aixan/midea-meiju-codec
1
0
Fork 0
forked from HomeAssistant/midea-meiju-codec
Code Pull Requests Activity

Compare commits

base: aixan:v0.0.4-alpha
Branches Tags
aixan:master HomeAssistant:master
aixan:v0.0.5-alpha aixan:v0.0.4-alpha aixan:v0.0.3-alpha aixan:v0.0.2-alpha aixan:v0.0.1-alpha HomeAssistant:v0.1.10 HomeAssistant:v0.1.9 HomeAssistant:v0.1.6 HomeAssistant:v0.1.3 HomeAssistant:v0.1.1 HomeAssistant:v0.1.0
..
compare: HomeAssistant:v0.1.1
Branches Tags
HomeAssistant:master aixan:master
HomeAssistant:v0.1.10 HomeAssistant:v0.1.9 HomeAssistant:v0.1.6 HomeAssistant:v0.1.3 HomeAssistant:v0.1.1 HomeAssistant:v0.1.0 aixan:v0.0.5-alpha aixan:v0.0.4-alpha aixan:v0.0.3-alpha aixan:v0.0.2-alpha aixan:v0.0.1-alpha

17 Commits
v0.0.4-alp ... v0.1.1

Author SHA1 Message Date
sususweet
273d4e41bf fix: reform water heater entity. 2025-09-30 00:23:56 +08:00
sususweet
e9a6c65787 fix: release lua cjson critical limit. 2025-09-30 00:07:03 +08:00
sususweet
beaf837e3b feat: version 0.1.1 2025-09-29 23:55:43 +08:00
sususweet
a7efce2d26 feat: add indoor status of T0xAC. 2025-09-29 23:44:07 +08:00
sususweet
9ff67da49b feat: fallback to cloud control when lua script encounter error. 2025-09-29 23:07:12 +08:00
sususweet
068d9a377d feat: fix lua query and download logic 2025-09-28 21:47:15 +08:00
sususweet
57342ad86c Merge remote-tracking branch 'origin/master' 2025-09-28 21:17:39 +08:00
sususweet
884c436c82 feat: version 0.1.0 2025-09-28 21:17:01 +08:00
sususweet
3c9f1275a0 feat: version 0.1.0 2025-09-28 21:09:18 +08:00
sususweet
4f5e434492 feat: add device support for T0xFA 2025-09-28 21:09:10 +08:00
sususweet
9d22859eec feat: add device support for T0xB2 2025-09-28 21:03:25 +08:00
sususweet
d87156d3e3 feat: add credentials change feature. Fix #6. 2025-09-28 20:51:14 +08:00
sususweet
f3246eb779 feat: add transparent protocol. 2025-09-28 20:24:15 +08:00
sususweet
3507671120 feat: modify to cloud api 2025-09-26 23:15:44 +08:00
sususweet
b6e7bcb729 fix: T0xCA translation issues. 2025-09-25 11:55:06 +08:00
sususweet
c12158cd09 fix: translation and unit issues. 2025-09-25 11:45:46 +08:00
sususweet
40ba24c32a feat: support more devices. 2025-09-25 10:50:39 +08:00
33 changed files with 5506 additions and 1029 deletions
Expand all files Collapse all files

11
README.md
View File

@@ -8,25 +8,29 @@
- 自动下载设备的协议文件
- 将设备状态更新为设备可见的属性
## 非常初期的预览
## 版本说明
- 仅供技术实现验证以及评估
- 所有设备默认可生成一个名为Status的二进制传感器其属性中列出了设备可访问的所有属性当然有些值不可设置
- Status实体前几项列出了该设备的分类信息供参考
## 目前支持的设备类型
- T0xAC 空调
- T0xB2 电蒸箱
- T0xB3 消毒碗柜
- T0xB8 智能扫地机器人
- T0xCA 对开门冰箱
- T0xCE 新风机
- T0xCF 中央空调暖家
- T0xD9 复式洗衣机
- T0xDB 滚筒洗衣机
- T0xDC 干衣机
- T0xE1 洗碗机
- T0xE2 电热水器
- T0xE3 恒温式燃气热水器
- T0xEA 电饭锅
- T0xED 软水机
- T0xFA 电风扇
- T0xFD 加湿器
欢迎合作开发添加更多设备支持。
@@ -52,3 +56,6 @@
示例配置`22012227`演示了如何将设备属性映射成以上各种HomeAssistant中的实体。
## 致谢
感谢[midea-meiju-codec](https://github.com/MattedBroadSky/midea-meiju-codec)项目提供的先验知识。

43
custom_components/midea_auto_cloud/__init__.py
View File

@@ -41,7 +41,7 @@ from .const import (
CONF_SN8,
CONF_SN,
CONF_MODEL_NUMBER,
CONF_SERVERS
CONF_SERVERS, STORAGE_PATH, CONF_MANUFACTURER_CODE
)
# 账号型:登录云端、获取设备列表,并为每台设备建立协调器(无本地控制)
from .const import CONF_PASSWORD as CONF_PASSWORD_KEY, CONF_SERVER as CONF_SERVER_KEY
@@ -131,16 +131,16 @@ async def async_setup(hass: HomeAssistant, config: ConfigType):
hass.data.setdefault(DOMAIN, {})
cjson = os.getcwd() + "/cjson.lua"
bit = os.getcwd() + "/bit.lua"
if not os.path.exists(cjson):
from .const import CJSON_LUA
cjson_lua = base64.b64decode(CJSON_LUA.encode("utf-8")).decode("utf-8")
with open(cjson, "wt") as fp:
fp.write(cjson_lua)
if not os.path.exists(bit):
from .const import BIT_LUA
bit_lua = base64.b64decode(BIT_LUA.encode("utf-8")).decode("utf-8")
with open(bit, "wt") as fp:
fp.write(bit_lua)
# if not os.path.exists(cjson):
from .const import CJSON_LUA
cjson_lua = base64.b64decode(CJSON_LUA.encode("utf-8")).decode("utf-8")
with open(cjson, "wt") as fp:
fp.write(cjson_lua)
# if not os.path.exists(bit):
from .const import BIT_LUA
bit_lua = base64.b64decode(BIT_LUA.encode("utf-8")).decode("utf-8")
with open(bit, "wt") as fp:
fp.write(bit_lua)
return True
@@ -179,11 +179,21 @@ async def async_setup_entry(hass: HomeAssistant, config_entry: ConfigEntry):
# 为每台设备构建占位设备与协调器(不连接本地)
for appliance_code, info in appliances.items():
MideaLogger.debug(f"info={info} ")
os.makedirs(hass.config.path(STORAGE_PATH), exist_ok=True)
path = hass.config.path(STORAGE_PATH)
file = await cloud.download_lua(
path=path,
device_type=info.get(CONF_TYPE),
sn=info.get(CONF_SN),
model_number=info.get(CONF_MODEL_NUMBER),
manufacturer_code=info.get(CONF_MANUFACTURER_CODE),
)
try:
device = MiedaDevice(
name=info.get(CONF_NAME) or info.get("name"),
name=info.get(CONF_NAME),
device_id=appliance_code,
device_type=info.get(CONF_TYPE) or info.get("type"),
device_type=info.get(CONF_TYPE),
ip_address=None,
port=None,
token=None,
@@ -192,8 +202,10 @@ async def async_setup_entry(hass: HomeAssistant, config_entry: ConfigEntry):
protocol=info.get(CONF_PROTOCOL) or 2,
model=info.get(CONF_MODEL),
subtype=info.get(CONF_MODEL_NUMBER),
sn=info.get(CONF_SN) or info.get("sn"),
sn8=info.get(CONF_SN8) or info.get("sn8"),
sn=info.get(CONF_SN),
sn8=info.get(CONF_SN8),
lua_file=file,
cloud=cloud,
)
# 加载并应用设备映射queries/centralized/calculate并预置 attributes 键
try:
@@ -289,6 +301,7 @@ async def async_setup_entry(hass: HomeAssistant, config_entry: ConfigEntry):
bucket["coordinator_map"][appliance_code] = coordinator
except Exception as e:
MideaLogger.error(f"Init device failed: {appliance_code}, error: {e}")
# break
hass.data[DOMAIN]["accounts"][config_entry.entry_id] = bucket
except Exception as e:

