO,
PRESET_FROST_GUARD: HVAC_MODE_AUTO,
PRESET_BOOST: HVAC_MODE_HEAT,
STATE_NETATMO_OFF: HVAC_MODE_OFF,
STATE_NETATMO_MANUAL: HVAC_MODE_AUTO,
PRESET_MANUAL: HVAC_MODE_AUTO,
STATE_NETATMO_AWAY: HVAC_MODE_AUTO,
}
CURRENT_HVAC_MAP_NETATMO = {True: CURRENT_HVAC_HEAT, False: CURRENT_HVAC_IDLE}
DEFAULT_MAX_TEMP = 30
NA_THERM = "NATherm1"
NA_VALVE = "NRV"
async def async_setup_entry(hass, entry, async_add_entities):
"""Set up the Netatmo energy platform."""
data_handler = hass.data[DOMAIN][entry.entry_id][DATA_HANDLER]
await data_handler.register_data_class(
HOMEDATA_DATA_CLASS_NAME, HOMEDATA_DATA_CLASS_NAME, None
)
home_data = data_handler.data.get(HOMEDATA_DATA_CLASS_NAME)
if not home_data:
return
async def get_entities():
"""Retrieve Netatmo entities."""
entities = []
for home_id in get_all_home_ids(home_data):
_LOGGER.debug("Setting up home %s ...", home_id)
for room_id in home_data.rooms[home_id].keys():
room_name = home_data.rooms[home_id][room_id]["name"]
_LOGGER.debug("Setting up room %s (%s) ...", room_name, room_id)
signal_name = f"{HOMESTATUS_DATA_CLASS_NAME}-{home_id}"
await data_handler.register_data_class(
HOMESTATUS_DATA_CLASS_NAME, signal_name, None, home_id=home_id
)
home_status = data_handler.data.get(signal_name)
if home_status and room_id in home_status.rooms:
entities.append(NetatmoThermostat(data_handler, home_id, room_id))
hass.data[DOMAIN][DATA_SCHEDULES][home_id] = {
schedule_id: schedule_data.get("name")
for schedule_id, schedule_data in (
data_handler.data[HOMEDATA_DATA_CLASS_NAME]
.schedules[home_id]
.items()
)
}
hass.data[DOMAIN][DATA_HOMES] = {
home_id: home_data.get("name")
for home_id, home_data in (
data_handler.data[HOMEDATA_DATA_CLASS_NAME].homes.items()
)
}
return entities
async_add_entities(await get_entities(), True)
platform = entity_platform.current_platform.get()
if home_data is not None:
platform.async_register_entity_service(
SERVICE_SET_SCHEDULE,
{vol.Required(ATTR_SCHEDULE_NAME): cv.string},
"_service_set_schedule",
)
class NetatmoThermostat(NetatmoBase, ClimateEntity):
"""Representation a Netatmo thermostat."""
def __init__(self, data_handler, home_id, room_id):
"""Initialize the sensor."""
ClimateEntity.__init__(self)
super().__init__(data_handler)
self._id = room_id
self._home_id = home_id
self._home_status_class = f"{HOMESTATUS_DATA_CLASS_NAME}-{self._home_id}"
self._data_classes.extend(
[
{
"name": HOMEDATA_DATA_CLASS_NAME,
SIGNAL_NAME: HOMEDATA_DATA_CLASS_NAME,
},
{
"name": HOMESTATUS_DATA_CLASS_NAME,
"home_id": self._home_id,
SIGNAL_NAME: self._home_status_class,
},
]
)
self._home_status = self.data_handler.data[self._home_status_class]
self._room_status = self._home_status.rooms[room_id]
self._room_data = self._data.rooms[home_id][room_id]
self._model = NA_VALVE
for module in self._room_data.get("module_ids"):
if self._home_status.thermostats.get(module):
self._model = NA_THERM
break
self._state = None
self._device_name = self._data.rooms[home_id][room_id]["name"]
self._name = f"{MANUFACTURER} {self._device_name}"
self._current_temperature = None
self._target_temperature = None
self._preset = None
self._away = None
self._operation_list = [HVAC_MODE_AUTO, HVAC_MODE_HEAT]
self._support_flags = SUPPORT_FLAGS
self._hvac_mode = None
self._battery_level = None
self._connected = None
self._away_temperature = None
self._hg_temperature = None
self._boilerstatus = None
self._setpoint_duration = None
if self._model == NA_THERM:
self._operation_list.append(HVAC_MODE_OFF)
self._unique_id = f"{self._id}-{self._model}"
async def async_added_to_hass(self) -> None:
"""Entity created."""
