# Pyrogram - Telegram MTProto API Client Library for Python # Copyright (C) 2017-2019 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 os import random import unittest import tgcrypto class TestCTR256NIST(unittest.TestCase): # https://csrc.nist.gov/CSRC/media/Projects/Cryptographic-Standards-and-Guidelines/documents/examples/AES_CTR.pdf def test_ctr256_encrypt(self): key = bytes.fromhex(""" 603DEB10 15CA71BE 2B73AEF0 857D7781 1F352C07 3B6108D7 2D9810A3 0914DFF4 """.replace(" ", "").replace("\n", "")) iv = bytes.fromhex(""" F0F1F2F3 F4F5F6F7 F8F9FAFB FCFDFEFF """.replace(" ", "").replace("\n", "")) plaintext = bytes.fromhex(""" 6BC1BEE2 2E409F96 E93D7E11 7393172A AE2D8A57 1E03AC9C 9EB76FAC 45AF8E51 30C81C46 A35CE411 E5FBC119 1A0A52EF F69F2445 DF4F9B17 AD2B417B E66C3710 """.replace(" ", "").replace("\n", "")) ciphertext = bytes.fromhex(""" 601EC313 775789A5 B7A7F504 BBF3D228 F443E3CA 4D62B59A CA84E990 CACAF5C5 2B0930DA A23DE94C E87017BA 2D84988D DFC9C58D B67AADA6 13C2DD08 457941A6 """.replace(" ", "").replace("\n", "")) self.assertEqual(tgcrypto.ctr256_encrypt(plaintext, key, iv, bytes(1)), ciphertext) def test_ctr256_decrypt(self): key = bytes.fromhex(""" 603DEB10 15CA71BE 2B73AEF0 857D7781 1F352C07 3B6108D7 2D9810A3 0914DFF4 """.replace(" ", "").replace("\n", "")) iv = bytes.fromhex(""" F0F1F2F3 F4F5F6F7 F8F9FAFB FCFDFEFF """.replace(" ", "").replace("\n", "")) ciphertext = bytes.fromhex(""" 601EC313 775789A5 B7A7F504 BBF3D228 F443E3CA 4D62B59A CA84E990 CACAF5C5 2B0930DA A23DE94C E87017BA 2D84988D DFC9C58D B67AADA6 13C2DD08 457941A6 """.replace(" ", "").replace("\n", "")) plaintext = bytes.fromhex(""" 6BC1BEE2 2E409F96 E93D7E11 7393172A AE2D8A57 1E03AC9C 9EB76FAC 45AF8E51 30C81C46 A35CE411 E5FBC119 1A0A52EF F69F2445 DF4F9B17 AD2B417B E66C3710 """.replace(" ", "").replace("\n", "")) self.assertEqual(tgcrypto.ctr256_decrypt(ciphertext, key, iv, bytes(1)), plaintext) class TestCTR256Cryptography(unittest.TestCase): # https://github.com/pyca/cryptography/blob/cd4de3ce6dc2a0dd4171b869e187857e4125853b/vectors/cryptography_vectors/ciphers/AES/CTR/aes-256-ctr.txt def test_ctr256_encrypt_extra1(self): key = bytes.fromhex("776BEFF2851DB06F4C8A0542C8696F6C6A81AF1EEC96B4D37FC1D689E6C1C104") iv = bytes.fromhex("00000060DB5672C97AA8F0B200000001") plaintext = bytes.fromhex("53696E676C6520626C6F636B206D7367") ciphertext = bytes.fromhex("145AD01DBF824EC7560863DC71E3E0C0") self.assertEqual(tgcrypto.ctr256_encrypt(plaintext, key, iv, bytes(1)), ciphertext) def test_ctr256_encrypt_extra2(self): key = bytes.fromhex("F6D66D6BD52D59BB0796365879EFF886C66DD51A5B6A99744B50590C87A23884") iv = bytes.fromhex("00FAAC24C1585EF15A43D87500000001") plaintext = bytes.fromhex("000102030405060708090A0B0C0D0E0F101112131415161718191A1B1C1D1E1F") ciphertext = bytes.fromhex("F05E231B3894612C49EE000B804EB2A9B8306B508F839D6A5530831D9344AF1C") self.assertEqual(tgcrypto.ctr256_encrypt(plaintext, key, iv, bytes(1)), ciphertext) def test_ctr256_encrypt_extra3(self): key = bytes.fromhex("FF7A617CE69148E4F1726E2F43581DE2AA62D9F805532EDFF1EED687FB54153D") iv = bytes.fromhex("001CC5B751A51D70A1C1114800000001") plaintext = bytes.fromhex("000102030405060708090A0B0C0D0E0F101112131415161718191A1B1C1D1E1F20212223") ciphertext = bytes.fromhex("EB6C52821D0BBBF7CE7594462ACA4FAAB407DF866569FD07F48CC0B583D6071F1EC0E6B8") self.assertEqual(tgcrypto.ctr256_encrypt(plaintext, key, iv, bytes(1)), ciphertext) class TestCTR256Input(unittest.TestCase): def test_ctr256_encrypt_invalid_args_count(self): with self.assertRaisesRegex(TypeError, r"function takes exactly \d arguments \(\d given\)"): tgcrypto.ctr256_encrypt(os.urandom(8), os.urandom(32), os.urandom(16)) def