22
custom_components/midea_auto_cloud/climate.py
View File

@@ -100,7 +100,13 @@ class MideaClimateEntity(MideaEntity, ClimateEntity):
@property
def current_temperature(self):
return self.device_attributes.get(self._key_current_temperature)
temp = self.device_attributes.get(self._key_current_temperature)
if temp is not None:
try:
return float(temp)
except (ValueError, TypeError):
return None
return None
@property
def target_temperature(self):
@@ -108,10 +114,19 @@ class MideaClimateEntity(MideaEntity, ClimateEntity):
temp_int = self.device_attributes.get(self._key_target_temperature[0])
tem_dec = self.device_attributes.get(self._key_target_temperature[1])
if temp_int is not None and tem_dec is not None:
return temp_int + tem_dec
try:
return float(temp_int) + float(tem_dec)
except (ValueError, TypeError):
return None
return None
else:
return self.device_attributes.get(self._key_target_temperature)
temp = self.device_attributes.get(self._key_target_temperature)
if temp is not None:
try:
return float(temp)
except (ValueError, TypeError):
return None
return None
@property
def min_temp(self):
@@ -241,7 +256,6 @@ class MideaClimateEntity(MideaEntity, ClimateEntity):
if dict_config is None:
return None
MideaLogger.debug(f"dict_config={dict_config}, rationale={rationale}, self.device_attributes={self.device_attributes} ")
for key, config in dict_config.items():
if isinstance(config, dict):
# Check if all conditions match

63
custom_components/midea_auto_cloud/config_flow.py
View File

@@ -71,8 +71,61 @@ class OptionsFlowHandler(config_entries.OptionsFlow):
self._config_entry = config_entry
async def async_step_init(self, user_input=None, error=None):
# 账号型条目不支持配置项
return self.async_abort(reason="account_unsupport_config")
# 不再提供任何可配置项
return self.async_abort(reason="account_unsupport_config")
# 不提供 reset/configure 等选项步骤
"""初始化选项流程"""
if user_input is not None:
if user_input["option"] == "change_credentials":
return await self.async_step_change_credentials()
return self.async_show_form(
step_id="init",
data_schema=vol.Schema({
vol.Required("option", default="change_credentials"): vol.In({
"change_credentials": "修改账号密码",
})
}),
errors=error
)
async def async_step_change_credentials(self, user_input=None, error=None):
"""账号密码变更步骤"""
errors: dict[str, str] = {}
if user_input is not None:
# 验证新密码
cloud = get_midea_cloud(
session=async_create_clientsession(self.hass),
cloud_name=CONF_SERVERS[user_input[CONF_SERVER]],
account=user_input[CONF_ACCOUNT],
password=user_input[CONF_PASSWORD]
)
try:
if await cloud.login():
# 更新配置条目
self.hass.config_entries.async_update_entry(
self._config_entry,
data={
CONF_TYPE: CONF_ACCOUNT,
CONF_ACCOUNT: user_input[CONF_ACCOUNT],
CONF_PASSWORD: user_input[CONF_PASSWORD],
CONF_SERVER: user_input[CONF_SERVER]
}
)
return self.async_create_entry(title="", data={})
else:
errors["base"] = "login_failed"
except Exception as e:
_LOGGER.exception("Login error: %s", e)
errors["base"] = "login_failed"
# 获取当前配置
current_data = self._config_entry.data
return self.async_show_form(
step_id="change_credentials",
data_schema=vol.Schema({
vol.Required(CONF_ACCOUNT, default=current_data.get(CONF_ACCOUNT, "")): str,
vol.Required(CONF_PASSWORD, default=""): str,
vol.Required(CONF_SERVER, default=current_data.get(CONF_SERVER, 2)): vol.In(CONF_SERVERS)
}),
errors=errors,
)

3
custom_components/midea_auto_cloud/const.py
View File

File diff suppressed because one or more lines are too long

86
custom_components/midea_auto_cloud/core/cloud.py
View File

@@ -3,10 +3,13 @@ import time
import datetime
import json
import base64
import asyncio
import requests
from aiohttp import ClientSession
from secrets import token_hex
from .logger import MideaLogger
from .security import CloudSecurity, MeijuCloudSecurity, MSmartCloudSecurity
from .util import bytes_to_dec_string
_LOGGER = logging.getLogger(__name__)
@@ -100,6 +103,46 @@ class MideaCloud:
return None
def _api_request_sync(self, endpoint: str, data: dict, header=None) -> dict | None:
header = header or {}
if not data.get("reqId"):
data.update({
"reqId": token_hex(16)
})
if not data.get("stamp"):
data.update({
"stamp": datetime.datetime.now().strftime("%Y%m%d%H%M%S")
})
random = str(int(time.time()))
url = self._api_url + endpoint
dump_data = json.dumps(data)
sign = self._security.sign(dump_data, random)
header.update({
"content-type": "application/json; charset=utf-8",
"secretVersion": "1",
"sign": sign,
"random": random,
})
if self._access_token is not None:
header.update({
"accesstoken": self._access_token
})
response:dict = {"code": -1}
_LOGGER.debug(f"Midea cloud API header: {header}")
_LOGGER.debug(f"Midea cloud API dump_data: {dump_data}")
try:
r = requests.post(url, headers=header, data=dump_data, timeout=5)
raw = r.content
_LOGGER.debug(f"Midea cloud API url: {url}, data: {data}, response: {raw}")
response = json.loads(raw)
except Exception as e:
_LOGGER.debug(f"API request attempt failed: {e}")
if int(response["code"]) == 0 and "data" in response:
return response["data"]
return None
async def _get_login_id(self) -> str | None:
data = self._make_general_data()
data.update({
@@ -115,27 +158,27 @@ class MideaCloud:
async def login(self) -> bool:
raise NotImplementedError()
async def get_keys(self, appliance_id: int):
result = {}
for method in [1, 2]:
udp_id = self._security.get_udp_id(appliance_id, method)
data = self._make_general_data()
data.update({
"udpid": udp_id
})
response = await self._api_request(
endpoint="/v1/iot/secure/getToken",
data=data
)
if response and "tokenlist" in response:
for token in response["tokenlist"]:
if token["udpId"] == udp_id:
result[method] = {
"token": token["token"].lower(),
"key": token["key"].lower()
}
result.update(default_keys)
return result
async def send_cloud(self, appliance_id: int, data: bytearray):
appliance_code = str(appliance_id)
params = {
'applianceCode': appliance_code,
'order': self._security.aes_encrypt(bytes_to_dec_string(data)).hex(),
'timestamp': 'true',
"isFull": "false"
}
if response := await self._api_request(
endpoint='/v1/appliance/transparent/send',
data=params,
):
if response and response.get('reply'):
_LOGGER.debug("[%s] Cloud command response: %s", appliance_code, response)
reply_data = self._security.aes_decrypt(bytes.fromhex(response['reply']))
return reply_data
else:
_LOGGER.warning("[%s] Cloud command failed: %s", appliance_code, response)
return None
async def list_home(self) -> dict | None:
return {1: "My home"}
@@ -304,6 +347,7 @@ class MeijuCloud(MideaCloud):
"applianceMFCode": manufacturer_code,
'version': "0",
"iotAppId": self.APP_ID,
"modelNumber": model_number
}
fnm = None
if response := await self._api_request(

