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Reviewed authenticator.py
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parent
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commit
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@ -9,7 +9,6 @@ from utils.binary_writer import BinaryWriter
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from utils.binary_reader import BinaryReader
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from utils.factorizator import Factorizator
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from utils.auth_key import AuthKey
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from hashlib import sha1
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import utils.helpers as utils
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import time
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import pyaes
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@ -27,8 +26,9 @@ def do_authentication(transport):
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sender.send(writer.get_bytes())
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# Step 1 response: PQ Request
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pq, pq_bytes, server_nonce, fingerprints = None, None, None, []
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with BinaryReader(sender.receive()) as reader:
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response_code = reader.read_int()
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response_code = reader.read_int(signed=False)
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if response_code != 0x05162463:
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raise AssertionError('Invalid response code: {}'.format(hex(response_code)))
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@ -55,15 +55,14 @@ def do_authentication(transport):
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p, q = Factorizator.factorize(pq)
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with BinaryWriter() as pq_inner_data_writer:
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pq_inner_data_writer.write_int(0x83c95aec) # PQ Inner Data
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pq_inner_data_writer.tgwrite_bytes(pq_bytes)
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# TODO, CHANGE TO_BYTE_ARRAY TO PACK(...); But idk size. And down too.
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pq_inner_data_writer.tgwrite_bytes(min(p, q).to_byte_array_unsigned())
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pq_inner_data_writer.tgwrite_bytes(max(p, q).to_byte_array_unsigned())
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pq_inner_data_writer.tgwrite_bytes(utils.get_byte_array(pq, signed=False))
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pq_inner_data_writer.tgwrite_bytes(utils.get_byte_array(min(p, q), signed=False))
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pq_inner_data_writer.tgwrite_bytes(utils.get_byte_array(max(p, q), signed=False))
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pq_inner_data_writer.write(nonce)
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pq_inner_data_writer.write(server_nonce)
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pq_inner_data_writer.write(new_nonce)
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cipher_text = None
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cipher_text, target_fingerprint = None, None
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for fingerprint in fingerprints:
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cipher_text = rsa.encrypt(str(fingerprint, encoding='utf-8').replace('-', ''),
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pq_inner_data_writer.get_bytes())
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@ -80,16 +79,18 @@ def do_authentication(transport):
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req_dh_params_writer.write_int(0xd712e4be) # Req DH Params
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req_dh_params_writer.write(nonce)
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req_dh_params_writer.write(server_nonce)
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req_dh_params_writer.tgwrite_bytes(min(p, q).to_byte_array_unsigned())
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req_dh_params_writer.tgwrite_bytes(max(p, q).to_byte_array_unsigned())
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req_dh_params_writer.Write(target_fingerprint);
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req_dh_params_writer.tgwrite_bytes(utils.get_byte_array(min(p, q), signed=False))
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req_dh_params_writer.tgwrite_bytes(utils.get_byte_array(max(p, q), signed=False))
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req_dh_params_writer.Write(target_fingerprint)
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req_dh_params_writer.tgwrite_bytes(cipher_text)
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req_dh_params_bytes = req_dh_params_writer.get_bytes();
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req_dh_params_bytes = req_dh_params_writer.get_bytes()
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sender.send(req_dh_params_bytes)
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# Step 2 response: DH Exchange
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encrypted_answer = None
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with BinaryReader(sender.receive()) as reader:
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response_code = reader.read_int()
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response_code = reader.read_int(signed=False)
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if response_code == 0x79cb045d:
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raise AssertionError('Server DH params fail: TODO')
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@ -98,26 +99,21 @@ def do_authentication(transport):
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raise AssertionError('Invalid response code: {}'.format(hex(response_code)))
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nonce_from_server = reader.read(16)
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# TODO:
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"""
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if nonce_from_server != nonce:
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print('Invalid nonce from server')
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return None
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"""
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raise NotImplementedError('Invalid nonce from server')
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server_nonce_from_server = reader.read(16)
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# TODO:
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"""
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if server_nonce_from_server != server_nonce:
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print('Invalid server nonce from server')
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return None
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"""
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raise NotImplementedError('Invalid server nonce from server')
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encrypted_answer = reader.tgread_bytes()
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# Step 3 sending: Complete DH Exchange
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key, iv = utils.generate_key_data_from_nonces(server_nonce, new_nonce)
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aes = pyaes.AESModeOfOperationCFB(key, iv, 16)
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plain_text_answer = aes.decrypt(encrypted_answer)
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g, dh_prime, ga, time_offset = None, None, None, None
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with BinaryReader(plain_text_answer.encode('ascii')) as dh_inner_data_reader:
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hashsum = dh_inner_data_reader.read(20)
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code = dh_inner_data_reader.read_int(signed=False)
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@ -133,15 +129,15 @@ def do_authentication(transport):