await super().async_added_to_hass()
for event_type in (
EVENT_TYPE_SET_POINT,
EVENT_TYPE_THERM_MODE,
EVENT_TYPE_CANCEL_SET_POINT,
):
self._listeners.append(
async_dispatcher_connect(
self.hass,
f"signal-{DOMAIN}-webhook-{event_type}",
self.handle_event,
)
)
async def handle_event(self, event):
"""Handle webhook events."""
data = event["data"]
if not data.get("home"):
return
home = data["home"]
if self._home_id == home["id"] and data["event_type"] == EVENT_TYPE_THERM_MODE:
self._preset = NETATMO_MAP_PRESET[home[EVENT_TYPE_THERM_MODE]]
self._hvac_mode = HVAC_MAP_NETATMO[self._preset]
if self._preset == PRESET_FROST_GUARD:
self._target_temperature = self._hg_temperature
elif self._preset == PRESET_AWAY:
self._target_temperature = self._away_temperature
elif self._preset == PRESET_SCHEDULE:
self.async_update_callback()
self.async_write_ha_state()
return
if not home.get("rooms"):
return
for room in home["rooms"]:
if data["event_type"] == EVENT_TYPE_SET_POINT:
if self._id == room["id"]:
if room["therm_setpoint_mode"] == STATE_NETATMO_OFF:
self._hvac_mode = HVAC_MODE_OFF
elif room["therm_setpoint_mode"] == STATE_NETATMO_MAX:
self._hvac_mode = HVAC_MODE_HEAT
self._target_temperature = DEFAULT_MAX_TEMP
else:
self._target_temperature = room["therm_setpoint_temperature"]
self.async_write_ha_state()
break
elif data["event_type"] == EVENT_TYPE_CANCEL_SET_POINT:
if self._id == room["id"]:
self.async_update_callback()
self.async_write_ha_state()
break
@property
def supported_features(self):
"""Return the list of supported features."""
return self._support_flags
@property
def temperature_unit(self):
"""Return the unit of measurement."""
return TEMP_CELSIUS
@property
def current_temperature(self):
"""Return the current temperature."""
return self._current_temperature
@property
def target_temperature(self):
"""Return the temperature we try to reach."""
return self._target_temperature
@property
def target_temperature_step(self) -> Optional[float]:
"""Return the supported step of target temperature."""
return PRECISION_HALVES
@property
def hvac_mode(self):
"""Return hvac operation ie. heat, cool mode."""
return self._hvac_mode
@property
def hvac_modes(self):
"""Return the list of available hvac operation modes."""
return self._operation_list
@property
def hvac_action(self) -> Optional[str]:
"""Return the current running hvac operation if supported."""
if self._model == NA_THERM:
return CURRENT_HVAC_MAP_NETATMO[self._boilerstatus]
# Maybe it is a valve
if self._room_status and self._room_status.get("heating_power_request", 0) > 0:
return CURRENT_HVAC_HEAT
return CURRENT_HVAC_IDLE
def set_hvac_mode(self, hvac_mode: str) -> None:
"""Set new target hvac mode."""
if hvac_mode == HVAC_MODE_OFF:
self.turn_off()
elif hvac_mode == HVAC_MODE_AUTO:
if self.hvac_mode == HVAC_MODE_OFF:
self.turn_on()
self.set_preset_mode(PRESET_SCHEDULE)
elif hvac_mode == HVAC_MODE_HEAT:
self.set_preset_mode(PRESET_BOOST)
def set_preset_mode(self, preset_mode: str) -> None:
"""Set new preset mode."""
