mirror of
https://github.com/LonamiWebs/Telethon.git
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387 lines
14 KiB
Python
387 lines
14 KiB
Python
import gzip
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import logging
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from threading import RLock
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from .. import helpers as utils
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from ..crypto import AES
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from ..errors import (
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BadMessageError, InvalidChecksumError, BrokenAuthKeyError,
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rpc_message_to_error
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)
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from ..extensions import BinaryReader, BinaryWriter
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from ..tl import MessageContainer
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from ..tl.all_tlobjects import tlobjects
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from ..tl.types import MsgsAck
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logging.getLogger(__name__).addHandler(logging.NullHandler())
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class MtProtoSender:
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"""MTProto Mobile Protocol sender
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(https://core.telegram.org/mtproto/description)
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"""
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def __init__(self, session, connection):
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"""Creates a new MtProtoSender configured to send messages through
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'connection' and using the parameters from 'session'.
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"""
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self.session = session
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self.connection = connection
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self._logger = logging.getLogger(__name__)
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self._need_confirmation = [] # Message IDs that need confirmation
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self._pending_receive = [] # Requests sent waiting to be received
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# Sending and receiving are independent, but two threads cannot
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# send or receive at the same time no matter what.
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self._send_lock = RLock()
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self._recv_lock = RLock()
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# Used when logging out, the only request that seems to use 'ack'
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# TODO There might be a better way to handle msgs_ack requests
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self.logging_out = False
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def connect(self):
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"""Connects to the server"""
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self.connection.connect()
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def is_connected(self):
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return self.connection.is_connected()
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def disconnect(self):
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"""Disconnects from the server"""
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self.connection.close()
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self._need_confirmation.clear()
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self._clear_all_pending()
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self.logging_out = False
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# region Send and receive
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def send(self, *requests):
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"""Sends the specified MTProtoRequest, previously sending any message
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which needed confirmation."""
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# If any message needs confirmation send an AckRequest first
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self._send_acknowledges()
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# Finally send our packed request(s)
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self._pending_receive.extend(requests)
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if len(requests) == 1:
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request = requests[0]
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else:
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request = MessageContainer(self.session, requests)
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self._send_packet(request.to_bytes(), request)
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def _send_acknowledges(self):
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"""Sends a messages acknowledge for all those who _need_confirmation"""
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if self._need_confirmation:
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msgs_ack = MsgsAck(self._need_confirmation)
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self._send_packet(msgs_ack.to_bytes(), msgs_ack)
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del self._need_confirmation[:]
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def receive(self, update_state):
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"""Receives a single message from the connected endpoint.
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This method returns nothing, and will only affect other parts
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of the MtProtoSender such as the updates callback being fired
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or a pending request being confirmed.
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Any unhandled object (likely updates) will be passed to
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update_state.process(TLObject).
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"""
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with self._recv_lock:
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try:
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body = self.connection.recv()
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except (BufferError, InvalidChecksumError):
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# TODO BufferError, we should spot the cause...
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# "No more bytes left"; something wrong happened, clear
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# everything to be on the safe side, or:
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#
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# "This packet should be skipped"; since this may have
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# been a result for a request, invalidate every request
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# and just re-invoke them to avoid problems
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self._clear_all_pending()
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return
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message, remote_msg_id, remote_seq = self._decode_msg(body)
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with BinaryReader(message) as reader:
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self._process_msg(remote_msg_id, remote_seq, reader, update_state)
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# endregion
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# region Low level processing
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def _send_packet(self, packet, request):
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"""Sends the given packet bytes with the additional
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information of the original request.
