import json import logging import socket from typing import Dict, Optional, Type from pyHS100.protocol import TPLinkSmartHomeProtocol from pyHS100.smartbulb import SmartBulb from pyHS100.smartdevice import SmartDevice, SmartDeviceException from pyHS100.smartplug import SmartPlug from pyHS100.smartstrip import SmartStrip _LOGGER = logging.getLogger(__name__) class Discover: """Discover TPLink Smart Home devices. The main entry point for this library is Discover.discover(), which returns a dictionary of the found devices. The key is the IP address of the device and the value contains ready-to-use, SmartDevice-derived device object. discover_single() can be used to initialize a single device given its IP address. If the type of the device and its IP address is already known, you can initialize the corresponding device class directly without this. The protocol uses UDP broadcast datagrams on port 9999 for discovery. """ DISCOVERY_QUERY = { "system": {"get_sysinfo": None}, "emeter": {"get_realtime": None}, "smartlife.iot.dimmer": {"get_dimmer_parameters": None}, "smartlife.iot.common.emeter": {"get_realtime": None}, "smartlife.iot.smartbulb.lightingservice": {"get_light_state": None}, } @staticmethod def discover( protocol: TPLinkSmartHomeProtocol = None, target: str = "255.255.255.255", port: int = 9999, timeout: int = 3, discovery_packets=3, return_raw=False, ) -> Dict[str, SmartDevice]: """ Sends discovery message to 255.255.255.255:9999 in order to detect available supported devices in the local network, and waits for given timeout for answers from devices. :param protocol: Protocol implementation to use :param target: The target broadcast address (e.g. 192.168.xxx.255). :param timeout: How long to wait for responses, defaults to 3 :param port: port to send broadcast messages, defaults to 9999. :rtype: dict :return: Array of json objects {"ip", "port", "sys_info"} """ if protocol is None: protocol = TPLinkSmartHomeProtocol() sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) sock.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1) sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) sock.settimeout(timeout) req = json.dumps(Discover.DISCOVERY_QUERY) _LOGGER.debug("Sending discovery to %s:%s", target, port) encrypted_req = protocol.encrypt(req) for i in range(discovery_packets): sock.sendto(encrypted_req[4:], (target, port)) devices = {} _LOGGER.debug("Waiting %s seconds for responses...", timeout) try: while True: data, addr = sock.recvfrom(4096) ip, port = addr info = json.loads(protocol.decrypt(data)) device_class = Discover._get_device_class(info) if return_raw: devices[ip] = info elif device_class is not None: devices[ip] = device_class(ip) except socket.timeout: _LOGGER.debug("Got socket timeout, which is okay.") except Exception as ex: _LOGGER.error("Got exception %s", ex, exc_info=True) _LOGGER.debug("Found %s devices: %s", len(devices), devices) return devices @staticmethod async def discover_single( host: str, protocol: TPLinkSmartHomeProtocol = None ) -> Optional[SmartDevice]: """Discover a single device by the given IP address. :param host: Hostname of device to query :param protocol: Protocol implementation to use :rtype: SmartDevice :return: Object for querying/controlling found device. """ if protocol is None: protocol = TPLinkSmartHomeProtocol() info = await protocol.query(host, Discover.DISCOVERY_QUERY) device_class = Discover._get_device_class(info) if device_class is not None: return device_class(host) return None @staticmethod def _get_device_class(info: dict) -> Optional[Type[SmartDevice]]: """Find SmartDevice subclass for device described by passed data.""" if "system" in info and "get_sysinfo" in info["system"]: sysinfo = info["system"]["get_sysinfo"] if "type" in sysinfo: type_ = sysinfo["type"] elif "mic_type" in sysinfo: type_ = sysinfo["mic_type"] else: raise SmartDeviceException("Unable to find the device type field!") else: raise SmartDeviceException("No 'system' nor 'get_sysinfo' in response") if "smartplug" in type_.lower() and "children" in sysinfo: return SmartStrip elif "smartplug" in type_.lower(): return SmartPlug elif "smartbulb" in type_.lower(): return SmartBulb return None