from __future__ import absolute_import from __future__ import unicode_literals import json import socket import logging _LOGGER = logging.getLogger(__name__) class TPLinkSmartHomeProtocol: """ Implementation of the TP-Link Smart Home Protocol Encryption/Decryption methods based on the works of Lubomir Stroetmann and Tobias Esser https://www.softscheck.com/en/reverse-engineering-tp-link-hs110/ https://github.com/softScheck/tplink-smartplug/ which are licensed under the Apache License, Version 2.0 http://www.apache.org/licenses/LICENSE-2.0 """ initialization_vector = 171 @staticmethod def query(host, request, port=9999): """ Request information from a TP-Link SmartHome Device and return the response. :param str host: ip address of the device :param int port: port on the device (default: 9999) :param request: command to send to the device (can be either dict or json string) :return: """ if isinstance(request, dict): request = json.dumps(request) sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock.settimeout(5.0) try: sock.connect((host, port)) _LOGGER.debug("> (%i) %s", len(request), request) sock.send(TPLinkSmartHomeProtocol.encrypt(request)) buffer = bytes() while True: chunk = sock.recv(4096) buffer += chunk if not chunk: break finally: sock.shutdown(socket.SHUT_RDWR) sock.close() response = TPLinkSmartHomeProtocol.decrypt(buffer[4:]) _LOGGER.debug("< (%i) %s", len(response), response) return json.loads(response) @staticmethod def encrypt(request): """ Encrypt a request for a TP-Link Smart Home Device. :param request: plaintext request data :return: ciphertext request """ key = TPLinkSmartHomeProtocol.initialization_vector buffer = bytearray(4) # 4 nullbytes for char in request: cipher = key ^ ord(char) key = cipher buffer.append(cipher) return buffer @staticmethod def decrypt(ciphertext): """ Decrypt a response of a TP-Link Smart Home Device. :param ciphertext: encrypted response data :return: plaintext response """ key = TPLinkSmartHomeProtocol.initialization_vector buffer = [] ciphertext = ciphertext.decode('latin-1') for char in ciphertext: plain = key ^ ord(char) key = ord(char) buffer.append(chr(plain)) plaintext = ''.join(buffer) return plaintext