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raise AssertionError('Invalid server nonce in encrypted answer')
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g = dh_inner_data_reader.read_int()
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dh_prime = int.from_bytes(dh_inner_data_reader.tgread_bytes(), byteorder='big')
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ga = int.from_bytes(dh_inner_data_reader.tgread_bytes(), byteorder='big')
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dh_prime = int.from_bytes(dh_inner_data_reader.tgread_bytes(), byteorder='big', signed=True)
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ga = int.from_bytes(dh_inner_data_reader.tgread_bytes(), byteorder='big', signed=True)
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server_time = dh_inner_data_reader.read_int()
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time_offset = server_time - int(time.time())
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time_offset = server_time - int(time.time() * 1000) # Multiply by 1000 to get milliseconds
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b = int.from_bytes(utils.generate_random_bytes(2048), byteorder='big')
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gb = pow(g, b, dh_prime) # BigInteger.ValueOf(g).ModPow(b, dhPrime)
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gab = pow(ga, b, dh_prime) # ga.ModPow(b, dhPrime)
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gb = pow(g, b, dh_prime)
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gab = pow(ga, b, dh_prime)
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# Prepare client DH Inner Data
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with BinaryWriter() as client_dh_inner_data_writer:
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@ -149,10 +145,10 @@ def do_authentication(transport):
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client_dh_inner_data_writer.write(nonce)
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client_dh_inner_data_writer.write(server_nonce)
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client_dh_inner_data_writer.write_long(0) # TODO retry_id
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client_dh_inner_data_writer.tgwrite_bytes(gb.to_byte_array_unsigned())
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client_dh_inner_data_writer.tgwrite_bytes(utils.get_byte_array(gb, signed=False))
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with BinaryWriter() as client_dh_inner_data_with_hash_writer:
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client_dh_inner_data_with_hash_writer.write(sha1(client_dh_inner_data_writer.get_bytes()))
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client_dh_inner_data_with_hash_writer.write(utils.sha1(client_dh_inner_data_writer.get_bytes()))
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client_dh_inner_data_with_hash_writer.write(client_dh_inner_data_writer.get_bytes())
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client_dh_inner_data_bytes = client_dh_inner_data_with_hash_writer.get_bytes()
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@ -172,22 +168,15 @@ def do_authentication(transport):
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# Step 3 response: Complete DH Exchange
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with BinaryReader(sender.receive()) as reader:
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code = reader.read_int(signed=False)
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if code == 0x3bcbf734:
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if code == 0x3bcbf734: # DH Gen OK
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nonce_from_server = reader.read(16)
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# TODO:
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"""
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if nonce_from_server != nonce:
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print('Invalid nonce from server')
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return None
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"""
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raise NotImplementedError('Invalid nonce from server')
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server_nonce_from_server = reader.read(16)
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# TODO:
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"""
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if server_nonce_from_server != server_nonce:
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print('Invalid server nonce from server')
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return None
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"""
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raise NotImplementedError('Invalid server nonce from server')
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new_nonce_hash1 = reader.read(16)
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auth_key = AuthKey(gab)
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@ -297,8 +297,8 @@ def write_onresponse_code(builder, arg, args, name=None):
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if arg.is_vector:
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builder.writeln("reader.read_int() # Vector's constructor ID")
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builder.writeln('{} = [] # Initialize an empty list'.format(name))
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builder.writeln('{}_len = reader.read_int()'.format(name))
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builder.writeln('for _ in range({}_len):'.format(name))
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builder.writeln('{}_len = reader.read_int()'.format(arg.name))
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builder.writeln('for _ in range({}_len):'.format(arg.name))
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# Temporary disable .is_vector, not to enter this if again
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arg.is_vector = False
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write_onresponse_code(builder, arg, args, name='{}_item'.format(arg.name))
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@ -1,6 +1,6 @@
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# This file is based on TLSharp
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# https://github.com/sochix/TLSharp/blob/master/TLSharp.Core/MTProto/Crypto/AuthKey.cs
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from hashlib import sha1
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import utils.helpers as utils
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from utils.binary_writer import BinaryWriter
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from utils.binary_reader import BinaryReader
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@ -8,23 +8,22 @@ from utils.binary_reader import BinaryReader
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class AuthKey:
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def __init__(self, gab=None, data=None):
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if gab:
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self.key = gab.to_byte_array_unsigned()
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self.key = utils.get_byte_array(gab, signed=False)
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elif data:
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self.key = data
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else:
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raise AssertionError('Either a gab integer or data bytes array must be provided')
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with BinaryReader(sha1(self.key)) as reader:
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with BinaryReader(utils.sha1(self.key)) as reader:
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self.aux_hash = reader.read_long(signed=False)
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reader.read(4)
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self.key_id = reader.read_long(signed=False)
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def calc_new_nonce_hash(self, new_nonce, number):
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with BinaryWriter() as writer:
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writer.write(new_nonce)
