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31 Commits
v0.1.21 ... v0.1.26

Author SHA1 Message Date
sususweet
b8104a8643 feat: add support for new wind. 2025-11-28 00:23:45 +08:00
sususweet
98ebac5516 feat: Follow body sense function fixed. Fix #51. 2025-11-27 23:24:01 +08:00
sususweet
bf7345d680 fix:translation key error. 2025-11-27 23:08:35 +08:00
sususweet
df01bc7cb5 fix:remove plugin download in msmart app. 2025-11-27 23:05:35 +08:00
sususweet
61b33e4ceb feat: add support for T0xC3 heat pump. Fix #46. 2025-11-27 23:03:35 +08:00
sususweet
8714549f90 feat: add support for fan-light. Fix #56. 2025-11-27 21:40:56 +08:00
sususweet
266419e3a9 refactor: remove inner number type conversion in attr calculate. 2025-11-27 21:39:07 +08:00
sususweet
7fee90b1fd feat: add plugin download for devices. 2025-11-27 16:17:58 +08:00
sususweet
a0c1423933 feat: add support for Integrated Oven. Fixed #55. 2025-11-27 16:05:44 +08:00
sususweet
7fac466875 feat: add support for colmo ground warmer, sn 17497071. Fix #54. 2025-11-27 11:12:50 +08:00
sususweet
e5bbcfca94 fix: device humidity and temperature for T0xAC. 2025-11-23 01:12:44 +08:00
sususweet
ff39911d1e fix: life unit changed to percentage. 2025-11-23 00:43:55 +08:00
sususweet
e5dbd87802 feat: version 0.1.26 2025-11-22 00:32:52 +08:00
sususweet
00f493d06a feat: add support for T0xE6 and T0xED. 2025-11-22 00:31:33 +08:00
sususweet
55f7bdbda8 fix: extend timeout for request to avoid slow api response. 2025-11-22 00:12:22 +08:00
sususweet
15ac35a887 fix: async import module. 2025-11-21 09:49:35 +08:00
sususweet
2858e991ae feat: add support for T0xBF. Fix #36. 2025-11-21 09:39:42 +08:00
Yingqi Tang
fe1a5b315b fix: file async read 2025-11-21 01:16:55 +00:00
Yingqi Tang
849280676f feat: add follow_body_sense for T0xAC. Fixes #51 2025-11-21 01:10:45 +00:00
Yingqi Tang
3edd94d790 fix: refresh status fallback to lua when cloud api is down. Fixes #52. 2025-11-21 01:05:55 +00:00
sususweet
730f7d0c7b feat: update version 2025-11-19 02:11:39 +08:00
sususweet
b2a2c80133 feat: update wash function for T0xED. 2025-11-19 02:06:47 +08:00
sususweet
cbaf99592f fix: get_status attributes missing. 2025-11-19 01:59:39 +08:00
sususweet
6062b0534f feat: add support for MSmartHome App. 2025-11-19 01:48:11 +08:00
sususweet
5369e6c13d feat: version 0.1.23 2025-11-14 21:15:14 +08:00
sususweet
2a91ce9914 fix: add entities for T0xB6. Ref #45. 2025-11-14 21:14:11 +08:00
sususweet
52c10f7d0d fix: multi-point login and control for meiju app. 2025-11-14 20:52:03 +08:00
sususweet
c090edfb3d fix: bubble attribute for T0xE3. 2025-11-14 20:51:46 +08:00
sususweet
e3a1812f9a feat: fix cold water single loop support for T0xE3. 2025-11-13 10:09:40 +08:00
sususweet
cc5ec70819 feat: add support for T0xFC. Fix #47. 2025-11-11 15:34:30 +08:00
sususweet
37ace3d764 feat: add cloud api for SmartHome app 2025-11-11 14:24:10 +08:00
29 changed files with 1490 additions and 194 deletions
Expand all files Collapse all files

6
README.md
View File

@@ -32,6 +32,8 @@ Get devices from MSmartHome/Midea Meiju homes through the network and control th
- T0xB6 Range Hood
- T0xB7 Gas Stove
- T0xB8 Smart Robot Vacuum
- T0xBF Microwave Steam Oven
- T0xC3 Heat Pump
- T0xCA French Door Refrigerator
- T0xCC Central Air Conditioning (Ducted) Wi-Fi Controller
- T0xCD Air Energy Water Heater
@@ -44,10 +46,12 @@ Get devices from MSmartHome/Midea Meiju homes through the network and control th
- T0xE1 Dishwasher
- T0xE2 Electric Water Heater
- T0xE3 Constant Temperature Gas Water Heater
- T0xE6 Wall hanging furnace
- T0xEA Rice Cooker
- T0xED Water Softener
- T0xFA Electric Fan
- T0xFB Electric Heater
- T0xFC Air Purifier
- T0xFD Humidifier
Welcome to collaborate on adding support for more devices.
@@ -58,7 +62,7 @@ Collaboration method: After adding this plugin, find devices that are not correc
Expand the `Attributes` card below and submit these fields with the issue. Pay special attention to the `Device type` and `Subtype` fields, as these are the basis for obtaining the corresponding lua files for device control.
Then go to the Home Assistant installation directory, find the device's corresponding T_0000_`Device type`_`Subtype`_***.lua file in the `.storage/midea_auto_cloud/lua/` directory, and wait for adaptation.
Then go to the Home Assistant installation directory, find the device's corresponding T_0000_`Device type`_`Subtype`_***.lua file in the `.storage/midea_auto_cloud/lua/` directory and `zip` file in the `.storage/midea_auto_cloud/plugin/` directory, and wait for adaptation.
![img_1.png](./img/img_1.png)

6
README_hans.md
View File

@@ -32,6 +32,8 @@
- T0xB6 抽油烟机
- T0xB7 燃气灶
- T0xB8 智能扫地机器人
- T0xBF 微波炉
- T0xC3 热泵
- T0xCA 对开门冰箱
- T0xCC 中央空调(风管机)Wi-Fi线控器
- T0xCD 空气能热水器
@@ -44,10 +46,12 @@
- T0xE1 洗碗机
- T0xE2 电热水器
- T0xE3 恒温式燃气热水器
- T0xE6 壁挂炉
- T0xEA 电饭锅
- T0xED 软水机
- T0xFA 电风扇
- T0xFB 电暖器
- T0xFC 空气净化器
- T0xFD 加湿器
欢迎合作开发添加更多设备支持。
@@ -58,7 +62,7 @@
展开下面的`属性`卡片把里面这些字段随issue提交。 着重关注Device type、Subtype这两个字段这是后续获得设备控制对应lua文件的基础。
再进入Homeassistant的安装目录`.storage/midea_auto_cloud/lua/`目录下找到设备对应的T_0000_`Device type`_`Subtype`_***.lua文件等待适配就可以了。
再进入Homeassistant的安装目录`.storage/midea_auto_cloud/lua/`目录下找到设备对应的T_0000_`Device type`_`Subtype`_***.lua文件以及`.storage/midea_auto_cloud/plugin/`目录下的`zip`文件,等待适配就可以了。
![img_1.png](./img/img_1.png)

26
custom_components/midea_auto_cloud/__init__.py
View File

@@ -1,5 +1,7 @@
import asyncio
import os
import base64
import traceback
from importlib import import_module
import re
from homeassistant.config_entries import ConfigEntry
@@ -43,7 +45,7 @@ from .const import (
CONF_SN,
CONF_MODEL_NUMBER,
CONF_SERVERS, STORAGE_PATH, CONF_MANUFACTURER_CODE,
CONF_SELECTED_HOMES
CONF_SELECTED_HOMES, CONF_SMART_PRODUCT_ID, STORAGE_PLUGIN_PATH
)
# 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
@@ -62,6 +64,9 @@ PLATFORMS: list[Platform] = [
Platform.BUTTON
]
async def import_module_async(module_name):
# 在线程池中执行导入操作
return await asyncio.to_thread(import_module, module_name, __package__)
def get_sn8_used(hass: HomeAssistant, sn8):
entries = hass.config_entries.async_entries(DOMAIN)
@@ -102,7 +107,7 @@ async def load_device_config(hass: HomeAssistant, device_type, sn8):
# if not json_data:
device_path = f".device_mapping.{'T0x%02X' % device_type}"
try:
mapping_module = import_module(device_path, __package__)
mapping_module = await import_module_async(device_path)
for key, config in mapping_module.DEVICE_MAPPING.items():
# support tuple & regular expression pattern to support multiple sn8 sharing one mapping
if (key == sn8) or (isinstance(key, tuple) and sn8 in key) or (isinstance(key, str) and re.match(key, sn8)):
@@ -245,6 +250,22 @@ async def async_setup_entry(hass: HomeAssistant, config_entry: ConfigEntry):
model_number=info.get(CONF_MODEL_NUMBER),
manufacturer_code=info.get(CONF_MANUFACTURER_CODE),
)
try:
os.makedirs(hass.config.path(STORAGE_PLUGIN_PATH), exist_ok=True)
plugin_path = hass.config.path(STORAGE_PLUGIN_PATH)
await cloud.download_plugin(
path=plugin_path,
appliance_code=appliance_code,
smart_product_id=info.get(CONF_SMART_PRODUCT_ID),
device_type=info.get(CONF_TYPE),
sn=info.get(CONF_SN),
sn8=info.get(CONF_SN8),
model_number=info.get(CONF_MODEL_NUMBER),
manufacturer_code=info.get(CONF_MANUFACTURER_CODE),
)
except Exception as e:
traceback.print_exc()
try:
device = MiedaDevice(
name=info.get(CONF_NAME),
@@ -258,6 +279,7 @@ 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),
manufacturer_code=info.get(CONF_MANUFACTURER_CODE),
sn=info.get(CONF_SN),
sn8=info.get(CONF_SN8),
lua_file=file,