158
custom_components/midea_auto_cloud/core/device.py
View File

@@ -1,10 +1,14 @@
import threading
import socket
from enum import IntEnum
from .cloud import MideaCloud
from .security import LocalSecurity, MSGTYPE_HANDSHAKE_REQUEST, MSGTYPE_ENCRYPTED_REQUEST
from .packet_builder import PacketBuilder
from .message import MessageQuestCustom
from .logger import MideaLogger
from .lua_runtime import MideaCodec
from .util import dec_string_to_bytes
class AuthException(Exception):
@@ -39,7 +43,9 @@ class MiedaDevice(threading.Thread):
subtype: int | None,
connected: bool,
sn: str | None,
sn8: str | None):
sn8: str | None,
lua_file: str | None,
cloud: MideaCloud | None):
threading.Thread.__init__(self)
self._socket = None
self._ip_address = ip_address
@@ -71,6 +77,8 @@ class MiedaDevice(threading.Thread):
self._centralized = []
self._calculate_get = []
self._calculate_set = []
self._lua_runtime = MideaCodec(lua_file, sn=sn, subtype=subtype) if lua_file is not None else None
self._cloud = cloud
@property
def device_name(self):
@@ -126,14 +134,21 @@ class MiedaDevice(threading.Thread):
def get_attribute(self, attribute):
return self._attributes.get(attribute)
def set_attribute(self, attribute, value):
async def set_attribute(self, attribute, value):
if attribute in self._attributes.keys():
new_status = {}
for attr in self._centralized:
new_status[attr] = self._attributes.get(attr)
new_status[attribute] = value
try:
if set_cmd := self._lua_runtime.build_control(new_status):
await self._build_send(set_cmd)
except Exception as e:
cloud = self._cloud
if cloud and hasattr(cloud, "send_device_control"):
await cloud.send_device_control(self._device_id, control=new_status, status=self._attributes)
def set_attributes(self, attributes):
async def set_attributes(self, attributes):
new_status = {}
for attr in self._centralized:
new_status[attr] = self._attributes.get(attr)
@@ -142,6 +157,14 @@ class MiedaDevice(threading.Thread):
if attribute in self._attributes.keys():
has_new = True
new_status[attribute] = value
if has_new:
try:
if set_cmd := self._lua_runtime.build_control(new_status):
await self._build_send(set_cmd)
except Exception as e:
cloud = self._cloud
if cloud and hasattr(cloud, "send_device_control"):
await cloud.send_device_control(self._device_id, control=new_status, status=self._attributes)
def set_ip_address(self, ip_address):
MideaLogger.debug(f"Update IP address to {ip_address}")
@@ -188,12 +211,6 @@ class MiedaDevice(threading.Thread):
response = response[8: 72]
self._security.tcp_key(response, self._key)
def _send_message(self, data):
if self._protocol == 3:
self._send_message_v3(data, msg_type=MSGTYPE_ENCRYPTED_REQUEST)
else:
self._send_message_v2(data)
def _send_message_v2(self, data):
if self._socket is not None:
self._socket.send(data)
@@ -204,11 +221,128 @@ class MiedaDevice(threading.Thread):
data = self._security.encode_8370(data, msg_type)
self._send_message_v2(data)
def _build_send(self, cmd: str):
async def _build_send(self, cmd: str):
MideaLogger.debug(f"Sending: {cmd.lower()}")
bytes_cmd = bytes.fromhex(cmd)
msg = PacketBuilder(self._device_id, bytes_cmd).finalize()
self._send_message(msg)
await self._send_message(bytes_cmd)
async def refresh_status(self):
for query in self._queries:
if query_cmd := self._lua_runtime.build_query(query):
await self._build_send(query_cmd)
def _parse_cloud_message(self, decrypted):
# MideaLogger.debug(f"Received: {decrypted}")
if status := self._lua_runtime.decode_status(dec_string_to_bytes(decrypted).hex()):
MideaLogger.debug(f"Decoded: {status}")
new_status = {}
for single in status.keys():
value = status.get(single)
if single not in self._attributes or self._attributes[single] != value:
self._attributes[single] = value
new_status[single] = value
if len(new_status) > 0:
for c in self._calculate_get:
lvalue = c.get("lvalue")
rvalue = c.get("rvalue")
if lvalue and rvalue:
calculate = False
for s, v in new_status.items():
if rvalue.find(f"[{s}]") >= 0:
calculate = True
break
if calculate:
calculate_str1 = \
(f"{lvalue.replace('[', 'self._attributes[')} = "
f"{rvalue.replace('[', 'self._attributes[')}") \
.replace("[", "[\"").replace("]", "\"]")
calculate_str2 = \
(f"{lvalue.replace('[', 'new_status[')} = "
f"{rvalue.replace('[', 'self._attributes[')}") \
.replace("[", "[\"").replace("]", "\"]")
try:
exec(calculate_str1)
exec(calculate_str2)
except Exception:
MideaLogger.warning(
f"Calculation Error: {lvalue} = {rvalue}", self._device_id
)
self._update_all(new_status)
return ParseMessageResult.SUCCESS
def _parse_message(self, msg):
if self._protocol == 3:
messages, self._buffer = self._security.decode_8370(self._buffer + msg)
else:
messages, self._buffer = self.fetch_v2_message(self._buffer + msg)
if len(messages) == 0:
return ParseMessageResult.PADDING
for message in messages:
if message == b"ERROR":
return ParseMessageResult.ERROR
payload_len = message[4] + (message[5] << 8) - 56
payload_type = message[2] + (message[3] << 8)
if payload_type in [0x1001, 0x0001]:
# Heartbeat detected
pass
elif len(message) > 56:
cryptographic = message[40:-16]
if payload_len % 16 == 0:
decrypted = self._security.aes_decrypt(cryptographic)
MideaLogger.debug(f"Received: {decrypted.hex().lower()}")
if status := self._lua_runtime.decode_status(decrypted.hex()):
MideaLogger.debug(f"Decoded: {status}")
new_status = {}
for single in status.keys():
value = status.get(single)
if single not in self._attributes or self._attributes[single] != value:
self._attributes[single] = value
new_status[single] = value
if len(new_status) > 0:
for c in self._calculate_get:
lvalue = c.get("lvalue")
rvalue = c.get("rvalue")
if lvalue and rvalue:
calculate = False
for s, v in new_status.items():
if rvalue.find(f"[{s}]") >= 0:
calculate = True
break
if calculate:
calculate_str1 = \
(f"{lvalue.replace('[', 'self._attributes[')} = "
f"{rvalue.replace('[', 'self._attributes[')}") \
.replace("[", "[\"").replace("]", "\"]")
calculate_str2 = \
(f"{lvalue.replace('[', 'new_status[')} = "
f"{rvalue.replace('[', 'self._attributes[')}") \
.replace("[", "[\"").replace("]", "\"]")
try:
exec(calculate_str1)
exec(calculate_str2)
except Exception:
MideaLogger.warning(
f"Calculation Error: {lvalue} = {rvalue}", self._device_id
)
self._update_all(new_status)
return ParseMessageResult.SUCCESS
async def _send_message(self, data):
if reply := await self._cloud.send_cloud(self._device_id, data):
result = self._parse_cloud_message(reply)
if result == ParseMessageResult.ERROR:
MideaLogger.debug(f"Message 'ERROR' received")
elif result == ParseMessageResult.SUCCESS:
timeout_counter = 0
# if self._protocol == 3:
# self._send_message_v3(data, msg_type=MSGTYPE_ENCRYPTED_REQUEST)
# else:
# self._send_message_v2(data)
async def _send_heartbeat(self):
msg = PacketBuilder(self._device_id, bytearray([0x00])).finalize(msg_type=0)
await self._send_message(msg)
def _device_connected(self, connected=True):
self._connected = connected

91
custom_components/midea_auto_cloud/core/lua_runtime.py Normal file
View File

@@ -0,0 +1,91 @@
import lupa
import threading
import json
from .logger import MideaLogger
class LuaRuntime:
def __init__(self, file):
self._runtimes = lupa.lua51.LuaRuntime()
string = f'dofile("{file}")'
self._runtimes.execute(string)
self._lock = threading.Lock()
self._json_to_data = self._runtimes.eval("function(param) return jsonToData(param) end")
self._data_to_json = self._runtimes.eval("function(param) return dataToJson(param) end")
def json_to_data(self, json_value):
with self._lock:
result = self._json_to_data(json_value)
return result
def data_to_json(self, data_value):
with self._lock:
result = self._data_to_json(data_value)
return result
class MideaCodec(LuaRuntime):
def __init__(self, file, sn=None, subtype=None):
super().__init__(file)
self._sn = sn
self._subtype = subtype
def _build_base_dict(self):
device_info ={}
if self._sn is not None:
device_info["deviceSN"] = self._sn
if self._subtype is not None:
device_info["deviceSubType"] = self._subtype
base_dict = {
"deviceinfo": device_info
}
return base_dict
def build_query(self, append=None):
query_dict = self._build_base_dict()
query_dict["query"] = {} if append is None else append
json_str = json.dumps(query_dict)
try:
result = self.json_to_data(json_str)
return result
except lupa.LuaError as e:
MideaLogger.error(f"LuaRuntimeError in build_query {json_str}: {repr(e)}")
return None
def build_control(self, append=None):
query_dict = self._build_base_dict()
query_dict["control"] = {} if append is None else append
json_str = json.dumps(query_dict)
try:
result = self.json_to_data(json_str)
return result
except lupa.LuaError as e:
MideaLogger.error(f"LuaRuntimeError in build_control {json_str}: {repr(e)}")
return None
def build_status(self, append=None):
query_dict = self._build_base_dict()
query_dict["status"] = {} if append is None else append
json_str = json.dumps(query_dict)
try:
result = self.json_to_data(json_str)
return result
except lupa.LuaError as e:
MideaLogger.error(f"LuaRuntimeError in build_status {json_str}: {repr(e)}")
return None
def decode_status(self, data: str):
data_dict = self._build_base_dict()
data_dict["msg"] = {
"data": data
}
json_str = json.dumps(data_dict)
try:
result = self.data_to_json(json_str)
status = json.loads(result)
return status.get("status")
except lupa.LuaError as e:
MideaLogger.error(f"LuaRuntimeError in decode_status {data}: {repr(e)}")
return None

