python-kasa/kasa/smartdevice.py
Teemu R 51af7809ec
Ignore D202 where necessary (#50)
This is required as https://github.com/PyCQA/pydocstyle/pull/426 does not
fix the issue for async def'd inner functions.
2020-04-25 21:21:39 +02:00

679 lines
20 KiB
Python
Executable File

"""Python library supporting TP-Link Smart Home devices.
The communication protocol was reverse engineered by Lubomir Stroetmann and
Tobias Esser in 'Reverse Engineering the TP-Link HS110':
https://www.softscheck.com/en/reverse-engineering-tp-link-hs110/
This library reuses codes and concepts of the TP-Link WiFi SmartPlug Client
at https://github.com/softScheck/tplink-smartplug, developed by Lubomir
Stroetmann which is licensed under the Apache License, Version 2.0.
You may obtain a copy of the license at
http://www.apache.org/licenses/LICENSE-2.0
"""
import functools
import inspect
import logging
from dataclasses import dataclass
from datetime import datetime, timedelta
from enum import Enum
from typing import Any, Dict, List, Optional
from kasa.protocol import TPLinkSmartHomeProtocol
_LOGGER = logging.getLogger(__name__)
class DeviceType(Enum):
"""Device type enum."""
Plug = 1
Bulb = 2
Strip = 3
Dimmer = 4
Unknown = -1
@dataclass
class WifiNetwork:
"""Wifi network container."""
ssid: str
key_type: int
# These are available only on softaponboarding
cipher_type: Optional[int] = None
bssid: Optional[str] = None
channel: Optional[int] = None
rssi: Optional[int] = None
class SmartDeviceException(Exception):
"""Base exception for device errors."""
class EmeterStatus(dict):
"""Container for converting different representations of emeter data.
Newer FW/HW versions postfix the variable names with the used units,
where-as the olders do not have this feature.
This class automatically converts between these two to allow
backwards and forwards compatibility.
"""
def __getitem__(self, item):
valid_keys = [
"voltage_mv",
"power_mw",
"current_ma",
"energy_wh",
"total_wh",
"voltage",
"power",
"current",
"total",
"energy",
]
# 1. if requested data is available, return it
if item in super().keys():
return super().__getitem__(item)
# otherwise decide how to convert it
else:
if item not in valid_keys:
raise KeyError(item)
if "_" in item: # upscale
return super().__getitem__(item[: item.find("_")]) * 1000
else: # downscale
for i in super().keys():
if i.startswith(item):
return self.__getitem__(i) / 1000
raise SmartDeviceException("Unable to find a value for '%s'" % item)
def requires_update(f):
"""Indicate that `update` should be called before accessing this method.""" # noqa: D202
if inspect.iscoroutinefunction(f):
@functools.wraps(f)
async def wrapped(*args, **kwargs):
self = args[0]
assert self._sys_info is not None
return await f(*args, **kwargs)
else:
@functools.wraps(f)
def wrapped(*args, **kwargs):
self = args[0]
assert self._sys_info is not None
return f(*args, **kwargs)
f.requires_update = True
return wrapped
class SmartDevice:
"""Base class for all supported device types."""
def __init__(self, host: str) -> None:
"""Create a new SmartDevice instance.
:param str host: host name or ip address on which the device listens
:param child_id: optional child ID for context in a parent device
"""
self.host = host
self.protocol = TPLinkSmartHomeProtocol()
self.emeter_type = "emeter"
_LOGGER.debug("Initializing %s of type %s", self.host, type(self))
self._device_type = DeviceType.Unknown
self._sys_info: Optional[Dict] = None
async def _query_helper(
self, target: str, cmd: str, arg: Optional[Dict] = None, child_ids=None
) -> Any:
"""Handle result unwrapping and error handling.
:param target: Target system {system, time, emeter, ..}
:param cmd: Command to execute
:param arg: JSON object passed as parameter to the command
:return: Unwrapped result for the call.
