Telethon/unit_test.py
Lonami 6b8a347426 Several updates, fixes and additions (TcpClient, MtProto...)
README.md was updated to reflect more useful information
More errors from the official Telegrm website have been added
MtProtoSender now handles updates (and doesn't crash!)
Fixes on TcpClient to be able to receive whole large packets
Updated scheme.tl to the layer 55
Session is now saved more often (to prevent damages from crashes)
Fixes to the code generator (generated invalid code for reading "bytes")
2016-09-06 18:54:49 +02:00

274 lines
17 KiB
Python
Executable File

import random
import socket
import threading
import unittest
import os
import platform
from tl import Session
from tl.functions import InvokeWithLayerRequest, InitConnectionRequest
from tl.functions.help import GetConfigRequest
from crypto import AES, Factorizator
from network import TcpTransport, TcpClient, MtProtoSender
from utils import BinaryWriter, BinaryReader
import utils
import network.authenticator
host = 'localhost'
port = random.randint(50000, 60000) # Arbitrary non-privileged port
def run_server_echo_thread():
def server_thread():
with socket.socket(socket.AF_INET, socket.SOCK_STREAM) as s:
s.bind(('', port))
s.listen(1)
conn, addr = s.accept()
with conn:
data = conn.recv(16)
conn.send(data)
server = threading.Thread(target=server_thread)
server.start()
def get_representation(bytez):
return '-'.join(hex(b)[2:].rjust(2, '0').upper() for b in bytez)
def get_bytes(representation):
return bytes([int(b, 16) for b in representation.split('-')])
class UnitTest(unittest.TestCase):
@staticmethod
def test_tcp_client():
client = TcpClient()
run_server_echo_thread()
try:
client.connect(host, port)
except:
raise AssertionError('Could connect to the server')
try:
client.write('Unit testing...'.encode('ascii'))
except:
raise AssertionError('Could not send a message to the server')
try:
client.read(16)
except:
raise AssertionError('Could not read a message to the server')
try:
client.close()
except:
raise AssertionError('Could not close the client')
@staticmethod
def test_binary_writer_reader():
# Test that we can write and read properly
with BinaryWriter() as writer:
writer.write_byte(1)
writer.write_int(5)
writer.write_long(13)
writer.write_float(17.0)
writer.write_double(25.0)
writer.write(bytes([26, 27, 28, 29, 30, 31, 32]))
writer.write_large_int(2**127, 128, signed=False)
data = writer.get_bytes()
assert data is not None, 'Example Data should not be None'
assert len(data) == 48, 'Example data length should be 48, but is {}'.format(len(data))
with BinaryReader(data) as reader:
value = reader.read_byte()
assert value == 1, 'Example byte should be 1 but is {}'.format(value)
value = reader.read_int()
assert value == 5, 'Example integer should be 5 but is {}'.format(value)
value = reader.read_long()
assert value == 13, 'Example long integer should be 13 but is {}'.format(value)
value = reader.read_float()
assert value == 17.0, 'Example float should be 17.0 but is {}'.format(value)
value = reader.read_double()
assert value == 25.0, 'Example double should be 25.0 but is {}'.format(value)
value = reader.read(7)
assert value == bytes([26, 27, 28, 29, 30, 31, 32]), 'Example bytes should be {} but is {}' \
.format(bytes([26, 27, 28, 29, 30, 31, 32]), value)
value = reader.read_large_int(128, signed=False)
assert value == 2 ** 127, 'Example large integer should be {} but is {}'.format(2 ** 127, value)
# Test Telegram that types are written right
with BinaryWriter() as writer:
writer.write_int(0x60469778)
buffer = writer.get_bytes()
valid = b'\x78\x97\x46\x60' # Tested written bytes using TLSharp and C#'s MemoryStream
assert buffer == valid, "Written type should be {} but is {}".format(list(valid), list(buffer))
@staticmethod
def test_binary_tgwriter_tgreader():
string = 'Testing Telegram strings, this should work properly!'