25
custom_components/midea_auto_cloud/climate.py
View File

@@ -85,6 +85,7 @@ class MideaClimateEntity(MideaEntity, ClimateEntity):
self._key_target_humidity = self._config.get("target_humidity")
self._attr_temperature_unit = self._config.get("temperature_unit")
self._attr_precision = self._config.get("precision")
self._attr_target_temperature_step = self._config.get("precision")
@property
def supported_features(self):
@@ -107,13 +108,23 @@ class MideaClimateEntity(MideaEntity, ClimateEntity):
@property
def current_temperature(self):
temp = self._get_nested_value(self._key_current_temperature)
if temp is not None:
try:
return float(temp)
except (ValueError, TypeError):
return None
return None
if isinstance(self._key_current_temperature, list):
temp_int = self._get_nested_value(self._key_current_temperature[0])
tem_dec = self._get_nested_value(self._key_current_temperature[1])
if temp_int is not None and tem_dec is not None:
try:
return float(temp_int) + float(tem_dec)
except (ValueError, TypeError):
return None
return None
else:
temp = self._get_nested_value(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):

2
custom_components/midea_auto_cloud/const.py
View File

File diff suppressed because one or more lines are too long

269
custom_components/midea_auto_cloud/core/cloud.py
View File

@@ -3,7 +3,9 @@ import time
import datetime
import json
import base64
import asyncio
import traceback
import os
import aiofiles
import requests
from aiohttp import ClientSession
from secrets import token_hex
@@ -27,7 +29,8 @@ clouds = {
"app_key": "ac21b9f9cbfe4ca5a88562ef25e2b768",
"iot_key": bytes.fromhex(format(7882822598523843940, 'x')).decode(),
"hmac_key": bytes.fromhex(format(117390035944627627450677220413733956185864939010425, 'x')).decode(),
"api_url": "https://mp-prod.appsmb.com/mas/v5/app/proxy?alias=",
"api_url": "https://mp-eu-prod.appsmb.com/mas/v5/app/proxy?alias=",
# "api_url": "https://mp-prod.appsmb.com/mas/v5/app/proxy?alias=",
},
}
@@ -88,15 +91,14 @@ class MideaCloud:
"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}")
_LOGGER.debug(f"Midea cloud API url: {url}, header: {header}, data: {data}")
try:
r = await self._session.request(method, url, headers=header, data=dump_data, timeout=5)
r = await self._session.request(method, url, headers=header, data=dump_data, timeout=30)
raw = await r.read()
_LOGGER.debug(f"Midea cloud API url: {url}, data: {data}, response: {raw}")
_LOGGER.debug(f"Midea cloud API url: {url}, header: {header}, data: {data}, response: {raw}")
response = json.loads(raw)
except Exception as e:
_LOGGER.debug(f"API request attempt failed: {e}")
traceback.print_exc()
if int(response["code"]) == 0:
if "data" in response:
@@ -139,7 +141,7 @@ class MideaCloud:
_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}")
traceback.print_exc()
if int(response["code"]) == 0 and "data" in response:
return response["data"]
@@ -161,28 +163,6 @@ class MideaCloud:
async def login(self) -> bool:
raise NotImplementedError()
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"}
@@ -198,10 +178,18 @@ class MideaCloud:
):
raise NotImplementedError()
async def send_device_control(self, appliance_code: int, control: dict, status: dict | None = None) -> bool:
"""Send control to a device via cloud. Subclasses should implement if supported."""
async def download_plugin(
self, path: str,
appliance_code: str,
smart_product_id: str,
device_type: int,
sn: str,
sn8: str,
model_number: str | None,
manufacturer_code: str = "0000",
):
raise NotImplementedError()
async def send_central_ac_control(self, appliance_code: int, nodeid: str, modelid: str, idtype: int, control: dict) -> bool:
"""Send control to central AC subdevice. Subclasses should implement if supported."""
raise NotImplementedError()
@@ -309,6 +297,7 @@ class MeijuCloud(MideaCloud):
"type": int(appliance.get("type"), 16),
"sn": self._security.aes_decrypt(appliance.get("sn")) if appliance.get("sn") else "",
"sn8": appliance.get("sn8", "00000000"),
"smart_product_id": appliance.get("smartProductId", "0"),
"model_number": appliance.get("modelNumber", "0"),
"manufacturer_code": appliance.get("enterpriseCode", "0000"),
"model": appliance.get("productModel"),
@@ -322,6 +311,28 @@ class MeijuCloud(MideaCloud):
return appliances
return None
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 get_device_status(self, appliance_code: int, query: dict) -> dict | None:
data = {
"applianceCode": str(appliance_code),
@@ -470,11 +481,98 @@ class MeijuCloud(MideaCloud):
self._security.aes_decrypt_with_fixed_key(lua))
stream = stream.replace("\r\n", "\n")
fnm = f"{path}/{response['fileName']}"
with open(fnm, "w") as fp:
fp.write(stream)
async with aiofiles.open(fnm, "w") as fp:
await fp.write(stream)
return fnm
async def download_plugin(
self, path: str,
appliance_code: str,
smart_product_id: str,
device_type: int,
sn: str,
sn8: str,
model_number: str | None,
manufacturer_code: str = "0000",
):
# 构建 applianceList根据传入的参数动态生成
appliance_info = {
"appModel": sn8,
"appEnterprise": manufacturer_code,
"appType": f"0x{device_type:02X}",
"applianceCode": str(appliance_code) if isinstance(appliance_code, int) else appliance_code,
"smartProductId": str(smart_product_id) if isinstance(smart_product_id, int) else smart_product_id,
"modelNumber": model_number or "0",
"versionCode": 0
}
appliance_list = [appliance_info]
data = {
"applianceList": json.dumps(appliance_list),
"iotAppId": self.APP_ID,
"match": "1",
"clientType": "1",
"clientVersion": 201
}
fnm = None
if response := await self._api_request(
endpoint="/v1/plugin/update/getPluginV3",
data=data
):
# response 是 {"list": [...]}
plugin_list = response.get("list", [])
if not plugin_list:
MideaLogger.warning(f"No plugin found for device type 0x{device_type:02X}, sn: {sn}")
return None
# 找到匹配的设备(优先匹配 applianceCode其次匹配 appType
matched_plugin = None
# 首先尝试精确匹配 applianceCode
for plugin in plugin_list:
if plugin.get("applianceCode") == sn and plugin.get("appType") == f"0x{device_type:02X}":
matched_plugin = plugin
break
# 如果没有精确匹配,使用第一个匹配 appType 的
if not matched_plugin:
for plugin in plugin_list:
if plugin.get("appType") == f"0x{device_type:02X}":
matched_plugin = plugin
break
if not matched_plugin:
MideaLogger.warning(f"No matching plugin found for device type 0x{device_type:02X}, sn: {sn}")
return None
# 下载 zip 文件
zip_url = matched_plugin.get("url")
zip_title = matched_plugin.get("title", f"plugin_0x{device_type:02X}.zip")
if not zip_url:
MideaLogger.warning(f"No download URL found for plugin: {zip_title}")
return None
try:
# 确保目录存在
os.makedirs(path, exist_ok=True)
res = await self._session.get(zip_url)
if res.status == 200:
zip_data = await res.read()
if zip_data:
fnm = f"{path}/{zip_title}"
async with aiofiles.open(fnm, "wb") as fp:
await fp.write(zip_data)
MideaLogger.info(f"Downloaded plugin file: {fnm}")
else:
MideaLogger.warning(f"Downloaded zip file is empty: {zip_url}")
else:
MideaLogger.warning(f"Failed to download plugin, status: {res.status}, url: {zip_url}")
except Exception as e:
MideaLogger.error(f"Error downloading plugin: {e}")
traceback.print_exc()
return fnm
class MSmartHomeCloud(MideaCloud):
APP_ID = "1010"
SRC = "10"
@@ -544,7 +642,7 @@ class MSmartHomeCloud(MideaCloud):
self._api_url = api_url
async def login(self) -> bool:
await self._re_route()
# await self._re_route()
if login_id := await self._get_login_id():
self._login_id = login_id
iot_data = self._make_general_data()
@@ -632,10 +730,105 @@ class MSmartHomeCloud(MideaCloud):
self._security.aes_decrypt_with_fixed_key(lua))
stream = stream.replace("\r\n", "\n")
fnm = f"{path}/{response['fileName']}"
with open(fnm, "w") as fp:
fp.write(stream)
async with aiofiles.open(fnm, "w") as fp:
await fp.write(stream)
return fnm
async def send_cloud(self, appliance_code: int, data: bytearray):
appliance_code = str(appliance_code)
params = {
"clientType": "1",
"appId": self.APP_ID,
"format": "2",
"deviceId": self._device_id,
"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 get_device_status(
self,
appliance_code: int,
device_type: int,
sn: str,
model_number: str | None,
manufacturer_code: str = "0000",
query: dict = {}
) -> dict | None:
data = {
"clientType": "1",
"appId": self.APP_ID,
"format": "2",
"deviceId": self._device_id,
"iotAppId": self.APP_ID,
"applianceMFCode": manufacturer_code,
"applianceType": "0x%02X" % device_type,
"modelNumber": model_number,
"applianceSn": self._security.aes_encrypt_with_fixed_key(sn.encode("ascii")).hex(),
"version": "0",
"encryptedType ": "2",
"applianceCode": appliance_code,
"command": {
"query": query
}
}
if response := await self._api_request(
endpoint="/v1/device/status/lua/get",
data=data
):
# 预期返回形如 { ... 状态键 ... }
return response
return None
async def send_device_control(
self,
appliance_code: int,
device_type: int,
sn: str,
model_number: str | None,
manufacturer_code: str = "0000",
control: dict | None = None,
status: dict | None = None
) -> bool:
data = {
"clientType": "1",
"appId": self.APP_ID,
"format": "2",
"deviceId": self._device_id,
"iotAppId": self.APP_ID,
"applianceMFCode": manufacturer_code,
"applianceType": "0x%02X" % device_type,
"modelNumber": model_number,
"applianceSn": self._security.aes_encrypt_with_fixed_key(sn.encode("ascii")).hex(),
"version": "0",
"encryptedType ": "2",
"applianceCode": appliance_code,
"command": {
"control": control
}
}
if status and isinstance(status, dict):
data["command"]["status"] = status
response = await self._api_request(
endpoint="/v1/device/lua/control",
data=data
)
return response is not None
def get_midea_cloud(cloud_name: str, session: ClientSession, account: str, password: str) -> MideaCloud | None:
cloud = None