if self.target_temperature == 0:
self._home_status.set_room_thermpoint(
self._id,
STATE_NETATMO_HOME,
)
if preset_mode in [PRESET_BOOST, STATE_NETATMO_MAX] and self._model == NA_VALVE:
self._home_status.set_room_thermpoint(
self._id,
STATE_NETATMO_MANUAL,
DEFAULT_MAX_TEMP,
)
elif preset_mode in [PRESET_BOOST, STATE_NETATMO_MAX]:
self._home_status.set_room_thermpoint(
self._id, PRESET_MAP_NETATMO[preset_mode]
)
elif preset_mode in [PRESET_SCHEDULE, PRESET_FROST_GUARD, PRESET_AWAY]:
self._home_status.set_thermmode(PRESET_MAP_NETATMO[preset_mode])
else:
_LOGGER.error("Preset mode '%s' not available", preset_mode)
self.async_write_ha_state()
@property
def preset_mode(self) -> Optional[str]:
"""Return the current preset mode, e.g., home, away, temp."""
return self._preset
@property
def preset_modes(self) -> Optional[List[str]]:
"""Return a list of available preset modes."""
return SUPPORT_PRESET
def set_temperature(self, **kwargs):
"""Set new target temperature for 2 hours."""
temp = kwargs.get(ATTR_TEMPERATURE)
if temp is None:
return
self._home_status.set_room_thermpoint(self._id, STATE_NETATMO_MANUAL, temp)
self.async_write_ha_state()
@property
def device_state_attributes(self):
"""Return the state attributes of the thermostat."""
attr = {}
if self._battery_level is not None:
attr[ATTR_BATTERY_LEVEL] = self._battery_level
if self._model == NA_VALVE:
attr[ATTR_HEATING_POWER_REQUEST] = self._room_status.get(
"heating_power_request", 0
)
return attr
def turn_off(self):
"""Turn the entity off."""
if self._model == NA_VALVE:
self._home_status.set_room_thermpoint(
self._id,
STATE_NETATMO_MANUAL,
DEFAULT_MIN_TEMP,
)
elif self.hvac_mode != HVAC_MODE_OFF:
self._home_status.set_room_thermpoint(self._id, STATE_NETATMO_OFF)
self.async_write_ha_state()
def turn_on(self):
"""Turn the entity on."""
self._home_status.set_room_thermpoint(self._id, STATE_NETATMO_HOME)
self.async_write_ha_state()
@property
def available(self) -> bool:
"""If the device hasn't been able to connect, mark as unavailable."""
return bool(self._connected)
@callback
def async_update_callback(self):
"""Update the entity's state."""
self._home_status = self.data_handler.data[self._home_status_class]
self._room_status = self._home_status.rooms.get(self._id)
self._room_data = self._data.rooms.get(self._home_id, {}).get(self._id)
if not self._room_status or not self._room_data:
if self._connected:
_LOGGER.info(
"The thermostat in room %s seems to be out of reach",
self._device_name,
)
self._connected = False
return
roomstatus = {"roomID": self._room_status.get("id", {})}
if self._room_status.get("reachable"):
roomstatus.update(self._build_room_status())
self._away_temperature = self._data.get_away_temp(self._home_id)
self._hg_temperature = self._data.get_hg_temp(self._home_id)
self._setpoint_duration = self._data.setpoint_duration[self._home_id]
if "current_temperature" not in roomstatus:
return
if self._model is None:
self._model = roomstatus["module_type"]
self._current_temperature = roomstatus["current_temperature"]
self._target_temperature = roomstatus["target_temperature"]
self._preset = NETATMO_MAP_PRESET[roomstatus["setpoint_mode"]]
self._hvac_mode = HVAC_MAP_NETATMO[self._preset]
self._battery_level = roomstatus.get("battery_level")
self._connected = True
self._away = self._hvac_mode == HVAC_MAP_NETATMO[STATE_NETATMO_AWAY]
def _build_room_status(self):
"""Construct room status."""
