Telethon/telethon/network/connection.py

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import os
import struct
from datetime import timedelta
from zlib import crc32
from enum import Enum
import errno
from ..crypto import AESModeCTR
from ..extensions import TcpClient
from ..errors import InvalidChecksumError
class ConnectionMode(Enum):
"""Represents which mode should be used to stabilise a connection.
TCP_FULL: Default Telegram mode. Sends 12 additional bytes and
needs to calculate the CRC value of the packet itself.
TCP_INTERMEDIATE: Intermediate mode between TCP_FULL and TCP_ABRIDGED.
Always sends 4 extra bytes for the packet length.
TCP_ABRIDGED: This is the mode with the lowest overhead, as it will
only require 1 byte if the packet length is less than
508 bytes (127 << 2, which is very common).
TCP_OBFUSCATED: Encodes the packet just like TCP_ABRIDGED, but encrypts
every message with a randomly generated key using the
AES-CTR mode so the packets are harder to discern.
"""
TCP_FULL = 1
TCP_INTERMEDIATE = 2
TCP_ABRIDGED = 3
TCP_OBFUSCATED = 4
class Connection:
"""Represents an abstract connection (TCP, TCP abridged...).
'mode' must be any of the ConnectionMode enumeration.
Note that '.send()' and '.recv()' refer to messages, which
will be packed accordingly, whereas '.write()' and '.read()'
work on plain bytes, with no further additions.
"""
def __init__(self, mode=ConnectionMode.TCP_FULL,
proxy=None, timeout=timedelta(seconds=5)):
self._mode = mode
self._send_counter = 0
self._aes_encrypt, self._aes_decrypt = None, None
# TODO Rename "TcpClient" as some sort of generic socket?
self.conn = TcpClient(proxy=proxy, timeout=timeout)
# Sending messages
if mode == ConnectionMode.TCP_FULL:
setattr(self, 'send', self._send_tcp_full)
setattr(self, 'recv', self._recv_tcp_full)
elif mode == ConnectionMode.TCP_INTERMEDIATE:
setattr(self, 'send', self._send_intermediate)
setattr(self, 'recv', self._recv_intermediate)
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elif mode in (ConnectionMode.TCP_ABRIDGED,
ConnectionMode.TCP_OBFUSCATED):
setattr(self, 'send', self._send_abridged)
setattr(self, 'recv', self._recv_abridged)
# Writing and reading from the socket
if mode == ConnectionMode.TCP_OBFUSCATED:
setattr(self, 'write', self._write_obfuscated)
setattr(self, 'read', self._read_obfuscated)
else:
setattr(self, 'write', self._write_plain)
setattr(self, 'read', self._read_plain)
def connect(self, ip, port):
try:
self.conn.connect(ip, port)
except OSError as e:
if e.errno == errno.EISCONN:
return # Already connected, no need to re-set everything up
else:
raise
self._send_counter = 0
if self._mode == ConnectionMode.TCP_ABRIDGED:
self.conn.write(b'\xef')
elif self._mode == ConnectionMode.TCP_INTERMEDIATE:
self.conn.write(b'\xee\xee\xee\xee')
elif self._mode == ConnectionMode.TCP_OBFUSCATED:
self._setup_obfuscation()
def get_timeout(self):
return self.conn.timeout
def _setup_obfuscation(self):
# Obfuscated messages secrets cannot start with any of these
keywords = (b'PVrG', b'GET ', b'POST', b'\xee' * 4)
while True:
random = os.urandom(64)
if (random[0] != b'\xef' and
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random[:4] not in keywords and
random[4:4] != b'\0\0\0\0'):
# Invalid random generated
break
random = list(random)
random[56] = random[57] = random[58] = random[59] = 0xef
random_reversed = random[55:7:-1] # Reversed (8, len=48)
# encryption has "continuous buffer" enabled
encrypt_key = bytes(random[8:40])
encrypt_iv = bytes(random[40:56])
decrypt_key = bytes(random_reversed[:32])
decrypt_iv = bytes(random_reversed[32:48])
self._aes_encrypt = AESModeCTR(encrypt_key, encrypt_iv)
self._aes_decrypt = AESModeCTR(decrypt_key, decrypt_iv)
random[56:64] = self._aes_encrypt.encrypt(bytes(random))[56:64]
self.conn.write(bytes(random))
def is_connected(self):
return self.conn.connected
def close(self):
self.conn.close()
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def clone(self):
"""Creates a copy of this Connection"""
return Connection(
mode=self._mode, proxy=self.conn.proxy, timeout=self.conn.timeout
)
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# region Receive message implementations
def recv(self):
"""Receives and unpacks a message"""
# Default implementation is just an error
raise ValueError('Invalid connection mode specified: ' + str(self._mode))
def _recv_tcp_full(self):
packet_length_bytes = self.read(4)
packet_length = int.from_bytes(packet_length_bytes, 'little')
seq_bytes = self.read(4)
seq = int.from_bytes(seq_bytes, 'little')
body = self.read(packet_length - 12)
checksum = int.from_bytes(self.read(4), 'little')
valid_checksum = crc32(packet_length_bytes + seq_bytes + body)
if checksum != valid_checksum:
raise InvalidChecksumError(checksum, valid_checksum)
return body
def _recv_intermediate(self):
return self.read(int.from_bytes(self.read(4), 'little'))
def _recv_abridged(self):
length = int.from_bytes(self.read(1), 'little')
if length >= 127:
length = int.from_bytes(self.read(3) + b'\0', 'little')
return self.read(length << 2)
# endregion
# region Send message implementations
def send(self, message):
"""Encapsulates and sends the given message"""
# Default implementation is just an error
raise ValueError('Invalid connection mode specified: ' + str(self._mode))
def _send_tcp_full(self, message):
# https://core.telegram.org/mtproto#tcp-transport
# total length, sequence number, packet and checksum (CRC32)
length = len(message) + 12
data = struct.pack('<ii', length, self._send_counter) + message
crc = struct.pack('<I', crc32(data))
self._send_counter += 1
self.write(data + crc)
def _send_intermediate(self, message):
self.write(struct.pack('<i', len(message)) + message)
def _send_abridged(self, message):
length = len(message) >> 2
if length < 127:
length = struct.pack('B', length)
else:
length = b'\x7f' + int.to_bytes(length, 3, 'little')
self.write(length + message)
# endregion
# region Read implementations
def read(self, length):
raise ValueError('Invalid connection mode specified: ' + str(self._mode))
def _read_plain(self, length):
return self.conn.read(length)
def _read_obfuscated(self, length):
return self._aes_decrypt.encrypt(
self.conn.read(length)
)
# endregion
# region Write implementations
def write(self, data):
raise ValueError('Invalid connection mode specified: ' + str(self._mode))
def _write_plain(self, data):
self.conn.write(data)
def _write_obfuscated(self, data):
self.conn.write(self._aes_encrypt.encrypt(data))
# endregion