""" 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 """ import datetime import logging import socket from .types import SmartDeviceException from .protocol import TPLinkSmartHomeProtocol _LOGGER = logging.getLogger(__name__) class SmartDevice(object): # possible device features FEATURE_ENERGY_METER = 'ENE' FEATURE_TIMER = 'TIM' ALL_FEATURES = (FEATURE_ENERGY_METER, FEATURE_TIMER) def __init__(self, ip_address, protocol=None): """ Create a new SmartDevice instance, identified through its IP address. :param str ip_address: ip address on which the device listens :raises SmartPlugException: when unable to communicate with the device """ socket.inet_pton(socket.AF_INET, ip_address) self.ip_address = ip_address if not protocol: protocol = TPLinkSmartHomeProtocol() self.protocol = protocol def _query_helper(self, target, cmd, arg=None): """ Helper returning unwrapped result object and doing 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 SmartPlugException: if command was not executed correctly """ if arg is None: arg = {} try: response = self.protocol.query( host=self.ip_address, request={target: {cmd: arg}} ) except Exception as ex: raise SmartDeviceException('Communication error') 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)) result = result[cmd] del result["err_code"] return result @property def features(self): """ Returns features of the devices :return: list of features :rtype: list """ features = self.sys_info['feature'].split(':') for feature in features: if feature not in SmartDevice.ALL_FEATURES: _LOGGER.warning("Unknown feature %s on device %s.", feature, self.model) return features @property def has_emeter(self): """ Checks feature list for energey meter support. :return: True if energey meter is available False if energymeter is missing """ return SmartDevice.FEATURE_ENERGY_METER in self.features @property def sys_info(self): """ Returns the complete system information from the device. :return: System information dict. :rtype: dict """ return self.get_sysinfo() def get_sysinfo(self): """ Retrieve system information. :return: sysinfo :rtype dict :raises SmartPlugException: on error """ return self._query_helper("system", "get_sysinfo") def identify(self): """ Query device information to identify model and featureset :return: (alias, model, list of supported features) :rtype: tuple """ info = self.sys_info # TODO sysinfo parsing should happen in sys_info # to avoid calling fetch here twice.. return info["alias"], info["model"], self.features @property def model(self): """ Get model of the device :return: device model :rtype: str :raises SmartPlugException: on error """ return self.sys_info['model'] @property def alias(self): """ Get current device alias (name) :return: Device name aka alias. :rtype: str """ return self.sys_info['alias'] @alias.setter def alias(self, alias): """ Sets the device name aka alias. :param alias: New alias (name) :raises SmartPlugException: on error """ self._query_helper("system", "set_dev_alias", {"alias": alias}) @property def icon(self): """ Returns device icon Note: not working on HS110, but is always empty. :return: icon and its hash :rtype: dict :raises SmartPlugException: on error """ return self._query_helper("system", "get_dev_icon") @icon.setter def icon(self, 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): """ Returns current time from the device. :return: datetime for device's time :rtype: datetime.datetime :raises SmartPlugException: on error """ res = self._query_helper("time", "get_time") return datetime.datetime(res["year"], res["month"], res["mday"], res["hour"], res["min"], res["sec"]) @time.setter def time(self, ts): """ Sets time based on datetime object. Note: this calls set_timezone() for setting. :param datetime.datetime ts: New date and time :return: result :type: dict :raises NotImplemented: when not implemented. :raises SmartPlugException: 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): """ Returns timezone information :return: Timezone information :rtype: dict :raises SmartPlugException: on error """ return self._query_helper("time", "get_timezone") @property def hw_info(self): """ Returns information about hardware :return: Information about hardware :rtype: dict """ keys = ["sw_ver", "hw_ver", "mac", "hwId", "fwId", "oemId", "dev_name"] info = self.sys_info return {key: info[key] for key in keys} @property def location(self): """ Location of the device, as read from sysinfo :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): """ Returns WiFi signal strenth (rssi) :return: rssi :rtype: int """ return self.sys_info["rssi"] @property def mac(self): """ Returns mac address :return: mac address in hexadecimal with colons, e.g. 01:23:45:67:89:ab :rtype: str """ return self.sys_info["mac"] @mac.setter def mac(self, mac): """ Sets new mac address :param str mac: mac in hexadecimal with colons, e.g. 01:23:45:67:89:ab :raises SmartPlugException: on error """ self._query_helper("system", "set_mac_addr", {"mac": mac}) def get_emeter_realtime(self): """ Retrive current energy readings from device. :returns: current readings or False :rtype: dict, False False if device has no energy meter or error occured :raises SmartPlugException: on error """ if not self.has_emeter: return False return self._query_helper(self.emeter_type, "get_realtime") def get_emeter_daily(self, year=None, month=None): """ 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 statistcs (default: this month) :return: mapping of day of month to value False if device has no energy meter or error occured :rtype: dict :raises SmartPlugException: on error """ if not self.has_emeter: return False if year is None: year = datetime.datetime.now().year if month is None: month = datetime.datetime.now().month response = self._query_helper(self.emeter_type, "get_daystat", {'month': month, 'year': year}) if self.emeter_units: key = 'energy_wh' else: key = 'energy' return {entry['day']: entry[key] for entry in response['day_list']} def get_emeter_monthly(self, year=datetime.datetime.now().year): """ Retrieve monthly statistics for a given year. :param year: year for which to retrieve statistics (default: this year) :return: dict: mapping of month to value False if device has no energy meter :rtype: dict :raises SmartPlugException: on error """ if not self.has_emeter: return False response = self._query_helper(self.emeter_type, "get_monthstat", {'year': year}) if self.emeter_units: key = 'energy_wh' else: key = 'energy' return {entry['month']: entry[key] for entry in response['month_list']} def erase_emeter_stats(self): """ Erase energy meter statistics :return: True if statistics were deleted False if device has no energy meter. :rtype: bool :raises SmartPlugException: on error """ if not self.has_emeter: return False 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): """ Get the current power consumption in Watt. :return: the current power consumption in Watt. False if device has no energy meter. :raises SmartPlugException: on error """ if not self.has_emeter: return False response = self.get_emeter_realtime() if self.emeter_units: return response['power_mw'] else: return response['power'] def turn_off(self): """ Turns the device off. """ raise NotImplementedError("Device subclass needs to implement this.") @property def is_off(self): """ Returns whether device is off. :return: True if device is off, False otherwise. :rtype: bool """ return not self.is_on def turn_on(self): """ Turns the device on. """ raise NotImplementedError("Device subclass needs to implement this.") @property def is_on(self): """ Returns whether 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): """ Returns device-type specific, end-user friendly state information. :return: dict with state information. :rtype: dict """ raise NotImplementedError("Device subclass needs to implement this.")