"""Support for Broadlink devices.""" import socket import threading import random import time import typing as t from cryptography.hazmat.backends import default_backend from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes from . import exceptions as e from .const import ( DEFAULT_BCAST_ADDR, DEFAULT_PORT, DEFAULT_RETRY_INTVL, DEFAULT_TIMEOUT, ) from .protocol import Datetime HelloResponse = t.Tuple[int, t.Tuple[str, int], str, str, bool] def scan( timeout: int = DEFAULT_TIMEOUT, local_ip_address: str = None, discover_ip_address: str = DEFAULT_BCAST_ADDR, discover_ip_port: int = DEFAULT_PORT, ) -> t.Generator[HelloResponse, None, None]: """Broadcast a hello message and yield responses.""" conn = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) conn.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) conn.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1) if local_ip_address: conn.bind((local_ip_address, 0)) port = conn.getsockname()[1] else: local_ip_address = "0.0.0.0" port = 0 packet = bytearray(0x30) packet[0x08:0x14] = Datetime.pack(Datetime.now()) packet[0x18:0x1C] = socket.inet_aton(local_ip_address)[::-1] packet[0x1C:0x1E] = port.to_bytes(2, "little") packet[0x26] = 6 checksum = sum(packet, 0xBEAF) & 0xFFFF packet[0x20:0x22] = checksum.to_bytes(2, "little") start_time = time.time() discovered = [] try: while (time.time() - start_time) < timeout: time_left = timeout - (time.time() - start_time) conn.settimeout(min(DEFAULT_RETRY_INTVL, time_left)) conn.sendto(packet, (discover_ip_address, discover_ip_port)) while True: try: resp, host = conn.recvfrom(1024) except socket.timeout: break devtype = resp[0x34] | resp[0x35] << 8 mac = resp[0x3A:0x40][::-1] if (host, mac, devtype) in discovered: continue discovered.append((host, mac, devtype)) name = resp[0x40:].split(b"\x00")[0].decode() is_locked = bool(resp[0x7F]) yield devtype, host, mac, name, is_locked finally: conn.close() def ping(address: str, port: int = DEFAULT_PORT) -> None: """Send a ping packet to an address. This packet feeds the watchdog timer of firmwares >= v53. Useful to prevent reboots when the cloud cannot be reached. It must be sent every 2 minutes in such cases. """ with socket.socket(socket.AF_INET, socket.SOCK_DGRAM) as conn: conn.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1) packet = bytearray(0x30) packet[0x26] = 1 conn.sendto(packet, (address, port)) class Device: """Controls a Broadlink device.""" TYPE = "Unknown" __INIT_KEY = "097628343fe99e23765c1513accf8b02" __INIT_VECT = "562e17996d093d28ddb3ba695a2e6f58" def __init__( self, host: t.Tuple[str, int], mac: t.Union[bytes, str], devtype: int, timeout: int = DEFAULT_TIMEOUT, name: str = "", model: str = "", manufacturer: str = "", is_locked: bool = False, ) -> None: """Initialize the controller.""" self.host = host self.mac = bytes.fromhex(mac) if isinstance(mac, str) else mac self.devtype = devtype self.timeout = timeout self.name = name self.model = model self.manufacturer = manufacturer self.is_locked = is_locked self.count = random.randint(0x8000, 0xFFFF) self.iv = bytes.fromhex(self.__INIT_VECT) self.id = 0 self.type = self.TYPE # For backwards compatibility. self.lock = threading.Lock() self.aes = None self.update_aes(bytes.fromhex(self.__INIT_KEY)) def __repr__(self) -> str: """Return a formal representation of the device.""" return ( "%s.%s(%s, mac=%r, devtype=%r, timeout=%r, name=%r, " "model=%r, manufacturer=%r, is_locked=%r)" ) % ( self.__class__.__module__, self.__class__.__qualname__, self.host, self.mac, self.devtype, self.timeout, self.name, self.model, self.manufacturer, self.is_locked, ) def __str__(self) -> str: """Return a readable representation of the device.""" return "%s (%s / %s:%s / %s)" % ( self.name or "Unknown", " ".join(filter(None, [self.manufacturer, self.model, hex(self.devtype)])), *self.host, ":".join(format(x, "02X") for x in self.mac), ) def update_aes(self, key: bytes) -> None: """Update AES.""" self.aes = Cipher( algorithms.AES(bytes(key)), modes.CBC(self.iv), backend=default_backend() ) def encrypt(self, payload: bytes) -> bytes: """Encrypt the payload.""" encryptor = self.aes.encryptor() return encryptor.update(bytes(payload)) + encryptor.finalize() def decrypt(self, payload: bytes) -> bytes: """Decrypt the payload.""" decryptor = self.aes.decryptor() return decryptor.update(bytes(payload)) + decryptor.finalize() def auth(self) -> bool: """Authenticate to the device.""" self.id = 0 self.update_aes(bytes.fromhex(self.