python-kasa/pyHS100/smartdevice.py
Teemu R 2d60467bea
API and tests cleanup (#151)
* Add new cli commands: raw_command and dump_discover

- raw_command can be used to execute raw commands with given parameters
  * Useful for testing new calls before implementing them properly

- dump_discover can be used to dump the device discovery information (into a file)
  * The discovery is extended to request more modules and methods from devices
    * smartlife.iot.dimmer get_dimmer_parameters
    * smartlife.iot.common.emeter get_realtime
    * smartlife.iot.smartbulb.lightingservice get_light_state
  * This is used to dump more information for proper tests, and will also allow better discovery in the future

This commit contains also some documentation updates and dropping click_datetime in favor of click's built-in datetime

* Docstring fixes

* Major API cleanup

Properties shall no more change the state of the device, this work in still in progress, the main goal being making the API more user-friendly and to make implementing new features simpler.

The newly deprecated functionality will remain working and will simply warn the user about deprecation.
Previously deprecated 'features' property and 'identify' method are now finally removed.

Deprecate and replace the following property setters:
* state with turn_on() and turn_off()
* hsv with set_hsv()
* color_temp with set_color_temp()
* brightness with set_brightness()
* led with set_led()
* alias with set_alias()
* mac with set_mac()

And getters:
* state with is_on and is_off

The {BULB,PLUG}_STATE_{ON,OFF} is simplified to STATE_ON and STATE_OFF, UNKNOWN state is removed.
These are now deprecated and will be removed in the future.
* is_on and is_off can be used to check for the state
* turn_on() and turn_off() for changing the device state.

Trying to use functionality not supported by the device will cause SmartDeviceExceptions instead of failing silently and/or returning None.
This includes, e.g., trying to set a color temperature on non-supported bulb.

ValueErrors are raised instead of SmartDeviceExceptions where appropriate (e.g. when trying to set an invalid hsv or brightness).

New enum type DeviceType is added to allow detecting device types without resorting to isinstance() calling. SmartDevice class' device_type property can be used to query the type. is_plug and is_bulb helpers are added.

* Cleanup tests and improve test coverage

* Make writing tests easier by sharing code for common implementations
* Instead of storing test data inside python files, dump-discover based information is used
  * This will simplify adding new tests and remove code duplication
  * fixtures are based on https://github.com/plasticrake/tplink-smarthome-simulator

* run black on newfakes

* Add HS300 tests and update SmartStrip API according to earlier changes, still WIP

* run black and avoid wildcard imports

* Black on conftest

* bump minimum required version to 3.5

* Rename fixture_tests to test_fixtures for autocollect

* fix typoed type to _type, black

* run black on several files with -79 to fix hound issues

* Fix broken merge on hue

* Fix tests (hue update, pass context to smartdevice), add is_strip property, disable emeter tests for HS300 until a solution for API is found.

* Fix old tests

* Run black on changed files

* Add real HS220 discovery, thanks to @poiyo

* add is_dimmable and is_variable_color_temp to smartdevice class, simplifies interfacing with homeassistant

* add KL120(US) fixture

* Add a simple query cache

This commit adds a simple query cache to speed up the process for users
requesting lots of different properties from the device, as done by the
cli tool as well as homeassistant.

The logic for caching is very simple:
1. A timestamp for last fetch for each module+command is stored alongside the response.
2. If the issued command starts with `get_` and the TTL has not expired, the cache result is returned.
3. Otherwise the cache for the whole corresponding module gets invalidated, the device will be queried and the result will be stored in the cache.

* add deprecation to tox.ini

* make tests pass again

* remove old tests, add flake8 to tox reqs

* run black against pyhs100 module, add it to precommit hooks, fix flake8 configuration to conform to black standards (https://ljvmiranda921.github.io/notebook/2018/06/21/precommits-using-black-and-flake8/)