50
custom_components/midea_auto_cloud/core/util.py Normal file
View File

@@ -0,0 +1,50 @@
def bytes_to_dec_string(data: bytearray) -> bytearray:
"""
将 bytearray 转换为逗号分隔的十进制字符串格式,然后返回 bytearray
对应 Java 的 bytesToDecString 方法
"""
# 处理有符号字节(模拟 Java 的 byte 类型 -128 到 127
result = []
for b in data:
# 将无符号字节转换为有符号字节
signed_byte = b if b < 128 else b - 256
result.append(str(signed_byte))
decimal_string = ','.join(result)
return bytearray(decimal_string, 'utf-8')
def dec_string_to_bytes(dec_string: str) -> bytearray:
"""
将逗号分隔的十进制字符串转换为字节数组
对应 Java 的 decStringToBytes 方法
Args:
dec_string: 逗号分隔的十进制字符串,如 "1,2,-3,127"
Returns:
bytearray: 转换后的字节数组
"""
if dec_string is None:
return bytearray()
# 按逗号分割字符串
split_values = dec_string.split(',')
result = bytearray(len(split_values))
for i, value_str in enumerate(split_values):
try:
# 解析十进制字符串为整数,然后转换为字节
int_value = int(value_str.strip())
# 确保值在字节范围内 (-128 到 127)
if int_value < -128:
int_value = -128
elif int_value > 127:
int_value = 127
result[i] = int_value & 0xFF # 转换为无符号字节
except (ValueError, IndexError) as e:
# 如果解析失败,记录错误并跳过该值
print(f"dec_string_to_bytes() error: {e}")
result[i] = 0 # 默认值
return result

40
custom_components/midea_auto_cloud/data_coordinator.py
View File

@@ -90,16 +90,17 @@ class MideaDataUpdateCoordinator(DataUpdateCoordinator[MideaDeviceData]):
return self.data
try:
# 使用传入的 cloud 实例(若可用)
cloud = self._cloud
if cloud and hasattr(cloud, "get_device_status"):
try:
status = await cloud.get_device_status(self._device_id)
if isinstance(status, dict) and len(status) > 0:
for k, v in status.items():
self.device.attributes[k] = v
except Exception as e:
MideaLogger.debug(f"Cloud status fetch failed: {e}")
await self.device.refresh_status()
# # 使用传入的 cloud 实例(若可用)
# cloud = self._cloud
# if cloud and hasattr(cloud, "get_device_status"):
# try:
# status = await cloud.get_device_status(self._device_id)
# if isinstance(status, dict) and len(status) > 0:
# for k, v in status.items():
# self.device.attributes[k] = v
# except Exception as e:
# MideaLogger.debug(f"Cloud status fetch failed: {e}")
# 返回并推送当前状态
updated = MideaDeviceData(
@@ -120,26 +121,15 @@ class MideaDataUpdateCoordinator(DataUpdateCoordinator[MideaDeviceData]):
async def async_set_attribute(self, attribute: str, value) -> None:
"""Set a device attribute."""
# 云端控制:构造 control 与 status携带当前状态作为上下文
cloud = self._cloud
control = {attribute: value}
status = dict(self.device.attributes)
if cloud and hasattr(cloud, "send_device_control"):
ok = await cloud.send_device_control(self._device_id, control=control, status=status)
if ok:
# 本地先行更新,随后依赖轮询或设备事件校正
self.device.attributes[attribute] = value
await self.device.set_attribute(attribute, value)
self.device.attributes[attribute] = value
self.mute_state_update_for_a_while()
self.async_update_listeners()
async def async_set_attributes(self, attributes: dict) -> None:
"""Set multiple device attributes."""
cloud = self._cloud
control = dict(attributes)
status = dict(self.device.attributes)
if cloud and hasattr(cloud, "send_device_control"):
ok = await cloud.send_device_control(self._device_id, control=control, status=status)
if ok:
self.device.attributes.update(attributes)
await self.device.set_attributes(attributes)
self.device.attributes.update(attributes)
self.mute_state_update_for_a_while()
self.async_update_listeners()

30
custom_components/midea_auto_cloud/device_mapping/T0xAC.py
View File

@@ -6,10 +6,10 @@ from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": ["off", "on"],
"queries": [{}, {"query_type": "prevent_straight_wind"}],
"queries": [{}, {"query_type":"run_status"}],
"centralized": [
"power", "temperature", "small_temperature", "mode", "eco",
"comfort_power_save", "comfort_sleep", "strong_wind",
"comfort_power_save", "strong_wind",
"wind_swing_lr", "wind_swing_lr", "wind_speed","ptc", "dry"
],
"entities": {
@@ -28,12 +28,12 @@ DEVICE_MAPPING = {
"none": {
"eco": "off",
"comfort_power_save": "off",
"comfort_sleep": "off",
# "comfort_sleep": "off",
"strong_wind": "off"
},
"eco": {"eco": "on"},
"comfort": {"comfort_power_save": "on"},
"sleep": {"comfort_sleep": "on"},
# "sleep": {"comfort_sleep": "on"},
"boost": {"strong_wind": "on"}
},
"swing_modes": {
@@ -77,19 +77,19 @@ DEVICE_MAPPING = {
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"outdoor_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"indoor_humidity": {
"device_class": SensorDeviceClass.HUMIDITY,
"unit_of_measurement": "%",
"state_class": SensorStateClass.MEASUREMENT
},
}
}
}
},
"22012227": {
"rationale": ["off", "on"],
"queries": [{}, {"query_type": "prevent_straight_wind"}],
"queries": [{}],
"centralized": ["power", "temperature", "small_temperature", "mode", "eco", "comfort_power_save",
"comfort_sleep", "strong_wind", "wind_swing_lr", "wind_swing_ud", "wind_speed",
"strong_wind", "wind_swing_lr", "wind_swing_ud", "wind_speed",
"ptc", "dry"],
"entities": {
@@ -108,12 +108,12 @@ DEVICE_MAPPING = {
"none": {
"eco": "off",
"comfort_power_save": "off",
"comfort_sleep": "off",
# "comfort_sleep": "off",
"strong_wind": "off"
},
"eco": {"eco": "on"},
"comfort": {"comfort_power_save": "on"},
"sleep": {"comfort_sleep": "on"},
# "sleep": {"comfort_sleep": "on"},
"boost": {"strong_wind": "on"}
},
"swing_modes": {
@@ -155,8 +155,12 @@ DEVICE_MAPPING = {
}
},
Platform.SENSOR: {
"indoor_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"outdoor_temperature": {
"name": "室外机温度",
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT

183
custom_components/midea_auto_cloud/device_mapping/T0xB2.py Normal file
View File

@@ -0,0 +1,183 @@
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": ["off", "on"],
"queries": [{}],
"centralized": [
"work_status", "work_mode", "lock", "furnace_light",
"dissipate_heat", "pre_heat", "door_open", "lack_water"
],
"entities": {
Platform.BINARY_SENSOR: {
"lock": {
"device_class": BinarySensorDeviceClass.LOCK,
},
"furnace_light": {
"device_class": BinarySensorDeviceClass.LIGHT,
},
"dissipate_heat": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"pre_heat": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"door_open": {
"device_class": BinarySensorDeviceClass.DOOR,
},
"lack_water": {
"device_class": BinarySensorDeviceClass.PROBLEM,
},
"high_temperature_work": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"lack_box": {
"device_class": BinarySensorDeviceClass.PROBLEM,
},
"clean_sink_ponding": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"clean_scale": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"flip_side": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"reaction": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"ramadan": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"change_water": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"execute": {
"device_class": BinarySensorDeviceClass.RUNNING,
}
},
Platform.SELECT: {
"work_status": {
"options": {
"standby": {"work_status": "standby"},
"working": {"work_status": "working"},
"pause": {"work_status": "pause"},
"finish": {"work_status": "finish"},
"error": {"work_status": "error"}
}
},
"work_mode": {
"options": {
"off": {"work_mode": "0"},
"steam": {"work_mode": "1"},
"cook": {"work_mode": "2"},
"fry": {"work_mode": "3"},
"bake": {"work_mode": "4"},
"roast": {"work_mode": "5"},
"stew": {"work_mode": "6"},
"soup": {"work_mode": "7"},
"rice": {"work_mode": "8"},
"porridge": {"work_mode": "9"},
"yogurt": {"work_mode": "10"},
"ferment": {"work_mode": "11"},
"defrost": {"work_mode": "12"},
"keep_warm": {"work_mode": "13"},
"clean": {"work_mode": "14"},
"custom": {"work_mode": "ff"}
}
}
},
Platform.SENSOR: {
"work_hour": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.HOURS,
"state_class": SensorStateClass.MEASUREMENT
},
"work_minute": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
"state_class": SensorStateClass.MEASUREMENT
},
"work_second": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.SECONDS,
"state_class": SensorStateClass.MEASUREMENT
},
"cur_temperature_above": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"cur_temperature_underside": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"weight": {
"device_class": SensorDeviceClass.WEIGHT,
"unit_of_measurement": "g",
"state_class": SensorStateClass.MEASUREMENT
},
"people_number": {
"device_class": SensorDeviceClass.DATA_RATE,
"state_class": SensorStateClass.MEASUREMENT
},
"steam_quantity": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"totalstep": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"stepnum": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"hour_set": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.HOURS,
"state_class": SensorStateClass.MEASUREMENT
},
"minute_set": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
"state_class": SensorStateClass.MEASUREMENT
},
"second_set": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.SECONDS,
"state_class": SensorStateClass.MEASUREMENT
},
"ota": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"error_code": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"version": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"cbs_version": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"cloudmenuid": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
}
}
}
}
}