:rtype: dict
:raises SmartDeviceException: if command was not executed correctly
"""
request: Dict[str, Any] = {target: {cmd: arg}}
if child_ids is not None:
request = {"context": {"child_ids": child_ids}, target: {cmd: arg}}
try:
response = await self.protocol.query(host=self.host, request=request)
except Exception as ex:
raise SmartDeviceException(f"Communication error on {target}:{cmd}") from ex
if target not in response:
raise SmartDeviceException(f"No required {target} in response: {response}")
result = response[target]
if "err_code" in result and result["err_code"] != 0:
raise SmartDeviceException(f"Error on {target}.{cmd}: {result}")
if cmd not in result:
raise SmartDeviceException(f"No command in response: {response}")
result = result[cmd]
if "err_code" in result and result["err_code"] != 0:
raise SmartDeviceException(f"Error on {target} {cmd}: {result}")
if "err_code" in result:
del result["err_code"]
return result
@property # type: ignore
@requires_update
def has_emeter(self) -> bool:
"""Return whether device has an energy meter.
:return: True if energy meter is available
False otherwise
"""
sys_info = self.sys_info
features = sys_info["feature"].split(":")
return "ENE" in features
async def get_sys_info(self) -> Dict[str, Any]:
"""Retrieve system information.
:return: sysinfo
:rtype dict
:raises SmartDeviceException: on error
"""
return await self._query_helper("system", "get_sysinfo")
async def update(self):
"""Update some of the attributes.
Needed for methods that are decorated with `requires_update`.
"""
self._sys_info = await self.get_sys_info()
@property # type: ignore
@requires_update
def sys_info(self) -> Dict[str, Any]:
"""Retrieve system information.
:return: sysinfo
:rtype dict
:raises SmartDeviceException: on error
"""
assert self._sys_info is not None
return self._sys_info
@property # type: ignore
@requires_update
def model(self) -> str:
"""Return device model.
:return: device model
:rtype: str
:raises SmartDeviceException: on error
"""
sys_info = self.sys_info
return str(sys_info["model"])
@property # type: ignore
@requires_update
def alias(self) -> str:
"""Return device name (alias).
:return: Device name aka alias.
:rtype: str
"""
sys_info = self.sys_info
return str(sys_info["alias"])
async def set_alias(self, alias: str) -> None:
"""Set the device name (alias).
:param alias: New alias (name)
:raises SmartDeviceException: on error
"""
await self._query_helper("system", "set_dev_alias", {"alias": alias})
await self.update()
async def get_icon(self) -> Dict:
"""Return device icon.
Note: not working on HS110, but is always empty.
:return: icon and its hash
:rtype: dict
:raises SmartDeviceException: on error
"""
return await self._query_helper("system", "get_dev_icon")
def set_icon(self, icon: str) -> None:
"""Set device icon.
Content for hash and icon are unknown.
:param str icon: Icon path(?)
:raises NotImplementedError: when not implemented
:raises SmartPlugError: on error
"""
raise NotImplementedError()
# here just for the sake of completeness
# await self._query_helper("system",
# "set_dev_icon", {"icon": "", "hash": ""})
# self.initialize()
async def get_time(self) -> Optional[datetime]:
"""Return current time from the device.
:return: datetime for device's time
:rtype: datetime or None when not available
:raises SmartDeviceException: on error
"""
try:
res = await self._query_helper("time", "get_time")
return datetime(
res["year"],
res["month"],
res["mday"],
res["hour"],
res["min"],
res["sec"],
)
except SmartDeviceException:
return None
async def set_time(self, ts: datetime) -> None:
"""Set the device time.
Note: this calls set_timezone() for setting.
:param datetime ts: New date and time
:return: result
:type: dict
:raises NotImplemented: when not implemented.
:raises SmartDeviceException: on error
"""
raise NotImplementedError("Fails with err_code == 0 with HS110.")
"""
here just for the sake of completeness.
if someone figures out why it doesn't work,
please create a PR :-)
ts_obj = {
"index": self.timezone["index"],
"hour": ts.hour,
"min": ts.minute,
"sec": ts.second,
"year": ts.year,
"month": ts.month,
"mday": ts.day,
}
response = await self._query_helper("time", "set_timezone", ts_obj)
self.initialize()
return response
"""
async def get_timezone(self) -> Dict:
"""Return timezone information.
:return: Timezone information
:rtype: dict
:raises SmartDeviceException: on error
"""
return await self._query_helper("time", "get_timezone")
@property # type: ignore
@requires_update
def hw_info(self) -> Dict:
"""Return hardware information.