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writer.write_byte(number)
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writer.write_long(self.aux_hash, signed=False)
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new_nonce_hash = sha1(writer.get_bytes())[4:20]
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new_nonce_hash = utils.sha1(writer.get_bytes())[4:20]
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return new_nonce_hash
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@ -1,11 +1,14 @@
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import os
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from utils.binary_writer import BinaryWriter
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from hashlib import sha1
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import hashlib
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bits_per_byte = 8
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def generate_random_long(signed=True):
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"""Generates a random long integer (8 bytes), which is optionally signed"""
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return int.from_bytes(os.urandom(8), signed=signed)
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return int.from_bytes(os.urandom(8), signed=signed, byteorder='big')
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def generate_random_bytes(count):
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return os.urandom(count)
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def get_byte_array(integer, signed):
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bits = integer.bit_length()
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byte_length = (bits + bits_per_byte - 1) // bits_per_byte
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return int.to_bytes(integer, length=byte_length, byteorder='big', signed=signed)
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def calc_key(shared_key, msg_key, client):
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"""Calculate the key based on Telegram guidelines, specifying whether it's the client or not"""
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x = 0 if client else 8
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buffer = [0] * 48
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buffer[0:16] = msg_key
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buffer[16:48] = shared_key[x:x + 32]
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sha1a = sha1(buffer)
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buffer[0:16] = shared_key[x + 32:x + 48]
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buffer[16:32] = msg_key
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buffer[32:48] = shared_key[x + 48:x + 64]
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sha1b = sha1(buffer)
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buffer[0:32] = shared_key[x + 64:x + 96]
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buffer[32:48] = msg_key
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sha1c = sha1(buffer)
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buffer[0:16] = msg_key
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buffer[16:48] = shared_key[x + 96:x + 128]
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sha1d = sha1(buffer)
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sha1a = sha1(msg_key + shared_key[x:x + 32])
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sha1b = sha1(shared_key[x + 32:x + 48] + msg_key + shared_key[x + 48:x + 64])
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sha1c = sha1(shared_key[x + 64:x + 96] + msg_key)
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sha1d = sha1(msg_key + shared_key[x + 96:x + 128])
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key = sha1a[0:8] + sha1b[8:20] + sha1c[4:16]
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iv = sha1a[8:20] + sha1b[0:8] + sha1c[16:20] + sha1d[0:8]
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@ -48,43 +44,27 @@ def calc_msg_key(data):
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def calc_msg_key_offset(data, offset, limit):
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"""Calculates the message key from offset given data, with an optional offset and limit"""
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# TODO untested, may not be offset like this
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# In the original code it was as parameters for the sha function, not slicing the array
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return sha1(data[offset:offset + limit])[4:20]
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def generate_key_data_from_nonces(serverNonce, newNonce):
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# TODO unsure that this works
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nonces = [0] * 48
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def generate_key_data_from_nonces(server_nonce, new_nonce):
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hash1 = sha1(bytes(new_nonce + server_nonce))
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hash2 = sha1(bytes(server_nonce + new_nonce))
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hash3 = sha1(bytes(new_nonce + new_nonce))
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nonces[00:32] = newNonce
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nonces[32:48] = serverNonce
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hash1 = hash(bytes(nonces))
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with BinaryWriter() as key_buffer:
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with BinaryWriter() as iv_buffer:
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key_buffer.write(hash1)
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key_buffer.write(hash2[:12])
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nonces[00:16] = serverNonce
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nonces[16:32] = newNonce
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hash2 = hash(bytes(nonces))
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iv_buffer.write(hash2[12:20])
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iv_buffer.write(hash3)
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iv_buffer.write_byte(new_nonce[:4])
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nonces = [0] * 64
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nonces[00:32] = newNonce
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nonces[32:64] = newNonce
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hash2 = hash(bytes(nonces))
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return key_buffer.get_bytes(), iv_buffer.get_bytes()
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with BinaryWriter() as keyBuffer:
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with BinaryWriter() as ivBuffer:
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"""
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using (var keyBuffer = new MemoryStream(32))
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using (var ivBuffer = new MemoryStream(32))
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{
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keyBuffer.Write(hash1, 0, hash1.Length);
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keyBuffer.Write(hash2, 0, 12);
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ivBuffer.Write(hash2, 12, 8);
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ivBuffer.Write(hash3, 0, hash3.Length);
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ivBuffer.Write(newNonce, 0, 4);
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return new AESKeyData(keyBuffer.ToArray(), ivBuffer.ToArray());
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}
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"""
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# TODO implement
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raise NotImplementedError()
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def sha1(data):
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sha = hashlib.sha1
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sha.update(data)
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return sha.digest()
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