4
custom_components/midea_auto_cloud/device_mapping/T0xB3.py
View File

@@ -188,10 +188,6 @@ DEVICE_MAPPING = {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.SECONDS,
"state_class": SensorStateClass.MEASUREMENT
},
"version": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
}
}
}

18
custom_components/midea_auto_cloud/device_mapping/T0xB8.py
View File

@@ -105,8 +105,7 @@ DEVICE_MAPPING = {
},
Platform.SENSOR: {
"dust_count": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"area": {
"device_class": SensorDeviceClass.AREA,
@@ -119,12 +118,10 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"switch_status": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"water_station_status": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"work_time": {
"device_class": SensorDeviceClass.DURATION,
@@ -137,8 +134,7 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"planner_status": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"sweep_then_mop_mode_progress": {
"device_class": SensorDeviceClass.BATTERY,
@@ -146,12 +142,10 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"error_desc": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"station_error_desc": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
}
}
}

309
custom_components/midea_auto_cloud/device_mapping/T0xCA.py Normal file
View File

@@ -0,0 +1,309 @@
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime, PERCENTAGE, PRECISION_HALVES
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": ["off", "on"],
"queries": [{}],
"centralized": [
"freezing_mode", "intelligent_mode", "energy_saving_mode", "holiday_mode",
"moisturize_mode", "preservation_mode", "acme_freezing_mode", "variable_mode",
"storage_power", "left_flexzone_power", "right_flexzone_power", "freezing_power",
"function_zone_power", "storage_temperature", "freezing_temperature",
"left_flexzone_temperature", "right_flexzone_temperature"
],
"entities": {
Platform.SWITCH: {
"freezing_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
"intelligent_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
"energy_saving_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
"holiday_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
"moisturize_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
"preservation_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
"acme_freezing_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
"storage_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"left_flexzone_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"right_flexzone_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"freezing_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"function_zone_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"cross_peak_electricity": {
"device_class": SwitchDeviceClass.SWITCH,
},
"all_refrigeration_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"remove_dew_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"humidify_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"unfreeze_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"floodlight_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"radar_mode_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"milk_mode_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"icea_mode_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"plasma_aseptic_mode_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"acquire_icea_mode_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"brash_icea_mode_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"acquire_water_mode_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"freezing_ice_machine_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"microcrystal_fresh": {
"device_class": SwitchDeviceClass.SWITCH,
},
"dry_zone": {
"device_class": SwitchDeviceClass.SWITCH,
},
"electronic_smell": {
"device_class": SwitchDeviceClass.SWITCH,
},
"eradicate_pesticide_residue": {
"device_class": SwitchDeviceClass.SWITCH,
},
"performance_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
"ice_mouth_power": {
"device_class": SwitchDeviceClass.SWITCH,
}
},
Platform.BINARY_SENSOR: {
"storage_door_state": {
"device_class": BinarySensorDeviceClass.DOOR,
},
"freezer_door_state": {
"device_class": BinarySensorDeviceClass.DOOR,
},
"flexzone_door_state": {
"device_class": BinarySensorDeviceClass.DOOR,
},
"storage_ice_home_door_state": {
"device_class": BinarySensorDeviceClass.DOOR,
},
"bar_door_state": {
"device_class": BinarySensorDeviceClass.DOOR,
},
"is_error": {
"device_class": BinarySensorDeviceClass.PROBLEM,
}
},
Platform.CLIMATE: {
"storage_zone": {
"power": "storage_power",
"hvac_modes": {
"off": {"storage_power": "off"},
"heat": {"storage_power": "on"}
},
"target_temperature": "storage_temperature",
"current_temperature": "refrigeration_real_temperature",
"min_temp": -10,
"max_temp": 10,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
},
"freezing_zone": {
"power": "freezing_power",
"hvac_modes": {
"off": {"freezing_power": "off"},
"heat": {"freezing_power": "on"}
},
"target_temperature": "freezing_temperature",
"current_temperature": "freezing_real_temperature",
"min_temp": -30,
"max_temp": -10,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
},
"left_flexzone": {
"power": "left_flexzone_power",
"hvac_modes": {
"off": {"left_flexzone_power": "off"},
"heat": {"left_flexzone_power": "on"}
},
"target_temperature": "left_flexzone_temperature",
"current_temperature": "left_variable_real_temperature",
"min_temp": -30,
"max_temp": 10,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
},
"right_flexzone": {
"power": "right_flexzone_power",
"hvac_modes": {
"off": {"right_flexzone_power": "off"},
"heat": {"right_flexzone_power": "on"}
},
"target_temperature": "right_flexzone_temperature",
"current_temperature": "right_variable_real_temperature",
"min_temp": -30,
"max_temp": 10,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
}
},
Platform.SELECT: {
"variable_mode": {
"options": {
"none_mode": {"variable_mode": "none_mode"},
"freezing": {"variable_mode": "freezing"},
"refrigeration": {"variable_mode": "refrigeration"},
"wine": {"variable_mode": "wine"},
"vegetable": {"variable_mode": "vegetable"}
}
},
"icea_bar_function_switch": {
"options": {
"default": {"icea_bar_function_switch": "default"},
"ice": {"icea_bar_function_switch": "ice"},
"water": {"icea_bar_function_switch": "water"},
"off": {"icea_bar_function_switch": "off"}
}
},
"food_site": {
"options": {
"left_freezing_room": {"food_site": "left_freezing_room"},
"right_freezing_room": {"food_site": "right_freezing_room"},
"storage_room": {"food_site": "storage_room"},
"function_zone": {"food_site": "function_zone"}
}
},
"temperature_unit": {
"options": {
"celsius": {"temperature_unit": "celsius"},
"fahrenheit": {"temperature_unit": "fahrenheit"}
}
}
},
Platform.SENSOR: {
"storage_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"freezing_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"left_flexzone_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"right_flexzone_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"refrigeration_real_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"freezing_real_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"left_variable_real_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"right_variable_real_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"interval_room_humidity_level": {
"device_class": SensorDeviceClass.HUMIDITY,
"unit_of_measurement": PERCENTAGE,
"state_class": SensorStateClass.MEASUREMENT
},
"normal_zone_level": {
"device_class": SensorDeviceClass.ENUM
},
"function_zone_level": {
"device_class": SensorDeviceClass.ENUM
},
"freeze_fahrenheit_level": {
"device_class": SensorDeviceClass.ENUM
},
"refrigeration_fahrenheit_level": {
"device_class": SensorDeviceClass.ENUM
},
"leach_expire_day": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.DAYS,
"state_class": SensorStateClass.MEASUREMENT
},
"power_consumption_low": {
"device_class": SensorDeviceClass.POWER,
"unit_of_measurement": "W",
"state_class": SensorStateClass.MEASUREMENT
},
"power_consumption_high": {
"device_class": SensorDeviceClass.POWER,
"unit_of_measurement": "W",
"state_class": SensorStateClass.MEASUREMENT
},
"fast_cold_minute": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
"state_class": SensorStateClass.MEASUREMENT
},
"fast_freeze_minute": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
"state_class": SensorStateClass.MEASUREMENT
}
}
}
}
}

6
custom_components/midea_auto_cloud/device_mapping/T0xCE.py
View File

@@ -135,8 +135,7 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"error_code": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"humidity_set": {
"device_class": SensorDeviceClass.HUMIDITY,
@@ -178,8 +177,7 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"machine_type": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
}
}
}

3
custom_components/midea_auto_cloud/device_mapping/T0xCF.py
View File

@@ -109,8 +109,7 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"error_code": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"heat_max_set_temp": {
"device_class": SensorDeviceClass.TEMPERATURE,

16
custom_components/midea_auto_cloud/device_mapping/T0xD9.py
View File

@@ -6,6 +6,7 @@ from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": [0, 1],
"queries": [{}],
"calculate": {
"get": [
{
@@ -136,8 +137,7 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"db_error_code": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"db_set_dewater_time": {
"device_class": SensorDeviceClass.DURATION,
@@ -150,12 +150,10 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"db_device_software_version": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"db_rinse_count": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"db_wash_time": {
"device_class": SensorDeviceClass.DURATION,
@@ -168,8 +166,7 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"db_appointment": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"db_dehydration_time": {
"device_class": SensorDeviceClass.DURATION,
@@ -177,8 +174,7 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"db_cycle_memory": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
}
}
}