* fix syntax

* cleanup conftest
2019-06-16 17:05:00 -04:00

627 lines
19 KiB
Python
Executable File

"""
pyHS100
Python library supporting TP-Link Smart Plugs/Switches (HS100/HS110/Hs200).
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
"""
from datetime import datetime, timedelta
import logging
from collections import defaultdict
from typing import Any, Dict, Optional
from enum import Enum
from deprecation import deprecated
from .protocol import TPLinkSmartHomeProtocol
_LOGGER = logging.getLogger(__name__)
class DeviceType(Enum):
"""Device type enum."""
Plug = 1
Bulb = 2
Strip = 3
Unknown = -1
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("_")]) * 10 ** 3
else: # downscale
for i in super().keys():
if i.startswith(item):
return self.__getitem__(i) / 10 ** 3
raise SmartDeviceException("Unable to find a value for '%s'" % item)
class SmartDevice:
"""Base class for all supported device types."""
STATE_ON = "ON"
STATE_OFF = "OFF"
def __init__(
self,
host: str,
protocol: Optional[TPLinkSmartHomeProtocol] = None,
context: str = None,
cache_ttl: int = 3,
) -> None:
"""Create a new SmartDevice instance.
:param str host: host name or ip address on which the device listens
:param context: optional child ID for context in a parent device
"""
self.host = host
if protocol is None: # pragma: no cover
protocol = TPLinkSmartHomeProtocol()
self.protocol = protocol
self.emeter_type = "emeter" # type: str
self.context = context
self.num_children = 0
self.cache_ttl = timedelta(seconds=cache_ttl)
_LOGGER.debug(
"Initializing %s using context %s and cache ttl %s",
self.host,
self.context,
self.cache_ttl,
)
self.cache = defaultdict(lambda: defaultdict(lambda: None))
self._device_type = DeviceType.Unknown
def _result_from_cache(self, target, cmd) -> Optional[Dict]:
"""Return query result from cache if still fresh.
Only results from commands starting with `get_` are considered cacheable.
:param target: Target system
:param cmd: Command
:rtype: query result or None if expired.
"""
_LOGGER.debug("Checking cache for %s %s", target, cmd)
if cmd not in self.cache[target]:
return None
cached = self.cache[target][cmd]
if cached and cached["last_updated"] is not None:
if cached[
"last_updated"
] + self.cache_ttl > datetime.utcnow() and cmd.startswith("get_"):
_LOGGER.debug("Got cached %s %s", target, cmd)
return self.cache[target][cmd]
else:
_LOGGER.debug("Invalidating the cache for %s cmd %s", target, cmd)
for cache_entry in self.cache[target].values():
cache_entry["last_updated"] = datetime.utcfromtimestamp(0)
return None
def _insert_to_cache(self, target: str, cmd: str, response: Dict) -> None:
"""Internal function to add response to cache.
:param target: Target system
:param cmd: Command
:param response: Response to be cached
"""
self.cache[target][cmd] = response.copy()
self.cache[target][cmd]["last_updated"] = datetime.utcnow()
def _query_helper(self, target: str, cmd: str, arg: Optional[Dict] = 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
"""
if self.context is None:
request = {target: {cmd: arg}}
else:
request = {"context": {"child_ids": [self.context]}, target: {cmd: arg}}
try:
response = self._result_from_cache(target, cmd)
if response is None:
_LOGGER.debug("Got no result from cache, querying the device.")
response = self.protocol.query(host=self.host, request=request)
self._insert_to_cache(target, cmd, response)
except Exception as ex:
raise SmartDeviceException(
"Communication error on %s:%s" % (target, cmd)
) from ex
if target not in response:
raise SmartDeviceException(
"No required {} in response: {}".format(target, response)
)
result = response[target]
if "err_code" in result and result["err_code"] != 0:
raise SmartDeviceException("Error on {}.{}: {}".format(target, cmd, result))
if cmd not in result:
raise SmartDeviceException("No command in response: {}".format(response))
result = result[cmd]
if "err_code" in result and result["err_code"] != 0:
raise SmartDeviceException("Error on {} {}: {}".format(target, cmd, result))
if "err_code" in result:
del result["err_code"]
return result
@property
def has_emeter(self) -> bool:
"""Return if device has an energy meter.
:return: True if energey meter is available
False if energymeter is missing
"""
raise NotImplementedError()
@property
def sys_info(self) -> Dict[str, Any]:
"""Return the complete system information.
:return: System information dict.
:rtype: dict
"""
return self.get_sysinfo()
def get_sysinfo(self) -> Dict:
"""Retrieve system information.
:return: sysinfo
:rtype dict
:raises SmartDeviceException: on error
"""
return self._query_helper("system", "get_sysinfo")
@property
def model(self) -> str:
"""Return device model.
:return: device model
:rtype: str
:raises SmartDeviceException: on error
"""
return str(self.sys_info["model"])
@property
def alias(self) -> str:
"""Return device name (alias).
:return: Device name aka alias.
:rtype: str
"""
return str(self.sys_info["alias"])
def get_alias(self) -> str:
return self.alias
@alias.setter # type: ignore
@deprecated(details="use set_alias")
def alias(self, alias: str) -> None:
self.set_alias(alias)
def set_alias(self, alias: str) -> None:
"""Set the device name (alias).
:param alias: New alias (name)
:raises SmartDeviceException: on error