small_data = utils.generate_random_bytes(20)
large_data = utils.generate_random_bytes(1024)
with BinaryWriter() as writer:
writer.tgwrite_string(string)
writer.tgwrite_bytes(small_data)
writer.tgwrite_bytes(large_data)
data = writer.get_bytes()
assert data is not None, 'Example Data should not be None'
with BinaryReader(data) as reader:
value = reader.tgread_string()
assert value == string, 'Example string should be {} but is {}'.format(string, value)
value = reader.tgread_bytes()
assert value == small_data, 'Example bytes should be {} but is {}'.format(small_data, value)
value = reader.tgread_bytes()
assert value == large_data, 'Example bytes should be {} but is {}'.format(large_data, value)
@staticmethod
def test_factorizator():
pq = 3118979781119966969
p, q = Factorizator.factorize(pq)
assert p == 1719614201, 'Factorized pair did not yield the correct result'
assert q == 1813767169, 'Factorized pair did not yield the correct result'
@staticmethod
def test_to_byte_array():
for value, real in zip(
[3118979781119966969, # PQ
1667024975687354561, # PQ
1148985737, 1450866553], # Min, Max
['2B-48-D7-95-FB-47-FE-F9', # PQ
'17-22-76-62-13-8C-88-C1', # PQ
'44-7C-21-89', '56-7A-77-79'] # Min, Max
):
current = get_representation(utils.get_byte_array(value, signed=True))
assert real == current, 'Invalid byte array representation (expected {}, got {})'.format(current, real)
@staticmethod
def test_sha1():
string = 'Example string'
data = get_representation(string.encode('utf-8'))
real = '45-78-61-6D-70-6C-65-20-73-74-72-69-6E-67'
assert data == real, 'Invalid string representation (should be {}, but is {})'.format(real, data)
hashsum = get_representation(utils.sha1(get_bytes(data)))
real = '0A-54-92-7C-8D-06-3A-29-99-04-8E-F8-6A-3F-C4-8E-D3-7D-6D-39'
assert hashsum == real, 'Invalid sha1 hashsum representation (should be {}, but is {})'.format(real, data)
@staticmethod
def test_bytes_to_int():
bytez = b'\x01\x23\x45\x67\x89\xab\xcd\xef'
reprs = get_representation(bytez)
real = '01-23-45-67-89-AB-CD-EF'
assert reprs == real, 'Invalid bytes representation (should be {} but is {})'.format(real, reprs)
assert bytez == get_bytes(reprs), 'Invalid representation to bytes conversion'
value = int.from_bytes(bytez, byteorder='big', signed=True)
real = 81985529216486895
assert value == real, 'Invalid bytes to int conversion (should be {} but is {})'.format(real, value)
# Now test more cases
for repr, real in zip(
['24-9D-FE-49-20-45-DF-C3', '60-44-F3-33', '61-5F-61-31'],
[2638544546736496579, 1615131443, 1633640753]
):
bytez = get_bytes(repr)
if len(bytez) > 8:
value = int.from_bytes(bytez, byteorder='little', signed=True)
else:
value = int.from_bytes(bytez, byteorder='big', signed=True)
assert value == real, 'Invalid bytes to int conversion (should be {} but is {})'.format(real, value)
@staticmethod
def test_aes_decrypt():
cipher_text = get_bytes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