144
custom_components/midea_auto_cloud/core/device.py
View File

@@ -3,7 +3,7 @@ import socket
import traceback
from enum import IntEnum
from .cloud import MideaCloud
from .cloud import MideaCloud, MSmartHomeCloud, MeijuCloud
from .security import LocalSecurity, MSGTYPE_HANDSHAKE_REQUEST, MSGTYPE_ENCRYPTED_REQUEST
from .packet_builder import PacketBuilder
from .message import MessageQuestCustom
@@ -42,6 +42,7 @@ class MiedaDevice(threading.Thread):
protocol: int,
model: str | None,
subtype: int | None,
manufacturer_code: str | None,
connected: bool,
sn: str | None,
sn8: str | None,
@@ -65,6 +66,7 @@ class MiedaDevice(threading.Thread):
self._subtype = subtype
self._sn = sn
self._sn8 = sn8
self._manufacturer_code = manufacturer_code
self._attributes = {
"device_type": "T0x%02X" % device_type,
"sn": sn,
@@ -178,7 +180,17 @@ class MiedaDevice(threading.Thread):
cloud = self._cloud
if cloud and hasattr(cloud, "send_device_control"):
await cloud.send_device_control(self._device_id, control=nested_status, status=self._attributes)
if isinstance(cloud, MSmartHomeCloud):
await cloud.send_device_control(
appliance_code=self._device_id,
device_type=self.device_type,
sn=self.sn,
model_number=self.subtype,
manufacturer_code=self._manufacturer_code,
control=nested_status,
status=self._attributes)
elif isinstance(cloud, MeijuCloud):
await cloud.send_device_control(self._device_id, control=nested_status, status=self._attributes)
async def set_attributes(self, attributes):
new_status = {}
@@ -205,7 +217,17 @@ class MiedaDevice(threading.Thread):
cloud = self._cloud
if cloud and hasattr(cloud, "send_device_control"):
await cloud.send_device_control(self._device_id, control=nested_status, status=self._attributes)
if isinstance(cloud, MSmartHomeCloud):
await cloud.send_device_control(
appliance_code=self._device_id,
device_type=self.device_type,
sn=self.sn,
model_number=self.subtype,
manufacturer_code=self._manufacturer_code,
control=nested_status,
status=self._attributes)
elif isinstance(cloud, MeijuCloud):
await cloud.send_device_control(self._device_id, control=nested_status, status=self._attributes)
def set_ip_address(self, ip_address):
MideaLogger.debug(f"Update IP address to {ip_address}")
@@ -269,48 +291,72 @@ class MiedaDevice(threading.Thread):
async def refresh_status(self):
for query in self._queries:
if self._lua_runtime is not None:
if query_cmd := self._lua_runtime.build_query(query):
await self._build_send(query_cmd)
cloud = self._cloud
if cloud and hasattr(cloud, "get_device_status"):
if isinstance(cloud, MSmartHomeCloud):
if status := await cloud.get_device_status(
appliance_code=self._device_id,
device_type=self.device_type,
sn=self.sn,
model_number=self.subtype,
manufacturer_code=self._manufacturer_code,
query=query
):
self._parse_cloud_message(status)
else:
if self._lua_runtime is not None:
if query_cmd := self._lua_runtime.build_query(query):
await self._build_send(query_cmd)
def _parse_cloud_message(self, decrypted):
elif isinstance(cloud, MeijuCloud):
if status := await cloud.get_device_status(
appliance_code=self._device_id,
query=query
):
self._parse_cloud_message(status)
else:
if self._lua_runtime is not None:
if query_cmd := self._lua_runtime.build_query(query):
await self._build_send(query_cmd)
def _parse_cloud_message(self, status):
# 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[').replace("]", "\"]")} = "
f"{rvalue.replace('[', 'float(self._attributes[').replace(']', "\"])")}") \
.replace("[", "[\"")
calculate_str2 = \
(f"{lvalue.replace('[', 'new_status[').replace("]", "\"]")} = "
f"{rvalue.replace('[', 'float(self._attributes[').replace(']', "\"])")}") \
.replace("[", "[\"")
try:
exec(calculate_str1)
exec(calculate_str2)
except Exception as e:
traceback.print_exc()
MideaLogger.warning(
f"Calculation Error: {lvalue} = {rvalue}, calculate_str1: {calculate_str1}, calculate_str2: {calculate_str2}", self._device_id
)
self._update_all(new_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[').replace("]", "\"]")} = "
f"{rvalue.replace('[', 'self._attributes[').replace(']', "\"]")}") \
.replace("[", "[\"")
calculate_str2 = \
(f"{lvalue.replace('[', 'new_status[').replace("]", "\"]")} = "
f"{rvalue.replace('[', 'self._attributes[').replace(']', "\"]")}") \
.replace("[", "[\"")
try:
exec(calculate_str1)
exec(calculate_str2)
except Exception as e:
traceback.print_exc()
MideaLogger.warning(
f"Calculation Error: {lvalue} = {rvalue}, calculate_str1: {calculate_str1}, calculate_str2: {calculate_str2}",
self._device_id
)
self._update_all(new_status)
return ParseMessageResult.SUCCESS
def _parse_message(self, msg):
@@ -372,11 +418,13 @@ class MiedaDevice(threading.Thread):
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 reply_dec := self._lua_runtime.decode_status(dec_string_to_bytes(reply).hex()):
MideaLogger.debug(f"Decoded: {reply_dec}")
result = self._parse_cloud_message(reply_dec)
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)

7
custom_components/midea_auto_cloud/core/logger.py
View File

@@ -7,6 +7,7 @@ class MideaLogType(IntEnum):
DEBUG = 1
WARN = 2
ERROR = 3
INFO = 4
class MideaLogger:
@@ -18,6 +19,8 @@ class MideaLogger:
log = f"[{device_id}] {log}"
if log_type == MideaLogType.DEBUG:
logging.getLogger(mod.__name__).debug(log)
elif log_type == MideaLogType.INFO:
logging.getLogger(mod.__name__).info(log)
elif log_type == MideaLogType.WARN:
logging.getLogger(mod.__name__).warning(log)
elif log_type == MideaLogType.ERROR:
@@ -27,6 +30,10 @@ class MideaLogger:
def debug(log, device_id=None):
MideaLogger._log(MideaLogType.DEBUG, log, device_id)
@staticmethod
def info(log, device_id=None):
MideaLogger._log(MideaLogType.INFO, log, device_id)
@staticmethod
def warning(log, device_id=None):
MideaLogger._log(MideaLogType.WARN, log, device_id)

2
custom_components/midea_auto_cloud/data_coordinator.py
View File

@@ -205,7 +205,7 @@ class MideaDataUpdateCoordinator(DataUpdateCoordinator[MideaDeviceData]):
if calculate:
calculate_str1 = \
(f"{lvalue.replace('[', 'attributes[').replace("]", "\"]")} = "
f"{rvalue.replace('[', 'float(attributes[').replace(']', "\"])")}") \
f"{rvalue.replace('[', 'attributes[').replace(']', "\"]")}") \
.replace("[", "[\"")
try:
exec(calculate_str1)