"""
self._query_helper("system", "set_dev_alias", {"alias": alias})
@property
def 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 self._query_helper("system", "get_dev_icon")
@icon.setter
def 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
# self._query_helper("system",
# "set_dev_icon", {"icon": "", "hash": ""})
# self.initialize()
@property
def 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 = self._query_helper("time", "get_time")
return datetime(
res["year"],
res["month"],
res["mday"],
res["hour"],
res["min"],
res["sec"],
)
except SmartDeviceException:
return None
@time.setter
def 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 = self._query_helper("time", "set_timezone", ts_obj)
self.initialize()
return response
"""
@property
def timezone(self) -> Dict:
"""Return timezone information.
:return: Timezone information
:rtype: dict
:raises SmartDeviceException: on error
"""
return self._query_helper("time", "get_timezone")
@property
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",
]
info = self.sys_info
return {key: info[key] for key in keys if key in info}
@property
def location(self) -> Dict:
"""Return geographical location.
:return: latitude and longitude
:rtype: dict
"""
info = self.sys_info
loc = {"latitude": None, "longitude": None}
if "latitude" in info and "longitude" in info:
loc["latitude"] = info["latitude"]
loc["longitude"] = info["longitude"]
elif "latitude_i" in info and "longitude_i" in info:
loc["latitude"] = info["latitude_i"]
loc["longitude"] = info["longitude_i"]
else:
_LOGGER.warning("Unsupported device location.")
return loc
@property
def rssi(self) -> Optional[int]:
"""Return WiFi signal strenth (rssi).
:return: rssi
:rtype: int
"""
if "rssi" in self.sys_info:
return int(self.sys_info["rssi"])
return None
@property
def mac(self) -> str:
"""Return mac address.
:return: mac address in hexadecimal with colons, e.g. 01:23:45:67:89:ab
:rtype: str
"""
info = self.sys_info
if "mac" in info:
return str(info["mac"])
elif "mic_mac" in info:
return ":".join(format(s, "02x") for s in bytes.fromhex(info["mic_mac"]))
raise SmartDeviceException(
"Unknown mac, please submit a bug " "with sysinfo output."
)
@mac.setter
@deprecated(details="use set_mac")
def mac(self, mac: str) -> None:
self.set_mac(mac)
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
"""
self._query_helper("system", "set_mac_addr", {"mac": mac})
def get_emeter_realtime(self) -> EmeterStatus:
"""Retrive current energy readings.
:returns: current readings or False
:rtype: dict, None
None if device has no energy meter or error occurred
:raises SmartDeviceException: on error
"""
if not self.has_emeter:
raise SmartDeviceException("Device has no emeter")
return EmeterStatus(self._query_helper(self.emeter_type, "get_realtime"))
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
None if device has no energy meter or error occurred
: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 = 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
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
None if device has no energy meter
: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 = 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}
def erase_emeter_stats(self) -> bool:
"""Erase energy meter statistics.
:return: True if statistics were deleted
False if device has no energy meter.
:rtype: bool
:raises SmartDeviceException: on error
"""
if not self.has_emeter:
raise SmartDeviceException("Device has no emeter")
self._query_helper(self.emeter_type, "erase_emeter_stat", None)
# As query_helper raises exception in case of failure, we have
# succeeded when we are this far.
return True
def current_consumption(self) -> Optional[float]:
"""Get the current power consumption in Watt.
:return: the current power consumption in Watts.
None if device has no energy meter.
:raises SmartDeviceException: on error
"""
if not self.has_emeter:
raise SmartDeviceException("Device has no emeter")
response = EmeterStatus(self.get_emeter_realtime())
return response["power"]
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
"""
self._query_helper("system", "reboot", {"delay": delay})
def turn_off(self) -> None:
"""Turn off the device."""
raise NotImplementedError("Device subclass needs to implement this.")
@property
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
def turn_on(self) -> None:
"""Turn device on."""
raise NotImplementedError("Device subclass needs to implement this.")
@property
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
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
def device_type(self) -> DeviceType:
"""Return the device type."""
return self._device_type
@property
def is_bulb(self) -> bool:
return self._device_type == DeviceType.Bulb
@property
def is_plug(self) -> bool:
return self._device_type == DeviceType.Plug
@property
def is_strip(self) -> bool:
return self._device_type == DeviceType.Strip
@property
def is_dimmable(self):
return False
@property
def is_variable_color_temp(self) -> bool:
return False
def __repr__(self):
is_on = self.is_on
if callable(is_on):
is_on = is_on()
return "<%s at %s (%s), is_on: %s - dev specific: %s>" % (
self.__class__.__name__,
self.model,
self.host,
self.alias,
is_on,
self.state_information,
)