key = get_bytes('23-D7-11-75-77-78-5D-74-6F-74-C4-23-D3-99-66-E7-77-8B-5A-92-94-A5-88-C2-C3-D4-46-B7-F1-0C-D7-FA')
iv = get_bytes('F8-DC-50-26-71-C3-56-72-D7-07-78-17-57-D3-B6-5D-A6-EB-02-DB-7D-73-0A-0B-1C-29-15-40-CC-6C-03-7E')
plain_text = AES.decrypt_ige(cipher_text, key, iv)
real = get_bytes('FB-17-EB-54-86-B6-49-1C-DF-D8-24-E6-D9-82-37-44-66-18-84-9F-BA-0D-89-B5-81-0D-47-B2-1B-CB-56-3F-7F-69-3A-22-0A-30-39-71-EE-1F-40-B2-A7-1A-4B-BD-76-7E-7A-FD-20-68-58-5F-03-00-00-00-FE-00-01-00-C7-1C-AE-B9-C6-B1-C9-04-8E-6C-52-2F-70-F1-3F-73-98-0D-40-23-8E-3E-21-C1-49-34-D0-37-56-3D-93-0F-48-19-8A-0A-A7-C1-40-58-22-94-93-D2-25-30-F4-DB-FA-33-6F-6E-0A-C9-25-13-95-43-AE-D4-4C-CE-7C-37-20-FD-51-F6-94-58-70-5A-C6-8C-D4-FE-6B-6B-13-AB-DC-97-46-51-29-69-32-84-54-F1-8F-AF-8C-59-5F-64-24-77-FE-96-BB-2A-94-1D-5B-CD-1D-4A-C8-CC-49-88-07-08-FA-9B-37-8E-3C-4F-3A-90-60-BE-E6-7C-F9-A4-A4-A6-95-81-10-51-90-7E-16-27-53-B5-6B-0F-6B-41-0D-BA-74-D8-A8-4B-2A-14-B3-14-4E-0E-F1-28-47-54-FD-17-ED-95-0D-59-65-B4-B9-DD-46-58-2D-B1-17-8D-16-9C-6B-C4-65-B0-D6-FF-9C-A3-92-8F-EF-5B-9A-E4-E4-18-FC-15-E8-3E-BE-A0-F8-7F-A9-FF-5E-ED-70-05-0D-ED-28-49-F4-7B-F9-59-D9-56-85-0C-E9-29-85-1F-0D-81-15-F6-35-B1-05-EE-2E-4E-15-D0-4B-24-54-BF-6F-4F-AD-F0-34-B1-04-03-11-9C-D8-E3-B9-2F-CC-5B-FE-00-01-00-22-8A-8F-62-58-9E-D1-9F-4B-53-EC-FB-22-E0-52-6B-8E-09-2E-B6-4B-90-53-30-A7-1F-52-1F-5B-3C-8F-AC-12-5B-D3-35-22-2A-1E-3E-9F-BD-33-73-B3-5C-1A-A6-8E-01-35-B4-8C-92-AE-D9-A0-86-6C-EF-CA-C9-09-4E-3B-B8-E5-F6-76-EE-F9-E7-CE-F1-DF-9E-F1-2E-92-55-DF-CF-80-68-70-AD-D1-AB-B2-34-54-E0-BF-38-A6-F4-C4-5B-64-96-8F-C7-14-18-84-7A-0A-44-38-56-1A-E4-9E-16-81-9D-AF-CC-A5-0E-17-D1-9E-DB-DE-DD-14-7D-04-71-99-06-32-3E-92-CE-D4-6E-76-10-DF-17-D9-2E-97-6A-F0-81-CC-ED-D5-20-10-60-AD-D8-7B-C2-FB-7D-87-CD-1E-B7-0E-28-1A-78-61-9C-8A-CA-81-A0-03-B2-40-7F-AE-BB-E3-21-96-74-01-A6-E2-C0-D8-17-C9-19-78-AD-1C-51-12-DC-29-8F-50-CA-8A-2F-56-89-A4-AC-E0-0F-C1-71-E4-C7-33-71-AE-83-30-59-D1-33-C2-D6-A6-F1-E8-FC-1F-77-3D-ED-E9-BF-B5-1C-6F-C0-9E-81-4B-B2-5A-51-C3-94-6B-BD-AD-5C-FF-DD-4B-0C-DB-E8-DA-0D-CB-57-B5-AC-D0-95-9E-FC-8F-F8')
assert plain_text == real, 'Decrypted text does not equal the real value (expected "{}", got "{}")'\
.format(get_representation(real), get_representation(plain_text))
@staticmethod
def test_aes_encrypt():
original_text = get_bytes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
key = get_bytes('23-D7-11-75-77-78-5D-74-6F-74-C4-23-D3-99-66-E7-77-8B-5A-92-94-A5-88-C2-C3-D4-46-B7-F1-0C-D7-FA')
iv = get_bytes('F8-DC-50-26-71-C3-56-72-D7-07-78-17-57-D3-B6-5D-A6-EB-02-DB-7D-73-0A-0B-1C-29-15-40-CC-6C-03-7E')
cipher_text = AES.encrypt_ige(original_text, key, iv)
real = get_bytes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
assert cipher_text == real, 'Decrypted text does not equal the real value (expected "{}", got "{}")'\
.format(get_representation(real), get_representation(cipher_text))