try:
roomstatus = {
"roomname": self._room_data["name"],
"target_temperature": self._room_status["therm_setpoint_temperature"],
"setpoint_mode": self._room_status["therm_setpoint_mode"],
"current_temperature": self._room_status["therm_measured_temperature"],
"module_type": self._data.get_thermostat_type(
home_id=self._home_id, room_id=self._id
),
"module_id": None,
"heating_status": None,
"heating_power_request": None,
}
batterylevel = None
for module_id in self._room_data["module_ids"]:
if (
self._data.modules[self._home_id][module_id]["type"] == NA_THERM
or roomstatus["module_id"] is None
):
roomstatus["module_id"] = module_id
if roomstatus["module_type"] == NA_THERM:
self._boilerstatus = self._home_status.boiler_status(
roomstatus["module_id"]
)
roomstatus["heating_status"] = self._boilerstatus
batterylevel = self._home_status.thermostats[
roomstatus["module_id"]
].get("battery_level")
elif roomstatus["module_type"] == NA_VALVE:
roomstatus["heating_power_request"] = self._room_status[
"heating_power_request"
]
roomstatus["heating_status"] = roomstatus["heating_power_request"] > 0
if self._boilerstatus is not None:
roomstatus["heating_status"] = (
self._boilerstatus and roomstatus["heating_status"]
)
batterylevel = self._home_status.valves[roomstatus["module_id"]].get(
"battery_level"
)
if batterylevel:
batterypct = interpolate(batterylevel, roomstatus["module_type"])
if (
not roomstatus.get("battery_level")
or batterypct < roomstatus["battery_level"]
):
roomstatus["battery_level"] = batterypct
return roomstatus
except KeyError as err:
_LOGGER.error("Update of room %s failed. Error: %s", self._id, err)
return {}
def _service_set_schedule(self, **kwargs):
schedule_name = kwargs.get(ATTR_SCHEDULE_NAME)
schedule_id = None
for sid, name in self.hass.data[DOMAIN][DATA_SCHEDULES][self._home_id].items():
if name == schedule_name:
schedule_id = sid
if not schedule_id:
_LOGGER.error("You passed an invalid schedule")
return
self._data.switch_home_schedule(home_id=self._home_id, schedule_id=schedule_id)
_LOGGER.debug(
"Setting %s schedule to %s (%s)",
self._home_id,
kwargs.get(ATTR_SCHEDULE_NAME),
schedule_id,
)
def interpolate(batterylevel, module_type):
"""Interpolate battery level depending on device type."""
na_battery_levels = {
NA_THERM: {
"full": 4100,
"high": 3600,
"medium": 3300,
"low": 3000,
"empty": 2800,
},
NA_VALVE: {
"full": 3200,
"high": 2700,
"medium": 2400,
"low": 2200,
"empty": 2200,
},
}
levels = sorted(na_battery_levels[module_type].values())
steps = [20, 50, 80, 100]
na_battery_level = na_battery_levels[module_type]
if batterylevel >= na_battery_level["full"]:
return 100
if batterylevel >= na_battery_level["high"]:
i = 3
elif batterylevel >= na_battery_level["medium"]:
i = 2
elif batterylevel >= na_battery_level["low"]:
i = 1
else:
return 0
pct = steps[i - 1] + (
(steps[i] - steps[i - 1])
* (batterylevel - levels[i])
/ (levels[i + 1] - levels[i])
)
return int(pct)
def get_all_home_ids(home_data):
"""Get all the home ids returned by NetAtmo API."""
if home_data is None:
return []
return [
home_data.homes[home_id]["id"]
for home_id in home_data.homes
if (
"therm_schedules" in home_data.homes[home_id]
and "modules" in home_data.homes[home_id]
)
]