71
custom_components/midea_auto_cloud/device_mapping/T0x13.py
View File

@@ -1,4 +1,5 @@
from homeassistant.const import Platform
from homeassistant.components.fan import DIRECTION_FORWARD, DIRECTION_REVERSE
from homeassistant.const import Platform, UnitOfTemperature, PRECISION_WHOLE
DEVICE_MAPPING = {
"default": {
@@ -57,5 +58,73 @@ DEVICE_MAPPING = {
}
}
}
},
"79010863": {
"rationale": ["off", "on"],
"queries": [{}],
"centralized": [],
"calculate": {
"get": [
{
"lvalue": "[device_fan_speed]",
"rvalue": "int((int([fan_speed])) / 20) + 1"
},
],
"set": [
{
"lvalue": "[fan_speed]",
"rvalue": "min(int((int([device_fan_speed]) - 1) * 20 + 1), 100)"
},
]
},
"entities": {
Platform.LIGHT: {
"light": {
"power": "led_power",
"brightness": {"brightness": [1, 100]},
"color_temp": {"color_temperature": [2700, 6500]},
"preset_modes": {
"work": {"led_scene_light": "work"},
"eating": {"led_scene_light": "eating"},
"film": {"led_scene_light": "film"},
"night": {"led_scene_light": "night"},
"ledmanual": {"led_scene_light": "ledmanual"},
}
}
},
Platform.FAN: {
"fan": {
"power": "fan_power",
"speeds": list({"device_fan_speed": value + 1} for value in range(0, 6)),
"preset_modes": {
"breathing_wind": {"fan_scene": "breathing_wind"},
"const_temperature": {"fan_scene": "const_temperature"},
"fanmanual": {"fan_scene": "fanmanual"},
"baby_wind": {"fan_scene": "baby_wind"},
"sleep_wind": {"fan_scene": "sleep_wind"},
"forest_wind": {"fan_scene": "forest_wind"}
},
"directions": {
DIRECTION_FORWARD: {"arround_dir": "1"},
DIRECTION_REVERSE: {"arround_dir": "0"},
}
}
},
Platform.CLIMATE: {
"thermostat": {
"power": "fan_power",
"hvac_modes": {
"off": {"fan_scene": "fanmanual"},
"auto": {"fan_scene": "const_temperature"},
},
"target_temperature": "const_temperature_value",
"current_temperature": "indoor_temperature",
"min_temp": 20,
"max_temp": 35,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_WHOLE,
}
}
}
}
}

32
custom_components/midea_auto_cloud/device_mapping/T0x9C.py
View File

@@ -8,7 +8,7 @@ DEVICE_MAPPING = {
"default": {
"rationale": ["off", "on"],
"queries": [{}],
"centralized": ["b6_light"],
"centralized": [],
"entities": {
Platform.NUMBER: {
"b6_lightness": {
@@ -18,11 +18,26 @@ DEVICE_MAPPING = {
}
},
Platform.SWITCH: {
"total_power": {
"device_class": SwitchDeviceClass.SWITCH,
"translation_key": "power"
},
"total_lock": {
"device_class": SwitchDeviceClass.SWITCH,
"translation_key": "lock"
},
"b6_light": {
"device_class": SwitchDeviceClass.SWITCH,
},
},
Platform.SELECT: {
"b3_function_control":{
"options": {
"关闭": {"b3_work_cabinet_control": 1, "b3_function_control": 1},
"消毒": {"b3_work_cabinet_control": 1, "b3_function_control": 2, "b3_work_destination_time": 60},
"烘干": {"b3_work_cabinet_control": 1, "b3_function_control": 4, "b3_work_destination_time": 120},
}
},
"b6_gear": {
"options": {
"": {"b6_gear": "0"},
@@ -75,10 +90,25 @@ DEVICE_MAPPING = {
}
},
Platform.SENSOR: {
"b3_upstair_status": {
"device_class": SensorDeviceClass.ENUM,
},
"b6_wind_pressure": {
"device_class": SensorDeviceClass.PRESSURE,
"unit_of_measurement": UnitOfPressure.PA,
"state_class": SensorStateClass.MEASUREMENT
},
"b7_left_status": {
"device_class": SensorDeviceClass.ENUM,
},
"b7_left_gear": {
"device_class": SensorDeviceClass.ENUM,
},
"b7_right_status": {
"device_class": SensorDeviceClass.ENUM,
},
"b7_right_gear": {
"device_class": SensorDeviceClass.ENUM,
}
}
}