55
custom_components/midea_auto_cloud/device_mapping/T0xDB.py
View File

@@ -6,6 +6,7 @@ from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": [0, 1],
"queries": [{}],
"calculate": {
"get": [
{
@@ -272,12 +273,10 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"dryer": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"remote_control_flag": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"progress": {
"device_class": SensorDeviceClass.BATTERY,
@@ -285,28 +284,22 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"cloud_cycle_low": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"cloud_cycle_high": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"cloud_cycle_jiepai1": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"cloud_cycle_jiepai2": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"cloud_cycle_jiepai3": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"cloud_cycle_jiepai4": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"cloud_cycle_jiepai_time1": {
"device_class": SensorDeviceClass.DURATION,
@@ -329,24 +322,19 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"customize_machine_cycle": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"detergent_global": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"softener_global": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"detergent_density_global": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"softener_density_global": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"fresh_air_time": {
"device_class": SensorDeviceClass.DURATION,
@@ -359,24 +347,19 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"device_software_version": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"expert_step": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"error_code": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"flocks_wash_count": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"active_oxygen": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"dehydration_time": {
"device_class": SensorDeviceClass.DURATION,

10
custom_components/midea_auto_cloud/device_mapping/T0xDC.py
View File

@@ -131,16 +131,10 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"progress": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"version": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"error_code": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"dry_time": {
"device_class": SensorDeviceClass.DURATION,

301
custom_components/midea_auto_cloud/device_mapping/T0xE2.py Normal file
View File

@@ -0,0 +1,301 @@
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime, PERCENTAGE, PRECISION_HALVES
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
"default": {
"manufacturer": "美的",
"rationale": ["off", "on"],
"queries": [{}],
"centralized": [
"power", "temperature", "mode", "heat", "music", "ti_protect", "fast_wash",
"ali_manager", "water_quality", "rate", "ele_exception", "communication_error",
"cur_rate", "sterilize_left_days", "uv_sterilize_minute", "uv_sterilize_second",
"eplus", "summer", "winter", "efficient", "night", "bath_person", "cloud",
"bath", "half_heat", "whole_heat", "sterilization", "frequency_hot", "scene",
"big_water", "wash", "negative_ions", "screen_off", "t_hot", "baby_wash",
"dad_wash", "mom_wash", "wash_with_temp", "single_wash", "people_wash",
"wash_temperature", "one_egg", "two_egg", "always_fell", "smart_sterilize",
"sterilize_cycle_index", "sound_dad", "screen_light", "morning_night_bash",
"version", "tds_value", "door_status", "limit_error", "sensor_error",
"scene_id", "auto_off", "clean", "volume", "passwater_lowbyte", "cloud_appoint",
"protect", "midea_manager", "sleep", "memory", "shower", "scroll_hot",
"fast_hot_power", "hot_power", "safe", "water_flow", "heat_water_level",
"flow", "appoint_wash", "now_wash", "end_time_hour", "end_time_minute",
"get_time", "get_temp", "func_select", "warm_power", "type_select",
"cur_temperature", "sterilize_high_temp", "discharge_status", "top_temp",
"bottom_heat", "top_heat", "show_h", "uv_sterilize", "machine", "error_code",
"need_discharge", "elec_warning", "bottom_temp", "water_cyclic", "water_system",
"discharge_left_time", "in_temperature", "mg_remain", "waterday_lowbyte",
"waterday_highbyte", "tech_water", "protect_show", "appoint_power"
],
"entities": {
Platform.WATER_HEATER: {
"water_heater": {
"power": "power",
"operation_list": {
"off": {"power": "off"},
"heat": {"power": "on", "mode": "heat"},
"auto": {"power": "on", "mode": "auto"},
"eco": {"power": "on", "mode": "eco"},
"fast": {"power": "on", "mode": "fast"}
},
"target_temperature": "temperature",
"current_temperature": "cur_temperature",
"min_temp": 30,
"max_temp": 75,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
}
},
Platform.SWITCH: {
"ti_protect": {
"device_class": SwitchDeviceClass.SWITCH,
},
"heat": {
"device_class": SwitchDeviceClass.SWITCH,
},
"efficient": {
"device_class": SwitchDeviceClass.SWITCH,
},
"bath": {
"device_class": SwitchDeviceClass.SWITCH,
},
"half_heat": {
"device_class": SwitchDeviceClass.SWITCH,
},
"whole_heat": {
"device_class": SwitchDeviceClass.SWITCH,
},
"auto_off": {
"device_class": SwitchDeviceClass.SWITCH,
},
"protect": {
"device_class": SwitchDeviceClass.SWITCH,
},
"sleep": {
"device_class": SwitchDeviceClass.SWITCH,
},
"memory": {
"device_class": SwitchDeviceClass.SWITCH,
},
"shower": {
"device_class": SwitchDeviceClass.SWITCH,
},
"fast_hot_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"hot_power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"safe": {
"device_class": SwitchDeviceClass.SWITCH,
},
"water_flow": {
"device_class": SwitchDeviceClass.SWITCH,
},
"bottom_heat": {
"device_class": SwitchDeviceClass.SWITCH,
},
"top_heat": {
"device_class": SwitchDeviceClass.SWITCH,
},
},
Platform.SELECT: {
"mode": {
"options": {
"none": {"mode": "none"},
"heat": {"mode": "heat"},
"auto": {"mode": "auto"},
"eco": {"mode": "eco"},
"fast": {"mode": "fast"}
}
},
"water_quality": {
"options": {
"0": {"water_quality": 0},
"1": {"water_quality": 1},
"2": {"water_quality": 2},
"3": {"water_quality": 3}
}
},
"func_select": {
"options": {
"low": {"func_select": "low"},
"medium": {"func_select": "medium"},
"high": {"func_select": "high"}
}
},
"type_select": {
"options": {
"normal": {"type_select": "normal"},
"eco": {"type_select": "eco"},
"fast": {"type_select": "fast"}
}
},
"machine": {
"options": {
"real_machine": {"machine": "real_machine"},
"virtual_machine": {"machine": "virtual_machine"}
}
}
},
Platform.SENSOR: {
"temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"cur_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"top_temp": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"bottom_temp": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"in_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"passwater_lowbyte": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L",
"state_class": SensorStateClass.MEASUREMENT
},
"passwater_highbyte": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L",
"state_class": SensorStateClass.MEASUREMENT
},
"rate": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L/min",
"state_class": SensorStateClass.MEASUREMENT
},
"cur_rate": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L/min",
"state_class": SensorStateClass.MEASUREMENT
},
"sterilize_left_days": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.DAYS,
"state_class": SensorStateClass.MEASUREMENT
},
"uv_sterilize_minute": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
"state_class": SensorStateClass.MEASUREMENT
},
"uv_sterilize_second": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.SECONDS,
"state_class": SensorStateClass.MEASUREMENT
},
"screen_light": {
"device_class": SensorDeviceClass.ILLUMINANCE,
"unit_of_measurement": "lx",
"state_class": SensorStateClass.MEASUREMENT
},
"morning_night_bash": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
"state_class": SensorStateClass.MEASUREMENT
},
"tds_value": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "ppm",
"state_class": SensorStateClass.MEASUREMENT
},
"heat_water_level": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "%",
"state_class": SensorStateClass.MEASUREMENT
},
"flow": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L/min",
"state_class": SensorStateClass.MEASUREMENT
},
"end_time_hour": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.HOURS,
"state_class": SensorStateClass.MEASUREMENT
},
"end_time_minute": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
"state_class": SensorStateClass.MEASUREMENT
},
"wash_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"sterilize_cycle_index": {
"device_class": SensorDeviceClass.ENUM
},
"discharge_status": {
"device_class": SensorDeviceClass.ENUM
},
"error_code": {
"device_class": SensorDeviceClass.ENUM
},
"water_system": {
"device_class": SensorDeviceClass.ENUM
},
"discharge_left_time": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
"state_class": SensorStateClass.MEASUREMENT
},
"mg_remain": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "mg",
"state_class": SensorStateClass.MEASUREMENT
},
"waterday_lowbyte": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L",
"state_class": SensorStateClass.MEASUREMENT
},
"waterday_highbyte": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L",
"state_class": SensorStateClass.MEASUREMENT
}
},
Platform.BINARY_SENSOR: {
"door_status": {
"device_class": BinarySensorDeviceClass.DOOR,
},
"limit_error": {
"device_class": BinarySensorDeviceClass.PROBLEM,
},
"sensor_error": {
"device_class": BinarySensorDeviceClass.PROBLEM,
},
"communication_error": {
"device_class": BinarySensorDeviceClass.PROBLEM,
},
"ele_exception": {
"device_class": BinarySensorDeviceClass.PROBLEM,
},
"elec_warning": {
"device_class": BinarySensorDeviceClass.PROBLEM,
}
}
}
}
}

182
custom_components/midea_auto_cloud/device_mapping/T0xE3.py Normal file
View File