__INIT_KEY)) packet = bytearray(0x50) packet[0x04:0x14] = [0x31] * 16 packet[0x1E] = 0x01 packet[0x2D] = 0x01 packet[0x30:0x36] = "Test 1".encode() response = self.send_packet(0x65, packet) e.check_error(response[0x22:0x24]) payload = self.decrypt(response[0x38:]) self.id = int.from_bytes(payload[:0x4], "little") self.update_aes(payload[0x04:0x14]) return True def hello(self, local_ip_address=None) -> bool: """Send a hello message to the device. Device information is checked before updating name and lock status. """ responses = scan( timeout=self.timeout, local_ip_address=local_ip_address, discover_ip_address=self.host[0], discover_ip_port=self.host[1], ) try: devtype, _, mac, name, is_locked = next(responses) except StopIteration as err: raise e.NetworkTimeoutError( -4000, "Network timeout", f"No response received within {self.timeout}s", ) from err if mac != self.mac: raise e.DataValidationError( -2040, "Device information is not intact", "The MAC address is different", f"Expected {self.mac} and received {mac}", ) if devtype != self.devtype: raise e.DataValidationError( -2040, "Device information is not intact", "The product ID is different", f"Expected {self.devtype} and received {devtype}", ) self.name = name self.is_locked = is_locked return True def ping(self) -> None: """Ping the device. This packet feeds the watchdog timer of firmwares >= v53. Useful to prevent reboots when the cloud cannot be reached. It must be sent every 2 minutes in such cases. """ ping(self.host[0], port=self.host[1]) def get_fwversion(self) -> int: """Get firmware version.""" packet = bytearray([0x68]) response = self.send_packet(0x6A, packet) e.check_error(response[0x22:0x24]) payload = self.decrypt(response[0x38:]) return payload[0x4] | payload[0x5] << 8 def set_name(self, name: str) -> None: """Set device name.""" packet = bytearray(4) packet += name.encode("utf-8") packet += bytearray(0x50 - len(packet)) packet[0x43] = self.is_locked response = self.send_packet(0x6A, packet) e.check_error(response[0x22:0x24]) self.name = name def set_lock(self, state: bool) -> None: """Lock/unlock the device.""" packet = bytearray(4) packet += self.name.encode("utf-8") packet += bytearray(0x50 - len(packet)) packet[0x43] = bool(state) response = self.send_packet(0x6A, packet) e.check_error(response[0x22:0x24]) self.is_locked = bool(state) def get_type(self) -> str: """Return device type.""" return self.type def send_packet(self, packet_type: int, payload: bytes) -> bytes: """Send a packet to the device.""" self.count = ((self.count + 1) | 0x8000) & 0xFFFF packet = bytearray(0x38) packet[0x00:0x08] = bytes.fromhex("5aa5aa555aa5aa55") packet[0x24:0x26] = self.devtype.to_bytes(2, "little") packet[0x26:0x28] = packet_type.to_bytes(2, "little") packet[0x28:0x2A] = self.count.to_bytes(2, "little") packet[0x2A:0x30] = self.mac[::-1] packet[0x30:0x34] = self.id.to_bytes(4, "little") p_checksum = sum(payload, 0xBEAF) & 0xFFFF packet[0x34:0x36] = p_checksum.to_bytes(2, "little") padding = (16 - len(payload)) % 16 payload = self.encrypt(payload + bytes(padding)) packet.extend(payload) checksum = sum(packet, 0xBEAF) & 0xFFFF packet[0x20:0x22] = checksum.to_bytes(2, "little") with self.lock and socket.socket(socket.AF_INET, socket.SOCK_DGRAM) as conn: timeout = self.timeout start_time = time.time() while True: time_left = timeout - (time.time() - start_time) conn.settimeout(min(DEFAULT_RETRY_INTVL, time_left)) conn.sendto(packet, self.host) try: resp = conn.recvfrom(2048)[0] break except socket.timeout as err: if (time.time() - start_time) > timeout: raise e.NetworkTimeoutError( -4000, "Network timeout", f"No response received within {timeout}s", ) from err if len(resp) < 0x30: raise e.DataValidationError( -4007, "Received data packet length error", f"Expected at least 48 bytes and received {len(resp)}", ) nom_checksum = int.from_bytes(resp[0x20:0x22], "little") real_checksum = sum(resp, 0xBEAF) - sum(resp[0x20:0x22]) & 0xFFFF if nom_checksum != real_checksum: raise e.DataValidationError( -4008, "Received data packet check error", f"Expected a checksum of {nom_checksum} and received {real_checksum}", ) return resp