315
custom_components/midea_auto_cloud/device_mapping/T0xAC.py
View File

@@ -1,4 +1,5 @@
from homeassistant.const import Platform, UnitOfTemperature, PRECISION_HALVES, PRECISION_WHOLE
from homeassistant.const import Platform, UnitOfTemperature, PRECISION_HALVES, PRECISION_WHOLE, \
CONCENTRATION_PARTS_PER_MILLION, CONCENTRATION_MICROGRAMS_PER_CUBIC_METER
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
# from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
@@ -6,7 +7,7 @@ from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": ["off", "on"],
"queries": [{}, {"query_type":"run_status"}],
"queries": [{}, {"query_type":"run_status"}, {"query_type":"indoor_humidity"}, {"query_type":"indoor_temperature"}],
"centralized": [],
"entities": {
Platform.FAN: {
@@ -107,6 +108,128 @@ DEVICE_MAPPING = {
},
"aux_heat": {
"device_class": SwitchDeviceClass.SWITCH,
},
"follow_body_sense_enable": {
"device_class": SwitchDeviceClass.SWITCH,
"rationale": [0, 1]
},
},
Platform.SENSOR: {
"mode": {
"device_class": SensorDeviceClass.ENUM,
},
"indoor_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"indoor_humidity": {
"device_class": SensorDeviceClass.HUMIDITY,
"unit_of_measurement": "%",
"state_class": SensorStateClass.MEASUREMENT
}
}
}
},
"22259015": {
"rationale": ["off", "on"],
"queries": [{}, {"query_type": "run_status"}, {"query_type": "module_30"}, {"query_type": "module_31"},
{"query_type": "module_32"}],
"centralized": [],
"calculate": {
"get": [
{
"lvalue": "[indoor_humidity]",
"rvalue": "[humidity_value]"
},
{
"lvalue": "[indoor_temperature]",
"rvalue": "[t1_temp]"
},
{
"lvalue": "[co2_value]",
"rvalue": "[co2_concentration]"
},
{
"lvalue": "[pm25_value]",
"rvalue": "[dust_co2]"
}
],
"set": []
},
"entities": {
Platform.CLIMATE: {
"thermostat": {
"power": "power",
"hvac_modes": {
"off": {"power": "off"},
"heat": {"power": "on", "mode": "heat"},
"cool": {"power": "on", "mode": "cool"},
"auto": {"power": "on", "mode": "auto"},
"dry": {"power": "on", "mode": "dry"},
"fan_only": {"power": "on", "mode": "fan"}
},
"preset_modes": {
"none": {
"eco": "off",
"comfort_power_save": "off",
"cool_power_saving": 0,
"strong_wind": "off"
},
"eco": {"eco": "on", "cool_power_saving": 1},
"comfort": {"comfort_power_save": "on"},
"boost": {"strong_wind": "on"}
},
"swing_modes": {
"off": {"wind_swing_lr": "off", "wind_swing_ud": "off"},
"both": {"wind_swing_lr": "on", "wind_swing_ud": "on"},
"horizontal": {"wind_swing_lr": "on", "wind_swing_ud": "off"},
"vertical": {"wind_swing_lr": "off", "wind_swing_ud": "on"},
},
"fan_modes": {
"silent": {"wind_speed": 20},
"low": {"wind_speed": 40},
"medium": {"wind_speed": 60},
"high": {"wind_speed": 80},
"full": {"wind_speed": 100},
"auto": {"wind_speed": 102}
},
"target_temperature": ["temperature", "small_temperature"],
"current_temperature": "indoor_temperature",
"pre_mode": "mode",
"aux_heat": "ptc",
"min_temp": 17,
"max_temp": 30,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
}
},
Platform.SWITCH: {
"dry": {
"device_class": SwitchDeviceClass.SWITCH,
},
"prevent_straight_wind": {
"device_class": SwitchDeviceClass.SWITCH,
"rationale": [0, 1]
},
"aux_heat": {
"device_class": SwitchDeviceClass.SWITCH,
},
"follow_body_sense_enable": {
"device_class": SwitchDeviceClass.SWITCH,
"rationale": [0, 1]
},
"manul_fresh_air": {
"device_class": SwitchDeviceClass.SWITCH,
},
"auto_comfort_fresh_air": {
"device_class": SwitchDeviceClass.SWITCH,
},
"auto_fresh_off_co2": {
"device_class": SwitchDeviceClass.SWITCH,
},
"comfort_fresh_air": {
"device_class": SwitchDeviceClass.SWITCH,
}
},
Platform.SENSOR: {
@@ -122,6 +245,190 @@ DEVICE_MAPPING = {
"device_class": SensorDeviceClass.HUMIDITY,
"unit_of_measurement": "%",
"state_class": SensorStateClass.MEASUREMENT
},
"co2_value": {
"device_class": SensorDeviceClass.CO2,
"unit_of_measurement": CONCENTRATION_PARTS_PER_MILLION,
"state_class": SensorStateClass.MEASUREMENT,
},
"pm25_value": {
"device_class": SensorDeviceClass.PM25,
"unit_of_measurement": CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
"state_class": SensorStateClass.MEASUREMENT,
},
}
}
},
("22019031", "22019035", "22019045"): {
"rationale": ["off", "on"],
"queries": [{}, {"query_type":"fresh_air"}, {"query_type":"indoor_humidity"}, {"query_type":"indoor_temperature"}, {"query_type":"outdoor_temperature"}],
"centralized": [],
"entities": {
Platform.FAN: {
"fan": {
"power": "fresh_air",
"speeds": [
{"fresh_air": "on", "fresh_air_fan_speed": 40},
{"fresh_air": "on", "fresh_air_fan_speed": 60},
{"fresh_air": "on", "fresh_air_fan_speed": 80},
{"fresh_air": "on", "fresh_air_fan_speed": 100}
],
}
},
Platform.CLIMATE: {
"thermostat": {
"power": "power",
"hvac_modes": {
"off": {"power": "off"},
"heat": {"power": "on", "mode": "heat"},
"cool": {"power": "on", "mode": "cool"},
"auto": {"power": "on", "mode": "auto"},
"dry": {"power": "on", "mode": "dry"},
"fan_only": {"power": "on", "mode": "fan"}
},
"preset_modes": {
"none": {
"eco": "off",
"comfort_power_save": "off",
"cool_power_saving": 0,
# "comfort_sleep": "off",
"strong_wind": "off"
},
"eco": {"eco": "on", "cool_power_saving": 1},
"comfort": {"comfort_power_save": "on"},
# "sleep": {"comfort_sleep": "on"},
"boost": {"strong_wind": "on"}
},
"swing_modes": {
"off": {"wind_swing_lr": "off", "wind_swing_ud": "off"},
"both": {"wind_swing_lr": "on", "wind_swing_ud": "on"},
"horizontal": {"wind_swing_lr": "on", "wind_swing_ud": "off"},
"vertical": {"wind_swing_lr": "off", "wind_swing_ud": "on"},
},
"fan_modes": {
"silent": {"wind_speed": 20},
"low": {"wind_speed": 40},
"medium": {"wind_speed": 60},
"high": {"wind_speed": 80},
"full": {"wind_speed": 100},
"auto": {"wind_speed": 102}
},
"target_temperature": ["temperature", "small_temperature"],
"current_temperature": "indoor_temperature",
"pre_mode": "mode",
"aux_heat": "ptc",
"min_temp": 17,
"max_temp": 30,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
}
},
Platform.SWITCH: {
"fresh_air_remove_odor": {
"device_class": SwitchDeviceClass.SWITCH,
"rationale": [0, 1],
},
"dry": {
"device_class": SwitchDeviceClass.SWITCH,
},
"prevent_straight_wind": {
"device_class": SwitchDeviceClass.SWITCH,
"rationale": [0, 1]
},
"aux_heat": {
"device_class": SwitchDeviceClass.SWITCH,
},
"follow_body_sense_enable": {
"device_class": SwitchDeviceClass.SWITCH,
"rationale": [0, 1]
},
},
Platform.SENSOR: {
"mode": {
"device_class": SensorDeviceClass.ENUM,
},
"indoor_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"outdoor_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"fresh_air_temp": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"indoor_humidity": {
"device_class": SensorDeviceClass.HUMIDITY,
"unit_of_measurement": "%",
"state_class": SensorStateClass.MEASUREMENT
}
}
}
},
"17497071": {
"rationale": ["off", "on"],
"queries": [{}, {"query_type": "water_model_run_status"}],
"centralized": [],
"entities": {
Platform.CLIMATE: {
"thermostat": {
"power": "water_model_power",
"hvac_modes": {
"off": {"water_model_power": "off"},
"heat": {"water_model_power": "on"},
},
"preset_modes": {
"auto": {"water_model_temperature_auto": "on", "water_temp_linkage_switch": 0},
"link": {"water_model_temperature_auto": "off", "water_temp_linkage_switch": 1},
"manual": {"water_model_temperature_auto": "off", "water_temp_linkage_switch": 0}
},
"target_temperature": "water_model_temperature_set",
"current_temperature": ["temperature", "small_temperature"],
"pre_mode": "mode",
"aux_heat": "water_model_ptc",
"min_temp": 25,
"max_temp": 60,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
}
},
Platform.SWITCH: {
"water_model_power_save": {
"device_class": SwitchDeviceClass.SWITCH,
},
"water_model_go_out": {
"device_class": SwitchDeviceClass.SWITCH,
},
"water_model_ptc": {
"device_class": SwitchDeviceClass.SWITCH,
"translation_key": "aux_heat",
},
},
Platform.SENSOR: {
"tw1_in_water_temp": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"tw1_out_water_temp": {
"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
},
"humidity": {
"device_class": SensorDeviceClass.HUMIDITY,
"unit_of_measurement": "%",
"state_class": SensorStateClass.MEASUREMENT
}
}
}
@@ -252,16 +559,13 @@ DEVICE_MAPPING = {
},
Platform.SWITCH: {
"dry": {
"name": "干燥",
"device_class": SwitchDeviceClass.SWITCH,
},
"prevent_straight_wind": {
"name": "防直吹",
"device_class": SwitchDeviceClass.SWITCH,
"rationale": [1, 2]
},
"aux_heat": {
"name": "电辅热",
"device_class": SwitchDeviceClass.SWITCH,
}
},
@@ -357,7 +661,6 @@ DEVICE_MAPPING = {
},
Platform.SWITCH: {
"power": {
"name": "电源",
"device_class": SwitchDeviceClass.SWITCH,
},
},

39
custom_components/midea_auto_cloud/device_mapping/T0xB6.py
View File

@@ -1,4 +1,5 @@
from homeassistant.const import Platform
from homeassistant.components.sensor import SensorDeviceClass, SensorStateClass
from homeassistant.const import Platform, UnitOfPower, UnitOfElectricPotential
from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
@@ -6,6 +7,14 @@ DEVICE_MAPPING = {
"rationale": ["off", "on"],
"queries": [{}],
"centralized": [],
"calculate": {
"get": [
{
"lvalue": "[b7_vbattery]",
"rvalue": "float([b7_vbatt] / 1000.0)"
},
],
},
"entities": {
Platform.SWITCH: {
"power": {
@@ -18,6 +27,25 @@ DEVICE_MAPPING = {
"device_class": SwitchDeviceClass.SWITCH,
}
},
Platform.SENSOR: {
"error_code": {
"device_class": SensorDeviceClass.ENUM
},
"b7_left_status": {
"device_class": SensorDeviceClass.ENUM,
"translation_key": "left_status",
},
"b7_right_status": {
"device_class": SensorDeviceClass.ENUM,
"translation_key": "right_status",
},
"b7_vbattery":{
"device_class": SensorDeviceClass.VOLTAGE,
"unit_of_measurement": UnitOfElectricPotential.VOLT,
"state_class": SensorStateClass.MEASUREMENT,
"translation_key": "battery_voltage",
}
},
Platform.SELECT: {
"wind_pressure": {
"options": {
@@ -28,6 +56,15 @@ DEVICE_MAPPING = {
"extreme": {"wind_pressure": "4"},
}
},
"gear": {
"options": {
"off": {"gear": 0},
"low": {"gear": 1},
"medium": {"gear": 2},
"high": {"gear": 3},
"extreme": {"gear": 4},
}
},
},
}
}

65
custom_components/midea_auto_cloud/device_mapping/T0xBF.py Normal file
View File

@@ -0,0 +1,65 @@
from homeassistant.const import Platform, UnitOfTime, UnitOfArea, UnitOfTemperature
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": ["off", "on"],
"queries": [{}],
"centralized": [],
"calculate": {
"get": [
{
"lvalue": "[work_time]",
"rvalue": "[work_second] + 60 * [work_minute] + 3600 * [work_hour]"
},
{
"lvalue": "[set_time]",
"rvalue": "[second_set] + 60 * [minute_set] + 3600 * [hour_set]"
}
],
"set": [
]
},
"entities": {
Platform.BINARY_SENSOR: {
"lack_water": {
"device_class": BinarySensorDeviceClass.RUNNING,
"rationale": [0, 1]
},
"door_open": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"change_water": {
"device_class": BinarySensorDeviceClass.RUNNING,
"rationale": [0, 1]
}
},
Platform.SENSOR: {
"work_status": {
"device_class": SensorDeviceClass.ENUM
},
"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
},
"work_time": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.SECONDS,
"state_class": SensorStateClass.MEASUREMENT
},
"set_time": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.SECONDS,
"state_class": SensorStateClass.MEASUREMENT
},
}
}
}
}

77
custom_components/midea_auto_cloud/device_mapping/T0xC3.py Normal file
View File