@@ -0,0 +1,182 @@
from homeassistant.const import Platform, UnitOfTemperature, UnitOfVolume, UnitOfTime, PERCENTAGE, PRECISION_HALVES
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": ["off", "on"],
"queries": [{}],
"centralized": [
"power", "bubble", "cold_water", "bathtub", "safe", "cold_water_dot",
"change_litre_switch", "cold_water_ai", "cold_water_pressure",
"person_mode_one", "person_mode_two", "person_mode_three", "gesture_function",
"mode", "power_level", "type_machine", "capacity", "temperature"
],
"entities": {
Platform.SWITCH: {
"bubble": {
"device_class": SwitchDeviceClass.SWITCH,
},
"cold_water": {
"device_class": SwitchDeviceClass.SWITCH,
},
"bathtub": {
"device_class": SwitchDeviceClass.SWITCH,
},
"safe": {
"device_class": SwitchDeviceClass.SWITCH,
},
"cold_water_dot": {
"device_class": SwitchDeviceClass.SWITCH,
},
"change_litre_switch": {
"device_class": SwitchDeviceClass.SWITCH,
},
"cold_water_ai": {
"device_class": SwitchDeviceClass.SWITCH,
},
"cold_water_pressure": {
"device_class": SwitchDeviceClass.SWITCH,
},
"person_mode_one": {
"device_class": SwitchDeviceClass.SWITCH,
},
"person_mode_two": {
"device_class": SwitchDeviceClass.SWITCH,
},
"person_mode_three": {
"device_class": SwitchDeviceClass.SWITCH,
},
"gesture_function": {
"device_class": SwitchDeviceClass.SWITCH,
}
},
Platform.CLIMATE: {
"water_heater": {
"power": "power",
"hvac_modes": {
"off": {"power": "off"},
"heat": {"power": "on", "mode": "shower"}
},
"target_temperature": "temperature",
"current_temperature": "out_water_tem",
"min_temp": 20,
"max_temp": 60,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
}
},
Platform.SELECT: {
"mode": {
"options": {
"shower": {"mode": "shower"},
"bath": {"mode": "bath"},
"mixed": {"mode": "mixed"},
"eco": {"mode": "eco"}
}
},
"power_level": {
"options": {
"low": {"power_level": "0"},
"medium": {"power_level": "1"},
"high": {"power_level": "2"},
"max": {"power_level": "3"}
}
},
"type_machine": {
"options": {
"standard": {"type_machine": "20"},
"premium": {"type_machine": "21"},
"deluxe": {"type_machine": "22"}
}
},
"capacity": {
"options": {
"small": {"capacity": "1"},
"medium": {"capacity": "2"},
"large": {"capacity": "3"}
}
},
"gesture_function_type": {
"options": {
"none": {"gesture_function_type": "0"},
"wave": {"gesture_function_type": "1"},
"touch": {"gesture_function_type": "2"},
"proximity": {"gesture_function_type": "3"}
}
}
},
Platform.SENSOR: {
"out_water_tem": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"water_volume": {
"device_class": SensorDeviceClass.VOLUME,
"unit_of_measurement": UnitOfVolume.LITERS,
"state_class": SensorStateClass.TOTAL_INCREASING
},
"zero_cold_tem": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"bath_out_volume": {
"device_class": SensorDeviceClass.VOLUME,
"unit_of_measurement": UnitOfVolume.LITERS,
"state_class": SensorStateClass.TOTAL_INCREASING
},
"return_water_tem": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"change_litre": {
"device_class": SensorDeviceClass.VOLUME,
"unit_of_measurement": UnitOfVolume.LITERS,
"state_class": SensorStateClass.TOTAL_INCREASING
},
"bathtub_water_level": {
"device_class": SensorDeviceClass.VOLUME,
"unit_of_measurement": UnitOfVolume.LITERS,
"state_class": SensorStateClass.TOTAL_INCREASING
},
"temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"gas_lift_percent": {
"device_class": SensorDeviceClass.POWER_FACTOR,
"unit_of_measurement": PERCENTAGE,
"state_class": SensorStateClass.MEASUREMENT
},
"person_tem_one": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"person_tem_two": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"person_tem_three": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"in_water_tem": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"error_code": {
"device_class": SensorDeviceClass.ENUM
}
}
}
}
}

2
custom_components/midea_auto_cloud/device_mapping/T0xEA.py
View File

@@ -5,6 +5,7 @@ from homeassistant.components.binary_sensor import BinarySensorDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": [0, 1],
"queries": [{}],
"calculate": {
"get": [
{
@@ -96,6 +97,7 @@ DEVICE_MAPPING = {
},
"61001527": {
"rationale": [0, 1],
"queries": [{}],
"calculate": {
"get": [
{

47
custom_components/midea_auto_cloud/device_mapping/T0xED.py
View File

@@ -76,15 +76,16 @@ DEVICE_MAPPING = {
Platform.SENSOR: {
"micro_leak_protection_value": {
"device_class": SensorDeviceClass.PRESSURE,
"unit_of_measurement": "kPa",
"state_class": SensorStateClass.MEASUREMENT
},
"regeneration_current_stages": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"water_hardness": {
"device_class": SensorDeviceClass.WATER,
"state_class": SensorStateClass.MEASUREMENT
"unit_of_measurement": UnitOfVolume.LITERS,
"state_class": SensorStateClass.TOTAL_INCREASING
},
"timing_regeneration_hour": {
"device_class": SensorDeviceClass.DURATION,
@@ -107,12 +108,10 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"maintenance_reminder_setting": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"mixed_water_gear": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"use_days": {
"device_class": SensorDeviceClass.DURATION,
@@ -126,6 +125,7 @@ DEVICE_MAPPING = {
},
"velocity": {
"device_class": SensorDeviceClass.SPEED,
"unit_of_measurement": "m/s",
"state_class": SensorStateClass.MEASUREMENT
},
"supply_voltage": {
@@ -149,12 +149,10 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"salt_setting": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"regeneration_count": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"battery_voltage": {
"device_class": SensorDeviceClass.VOLTAGE,
@@ -162,8 +160,7 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"error": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"days_since_last_two_regeneration": {
"device_class": SensorDeviceClass.DURATION,
@@ -176,20 +173,16 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"real_date_setting_year": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"real_date_setting_month": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"real_date_setting_day": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"category": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"real_time_setting_min": {
"device_class": SensorDeviceClass.DURATION,
@@ -197,28 +190,27 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"regeneration_stages": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"soft_available_big": {
"device_class": SensorDeviceClass.VOLUME,
"unit_of_measurement": UnitOfVolume.LITERS,
"state_class": SensorStateClass.MEASUREMENT
"state_class": SensorStateClass.TOTAL_INCREASING
},
"water_consumption_big": {
"device_class": SensorDeviceClass.VOLUME,
"unit_of_measurement": UnitOfVolume.LITERS,
"state_class": SensorStateClass.MEASUREMENT
"state_class": SensorStateClass.TOTAL_INCREASING
},
"water_consumption_today": {
"device_class": SensorDeviceClass.VOLUME,
"unit_of_measurement": UnitOfVolume.LITERS,
"state_class": SensorStateClass.MEASUREMENT
"state_class": SensorStateClass.TOTAL_INCREASING
},
"water_consumption_average": {
"device_class": SensorDeviceClass.VOLUME,
"unit_of_measurement": UnitOfVolume.LITERS,
"state_class": SensorStateClass.MEASUREMENT
"state_class": SensorStateClass.TOTAL_INCREASING
},
"salt_alarm_threshold": {
"device_class": SensorDeviceClass.WEIGHT,
@@ -227,6 +219,7 @@ DEVICE_MAPPING = {
},
"leak_water_protection_value": {
"device_class": SensorDeviceClass.PRESSURE,
"unit_of_measurement": "kPa",
"state_class": SensorStateClass.MEASUREMENT
}
}

201
custom_components/midea_auto_cloud/device_mapping/T0xFA.py Normal file
View File