:return: Information about hardware
:rtype: dict
"""
keys = [
"sw_ver",
"hw_ver",
"mac",
"mic_mac",
"type",
"mic_type",
"hwId",
"fwId",
"oemId",
"dev_name",
]
sys_info = self.sys_info
return {key: sys_info[key] for key in keys if key in sys_info}
@property # type: ignore
@requires_update
def location(self) -> Dict:
"""Return geographical location.
:return: latitude and longitude
:rtype: dict
"""
sys_info = self.sys_info
loc = {"latitude": None, "longitude": None}
if "latitude" in sys_info and "longitude" in sys_info:
loc["latitude"] = sys_info["latitude"]
loc["longitude"] = sys_info["longitude"]
elif "latitude_i" in sys_info and "longitude_i" in sys_info:
loc["latitude"] = sys_info["latitude_i"]
loc["longitude"] = sys_info["longitude_i"]
else:
_LOGGER.warning("Unsupported device location.")
return loc
@property # type: ignore
@requires_update
def rssi(self) -> Optional[int]:
"""Return WiFi signal strenth (rssi).
:return: rssi
:rtype: int
"""
sys_info = self.sys_info
if "rssi" in sys_info:
return int(sys_info["rssi"])
return None
@property # type: ignore
@requires_update
def mac(self) -> str:
"""Return mac address.
:return: mac address in hexadecimal with colons, e.g. 01:23:45:67:89:ab
:rtype: str
"""
sys_info = self.sys_info
if "mac" in sys_info:
return str(sys_info["mac"])
elif "mic_mac" in sys_info:
return ":".join(
format(s, "02x") for s in bytes.fromhex(sys_info["mic_mac"])
)
raise SmartDeviceException(
"Unknown mac, please submit a bug report with sys_info output."
)
async def set_mac(self, mac):
"""Set the mac address.
:param str mac: mac in hexadecimal with colons, e.g. 01:23:45:67:89:ab
:raises SmartDeviceException: on error
"""
await self._query_helper("system", "set_mac_addr", {"mac": mac})
await self.update()
@requires_update
async def get_emeter_realtime(self) -> EmeterStatus:
"""Retrieve current energy readings.
:returns: current readings or False
:rtype: dict, None
:raises SmartDeviceException: on error
"""
if not self.has_emeter:
raise SmartDeviceException("Device has no emeter")
return EmeterStatus(await self._query_helper(self.emeter_type, "get_realtime"))
@requires_update
async def get_emeter_daily(
self, year: int = None, month: int = None, kwh: bool = True
) -> Dict:
"""Retrieve daily statistics for a given month.
:param year: year for which to retrieve statistics (default: this year)
:param month: month for which to retrieve statistics (default: this
month)
:param kwh: return usage in kWh (default: True)
:return: mapping of day of month to value
:rtype: dict
:raises SmartDeviceException: on error
"""
if not self.has_emeter:
raise SmartDeviceException("Device has no emeter")
if year is None:
year = datetime.now().year
if month is None:
month = datetime.now().month
response = await self._query_helper(
self.emeter_type, "get_daystat", {"month": month, "year": year}
)
response = [EmeterStatus(**x) for x in response["day_list"]]
key = "energy_wh"
if kwh:
key = "energy"
data = {entry["day"]: entry[key] for entry in response}
return data
@requires_update
async def get_emeter_monthly(self, year: int = None, kwh: bool = True) -> Dict:
"""Retrieve monthly statistics for a given year.
:param year: year for which to retrieve statistics (default: this year)
:param kwh: return usage in kWh (default: True)
:return: dict: mapping of month to value
:rtype: dict
:raises SmartDeviceException: on error
"""
if not self.has_emeter:
raise SmartDeviceException("Device has no emeter")
if year is None:
year = datetime.now().year
response = await self._query_helper(
self.emeter_type, "get_monthstat", {"year": year}
)
response = [EmeterStatus(**x) for x in response["month_list"]]
key = "energy_wh"
if kwh:
key = "energy"
return {entry["month"]: entry[key] for entry in response}
@requires_update
async def erase_emeter_stats(self):
"""Erase energy meter statistics.
:return: True if statistics were deleted
:raises SmartDeviceException: on error
"""
if not self.has_emeter:
raise SmartDeviceException("Device has no emeter")
await self._query_helper(self.emeter_type, "erase_emeter_stat", None)
await self.update()
@requires_update
async def current_consumption(self) -> float:
"""Get the current power consumption in Watt.
