Telethon/telethon/network/authenticator.py

import os
import time
from hashlib import sha1

import errno

from .. import helpers as utils
from ..crypto import AES, AuthKey, Factorization
from ..crypto import rsa
from ..errors import SecurityError, TypeNotFoundError
from ..extensions import BinaryReader, BinaryWriter
from ..network import MtProtoPlainSender


def do_authentication(connection, retries=5):
    if not retries or retries < 0:
        retries = 1

    last_error = None
    while retries:
        try:
            return _do_authentication(connection)
        except (SecurityError, TypeNotFoundError, NotImplementedError) as e:
            last_error = e
        retries -= 1
    raise last_error


def _do_authentication(connection):
    """Executes the authentication process with the Telegram servers.
       If no error is raised, returns both the authorization key and the
       time offset.
    """
    sender = MtProtoPlainSender(connection)

    # Step 1 sending: PQ Request
    nonce = os.urandom(16)
    with BinaryWriter(known_length=20) as writer:
        writer.write_int(0x60469778, signed=False)  # Constructor number
        writer.write(nonce)
        sender.send(writer.get_bytes())

    # Step 1 response: PQ Request
    pq, pq_bytes, server_nonce, fingerprints = None, None, None, []
    with BinaryReader(sender.receive()) as reader:
        response_code = reader.read_int(signed=False)
        if response_code != 0x05162463:
            raise TypeNotFoundError(response_code)

        nonce_from_server = reader.read(16)
        if nonce_from_server != nonce:
            raise SecurityError('Invalid nonce from server')

        server_nonce = reader.read(16)

        pq_bytes = reader.tgread_bytes()
        pq = get_int(pq_bytes)

        vector_id = reader.read_int()
        if vector_id != 0x1cb5c415:
            raise TypeNotFoundError(response_code)

        fingerprints = []
        fingerprint_count = reader.read_int()
        for _ in range(fingerprint_count):
            fingerprints.append(reader.read(8))

    # Step 2 sending: DH Exchange
    new_nonce = os.urandom(32)
    p, q = Factorization.factorize(pq)
    with BinaryWriter() as pq_inner_data_writer:
        pq_inner_data_writer.write_int(
            0x83c95aec, signed=False)  # PQ Inner Data
        pq_inner_data_writer.tgwrite_bytes(rsa.get_byte_array(pq))
        pq_inner_data_writer.tgwrite_bytes(rsa.get_byte_array(min(p, q)))
        pq_inner_data_writer.tgwrite_bytes(rsa.get_byte_array(max(p, q)))
        pq_inner_data_writer.write(nonce)
        pq_inner_data_writer.write(server_nonce)
        pq_inner_data_writer.write(new_nonce)

        # sha_digest + data + random_bytes
        cipher_text, target_fingerprint = None, None
        for fingerprint in fingerprints:
            cipher_text = rsa.encrypt(
                fingerprint,
                pq_inner_data_writer.get_bytes()
            )

            if cipher_text is not None:
                target_fingerprint = fingerprint
                break

        if cipher_text is None:
            raise SecurityError(
                'Could not find a valid key for fingerprints: {}'
                .format(', '.join([repr(f) for f in fingerprints]))
            )

        with BinaryWriter() as req_dh_params_writer:
            req_dh_params_writer.write_int(
                0xd712e4be, signed=False)  # Req DH Params
            req_dh_params_writer.write(nonce)
            req_dh_params_writer.write(server_nonce)
            req_dh_params_writer.tgwrite_bytes(rsa.get_byte_array(min(p, q)))
            req_dh_params_writer.tgwrite_bytes(rsa.get_byte_array(max(p, q)))
            req_dh_params_writer.write(target_fingerprint)
            req_dh_params_writer.tgwrite_bytes(cipher_text)

            req_dh_params_bytes = req_dh_params_writer.get_bytes()
            sender.send(req_dh_params_bytes)

    # Step 2 response: DH Exchange
    encrypted_answer = None
    with BinaryReader(sender.receive()) as reader:
        response_code = reader.read_int(signed=False)

        if response_code == 0x79cb045d:
            raise SecurityError('Server DH params fail: TODO')

        if response_code != 0xd0e8075c:
            raise TypeNotFoundError(response_code)

        nonce_from_server = reader.read(16)
        if nonce_from_server != nonce:
            raise SecurityError('Invalid nonce from server')

        server_nonce_from_server = reader.read(16)
        if server_nonce_from_server != server_nonce:
            raise SecurityError('Invalid server nonce from server')

        encrypted_answer = reader.tgread_bytes()