@@ -0,0 +1,201 @@
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime, PERCENTAGE
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": ["off", "on"],
"queries": [{}],
"centralized": [
"power", "humidify", "swing", "anion", "display_on_off",
"dust_reset", "temp_wind_switch", "filter_reset"
],
"entities": {
Platform.BINARY_SENSOR: {
"power": {
"device_class": BinarySensorDeviceClass.POWER,
},
"humidify": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"swing": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"anion": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"display_on_off": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"dust_reset": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"temp_wind_switch": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"filter_reset": {
"device_class": BinarySensorDeviceClass.RUNNING,
}
},
Platform.SELECT: {
"voice": {
"options": {
"open_buzzer": {"voice": "open_buzzer"},
"close_buzzer": {"voice": "close_buzzer"},
"mute": {"voice": "mute"}
}
},
"swing_angle": {
"options": {
"unknown": {"swing_angle": "unknown"},
"30": {"swing_angle": "30"},
"60": {"swing_angle": "60"},
"90": {"swing_angle": "90"},
"120": {"swing_angle": "120"},
"150": {"swing_angle": "150"},
"180": {"swing_angle": "180"}
}
},
"swing_direction": {
"options": {
"unknown": {"swing_direction": "unknown"},
"horizontal": {"swing_direction": "horizontal"},
"vertical": {"swing_direction": "vertical"},
"both": {"swing_direction": "both"}
}
},
"scene": {
"options": {
"none": {"scene": "none"},
"auto": {"scene": "auto"},
"sleep": {"scene": "sleep"},
"work": {"scene": "work"},
"study": {"scene": "study"},
"party": {"scene": "party"}
}
},
"sleep_sensor": {
"options": {
"none": {"sleep_sensor": "none"},
"light": {"sleep_sensor": "light"},
"sound": {"sleep_sensor": "sound"},
"both": {"sleep_sensor": "both"}
}
},
"mode": {
"options": {
"normal": {"mode": "normal"},
"auto": {"mode": "auto"},
"manual": {"mode": "manual"},
"sleep": {"mode": "sleep"},
"turbo": {"mode": "turbo"},
"quiet": {"mode": "quiet"}
}
},
"gear": {
"options": {
"1": {"gear": "1"},
"2": {"gear": "2"},
"3": {"gear": "3"},
"4": {"gear": "4"},
"5": {"gear": "5"},
"6": {"gear": "6"},
"auto": {"gear": "auto"}
}
}
},
Platform.SENSOR: {
"real_gear": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"dust_life_time": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.HOURS,
"state_class": SensorStateClass.MEASUREMENT
},
"filter_life_time": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.HOURS,
"state_class": SensorStateClass.MEASUREMENT
},
"battery_status": {
"device_class": SensorDeviceClass.BATTERY,
"state_class": SensorStateClass.MEASUREMENT
},
"battery_level": {
"device_class": SensorDeviceClass.BATTERY,
"unit_of_measurement": PERCENTAGE,
"state_class": SensorStateClass.MEASUREMENT
},
"error_code": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"temperature_feedback": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"water_feedback": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"timer_off_hour": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.HOURS,
"state_class": SensorStateClass.MEASUREMENT
},
"timer_off_minute": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
"state_class": SensorStateClass.MEASUREMENT
},
"timer_on_hour": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.HOURS,
"state_class": SensorStateClass.MEASUREMENT
},
"timer_on_minute": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
"state_class": SensorStateClass.MEASUREMENT
},
"version": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"pm25": {
"device_class": SensorDeviceClass.PM25,
"unit_of_measurement": "µg/m³",
"state_class": SensorStateClass.MEASUREMENT
},
"ud_swing_angle": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
},
"lr_diy_down_percent": {
"device_class": SensorDeviceClass.ENUM,
"unit_of_measurement": PERCENTAGE,
"state_class": SensorStateClass.MEASUREMENT
},
"lr_diy_up_percent": {
"device_class": SensorDeviceClass.ENUM,
"unit_of_measurement": PERCENTAGE,
"state_class": SensorStateClass.MEASUREMENT
},
"ud_diy_down_percent": {
"device_class": SensorDeviceClass.ENUM,
"unit_of_measurement": PERCENTAGE,
"state_class": SensorStateClass.MEASUREMENT
},
"ud_diy_up_percent": {
"device_class": SensorDeviceClass.ENUM,
"unit_of_measurement": PERCENTAGE,
"state_class": SensorStateClass.MEASUREMENT
}
}
}
}
}

3
custom_components/midea_auto_cloud/device_mapping/T0xFD.py
View File

@@ -114,8 +114,7 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"error_code": {
"device_class": SensorDeviceClass.ENUM,
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"cur_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,

3
custom_components/midea_auto_cloud/device_mapping/example.py
View File

@@ -1,6 +1,5 @@
from homeassistant.const import Platform, UnitOfTemperature
from homeassistant.const import Platform, UnitOfTemperature, PRECISION_HALVES
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.climate.const import PRECISION_HALVES
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass

4
custom_components/midea_auto_cloud/manifest.json
View File

@@ -6,6 +6,6 @@
"documentation": "https://github.com/sususweet/midea-meiju-codec#readme",
"iot_class": "cloud_push",
"issue_tracker": "https://github.com/sususweet/midea-meiju-codec/issues",
"requirements": [],
"version": "v0.0.4"
"requirements": ["lupa>=2.0"],
"version": "v0.1.1"
}

6
custom_components/midea_auto_cloud/midea_entity.py
View File

@@ -124,8 +124,10 @@ class MideaEntity(CoordinatorEntity[MideaDataUpdateCoordinator], Entity):
@property
def available(self) -> bool:
"""Return if entity is available."""
MideaLogger.debug(f"available available={self.coordinator.data} ")
return self.coordinator.data.available
if self.coordinator.data:
return self.coordinator.data.available
else:
return False
async def _publish_command(self) -> None:
"""Publish commands to the device."""

25
custom_components/midea_auto_cloud/sensor.py
View File

@@ -5,7 +5,6 @@ from homeassistant.core import HomeAssistant
from homeassistant.helpers.entity_platform import AddEntitiesCallback
from .const import DOMAIN
from .core.logger import MideaLogger
from .midea_entity import MideaEntity
from . import load_device_config
@@ -66,4 +65,26 @@ class MideaSensorEntity(MideaEntity, SensorEntity):
@property
def native_value(self):
"""Return the native value of the sensor."""
return self.device_attributes.get(self._entity_key)
value = self.device_attributes.get(self._entity_key)
# Handle invalid string values
if isinstance(value, str) and value.lower() in ['invalid', 'none', 'null', '']:
return None
# Try to convert to number if it's a string that looks like a number
if isinstance(value, str):
try:
# Try integer first
if '.' not in value:
return int(value)
# Then float
return float(value)
except (ValueError, TypeError):
# If conversion fails, return None for numeric sensors
# or return the original string for enum sensors
device_class = self._config.get("device_class")
if device_class and "enum" not in device_class.lower():
return None
return value
return value

2250
custom_components/midea_auto_cloud/translations/en.json
View File

File diff suppressed because it is too large Load Diff

2269
custom_components/midea_auto_cloud/translations/zh-Hans.json
View File

File diff suppressed because it is too large Load Diff

41
custom_components/midea_auto_cloud/water_heater.py
View File

@@ -1,14 +1,23 @@
from homeassistant.components.water_heater import WaterHeaterEntity, WaterHeaterEntityFeature
from homeassistant.config_entries import ConfigEntry
from homeassistant.const import (
Platform,
ATTR_TEMPERATURE
)
from homeassistant.core import HomeAssistant
from homeassistant.helpers.entity_platform import AddEntitiesCallback
from .const import DOMAIN
from .midea_entity import MideaEntity
from . import load_device_config
async def async_setup_entry(hass, config_entry, async_add_entities):
async def async_setup_entry(
hass: HomeAssistant,
config_entry: ConfigEntry,
async_add_entities: AddEntitiesCallback,
) -> None:
"""Set up water heater entities for Midea devices."""
account_bucket = hass.data.get(DOMAIN, {}).get("accounts", {}).get(config_entry.entry_id)
if not account_bucket:
async_add_entities([])
@@ -51,30 +60,6 @@ class MideaWaterHeaterEntityEntity(MideaEntity, WaterHeaterEntity):
self._manufacturer = manufacturer
self._rationale = rationale
self._config = config
# Legacy compatibility: register update and restore display attributes
if self._device:
self._device.register_update(self.update_state)
if (rationale_local := self._config.get("rationale")) is not None:
self._rationale = rationale_local
if self._rationale is None:
self._rationale = ["off", "on"]
self._attr_native_unit_of_measurement = self._config.get("unit_of_measurement")
self._attr_device_class = self._config.get("device_class")
self._attr_state_class = self._config.get("state_class")
self._attr_icon = self._config.get("icon")
from .const import DOMAIN as _DOMAIN
self._attr_unique_id = f"{_DOMAIN}.{self._device.device_id}_{self._entity_key}"
self._attr_device_info = {
"manufacturer": "Midea" if self._manufacturer is None else self._manufacturer,
"model": f"{self._device.model}",
"identifiers": {( _DOMAIN, self._device.device_id)},
"name": self._device.device_name
}
name = self._config.get("name")
if name is None:
name = self._entity_key.replace("_", " ").title()
self._attr_name = f"{self._device.device_name} {name}"
self.entity_id = self._attr_unique_id
self._key_power = self._config.get("power")
self._key_operation_list = self._config.get("operation_list")
self._key_min_temp = self._config.get("min_temp")
@@ -167,9 +152,3 @@ class MideaWaterHeaterEntityEntity(MideaEntity, WaterHeaterEntity):
if new_status:
await self.async_set_attributes(new_status)
def update_state(self, status):
try:
self.schedule_update_ha_state()
except Exception:
pass