:return: the current power consumption in Watts.
:raises SmartDeviceException: on error
"""
if not self.has_emeter:
raise SmartDeviceException("Device has no emeter")
response = EmeterStatus(await self.get_emeter_realtime())
return response["power"]
async def reboot(self, delay=1) -> None:
"""Reboot the device.
Note that giving a delay of zero causes this to block,
as the device reboots immediately without responding to the call.
:param delay: Delay the reboot for `delay` seconds.
:return: None
"""
await self._query_helper("system", "reboot", {"delay": delay})
async def turn_off(self) -> None:
"""Turn off the device."""
raise NotImplementedError("Device subclass needs to implement this.")
@property # type: ignore
@requires_update
def is_off(self) -> bool:
"""Return True if device is off.
:return: True if device is off, False otherwise.
:rtype: bool
"""
return not self.is_on
async def turn_on(self) -> None:
"""Turn device on."""
raise NotImplementedError("Device subclass needs to implement this.")
@property # type: ignore
@requires_update
def is_on(self) -> bool:
"""Return if the device is on.
:return: True if the device is on, False otherwise.
:rtype: bool
:return:
"""
raise NotImplementedError("Device subclass needs to implement this.")
@property # type: ignore
@requires_update
def on_since(self) -> Optional[datetime]:
"""Return pretty-printed on-time, if available.
Returns None if the device is turned off or does not report it.
"""
if "on_time" not in self.sys_info:
return None
if self.is_off:
return None
on_time = self.sys_info["on_time"]
return datetime.now() - timedelta(seconds=on_time)
@property # type: ignore
@requires_update
def state_information(self) -> Dict[str, Any]:
"""Return device-type specific, end-user friendly state information.
:return: dict with state information.
:rtype: dict
"""
raise NotImplementedError("Device subclass needs to implement this.")
@property # type: ignore
@requires_update
def device_id(self) -> str:
"""Return unique ID for the device.
This is the MAC address of the device.
"""
return self.mac
async def wifi_scan(self) -> List[WifiNetwork]: # noqa: D202
"""Scan for available wifi networks."""
async def _scan(target):
return await self._query_helper(target, "get_scaninfo", {"refresh": 1})
try:
info = await _scan("netif")
except SmartDeviceException as ex:
_LOGGER.debug(
"Unable to scan using 'netif', retrying with 'softaponboarding': %s", ex
)
info = await _scan("smartlife.iot.common.softaponboarding")
if "ap_list" not in info:
raise SmartDeviceException("Invalid response for wifi scan: %s" % info)
return [WifiNetwork(**x) for x in info["ap_list"]]
async def wifi_join(self, ssid, password, keytype=3): # noqa: D202
"""Join the given wifi network.
If joining the network fails, the device will return to AP mode after a while.
"""
async def _join(target, payload):
return await self._query_helper(target, "set_stainfo", payload)
payload = {"ssid": ssid, "password": password, "key_type": keytype}
try:
return await _join("netif", payload)
except SmartDeviceException as ex:
_LOGGER.debug(
"Unable to join using 'netif', retrying with 'softaponboarding': %s", ex
)
return await _join("smartlife.iot.common.softaponboarding", payload)
@property
def device_type(self) -> DeviceType:
"""Return the device type."""
return self._device_type
@property
def is_bulb(self) -> bool:
"""Return True if the device is a bulb."""
return self._device_type == DeviceType.Bulb
@property
def is_plug(self) -> bool:
"""Return True if the device is a plug."""
return self._device_type == DeviceType.Plug
@property
def is_strip(self) -> bool:
"""Return True if the device is a strip."""
return self._device_type == DeviceType.Strip
@property
def is_dimmer(self) -> bool:
"""Return True if the device is a dimmer."""
return self._device_type == DeviceType.Dimmer
@property
def is_dimmable(self) -> bool:
"""Return True if the device is dimmable."""
return False
@property
def is_variable_color_temp(self) -> bool:
"""Return True if the device supports color temperature."""
return False
def __repr__(self):
return "<{} model {} at {} ({}), is_on: {} - dev specific: {}>".format(
self.__class__.__name__,
self.model,
self.host,
self.alias,
self.is_on,
self.state_information,
)