# This file is based on TLSharp # https://github.com/sochix/TLSharp/blob/master/TLSharp.Core/Network/MtProtoSender.cs import gzip from errors import * from time import sleep import utils from crypto import AES from utils import BinaryWriter, BinaryReader from tl.types import MsgsAck from tl.all_tlobjects import tlobjects class MtProtoSender: """MTProto Mobile Protocol sender (https://core.telegram.org/mtproto/description)""" def __init__(self, transport, session): self.transport = transport self.session = session self.need_confirmation = [] # Message IDs that need confirmation self.on_update_handlers = [] def add_update_handler(self, handler): """Adds an update handler (a method with one argument, the received TLObject) that is fired when there are updates available""" self.on_update_handlers.append(handler) def generate_sequence(self, confirmed): """Generates the next sequence number, based on whether it was confirmed yet or not""" if confirmed: result = self.session.sequence * 2 + 1 self.session.sequence += 1 return result else: return self.session.sequence * 2 # region Send and receive def send(self, request): """Sends the specified MTProtoRequest, previously sending any message which needed confirmation""" # First check if any message needs confirmation, if this is the case, send an "AckRequest" if self.need_confirmation: msgs_ack = MsgsAck(self.need_confirmation) with BinaryWriter() as writer: msgs_ack.on_send(writer) self.send_packet(writer.get_bytes(), msgs_ack) del self.need_confirmation[:] # Then send our packed request with BinaryWriter() as writer: request.on_send(writer) self.send_packet(writer.get_bytes(), request) # And update the saved session self.session.save() def receive(self, request): """Receives the specified MTProtoRequest ("fills in it" the received data)""" while not request.confirm_received: message, remote_msg_id, remote_sequence = self.decode_msg(self.transport.receive().body) with BinaryReader(message) as reader: self.process_msg(remote_msg_id, remote_sequence, reader, request) # endregion # region Low level processing def send_packet(self, packet, request): """Sends the given packet bytes with the additional information of the original request""" request.msg_id = self.session.get_new_msg_id() # First calculate plain_text to encrypt it with BinaryWriter() as plain_writer: plain_writer.write_long(self.session.salt, signed=False) plain_writer.write_long(self.session.id, signed=False) plain_writer.write_long(request.msg_id) plain_writer.write_int(self.generate_sequence(request.confirmed)) plain_writer.write_int(len(packet)) plain_writer.write(packet) msg_key = utils.calc_msg_key(plain_writer.get_bytes()) key, iv = utils.calc_key(self.session.auth_key.key, msg_key, True) cipher_text = AES.encrypt_ige(plain_writer.get_bytes(), key, iv) # And then finally send the encrypted packet with BinaryWriter() as cipher_writer: cipher_writer.write_long(self.session.auth_key.key_id, signed=False) cipher_writer.write(msg_key) cipher_writer.write(cipher_text) self.transport.send(cipher_writer.get_bytes()) def decode_msg(self, body): """Decodes an received encrypted message body bytes""" message = None remote_msg_id = None remote_sequence = None with BinaryReader(body) as reader: if len(body) < 8: raise BufferError("Can't decode packet ({})".format(body)) # TODO Check for both auth key ID and msg_key correctness remote_auth_key_id = reader.read_long() msg_key = reader.read(16) key, iv = utils.calc_key(self.session.auth_key.key, msg_key, False) plain_text = AES.decrypt_ige(reader.read(len(body) - reader.tell_position()), key, iv) with BinaryReader(plain_text) as plain_text_reader: remote_salt = plain_text_reader.read_long() remote_session_id = plain_text_reader.read_long() remote_msg_id = plain_text_reader.read_long() remote_sequence = plain_text_reader.read_int() msg_len = plain_text_reader.read_int() message = plain_text_reader.read(msg_len) return message, remote_msg_id, remote_sequence def process_msg(self, msg_id, sequence, reader, request): """Processes and handles a Telegram message""" # TODO Check salt, session_id and sequence_number self.need_confirmation.append(msg_id) code = reader.read_int(signed=False) reader.seek(-4) # The following codes are "parsed manually" if code == 0xf35c6d01: # rpc_result return self.handle_rpc_result(msg_id, sequence, reader, request) elif code == 0x73f1f8dc: # msg_container return self.handle_container(msg_id, sequence, reader, request) elif code == 0x3072cfa1: # gzip_packed return self.handle_gzip_packed(msg_id, sequence, reader, request) elif code == 0xedab447b: # bad_server_salt return self.handle_bad_server_salt(msg_id, sequence, reader, request) elif code == 0xa7eff811: # bad_msg_notification return self.handle_bad_msg_notification(msg_id, sequence, reader) else: # If the code is not parsed manually, then it was parsed by the code generator! # In this case, we will simply treat the incoming TLObject as an Update, # if we can first find a matching TLObject if code in tlobjects.keys(): return self.handle_update(msg_id, sequence, reader) print('Unknown message: {}'.format(hex(code))) return False # endregion # region Message handling def handle_update(self, msg_id, sequence, reader): tlobject = reader.tgread_object() for handler in self.on_update_handlers: handler(tlobject) return False def handle_container(self, msg_id, sequence, reader, request): code = reader.read_int(signed=False) size = reader.read_int() for _ in range(size): inner_msg_id = reader.read_long(signed=False) inner_sequence = reader.read_int() inner_length = reader.read_int() begin_position = reader.tell_position() if not self.process_msg(inner_msg_id, sequence, reader, request): reader.set_position(begin_position + inner_length) return False def handle_bad_server_salt(self, msg_id, sequence, reader, mtproto_request): code = reader.read_int(signed=False) bad_msg_id = reader.read_long(signed=False) bad_msg_seq_no = reader.read_int() error_code = reader.read_int() new_salt = reader.read_long(signed=False) self.session.salt = new_salt # Resend self.send(mtproto_request) return True def handle_bad_msg_notification(self, msg_id, sequence, reader): code = reader.read_int(signed=False) request_id = reader.read_long(signed=False) request_sequence = reader.read_int() error_code = reader.read_int() raise BadMessageError(error_code) def handle_rpc_result(self, msg_id, sequence, reader, mtproto_request): code = reader.read_int(signed=False) request_id = reader.read_long(signed=False) inner_code = reader.read_int(signed=False) if request_id == mtproto_request.msg_id: mtproto_request.confirm_received = True if inner_code == 0x2144ca19: # RPC Error error = RPCError(code=reader.read_int(), message=reader.tgread_string()) if error.must_resend: mtproto_request.confirm_received = False if error.message.startswith('FLOOD_WAIT_'): print('Should wait {}s. Sleeping until then.'.format(error.additional_data)) sleep(error.additional_data) elif error.message.startswith('PHONE_MIGRATE_'): raise InvalidDCError(error.additional_data) else: raise error else: if inner_code == 0x3072cfa1: # GZip packed unpacked_data = gzip.decompress(reader.tgread_bytes()) with BinaryReader(unpacked_data) as compressed_reader: mtproto_request.on_response(compressed_reader) else: reader.seek(-4) mtproto_request.on_response(reader) def handle_gzip_packed(self, msg_id, sequence, reader, mtproto_request): code = reader.read_int(signed=False) packed_data = reader.tgread_bytes() unpacked_data = gzip.decompress(packed_data) with BinaryReader(unpacked_data) as compressed_reader: self.process_msg(msg_id, sequence, compressed_reader, mtproto_request) # endregion pass