    # Step 3 sending: Complete DH Exchange
    key, iv = utils.generate_key_data_from_nonce(server_nonce, new_nonce)
    plain_text_answer = AES.decrypt_ige(encrypted_answer, key, iv)

    g, dh_prime, ga, time_offset = None, None, None, None
    with BinaryReader(plain_text_answer) as dh_inner_data_reader:
        dh_inner_data_reader.read(20)  # hash sum
        code = dh_inner_data_reader.read_int(signed=False)
        if code != 0xb5890dba:
            raise TypeNotFoundError(code)

        nonce_from_server1 = dh_inner_data_reader.read(16)
        if nonce_from_server1 != nonce:
            raise SecurityError('Invalid nonce in encrypted answer')

        server_nonce_from_server1 = dh_inner_data_reader.read(16)
        if server_nonce_from_server1 != server_nonce:
            raise SecurityError('Invalid server nonce in encrypted answer')

        g = dh_inner_data_reader.read_int()
        dh_prime = get_int(dh_inner_data_reader.tgread_bytes(), signed=False)
        ga = get_int(dh_inner_data_reader.tgread_bytes(), signed=False)

        server_time = dh_inner_data_reader.read_int()
        time_offset = server_time - int(time.time())

    b = get_int(os.urandom(256), signed=False)
    gb = pow(g, b, dh_prime)
    gab = pow(ga, b, dh_prime)

    # Prepare client DH Inner Data
    with BinaryWriter() as client_dh_inner_data_writer:
        client_dh_inner_data_writer.write_int(
            0x6643b654, signed=False)  # Client DH Inner Data
        client_dh_inner_data_writer.write(nonce)
        client_dh_inner_data_writer.write(server_nonce)
        client_dh_inner_data_writer.write_long(0)  # TODO retry_id
        client_dh_inner_data_writer.tgwrite_bytes(rsa.get_byte_array(gb))

        with BinaryWriter() as client_dh_inner_data_with_hash_writer:
            client_dh_inner_data_with_hash_writer.write(
                sha1(client_dh_inner_data_writer.get_bytes()).digest())

            client_dh_inner_data_with_hash_writer.write(
                client_dh_inner_data_writer.get_bytes())

            client_dh_inner_data_bytes = \
                client_dh_inner_data_with_hash_writer.get_bytes()

    # Encryption
    client_dh_inner_data_encrypted_bytes = AES.encrypt_ige(
        client_dh_inner_data_bytes, key, iv)

    # Prepare Set client DH params
    with BinaryWriter() as set_client_dh_params_writer:
        set_client_dh_params_writer.write_int(0xf5045f1f, signed=False)
        set_client_dh_params_writer.write(nonce)
        set_client_dh_params_writer.write(server_nonce)
        set_client_dh_params_writer.tgwrite_bytes(
            client_dh_inner_data_encrypted_bytes)

        set_client_dh_params_bytes = set_client_dh_params_writer.get_bytes()
        sender.send(set_client_dh_params_bytes)

    # Step 3 response: Complete DH Exchange
    with BinaryReader(sender.receive()) as reader:
        code = reader.read_int(signed=False)
        if code == 0x3bcbf734:  # DH Gen OK
            nonce_from_server = reader.read(16)
            if nonce_from_server != nonce:
                raise SecurityError('Invalid nonce from server')

            server_nonce_from_server = reader.read(16)
            if server_nonce_from_server != server_nonce:
                raise SecurityError('Invalid server nonce from server')

            new_nonce_hash1 = reader.read(16)
            auth_key = AuthKey(rsa.get_byte_array(gab))

            new_nonce_hash_calculated = auth_key.calc_new_nonce_hash(new_nonce,
                                                                     1)
            if new_nonce_hash1 != new_nonce_hash_calculated:
                raise SecurityError('Invalid new nonce hash')

            return auth_key, time_offset

        elif code == 0x46dc1fb9:  # DH Gen Retry
            raise NotImplementedError('dh_gen_retry')

        elif code == 0xa69dae02:  # DH Gen Fail
            raise NotImplementedError('dh_gen_fail')

        else:
            raise NotImplementedError('DH Gen unknown: {}'.format(hex(code)))


def get_int(byte_array, signed=True):
    """Gets the specified integer from its byte array.
       This should be used by the authenticator,
       who requires the data to be in big endian
    """
    return int.from_bytes(byte_array, byteorder='big', signed=signed)