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"""
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request.request_msg_id = self.session.get_new_msg_id()
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# First calculate plain_text to encrypt it
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with BinaryWriter() as plain_writer:
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plain_writer.write_long(self.session.salt, signed=False)
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plain_writer.write_long(self.session.id, signed=False)
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plain_writer.write_long(request.request_msg_id)
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plain_writer.write_int(
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self.session.generate_sequence(request.content_related))
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plain_writer.write_int(len(packet))
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plain_writer.write(packet)
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msg_key = utils.calc_msg_key(plain_writer.get_bytes())
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key, iv = utils.calc_key(self.session.auth_key.key, msg_key, True)
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cipher_text = AES.encrypt_ige(plain_writer.get_bytes(), key, iv)
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# And then finally send the encrypted packet
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with BinaryWriter() as cipher_writer:
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cipher_writer.write_long(
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self.session.auth_key.key_id, signed=False)
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cipher_writer.write(msg_key)
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cipher_writer.write(cipher_text)
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with self._send_lock:
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self.connection.send(cipher_writer.get_bytes())
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def _decode_msg(self, body):
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"""Decodes an received encrypted message body bytes"""
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message = None
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remote_msg_id = None
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remote_sequence = None
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with BinaryReader(body) as reader:
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if len(body) < 8:
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if body == b'l\xfe\xff\xff':
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raise BrokenAuthKeyError()
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else:
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raise BufferError("Can't decode packet ({})".format(body))
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# TODO Check for both auth key ID and msg_key correctness
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reader.read_long() # remote_auth_key_id
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msg_key = reader.read(16)
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key, iv = utils.calc_key(self.session.auth_key.key, msg_key, False)
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plain_text = AES.decrypt_ige(
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reader.read(len(body) - reader.tell_position()), key, iv)
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with BinaryReader(plain_text) as plain_text_reader:
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plain_text_reader.read_long() # remote_salt
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plain_text_reader.read_long() # remote_session_id
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remote_msg_id = plain_text_reader.read_long()
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remote_sequence = plain_text_reader.read_int()
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msg_len = plain_text_reader.read_int()
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message = plain_text_reader.read(msg_len)
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return message, remote_msg_id, remote_sequence
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def _process_msg(self, msg_id, sequence, reader, state):
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"""Processes and handles a Telegram message.
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Returns True if the message was handled correctly and doesn't
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need to be skipped. Returns False otherwise.
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"""
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# TODO Check salt, session_id and sequence_number
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self._need_confirmation.append(msg_id)
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code = reader.read_int(signed=False)
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reader.seek(-4)
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# The following codes are "parsed manually"
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if code == 0xf35c6d01: # rpc_result, (response of an RPC call)
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return self._handle_rpc_result(msg_id, sequence, reader)
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if code == 0x347773c5: # pong
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return self._handle_pong(msg_id, sequence, reader)
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if code == 0x73f1f8dc: # msg_container
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return self._handle_container(msg_id, sequence, reader, state)
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if code == 0x3072cfa1: # gzip_packed
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return self._handle_gzip_packed(msg_id, sequence, reader, state)
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if code == 0xedab447b: # bad_server_salt
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return self._handle_bad_server_salt(msg_id, sequence, reader)
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if code == 0xa7eff811: # bad_msg_notification
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return self._handle_bad_msg_notification(msg_id, sequence, reader)
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# msgs_ack, it may handle the request we wanted
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if code == 0x62d6b459:
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ack = reader.tgread_object()
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for r in self._pending_receive:
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if r.request_msg_id in ack.msg_ids:
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self._logger.debug('Ack found for the a request')
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if self.logging_out:
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self._logger.debug('Message ack confirmed a request')
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self._pending_receive.remove(r)
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r.confirm_received.set()
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return True
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# If the code is not parsed manually then it should be a TLObject.