@@ -0,0 +1,77 @@
from homeassistant.const import Platform, UnitOfTemperature, PRECISION_HALVES, CONCENTRATION_MICROGRAMS_PER_CUBIC_METER, \
CONCENTRATION_PARTS_PER_MILLION
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": ["off", "on"],
"queries": [{}],
"centralized": [],
"entities": {
Platform.CLIMATE: {
"Zone1": {
"translation_key": "zone1",
"power": "zone1_power_state",
"hvac_modes": {
"off": {"zone1_power_state": "off"},
"heat": {"zone1_power_state": "on"},
},
"target_temperature": "room_temp_set",
"current_temperature": "T4",
"min_temp": "room_min_set_temp",
"max_temp": "room_max_set_temp",
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
},
"DHW": {
"translation_key": "dhw",
"power": "dhw_power_state",
"hvac_modes": {
"off": {"dhw_power_state": "off"},
"heat": {"dhw_power_state": "on"},
},
"target_temperature": "dhw_temp_set",
"current_temperature": "T4",
"min_temp": "dhw_min_set_temp",
"max_temp": "dhw_max_set_temp",
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
}
},
Platform.SWITCH: {
"fastdhw_state": {
"device_class": SwitchDeviceClass.SWITCH,
"translation_key": "fastdhw_state",
},
"forcetbh_state": {
"device_class": SwitchDeviceClass.SWITCH,
"translation_key": "forcetbh_state",
},
},
Platform.SENSOR: {
"run_mode_set": {
"device_class": SensorDeviceClass.ENUM,
"translation_key": "mode",
},
"room_temp_set": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT,
"translation_key": "room_temperature",
},
"t4": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT,
"translation_key": "outside_temperature",
},
"tank_actual_temp":{
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT,
}
}
}
}
}

9
custom_components/midea_auto_cloud/device_mapping/T0xCC.py
View File

@@ -1,4 +1,5 @@
from homeassistant.const import Platform, UnitOfTemperature, PRECISION_HALVES
from homeassistant.const import Platform, UnitOfTemperature, PRECISION_HALVES, CONCENTRATION_MICROGRAMS_PER_CUBIC_METER, \
CONCENTRATION_PARTS_PER_MILLION
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
@@ -107,19 +108,19 @@ DEVICE_MAPPING = {
},
"co2_value": {
"device_class": SensorDeviceClass.CO2,
"unit_of_measurement": "ppm",
"unit_of_measurement": CONCENTRATION_PARTS_PER_MILLION,
"state_class": SensorStateClass.MEASUREMENT,
"attribute": "co2.value"
},
"hcho_value": {
"device_class": SensorDeviceClass.VOLATILE_ORGANIC_COMPOUNDS,
"unit_of_measurement": "μg/m³",
"unit_of_measurement": CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
"state_class": SensorStateClass.MEASUREMENT,
"attribute": "hcho.value"
},
"pm25_value": {
"device_class": SensorDeviceClass.PM25,
"unit_of_measurement": "μg/m³",
"unit_of_measurement": CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
"state_class": SensorStateClass.MEASUREMENT,
"attribute": "pm2_5.value"
},

6
custom_components/midea_auto_cloud/device_mapping/T0xCD.py
View File

@@ -12,17 +12,17 @@ DEVICE_MAPPING = {
"get": [
{
"lvalue": "[temperature]",
"rvalue": "([set_temperature] - 106) / 74 * 37 + 38"
"rvalue": "float(([set_temperature] - 106) / 74 * 37 + 38)"
},
{
"lvalue": "[cur_temperature]",
"rvalue": "([water_box_temperature] - 106) / 74 * 37 + 38"
"rvalue": "float(([water_box_temperature] - 106) / 74 * 37 + 38)"
}
],
"set": [
{
"lvalue": "[set_temperature]",
"rvalue": "([temperature] - 38) / 37 * 74 + 106"
"rvalue": "float(([temperature] - 38) / 37 * 74 + 106)"
},
]
},

7
custom_components/midea_auto_cloud/device_mapping/T0xCE.py
View File

@@ -1,4 +1,5 @@
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime, CONCENTRATION_MICROGRAMS_PER_CUBIC_METER, \
CONCENTRATION_PARTS_PER_MILLION
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
@@ -168,12 +169,12 @@ DEVICE_MAPPING = {
},
"pm25_value": {
"device_class": SensorDeviceClass.PM25,
"unit_of_measurement": "µg/m³",
"unit_of_measurement": CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
"state_class": SensorStateClass.MEASUREMENT
},
"co2_value": {
"device_class": SensorDeviceClass.CO2,
"unit_of_measurement": "ppm",
"unit_of_measurement": CONCENTRATION_PARTS_PER_MILLION,
"state_class": SensorStateClass.MEASUREMENT
},
"machine_type": {

63
custom_components/midea_auto_cloud/device_mapping/T0xE2.py
View File

@@ -1,4 +1,4 @@
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime, PERCENTAGE, PRECISION_HALVES
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime, PRECISION_WHOLE
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
@@ -15,10 +15,6 @@ DEVICE_MAPPING = {
"min": 0,
"max": 3,
"step": 1
},
"cur_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"state_class": SensorStateClass.MEASUREMENT,
}
},
Platform.CLIMATE: {
@@ -31,9 +27,9 @@ DEVICE_MAPPING = {
"target_temperature": "temperature",
"current_temperature": "cur_temperature",
"min_temp": 30,
"max_temp": 75,
"max_temp": 80,
"temperature_unit": UnitOfTemperature.CELSIUS,
"precision": PRECISION_HALVES,
"precision": PRECISION_WHOLE,
}
},
Platform.SWITCH: {
@@ -61,25 +57,8 @@ DEVICE_MAPPING = {
"water_flow": {
"device_class": SwitchDeviceClass.SWITCH,
},
},
Platform.SELECT: {
"func_select": {
"options": {
"low": {"func_select": "low"},
"medium": {"func_select": "medium"}
}
},
"type_select": {
"options": {
"normal": {"type_select": "normal"},
"valve": {"type_select": "valve"},
}
},
"machine": {
"options": {
"real_machine": {"machine": "real_machine"},
"virtual_machine": {"machine": "virtual_machine"}
}
"sterilization": {
"device_class": SwitchDeviceClass.SWITCH,
}
},
Platform.SENSOR: {
@@ -111,22 +90,18 @@ DEVICE_MAPPING = {
"passwater_lowbyte": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L",
"state_class": SensorStateClass.MEASUREMENT
"state_class": SensorStateClass.TOTAL
},
"passwater_highbyte": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L",
"state_class": SensorStateClass.MEASUREMENT
"state_class": SensorStateClass.TOTAL
},
"rate": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L/min",
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"cur_rate": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L/min",
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"sterilize_left_days": {
"device_class": SensorDeviceClass.DURATION,
@@ -154,19 +129,13 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"tds_value": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "ppm",
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"heat_water_level": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "%",
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"flow": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L/min",
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"end_time_hour": {
"device_class": SensorDeviceClass.DURATION,
@@ -201,19 +170,17 @@ DEVICE_MAPPING = {
"state_class": SensorStateClass.MEASUREMENT
},
"mg_remain": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "mg",
"state_class": SensorStateClass.MEASUREMENT
"device_class": SensorDeviceClass.ENUM
},
"waterday_lowbyte": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L",
"state_class": SensorStateClass.MEASUREMENT
"state_class": SensorStateClass.TOTAL
},
"waterday_highbyte": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "L",
"state_class": SensorStateClass.MEASUREMENT
"state_class": SensorStateClass.TOTAL
}
},
Platform.BINARY_SENSOR: {

4
custom_components/midea_auto_cloud/device_mapping/T0xE3.py
View File

@@ -15,7 +15,9 @@ DEVICE_MAPPING = {
},
"bubble": {
"device_class": SwitchDeviceClass.SWITCH,
"rationale": [0, 1]
},
"cold_water": {
"device_class": SwitchDeviceClass.SWITCH,
},
"cold_water_master": {
"device_class": SwitchDeviceClass.SWITCH,

70
custom_components/midea_auto_cloud/device_mapping/T0xE6.py Normal file
View File

@@ -0,0 +1,70 @@
from homeassistant.components.switch import SwitchDeviceClass
from homeassistant.const import Platform, UnitOfElectricPotential, UnitOfTemperature, UnitOfTime, UnitOfPressure
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
DEVICE_MAPPING = {
"default": {
"rationale": ["off", "on"],
"queries": [{}],
"entities": {
Platform.SWITCH: {
"winter_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
"summer_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
"power": {
"device_class": SwitchDeviceClass.SWITCH,
},
},
Platform.SENSOR: {
"heat_exchanger": {
"device_class": SensorDeviceClass.ENUM,
},
"fan_type": {
"device_class": SensorDeviceClass.ENUM,
},
"ignitor_output": {
"device_class": SensorDeviceClass.ENUM,
},
"fan_output": {
"device_class": SensorDeviceClass.ENUM,
},
"current_heat_set_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"current_bath_set_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"heat_out_water_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"bath_out_water_temperature": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"water_gage": {
"unit_of_measurement": UnitOfPressure.PA,
"state_class": SensorStateClass.MEASUREMENT
},
},
Platform.BINARY_SENSOR: {
"heating_work": {
"device_class": BinarySensorDeviceClass.RUNNING
},
"bathing_work": {
"device_class": BinarySensorDeviceClass.RUNNING
},
},
}
}
}

