# Pyrogram - Telegram MTProto API Client Library for Python # Copyright (C) 2017-present Dan # # This file is part of Pyrogram. # # Pyrogram is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as published # by the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Pyrogram is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public License # along with Pyrogram. If not, see . import asyncio import logging import time from hashlib import sha1 from io import BytesIO from os import urandom import pyrogram from pyrogram import raw from pyrogram.connection import Connection from pyrogram.crypto import aes, rsa, prime from pyrogram.errors import SecurityCheckMismatch from pyrogram.raw.core import TLObject, Long, Int from .internals import MsgId log = logging.getLogger(__name__) class Auth: MAX_RETRIES = 5 def __init__(self, client: "pyrogram.Client", dc_id: int, test_mode: bool): self.dc_id = dc_id self.test_mode = test_mode self.ipv6 = client.ipv6 self.proxy = client.proxy self.mode = client.mode self.connection = None @staticmethod def pack(data: TLObject) -> bytes: return ( bytes(8) + Long(MsgId()) + Int(len(data.write())) + data.write() ) @staticmethod def unpack(b: BytesIO): b.seek(20) # Skip auth_key_id (8), message_id (8) and message_length (4) return TLObject.read(b) async def send(self, data: TLObject): data = self.pack(data) await self.connection.send(data) response = BytesIO(await self.connection.recv()) return self.unpack(response) async def create(self): """ https://core.telegram.org/mtproto/auth_key https://core.telegram.org/mtproto/samples-auth_key """ retries_left = self.MAX_RETRIES # The server may close the connection at any time, causing the auth key creation to fail. # If that happens, just try again up to MAX_RETRIES times. while True: self.connection = Connection(self.dc_id, self.test_mode, self.ipv6, self.proxy, False, self.mode) try: log.info(f"Start creating a new auth key on DC{self.dc_id}") await self.connection.connect() # Step 1; Step 2 nonce = int.from_bytes(urandom(16), "little", signed=True) log.debug(f"Send req_pq: {nonce}") res_pq = await self.send(raw.functions.ReqPqMulti(nonce=nonce)) log.debug(f"Got ResPq: {res_pq.server_nonce}") log.debug(f"Server public key fingerprints: {res_pq.server_public_key_fingerprints}") for i in res_pq.server_public_key_fingerprints: if i in rsa.server_public_keys: log.debug(f"Using fingerprint: {i}") public_key_fingerprint = i break else: log.debug(f"Fingerprint unknown: {i}") else: raise Exception("Public key not found") # Step 3 pq = int.from_bytes(res_pq.pq, "big") log.debug(f"Start PQ factorization: {pq}") start = time.time() g = prime.decompose(pq) p, q = sorted((g, pq // g)) # p < q log.debug(f"Done PQ factorization ({round(time.time() - start, 3)}s): {p} {q}") # Step 4 server_nonce = res_pq.server_nonce new_nonce = int.from_bytes(urandom(32), "little", signed=True) data = raw.types.PQInnerData( pq=res_pq.pq, p=p.to_bytes(4, "big"), q=q.to_bytes(4, "big"), nonce=nonce, server_nonce=server_nonce, new_nonce=new_nonce, ).write() sha = sha1(data).digest() padding = urandom(- (len(data) + len(sha)) % 255) data_with_hash = sha + data + padding encrypted_data = rsa.encrypt(data_with_hash, public_key_fingerprint) log.debug("Done encrypt data with RSA") # Step 5. TODO: Handle "server_DH_params_fail". Code assumes response is ok log.debug("Send req_DH_params") server_dh_params = await self.send( raw.functions.ReqDHParams( nonce=nonce, server_nonce=server_nonce, p=p.to_bytes(4, "big"), q=q.to_bytes(4, "big"), public_key_fingerprint=public_key_fingerprint, encrypted_data=encrypted_data ) ) encrypted_answer = server_dh_params.encrypted_answer server_nonce = server_nonce.to_bytes(16, "little", signed=True) new_nonce = new_nonce.to_bytes(32, "little", signed=True) tmp_aes_key = ( sha1(new_nonce + server_nonce).digest() + sha1(server_nonce + new_nonce).digest()[:12] ) tmp_aes_iv = ( sha1(server_nonce + new_nonce).digest()[12:] + sha1(new_nonce + new_nonce).digest() + new_nonce[:4] ) server_nonce = int.from_bytes(server_nonce, "little", signed=True) answer_with_hash = aes.ige256_decrypt(encrypted_answer, tmp_aes_key, tmp_aes_iv) answer = answer_with_hash[20:] server_dh_inner_data = TLObject.read(BytesIO(answer)) log.debug("Done decrypting answer") dh_prime = int.from_bytes(server_dh_inner_data.dh_prime, "big") delta_time = server_dh_inner_data.server_time - time.time() log.debug(f"Delta time: {round(delta_time, 3)}") # Step 6 g = server_dh_inner_data.g b = int.from_bytes(urandom(256), "big") g_b = pow(g, b, dh_prime).to_bytes(256, "big") retry_id = 0 data = raw.types.ClientDHInnerData( nonce=nonce, server_nonce=server_nonce, retry_id=retry_id, g_b=g_b ).write() sha = sha1(data).digest() padding = urandom(- (len(data) + len(sha)) % 16) data_with_hash = sha + data + padding encrypted_data = aes.ige256_encrypt(data_with_hash, tmp_aes_key, tmp_aes_iv) log.debug("Send set_client_DH_params") set_client_dh_params_answer = await self.send( raw.functions.SetClientDHParams( nonce=nonce, server_nonce=server_nonce, encrypted_data=encrypted_data ) ) # TODO: Handle "auth_key_aux_hash" if the previous step fails # Step 7; Step 8 g_a = int.from_bytes(server_dh_inner_data.g_a, "big") auth_key = pow(g_a, b, dh_prime).to_bytes(256, "big") server_nonce = server_nonce.to_bytes(16, "little", signed=True) # TODO: Handle errors ####################### # Security checks ####################### SecurityCheckMismatch.check(dh_prime == prime.CURRENT_DH_PRIME) log.debug("DH parameters check: OK") # https://core.telegram.org/mtproto/security_guidelines#g-a-and-g-b-validation g_b = int.from_bytes(g_b, "big") SecurityCheckMismatch.check(1 < g < dh_prime - 1) SecurityCheckMismatch.check(1 < g_a < dh_prime - 1) SecurityCheckMismatch.check(1 < g_b < dh_prime - 1) SecurityCheckMismatch.check(2 ** (2048 - 64) < g_a < dh_prime - 2 ** (2048 - 64)) SecurityCheckMismatch.check(2 ** (2048 - 64) < g_b < dh_prime - 2 ** (2048 - 64)) log.debug("g_a and g_b validation: OK") # https://core.telegram.org/mtproto/security_guidelines#checking-sha1-hash-values answer = server_dh_inner_data.write() # Call .write() to remove padding SecurityCheckMismatch.check(answer_with_hash[:20] == sha1(answer).digest()) log.debug("SHA1 hash values check: OK") # https://core.telegram.org/mtproto/security_guidelines#checking-nonce-server-nonce-and-new-nonce-fields # 1st message SecurityCheckMismatch.check(nonce == res_pq.nonce) # 2nd message server_nonce = int.from_bytes(server_nonce, "little", signed=True) SecurityCheckMismatch.check(nonce == server_dh_params.nonce) SecurityCheckMismatch.check(server_nonce == server_dh_params.server_nonce) # 3rd message SecurityCheckMismatch.check(nonce == set_client_dh_params_answer.nonce) SecurityCheckMismatch.check(server_nonce == set_client_dh_params_answer.server_nonce) server_nonce = server_nonce.to_bytes(16, "little", signed=True) log.debug("Nonce fields check: OK") # Step 9 server_salt = aes.xor(new_nonce[:8], server_nonce[:8]) log.debug(f"Server salt: {int.from_bytes(server_salt, 'little')}") log.info(f"Done auth key exchange: {set_client_dh_params_answer.__class__.__name__}") except Exception as e: if retries_left: retries_left -= 1 else: raise e await asyncio.sleep(1) continue else: return auth_key finally: self.connection.close()