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if code in tlobjects:
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result = reader.tgread_object()
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if state is None:
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self._logger.debug(
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'Ignoring unhandled TLObject %s', repr(result)
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)
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else:
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self._logger.debug(
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'Processing TLObject %s', repr(result)
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)
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state.process(result)
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return True
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self._logger.debug('Unknown message: {}'.format(hex(code)))
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return False
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# endregion
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# region Message handling
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def _pop_request(self, request_msg_id):
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"""Pops a pending request from self._pending_receive, or
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returns None if it's not found
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"""
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for i in range(len(self._pending_receive)):
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if self._pending_receive[i].request_msg_id == request_msg_id:
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return self._pending_receive.pop(i)
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def _clear_all_pending(self):
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for r in self._pending_receive:
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r.confirm_received.set()
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self._pending_receive.clear()
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def _handle_pong(self, msg_id, sequence, reader):
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self._logger.debug('Handling pong')
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reader.read_int(signed=False) # code
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received_msg_id = reader.read_long()
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request = self._pop_request(received_msg_id)
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if request:
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self._logger.debug('Pong confirmed a request')
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request.confirm_received.set()
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return True
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def _handle_container(self, msg_id, sequence, reader, state):
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self._logger.debug('Handling container')
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for inner_msg_id, _, inner_len in MessageContainer.iter_read(reader):
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begin_position = reader.tell_position()
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# Note that this code is IMPORTANT for skipping RPC results of
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# lost requests (i.e., ones from the previous connection session)
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try:
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if not self._process_msg(inner_msg_id, sequence, reader, state):
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reader.set_position(begin_position + inner_len)
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except:
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# If any error is raised, something went wrong; skip the packet
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reader.set_position(begin_position + inner_len)
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raise
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return True
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def _handle_bad_server_salt(self, msg_id, sequence, reader):
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self._logger.debug('Handling bad server salt')
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reader.read_int(signed=False) # code
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bad_msg_id = reader.read_long()
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reader.read_int() # bad_msg_seq_no
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reader.read_int() # error_code
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new_salt = reader.read_long(signed=False)
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self.session.salt = new_salt
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request = self._pop_request(bad_msg_id)
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if request:
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self.send(request)
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return True
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def _handle_bad_msg_notification(self, msg_id, sequence, reader):
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self._logger.debug('Handling bad message notification')
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reader.read_int(signed=False) # code
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reader.read_long() # request_id
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reader.read_int() # request_sequence
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error_code = reader.read_int()
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error = BadMessageError(error_code)
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if error_code in (16, 17):
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# sent msg_id too low or too high (respectively).
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# Use the current msg_id to determine the right time offset.
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self.session.update_time_offset(correct_msg_id=msg_id)
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self._logger.debug('Read Bad Message error: ' + str(error))
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self._logger.debug('Attempting to use the correct time offset.')
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return True
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elif error_code == 32:
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# msg_seqno too low, so just pump it up by some "large" amount
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# TODO A better fix would be to start with a new fresh session ID
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self.session._sequence += 64
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return True
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elif error_code == 33:
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# msg_seqno too high never seems to happen but just in case
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self.session._sequence -= 16
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return True
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else:
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raise error
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def _handle_rpc_result(self, msg_id, sequence, reader):
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self._logger.debug('Handling RPC result')
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reader.read_int(signed=False) # code
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request_id = reader.read_long()
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inner_code = reader.read_int(signed=False)
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request = self._pop_request(request_id)
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if inner_code == 0x2144ca19: # RPC Error
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if self.session.report_errors and request:
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error = rpc_message_to_error(
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reader.read_int(), reader.tgread_string(),
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report_method=type(request).constructor_id
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)
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else:
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error = rpc_message_to_error(
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reader.read_int(), reader.tgread_string()
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)
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# Acknowledge that we received the error
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self._need_confirmation.append(request_id)
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self._send_acknowledges()
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if request:
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request.rpc_error = error
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request.confirm_received.set()
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# else TODO Where should this error be reported?
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# Read may be async. Can an error not-belong to a request?
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self._logger.debug('Read RPC error: %s', str(error))
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else:
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if request:
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self._logger.debug('Reading request response')
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if inner_code == 0x3072cfa1: # GZip packed
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unpacked_data = gzip.decompress(reader.tgread_bytes())
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with BinaryReader(unpacked_data) as compressed_reader:
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request.on_response(compressed_reader)
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else:
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reader.seek(-4)
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request.on_response(reader)
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request.confirm_received.set()
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return True
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else:
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# If it's really a result for RPC from previous connection
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# session, it will be skipped by the handle_container()
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self._logger.debug('Lost request will be skipped.')
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return False
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def _handle_gzip_packed(self, msg_id, sequence, reader, state):
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self._logger.debug('Handling gzip packed data')
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reader.read_int(signed=False) # code
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packed_data = reader.tgread_bytes()
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unpacked_data = gzip.decompress(packed_data)
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with BinaryReader(unpacked_data) as compressed_reader:
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return self._process_msg(msg_id, sequence, compressed_reader, state)
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# endregion
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