test_ctr256_encrypt_invalid_args_type(self): with self.assertRaisesRegex(TypeError, r"a bytes-like object is required, not '\w+'"): tgcrypto.ctr256_encrypt(1, 2, 3, 4) def test_ctr256_encrypt_empty_data(self): with self.assertRaisesRegex(ValueError, r"Data must not be empty"): tgcrypto.ctr256_encrypt(b"", os.urandom(32), os.urandom(16), bytes(1)) def test_ctr256_encrypt_invalid_key_size(self): with self.assertRaisesRegex(ValueError, r"Key size must be exactly 32 bytes"): tgcrypto.ctr256_encrypt(os.urandom(8), os.urandom(31), os.urandom(16), bytes(1)) def test_ctr256_encrypt_invalid_iv_size(self): with self.assertRaisesRegex(ValueError, r"IV size must be exactly 16 bytes"): tgcrypto.ctr256_encrypt(os.urandom(8), os.urandom(32), os.urandom(15), bytes(1)) def test_ctr256_encrypt_invalid_state_size(self): with self.assertRaisesRegex(ValueError, r"State size must be exactly 1 byte"): tgcrypto.ctr256_encrypt(os.urandom(8), os.urandom(32), os.urandom(16), bytes([1, 2, 3])) def test_ctr256_encrypt_invalid_state_value(self): with self.assertRaisesRegex(ValueError, r"State value must be in the range \[0, 15\]"): tgcrypto.ctr256_encrypt(os.urandom(8), os.urandom(32), os.urandom(16), bytes([16])) def test_ctr256_decrypt_invalid_args_count(self): with self.assertRaisesRegex(TypeError, r"function takes exactly \d arguments \(\d given\)"): tgcrypto.ctr256_decrypt(os.urandom(8), os.urandom(32), os.urandom(16)) def test_ctr256_decrypt_invalid_args_type(self): with self.assertRaisesRegex(TypeError, r"a bytes-like object is required, not '\w+'"): tgcrypto.ctr256_decrypt(1, 2, 3, 4) def test_ctr256_decrypt_empty_data(self): with self.assertRaisesRegex(ValueError, r"Data must not be empty"): tgcrypto.ctr256_decrypt(b"", os.urandom(32), os.urandom(16), bytes(1)) def test_ctr256_decrypt_invalid_key_size(self): with self.assertRaisesRegex(ValueError, r"Key size must be exactly 32 bytes"): tgcrypto.ctr256_decrypt(os.urandom(8), os.urandom(31), os.urandom(16), bytes(1)) def test_ctr256_decrypt_invalid_iv_size(self): with self.assertRaisesRegex(ValueError, r"IV size must be exactly 16 bytes"): tgcrypto.ctr256_decrypt(os.urandom(8), os.urandom(32), os.urandom(15), bytes(1)) def test_ctr256_decrypt_invalid_state_size(self): with self.assertRaisesRegex(ValueError, r"State size must be exactly 1 byte"): tgcrypto.ctr256_decrypt(os.urandom(8), os.urandom(32), os.urandom(16), bytes([1, 2, 3])) def test_ctr256_decrypt_invalid_state_value(self): with self.assertRaisesRegex(ValueError, r"State value must be in the range \[0, 15\]"): tgcrypto.ctr256_decrypt(os.urandom(8), os.urandom(32), os.urandom(16), bytes([16])) class TestCTR256Random(unittest.TestCase): DATA_MAX_SIZE = 1024 KEY_SIZE = 32 IV_SIZE = 16 TESTS_AMOUNT = 500 TEMPLATE = """ def test_ctr256_random_{mode1}_{count}(self): data = {data} key = {key} iv = {iv} iv_copy = iv.copy() state = {state} state_copy = state.copy() a = tgcrypto.ctr256_{mode1}(data, key, iv, state) b = tgcrypto.ctr256_{mode2}(a, key, iv_copy, state_copy) self.assertEqual(data, b) """.replace("\n ", "\n") for count in range(TESTS_AMOUNT): exec( TEMPLATE.format( mode1="encrypt", mode2="decrypt", count=count, data=os.urandom(random.randint(1, DATA_MAX_SIZE)), key=os.urandom(KEY_SIZE), iv=bytearray(os.urandom(IV_SIZE)), state=bytearray([random.randint(0, 15)]) ) ) for count in range(TESTS_AMOUNT): exec( TEMPLATE.format( mode1="decrypt", mode2="encrypt", count=count, data=os.urandom(random.randint(1, DATA_MAX_SIZE)), key=os.urandom(KEY_SIZE), iv=bytearray(os.urandom(IV_SIZE)), state=bytearray([random.randint(0, 15)]) ) ) if __name__ == "__main__": unittest.main()