from binascii import crc32 from telethon.network import TcpClient from telethon.errors import * from telethon.utils import BinaryWriter class TcpTransport: def __init__(self, ip_address, port): self.tcp_client = TcpClient() self.send_counter = 0 self.tcp_client.connect(ip_address, port) # Original reference: https://core.telegram.org/mtproto#tcp-transport # The packets are encoded as: total length, sequence number, packet and checksum (CRC32) def send(self, packet): """Sends the given packet (bytes array) to the connected peer""" if not self.tcp_client.connected: raise ConnectionError('Client not connected to server.') with BinaryWriter() as writer: writer.write_int(len(packet) + 12) # 12 = size_of (integer) * 3 writer.write_int(self.send_counter) writer.write(packet) crc = crc32(writer.get_bytes()) writer.write_int(crc, signed=False) self.tcp_client.write(writer.get_bytes()) self.send_counter += 1 def receive(self): """Receives a TCP message (tuple(sequence number, body)) from the connected peer""" # First read everything we need packet_length_bytes = self.tcp_client.read(4) packet_length = int.from_bytes(packet_length_bytes, byteorder='little') seq_bytes = self.tcp_client.read(4) seq = int.from_bytes(seq_bytes, byteorder='little') body = self.tcp_client.read(packet_length - 12) checksum = int.from_bytes(self.tcp_client.read(4), byteorder='little', signed=False) # Then perform the checks rv = packet_length_bytes + seq_bytes + body valid_checksum = crc32(rv) if checksum != valid_checksum: raise InvalidChecksumError(checksum, valid_checksum) # If we passed the tests, we can then return a valid TCP message return seq, body def close(self): if self.tcp_client.connected: self.tcp_client.close() def cancel_receive(self): """Cancels (stops) trying to receive from the remote peer and raises a ReadCancelledError""" self.tcp_client.cancel_read() def get_client_delay(self): """Gets the client read delay""" return self.tcp_client.delay