49
custom_components/midea_auto_cloud/device_mapping/T0xED.py
View File

@@ -1,5 +1,5 @@
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime, UnitOfElectricPotential, \
UnitOfVolume, UnitOfMass
UnitOfVolume, UnitOfMass, PERCENTAGE
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
@@ -17,9 +17,6 @@ DEVICE_MAPPING = {
"heat": {
"device_class": SwitchDeviceClass.SWITCH,
},
"antifreeze": {
"device_class": SwitchDeviceClass.SWITCH,
},
"lock": {
"device_class": SwitchDeviceClass.SWITCH,
},
@@ -29,22 +26,13 @@ DEVICE_MAPPING = {
"keep_warm": {
"device_class": SwitchDeviceClass.SWITCH,
},
"vacation": {
"device_class": SwitchDeviceClass.SWITCH,
},
"germicidal": {
"device_class": SwitchDeviceClass.SWITCH,
},
"lack_water": {
"device_class": SwitchDeviceClass.SWITCH,
},
"drainage": {
"device_class": SwitchDeviceClass.SWITCH,
},
"wash_enable": {
"device_class": SwitchDeviceClass.SWITCH,
},
"water_way": {
"wash": {
"device_class": SwitchDeviceClass.SWITCH,
},
"soften": {
@@ -65,14 +53,14 @@ DEVICE_MAPPING = {
"cl_sterilization": {
"device_class": SwitchDeviceClass.SWITCH,
},
"holiday_mode": {
"device_class": SwitchDeviceClass.SWITCH,
},
},
Platform.BINARY_SENSOR: {
"heat_status": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
"lack_water": {
"device_class": BinarySensorDeviceClass.PROBLEM,
},
"standby_status": {
"device_class": BinarySensorDeviceClass.RUNNING,
},
@@ -129,11 +117,16 @@ DEVICE_MAPPING = {
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"water_consumption_ml": {
"water_consumption": {
"device_class": SensorDeviceClass.VOLUME,
"unit_of_measurement": UnitOfVolume.LITERS,
"state_class": SensorStateClass.TOTAL_INCREASING
},
"water_consumption_ml": {
"device_class": SensorDeviceClass.VOLUME,
"unit_of_measurement": UnitOfVolume.MILLILITERS,
"state_class": SensorStateClass.TOTAL_INCREASING
},
"keep_warm_time": {
"device_class": SensorDeviceClass.DURATION,
"unit_of_measurement": UnitOfTime.MINUTES,
@@ -258,11 +251,23 @@ DEVICE_MAPPING = {
"velocity": {
"device_class": SensorDeviceClass.ENUM,
},
"error": {
"device_class": SensorDeviceClass.ENUM,
"life_1": {
"device_class": SensorDeviceClass.BATTERY,
"unit_of_measurement": PERCENTAGE,
},
"category": {
"device_class": SensorDeviceClass.ENUM,
"life_2": {
"device_class": SensorDeviceClass.BATTERY,
"unit_of_measurement": PERCENTAGE,
},
"in_tds": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "mg/L",
"state_class": SensorStateClass.MEASUREMENT
},
"out_tds": {
"device_class": SensorDeviceClass.WATER,
"unit_of_measurement": "mg/L",
"state_class": SensorStateClass.MEASUREMENT
},
}
}

5
custom_components/midea_auto_cloud/device_mapping/T0xFA.py
View File

@@ -1,4 +1,5 @@
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime, PERCENTAGE, DEGREE
from homeassistant.const import Platform, UnitOfTemperature, UnitOfTime, PERCENTAGE, DEGREE, \
CONCENTRATION_MICROGRAMS_PER_CUBIC_METER
from homeassistant.components.sensor import SensorStateClass, SensorDeviceClass
from homeassistant.components.binary_sensor import BinarySensorDeviceClass
from homeassistant.components.switch import SwitchDeviceClass
@@ -94,7 +95,7 @@ DEVICE_MAPPING = {
},
"pm25": {
"device_class": SensorDeviceClass.PM25,
"unit_of_measurement": "µg/m³",
"unit_of_measurement": CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
"state_class": SensorStateClass.MEASUREMENT
},
"ud_swing_angle": {

103
custom_components/midea_auto_cloud/device_mapping/T0xFC.py Normal file
View File

@@ -0,0 +1,103 @@
from homeassistant.const import Platform, UnitOfTemperature, UnitOfVolume, UnitOfTime, PERCENTAGE, PRECISION_HALVES, \
UnitOfEnergy, UnitOfPower, CONCENTRATION_MICROGRAMS_PER_CUBIC_METER
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": [],
"entities": {
Platform.SWITCH: {
"power": {
"device_class": SwitchDeviceClass.SWITCH,
},
"anion": {
"device_class": SwitchDeviceClass.SWITCH,
},
"buzzer": {
"device_class": SwitchDeviceClass.SWITCH,
},
"lock": {
"device_class": SwitchDeviceClass.SWITCH,
},
"waterions":{
"device_class": SwitchDeviceClass.SWITCH,
}
},
Platform.SELECT: {
"mode": {
"options": {
"constant_humidity": {"mode": "constant_humidity"},
"manual": {"mode": "manual"},
"sleep": {"mode": "sleep"},
"fast": {"mode": "fast"},
"auto": {"mode": "auto"},
}
},
"bias_gear":{
"options": {
"瑜伽静修场景": {"mode": "auto", "sub_mode": "denoise", "bias_gear": -20},
"室内对话场景": {"mode": "auto", "sub_mode": "denoise", "bias_gear": -10}
}
},
"bright": {
"options": {
"全亮": {"bright": 0},
"半亮": {"bright": 6},
"熄灭": {"bright": 7}
}
},
"gear": {
"options": {
"low": {"wind_speed": 1},
"medium": {"wind_speed": 2},
"high": {"wind_speed": 3}
}
},
"humidity": {
"options": {
"40%": {"humidity": 40},
"50%": {"humidity": 50},
"60%": {"humidity": 60},
"70%": {"humidity": 70}
}
},
},
Platform.SENSOR: {
"temperature_feedback": {
"device_class": SensorDeviceClass.TEMPERATURE,
"unit_of_measurement": UnitOfTemperature.CELSIUS,
"state_class": SensorStateClass.MEASUREMENT
},
"humidify_feedback": {
"device_class": SensorDeviceClass.HUMIDITY,
"unit_of_measurement": "%",
"state_class": SensorStateClass.MEASUREMENT
},
"hcho":{
"device_class": SensorDeviceClass.VOLATILE_ORGANIC_COMPOUNDS,
"unit_of_measurement": CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
"state_class": SensorStateClass.MEASUREMENT
},
"pm1":{
"device_class": SensorDeviceClass.PM1,
"unit_of_measurement": CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
"state_class": SensorStateClass.MEASUREMENT
},
"pm25":{
"device_class": SensorDeviceClass.PM25,
"unit_of_measurement": CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
"state_class": SensorStateClass.MEASUREMENT
},
"pm10":{
"device_class": SensorDeviceClass.PM10,
"unit_of_measurement": CONCENTRATION_MICROGRAMS_PER_CUBIC_METER,
"state_class": SensorStateClass.MEASUREMENT
}
}
}
}
}

14
custom_components/midea_auto_cloud/fan.py
View File

@@ -91,10 +91,14 @@ class MideaFanEntity(MideaEntity, FanEntity):
@property
def preset_modes(self):
if self._key_preset_modes is None:
return None
return list(self._key_preset_modes.keys())
@property
def preset_mode(self):
if self._key_preset_modes is None:
return None
return self._dict_get_selected(self._key_preset_modes)
@property
@@ -108,6 +112,10 @@ class MideaFanEntity(MideaEntity, FanEntity):
def oscillating(self):
return self._get_status_on_off(self._key_oscillate)
@property
def current_direction(self):
return self._dict_get_selected(self._key_directions)
async def async_turn_on(
self,
percentage: int | None = None,
@@ -147,3 +155,9 @@ class MideaFanEntity(MideaEntity, FanEntity):
if self.oscillating != oscillating:
await self._async_set_status_on_off(self._key_oscillate, oscillating)
async def async_set_direction(self, direction: str):
if not self._key_directions:
return
new_status = self._key_directions.get(direction)
if new_status:
await self.async_set_attributes(new_status)

2
custom_components/midea_auto_cloud/manifest.json
View File

@@ -7,5 +7,5 @@
"iot_class": "cloud_push",
"issue_tracker": "https://github.com/sususweet/midea-meiju-codec/issues",
"requirements": ["lupa>=2.0"],
"version": "v0.1.20"
"version": "v0.1.26"
}

2
custom_components/midea_auto_cloud/midea_entity.py
View File

@@ -125,7 +125,7 @@ class MideaEntity(CoordinatorEntity[MideaDataUpdateCoordinator], Entity):
@property
def device_attributes(self) -> dict:
"""Return device attributes."""
return self.coordinator.data.attributes
return self.coordinator.data.attributes if self.coordinator.data else {}
@property
def available(self) -> bool:

