mirror of
https://github.com/LonamiWebs/Telethon.git
synced 2024-11-24 18:33:44 +03:00
168 lines
6.1 KiB
Python
168 lines
6.1 KiB
Python
import logging
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import os
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import struct
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import time
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from hashlib import sha256
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from ..crypto import AES
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from ..errors import SecurityError, BrokenAuthKeyError
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from ..extensions import BinaryReader
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from ..tl.core import TLMessage
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from ..tl.tlobject import TLRequest
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__log__ = logging.getLogger(__name__)
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class MTProtoState:
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"""
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`telethon.network.mtprotosender.MTProtoSender` needs to hold a state
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in order to be able to encrypt and decrypt incoming/outgoing messages,
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as well as generating the message IDs. Instances of this class hold
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together all the required information.
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It doesn't make sense to use `telethon.sessions.abstract.Session` for
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the sender because the sender should *not* be concerned about storing
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this information to disk, as one may create as many senders as they
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desire to any other data center, or some CDN. Using the same session
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for all these is not a good idea as each need their own authkey, and
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the concept of "copying" sessions with the unnecessary entities or
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updates state for these connections doesn't make sense.
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"""
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def __init__(self, auth_key):
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# Session IDs can be random on every connection
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self.id = struct.unpack('q', os.urandom(8))[0]
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self.auth_key = auth_key
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self.time_offset = 0
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self.salt = 0
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self._sequence = 0
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self._last_msg_id = 0
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def create_message(self, obj, after=None):
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"""
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Creates a new `telethon.tl.tl_message.TLMessage` from
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the given `telethon.tl.tlobject.TLObject` instance.
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"""
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return TLMessage(
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msg_id=self._get_new_msg_id(),
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seq_no=self._get_seq_no(isinstance(obj, TLRequest)),
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obj=obj,
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after_id=after.msg_id if after else None
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)
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@staticmethod
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def _calc_key(auth_key, msg_key, client):
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"""
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Calculate the key based on Telegram guidelines for MTProto 2,
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specifying whether it's the client or not. See
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https://core.telegram.org/mtproto/description#defining-aes-key-and-initialization-vector
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"""
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x = 0 if client else 8
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sha256a = sha256(msg_key + auth_key[x: x + 36]).digest()
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sha256b = sha256(auth_key[x + 40:x + 76] + msg_key).digest()
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aes_key = sha256a[:8] + sha256b[8:24] + sha256a[24:32]
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aes_iv = sha256b[:8] + sha256a[8:24] + sha256b[24:32]
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return aes_key, aes_iv
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def pack_message(self, message):
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"""
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Packs the given `telethon.tl.tl_message.TLMessage` using the
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current authorization key following MTProto 2.0 guidelines.
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See https://core.telegram.org/mtproto/description.
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"""
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data = struct.pack('<qq', self.salt, self.id) + bytes(message)
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padding = os.urandom(-(len(data) + 12) % 16 + 12)
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# Being substr(what, offset, length); x = 0 for client
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# "msg_key_large = SHA256(substr(auth_key, 88+x, 32) + pt + padding)"
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msg_key_large = sha256(
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self.auth_key.key[88:88 + 32] + data + padding).digest()
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# "msg_key = substr (msg_key_large, 8, 16)"
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msg_key = msg_key_large[8:24]
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aes_key, aes_iv = self._calc_key(self.auth_key.key, msg_key, True)
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key_id = struct.pack('<Q', self.auth_key.key_id)
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return (key_id + msg_key +
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AES.encrypt_ige(data + padding, aes_key, aes_iv))
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def unpack_message(self, body):
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"""
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Inverse of `pack_message` for incoming server messages.
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"""
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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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key_id = struct.unpack('<Q', body[:8])[0]
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if key_id != self.auth_key.key_id:
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raise SecurityError('Server replied with an invalid auth key')
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msg_key = body[8:24]
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aes_key, aes_iv = self._calc_key(self.auth_key.key, msg_key, False)
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body = AES.decrypt_ige(body[24:], aes_key, aes_iv)
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# https://core.telegram.org/mtproto/security_guidelines
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# Sections "checking sha256 hash" and "message length"
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our_key = sha256(self.auth_key.key[96:96 + 32] + body)
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if msg_key != our_key.digest()[8:24]:
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raise SecurityError(
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"Received msg_key doesn't match with expected one")
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reader = BinaryReader(body)
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reader.read_long() # remote_salt
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if reader.read_long() != self.id:
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raise SecurityError('Server replied with a wrong session ID')
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remote_msg_id = reader.read_long()
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remote_sequence = reader.read_int()
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reader.read_int() # msg_len for the inner object, padding ignored
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# We could read msg_len bytes and use those in a new reader to read
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# the next TLObject without including the padding, but since the
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# reader isn't used for anything else after this, it's unnecessary.
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obj = reader.tgread_object()
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return TLMessage(remote_msg_id, remote_sequence, obj)
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def _get_new_msg_id(self):
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"""
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Generates a new unique message ID based on the current
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time (in ms) since epoch, applying a known time offset.
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"""
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now = time.time() + self.time_offset
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nanoseconds = int((now - int(now)) * 1e+9)
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new_msg_id = (int(now) << 32) | (nanoseconds << 2)
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if self._last_msg_id >= new_msg_id:
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new_msg_id = self._last_msg_id + 4
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self._last_msg_id = new_msg_id
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return new_msg_id
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def update_time_offset(self, correct_msg_id):
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"""
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Updates the time offset to the correct
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one given a known valid message ID.
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"""
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now = int(time.time())
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correct = correct_msg_id >> 32
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self.time_offset = correct - now
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self._last_msg_id = 0
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def _get_seq_no(self, content_related):
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"""
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Generates the next sequence number depending on whether
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it should be for a content-related query or not.
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"""
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if content_related:
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result = self._sequence * 2 + 1
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self._sequence += 1
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return result
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else:
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return self._sequence * 2
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