@staticmethod
def test_calc_key():
shared_key = get_bytes('BC-D2-6D-B7-CA-76-F4-5D-5B-88-83-27-20-F3-11-8A-73-D0-34-94-31-AE-2A-4F-03-86-9A-2F-48-23-1A-8C-B5-6A-E9-24-E0-49-76-43-6D-5E-E7-30-1A-35-43-09-16-03-D2-9D-A9-89-D6-CE-08-50-0F-64-72-A0-B3-EB-FE-63-76-1A-DF-4A-14-96-98-16-A3-47-AB-04-14-21-5C-EB-0A-BC-6E-DF-C4-25-C6-09-B7-16-14-9C-27-81-15-3D-B0-AF-0E-0B-52-AA-04-36-36-73-F0-CF-B7-B8-3E-2C-44-94-78-D7-F8-E0-84-CB-25-D3-05-B2-E8-95-4D-72-3F-A2-E8-49-6E-F9-0B-5B-45-9B-AA-0C-58-7F-0E-69-DE-EE-64-1D-78-2F-4A-CE-EA-5E-7D-30-3B-A8-33-42-BB-52-A1-BF-65-04-B9-1E-A1-22-66-3D-A5-4D-40-9E-DD-81-80-C9-A5-FB-FC-67-DD-15-03-70-21-0F-66-44-16-89-32-EA-CA-B1-41-99-4F-A9-34-50-A9-A2-C6-3B-B2-43-39-1D-43-35-D2-0D-EC-4C-D9-AB-77-2D-03-0D-79-C2-76-17-5D-02-15-0C-42-61-97-CE-A5-B1-E4-5D-8E-E0-2C-CF-43-7B-6F-FA-99-66-A4-70-4D-00')
msg_keys = [
'BA-1A-CF-DA-A8-5E-43-62-6C-FA-B6-0C-3A-9B-B0-FC',
'86-6D-92-69-CF-8B-93-AA-86-4B-1F-69-D0-34-83-5D',
'A1-2F-C0-61-6F-60-1A-B0-33-8F-7D-27-08-C8-EA-15',
'3A-56-52-0F-B7-89-D7-80-F6-18-72-CD-09-B5-A8-8A',
'06-F7-84-F3-91-CC-8D-DC-7D-92-41-7A-7E-84-25-E4',
'78-4D-FC-AE-F4-C4-55-81-6D-DD-99-A7-DB-B8-A3-88'
]
are_client = [
True,
False,
True,
True,
False,
False
]
valid_keys = [
'AF-E3-84-51-6D-E0-21-0C-D9-31-E4-9A-A0-76-5F-67-63-78-A1-B0-C9-BC-16-27-76-CF-2C-9D-4D-AE-C6-A5',
'DD-30-58-B6-93-8E-C9-79-EF-83-F8-8C-6A-A7-68-03-E2-C6-B1-36-C5-BB-FC-E7-DF-D6-B1-67-F7-75-CF-6B',
'70-3F-66-AF-FE-0A-F3-1E-95-C3-25-48-8D-0F-A7-95-59-53-BF-DD-35-97-6E-7A-C0-5E-79-9C-9D-09-3B-7B',
'20-9F-82-E3-95-3F-9D-1E-EE-3E-F3-82-B0-8D-6E-76-26-5B-94-27-DD-7D-61-C3-AC-EB-FA-71-FF-0D-8F-08',
'AE-06-BF-F1-89-88-22-66-98-48-76-E6-BD-D9-39-36-2D-36-4E-CF-FD-47-D2-87-D7-49-F8-93-22-2E-66-02',
'D9-6B-43-D0-89-F7-C5-75-A2-4A-F2-2F-F0-17-5C-95-AE-FA-46-A5-95-AA-C3-B9-76-B0-3A-A8-0E-7B-EA-5D'
]
valid_ivs = [
'B8-51-F3-C5-A3-5D-C6-DF-9E-E0-51-BD-22-8D-13-09-0E-9A-9D-5E-38-A2-F8-E7-00-77-D9-C1-A7-A0-F7-0F',
'DC-4C-C2-18-01-4A-22-58-86-6C-62-B6-B5-34-37-FD-E2-61-34-B6-AF-7D-46-53-D7-5B-E0-4E-0D-19-FB-BC',
'68-BB-BA-7F-55-B9-EF-86-EE-20-5A-1A-45-4E-70-C3-48-56-A2-E9-2F-91-AD-74-23-FE-54-06-E5-68-04-E9',
'79-31-8D-F0-DC-31-60-D7-09-BC-66-F1-AB-0D-7C-CB-2A-AF-74-32-64-C5-B3-18-C4-ED-55-D9-F6-39-DD-F3',
'1F-51-66-06-05-54-B9-E0-52-6A-88-6A-70-0C-DA-8D-2B-CD-BF-8A-67-5E-1A-A7-DD-EA-1C-CE-4C-D4-34-3D',
'8E-00-97-5E-B7-A1-F7-3D-1C-16-03-CA-B3-ED-EA-80-64-8F-77-A6-C4-34-5B-B5-DC-5D-C9-EC-B7-F8-F4-76'
]
for msg_key, is_client, valid_key, valid_iv in zip(msg_keys, are_client, valid_keys, valid_ivs):
msg_key = get_bytes(msg_key)
key, iv = utils.calc_key(shared_key, msg_key, is_client)
assert get_representation(key) == valid_key
assert get_representation(iv) == valid_iv
@staticmethod
def test_authenticator():
transport = TcpTransport('149.154.167.91', 443)
network.authenticator.do_authentication(transport)
transport.close()
if __name__ == '__main__':
unittest.main()