132
custom_components/midea_auto_cloud/translations/en.json
View File

@@ -123,6 +123,12 @@
},
"entity": {
"binary_sensor": {
"heating_work": {
"name": "Heating Work"
},
"bathing_work": {
"name": "Bathing Work"
},
"doorswitch": {
"name": "Door Switch"
},
@@ -314,6 +320,13 @@
"thermostat": {
"name": "Thermostat",
"state_attributes": {
"preset_modes": {
"state": {
"auto": "auto",
"link": "link",
"manual": "manual"
}
},
"fan_mode": {
"state": {
"silent": "Silent",
@@ -322,6 +335,12 @@
}
}
},
"zone1": {
"name": "区域1"
},
"dhw": {
"name": "DHW"
},
"colmo_turing_central_ac_climate": {
"name": "Thermostat",
"state_attributes": {
@@ -349,6 +368,18 @@
}
},
"select": {
"bright": {
"name": "Brightness"
},
"bias_gear": {
"name": "Bias Gear"
},
"humidity": {
"name": "Humidity"
},
"b3_function_control": {
"name": "Disinfection Cabinet Control"
},
"b6_power": {
"name": "Smoke Machine Power"
},
@@ -627,6 +658,9 @@
}
},
"sensor": {
"fresh_air_temp": {
"name": "Fresh Air Temp"
},
"running_status": {
"name": "Running Status"
},
@@ -642,6 +676,9 @@
"move_direction": {
"name": "Move Direction"
},
"work_status": {
"name": "Work Status"
},
"sub_work_status": {
"name": "Sub Work Status"
},
@@ -669,6 +706,21 @@
"auto_min_set_temp": {
"name": "Auto Min Set Temp"
},
"b3_upstair_status": {
"name": "Disinfection Cabinet Status"
},
"b7_left_status": {
"name": "Left Stove Status"
},
"b7_left_gear": {
"name": "Left Stove Gear"
},
"b7_right_status": {
"name": "Right Stove Status"
},
"b7_right_gear": {
"name": "Left Stove Gear"
},
"bath_out_volume": {
"name": "Bath Out Volume"
},
@@ -1197,6 +1249,9 @@
"work_time": {
"name": "Work Time"
},
"set_time": {
"name": "Set Time"
},
"zero_cold_tem": {
"name": "Zero Cold Temperature"
},
@@ -1380,6 +1435,48 @@
"ud_diy_up_percent": {
"name": "UD DIY Up Percent"
},
"heat_exchanger": {
"name": "Heat Exchanger Mode"
},
"fan_type": {
"name": "Fan Type"
},
"ignitor_output": {
"name": "Ignitor Output"
},
"fan_output": {
"name": "Fan Output"
},
"current_heat_set_temperature": {
"name": "Current Heat Set Temperature"
},
"current_bath_set_temperature": {
"name": "Current Bath Set Temperature"
},
"heat_out_water_temperature": {
"name": "Heat Out Water Temperature"
},
"bath_out_water_temperature": {
"name": "Bath Out Water Temperature"
},
"water_gage": {
"name": "Water Gage"
},
"in_tds": {
"name": "In TDS"
},
"out_tds": {
"name": "Out TDS"
},
"life_1": {
"name": "RO Filter Cartridge Lifespan"
},
"life_2": {
"name": "MPC Filter Cartridge Lifespan"
},
"water_consumption": {
"name": "Water Consumption"
},
"water_consumption_ml": {
"name": "Water Consumption (ml)"
},
@@ -1434,6 +1531,9 @@
"left_status": {
"name": "Left Status"
},
"right_status": {
"name": "Right Status"
},
"eq_recipe_action": {
"name": "Eq Recipe Action"
},
@@ -1499,6 +1599,12 @@
},
"heat_temp_set": {
"name": "Heat Temperature Set"
},
"tw1_in_water_temp": {
"name": "Inlet Water Temperature"
},
"tw1_out_water_temp": {
"name": "Outlet Water Temperature"
}
},
"light": {
@@ -1562,6 +1668,18 @@
}
},
"switch": {
"winter_mode": {
"name": "Winter Mode"
},
"summer_mode": {
"name": "Summer Mode"
},
"follow_body_sense_enable": {
"name": "Follow Body Sense"
},
"waterions": {
"name": "Disinfection"
},
"mute": {
"name": "Mute"
},
@@ -1815,7 +1933,7 @@
"name": "CO2 Check Enable"
},
"cold_water": {
"name": "Cold Water"
"name": "Cold Water Single Loop"
},
"cold_water_ai": {
"name": "Cold Water AI"
@@ -2452,6 +2570,18 @@
},
"work_switch": {
"name": "Work Switch"
},
"water_model_power_save": {
"name": "Power Save Mode"
},
"water_model_go_out": {
"name": "Away Mode"
},
"fastdhw_state": {
"name": "Fast Hot Water"
},
"forcetbh_state": {
"name": "Force Standby"
}
}
}

132
custom_components/midea_auto_cloud/translations/zh-Hans.json
View File

@@ -123,6 +123,12 @@
},
"entity": {
"binary_sensor": {
"heating_work": {
"name": "采暖功能状态"
},
"bathing_work": {
"name": "生活热水工作状态"
},
"doorswitch": {
"name": "门锁开关"
},
@@ -314,6 +320,13 @@
"thermostat": {
"name": "温控器",
"state_attributes": {
"preset_modes": {
"state": {
"auto": "自动",
"link": "联动",
"manual": "手动"
}
},
"fan_mode": {
"state": {
"silent": "静音",
@@ -322,6 +335,12 @@
}
}
},
"zone1": {
"name": "区域1"
},
"dhw": {
"name": "DHW"
},
"colmo_turing_central_ac_climate": {
"name": "温控器",
"state_attributes": {
@@ -353,6 +372,18 @@
}
},
"select": {
"bright": {
"name": "亮度"
},
"bias_gear": {
"name": "降噪设置"
},
"humidity": {
"name": "设定湿度"
},
"b3_function_control": {
"name": "消毒柜控制"
},
"b6_power": {
"name": "烟机开关"
},
@@ -631,6 +662,9 @@
}
},
"sensor": {
"fresh_air_temp": {
"name": "新风温度"
},
"running_status": {
"name": "运行状态"
},
@@ -646,6 +680,9 @@
"move_direction": {
"name": "移动方向"
},
"work_status": {
"name": "工作状态"
},
"sub_work_status": {
"name": "子工作状态"
},
@@ -673,6 +710,21 @@
"auto_min_set_temp": {
"name": "自动最小设定温度"
},
"b3_upstair_status": {
"name": "消毒柜状态"
},
"b7_left_status": {
"name": "左灶状态"
},
"b7_left_gear": {
"name": "左灶档位"
},
"b7_right_status": {
"name": "右灶状态"
},
"b7_right_gear": {
"name": "右灶档位"
},
"bath_out_volume": {
"name": "浴缸出水量"
},
@@ -1201,6 +1253,9 @@
"work_time": {
"name": "工作时间"
},
"set_time": {
"name": "设置工作时间"
},
"zero_cold_tem": {
"name": "零冷水温度"
},
@@ -1384,6 +1439,48 @@
"ud_diy_up_percent": {
"name": "上下自定义上百分比"
},
"heat_exchanger": {
"name": "采暖模式"
},
"fan_type": {
"name": "风机模式"
},
"ignitor_output": {
"name": "点火状态"
},
"fan_output": {
"name": "风机状态"
},
"current_heat_set_temperature": {
"name": "当前采暖设定温度"
},
"current_bath_set_temperature": {
"name": "当前生活热水设定温度"
},
"heat_out_water_temperature": {
"name": "采暖出水实际温度"
},
"bath_out_water_temperature": {
"name": "生活用水出水实际温度"
},
"water_gage": {
"name": "水压"
},
"in_tds": {
"name": "进水TDS"
},
"out_tds": {
"name": "出水TDS"
},
"life_1": {
"name": "RO滤芯寿命"
},
"life_2": {
"name": "MPC滤芯寿命"
},
"water_consumption": {
"name": "用水量"
},
"water_consumption_ml": {
"name": "用水量(毫升)"
},
@@ -1438,6 +1535,9 @@
"left_status": {
"name": "左侧状态"
},
"right_status": {
"name": "右侧状态"
},
"eq_recipe_action": {
"name": "等量食谱动作"
},
@@ -1503,6 +1603,12 @@
},
"heat_temp_set": {
"name": "制热设定温度"
},
"tw1_in_water_temp": {
"name": "进水温度"
},
"tw1_out_water_temp": {
"name": "出水温度"
}
},
"light": {
@@ -1566,6 +1672,18 @@
}
},
"switch": {
"winter_mode": {
"name": "冬季模式"
},
"summer_mode": {
"name": "夏季模式"
},
"follow_body_sense_enable": {
"name": "随身感"
},
"waterions": {
"name": "消杀"
},
"mute": {
"name": "静音"
},
@@ -1819,7 +1937,7 @@
"name": "CO2检测启用"
},
"cold_water": {
"name": "零冷水"
"name": "零冷水单次循环"
},
"cold_water_ai": {
"name": "AI零冷水"
@@ -2456,6 +2574,18 @@
},
"work_switch": {
"name": "工作开关"
},
"water_model_power_save": {
"name": "节能模式"
},
"water_model_go_out": {
"name": "外出模式"
},
"fastdhw_state": {
"name": "快速生活热水"
},
"forcetbh_state": {
"name": "强制待机"
}
}
}