Midea/midea_ac_lan/midea/devices/cc/device.py
2023-09-22 07:45:40 +02:00

179 lines
7.3 KiB
Python

import logging
from .message import (
MessageQuery,
MessageSet,
MessageCCResponse
)
try:
from enum import StrEnum
except ImportError:
from ...backports.enum import StrEnum
from ...core.device import MiedaDevice
_LOGGER = logging.getLogger(__name__)
class DeviceAttributes(StrEnum):
power = "power"
mode = "mode"
target_temperature = "target_temperature"
fan_speed = "fan_speed"
eco_mode = "eco_mode"
sleep_mode = "sleep_mode"
night_light = "night_light"
aux_heating = "aux_heating"
swing = "swing"
ventilation = "ventilation"
temperature_precision = "temperature_precision"
fan_speed_level = "fan_speed_level"
indoor_temperature = "indoor_temperature"
aux_heat_status = "aux_heat_status"
auto_aux_heat_running = "auto_aux_heat_running"
temp_fahrenheit = "temp_fahrenheit"
class MideaCCDevice(MiedaDevice):
_fan_speeds_7level = {
0x01: "Level 1", 0x02: "Level 2", 0x04: "Level 3",
0x08: "Level 4", 0x10: "Level 5", 0x20: "Level 6",
0x40: "Level 7", 0x80: "Auto",
}
_fan_speeds_3level = {
0x01: "Low", 0x08: "Medium", 0x40: "High", 0x80: "Auto"
}
def __init__(
self,
name: str,
device_id: int,
ip_address: str,
port: int,
token: str,
key: str,
protocol: int,
model: str,
customize: str
):
super().__init__(
name=name,
device_id=device_id,
device_type=0xCC,
ip_address=ip_address,
port=port,
token=token,
key=key,
protocol=protocol,
model=model,
attributes = {
DeviceAttributes.power: False,
DeviceAttributes.mode: 1,
DeviceAttributes.target_temperature: 26.0,
DeviceAttributes.fan_speed: 0x80,
DeviceAttributes.sleep_mode: False,
DeviceAttributes.eco_mode: False,
DeviceAttributes.night_light: False,
DeviceAttributes.ventilation: False,
DeviceAttributes.aux_heating: False,
DeviceAttributes.aux_heat_status: 0,
DeviceAttributes.auto_aux_heat_running: False,
DeviceAttributes.swing: False,
DeviceAttributes.fan_speed_level: None,
DeviceAttributes.indoor_temperature: None,
DeviceAttributes.temperature_precision: 1,
DeviceAttributes.temp_fahrenheit: False
})
self._fan_speeds = None
@property
def fan_modes(self):
return None if self._fan_speeds is None else list(self._fan_speeds.values())
def build_query(self):
return [MessageQuery(self._device_protocol_version)]
def process_message(self, msg):
message = MessageCCResponse(msg)
_LOGGER.debug(f"[{self.device_id}] Received: {message}")
new_status = {}
fan_speed = None
for status in self._attributes.keys():
if hasattr(message, str(status)):
value = getattr(message, str(status))
if status == DeviceAttributes.fan_speed:
fan_speed = value
else:
self._attributes[status] = getattr(message, str(status))
new_status[str(status)] = getattr(message, str(status))
if fan_speed is not None and self._attributes[DeviceAttributes.fan_speed_level] is not None:
if self._fan_speeds is None:
if self._attributes[DeviceAttributes.fan_speed_level]:
self._fan_speeds = MideaCCDevice._fan_speeds_3level
else:
self._fan_speeds = MideaCCDevice._fan_speeds_7level
if fan_speed in self._fan_speeds.keys():
self._attributes[DeviceAttributes.fan_speed] = self._fan_speeds.get(fan_speed)
else:
self._attributes[DeviceAttributes.fan_speed] = None
new_status[DeviceAttributes.fan_speed.value] = self._attributes[DeviceAttributes.fan_speed]
aux_heating = \
self._attributes[DeviceAttributes.aux_heat_status] == 1 or \
self._attributes[DeviceAttributes.auto_aux_heat_running]
if self._attributes[DeviceAttributes.aux_heating] != aux_heating:
self._attributes[DeviceAttributes.aux_heating] = aux_heating
new_status[DeviceAttributes.aux_heating.value] = self._attributes[DeviceAttributes.aux_heating]
return new_status
def make_message_set(self):
message = MessageSet(self._device_protocol_version)
message.power = self._attributes[DeviceAttributes.power]
message.mode = self._attributes[DeviceAttributes.mode]
message.target_temperature = self._attributes[DeviceAttributes.target_temperature]
message.fan_speed = list(self._fan_speeds.keys())[
list(self._fan_speeds.values()).index(self._attributes[DeviceAttributes.fan_speed])
]
message.eco_mode = self._attributes[DeviceAttributes.eco_mode]
message.sleep_mode = self._attributes[DeviceAttributes.sleep_mode]
message.night_light = self._attributes[DeviceAttributes.night_light]
message.aux_heat_status = self._attributes[DeviceAttributes.aux_heat_status]
message.swing = self._attributes[DeviceAttributes.swing]
return message
def set_target_temperature(self, target_temperature, mode):
message = self.make_message_set()
message.target_temperature = target_temperature
if mode is not None:
message.power = True
message.mode = mode
self.build_send(message)
def set_attribute(self, attr, value):
# if nat a sensor
if attr not in [DeviceAttributes.indoor_temperature,
DeviceAttributes.temperature_precision,
DeviceAttributes.fan_speed_level,
DeviceAttributes.aux_heat_status,
DeviceAttributes.auto_aux_heat_running]:
message = self.make_message_set()
if attr == DeviceAttributes.fan_speed:
if value in self._fan_speeds.values():
message.fan_speed = list(self._fan_speeds.keys())[
list(self._fan_speeds.values()).index(value)
]
else:
setattr(message, str(attr), value)
if attr == DeviceAttributes.mode:
setattr(message, DeviceAttributes.power.value, True)
elif attr == DeviceAttributes.eco_mode and value:
setattr(message, DeviceAttributes.sleep_mode.value, False)
elif attr == DeviceAttributes.sleep_mode and value:
setattr(message, DeviceAttributes.eco_mode.value, False)
elif attr == DeviceAttributes.aux_heating:
if value:
setattr(message, DeviceAttributes.aux_heat_status, 1)
else:
setattr(message, DeviceAttributes.aux_heat_status, 2)
self.build_send(message)
class MideaAppliance(MideaCCDevice):
pass