# This file is dual licensed under the terms of the Apache License, Version # 2.0, and the BSD License. See the LICENSE file in the root of this repository # for complete details. from __future__ import absolute_import, division, print_function import binascii import os import pytest from cryptography.hazmat.backends.interfaces import CipherBackend from cryptography.hazmat.primitives.ciphers import algorithms, base, modes from .utils import _load_all_params, generate_aead_test, generate_encrypt_test from ...utils import load_nist_vectors @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 32), modes.XTS(b"\x00" * 16) ), skip_message="Does not support AES XTS", ) @pytest.mark.requires_backend_interface(interface=CipherBackend) class TestAESModeXTS(object): @pytest.mark.parametrize( "vector", # This list comprehension excludes any vector that does not have a # data unit length that is divisible by 8. The NIST vectors include # tests for implementations that support encryption of data that is # not divisible modulo 8, but OpenSSL is not such an implementation. [x for x in _load_all_params( os.path.join("ciphers", "AES", "XTS", "tweak-128hexstr"), ["XTSGenAES128.rsp", "XTSGenAES256.rsp"], load_nist_vectors ) if int(x["dataunitlen"]) / 8.0 == int(x["dataunitlen"]) // 8] ) def test_xts_vectors(self, vector, backend): key = binascii.unhexlify(vector["key"]) tweak = binascii.unhexlify(vector["i"]) pt = binascii.unhexlify(vector["pt"]) ct = binascii.unhexlify(vector["ct"]) cipher = base.Cipher(algorithms.AES(key), modes.XTS(tweak), backend) enc = cipher.encryptor() computed_ct = enc.update(pt) + enc.finalize() assert computed_ct == ct dec = cipher.decryptor() computed_pt = dec.update(ct) + dec.finalize() assert computed_pt == pt @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.CBC(b"\x00" * 16) ), skip_message="Does not support AES CBC", ) @pytest.mark.requires_backend_interface(interface=CipherBackend) class TestAESModeCBC(object): test_cbc = generate_encrypt_test( load_nist_vectors, os.path.join("ciphers", "AES", "CBC"), [ "CBCGFSbox128.rsp", "CBCGFSbox192.rsp", "CBCGFSbox256.rsp", "CBCKeySbox128.rsp", "CBCKeySbox192.rsp", "CBCKeySbox256.rsp", "CBCVarKey128.rsp", "CBCVarKey192.rsp", "CBCVarKey256.rsp", "CBCVarTxt128.rsp", "CBCVarTxt192.rsp", "CBCVarTxt256.rsp", "CBCMMT128.rsp", "CBCMMT192.rsp", "CBCMMT256.rsp", ], lambda key, **kwargs: algorithms.AES(binascii.unhexlify(key)), lambda iv, **kwargs: modes.CBC(binascii.unhexlify(iv)), ) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.ECB() ), skip_message="Does not support AES ECB", ) @pytest.mark.requires_backend_interface(interface=CipherBackend) class TestAESModeECB(object): test_ecb = generate_encrypt_test( load_nist_vectors, os.path.join("ciphers", "AES", "ECB"), [ "ECBGFSbox128.rsp", "ECBGFSbox192.rsp", "ECBGFSbox256.rsp", "ECBKeySbox128.rsp", "ECBKeySbox192.rsp", "ECBKeySbox256.rsp", "ECBVarKey128.rsp", "ECBVarKey192.rsp", "ECBVarKey256.rsp", "ECBVarTxt128.rsp", "ECBVarTxt192.rsp", "ECBVarTxt256.rsp", "ECBMMT128.rsp", "ECBMMT192.rsp", "ECBMMT256.rsp", ], lambda key, **kwargs: algorithms.AES(binascii.unhexlify(key)), lambda **kwargs: modes.ECB(), ) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.OFB(b"\x00" * 16) ), skip_message="Does not support AES OFB", ) @pytest.mark.requires_backend_interface(interface=CipherBackend) class TestAESModeOFB(object): test_ofb = generate_encrypt_test( load_nist_vectors, os.path.join("ciphers", "AES", "OFB"), [ "OFBGFSbox128.rsp", "OFBGFSbox192.rsp", "OFBGFSbox256.rsp", "OFBKeySbox128.rsp", "OFBKeySbox192.rsp", "OFBKeySbox256.rsp", "OFBVarKey128.rsp", "OFBVarKey192.rsp", "OFBVarKey256.rsp", "OFBVarTxt128.rsp", "OFBVarTxt192.rsp", "OFBVarTxt256.rsp", "OFBMMT128.rsp", "OFBMMT192.rsp", "OFBMMT256.rsp", ], lambda key, **kwargs: algorithms.AES(binascii.unhexlify(key)), lambda iv, **kwargs: modes.OFB(binascii.unhexlify(iv)), ) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.CFB(b"\x00" * 16) ), skip_message="Does not support AES CFB", ) @pytest.mark.requires_backend_interface(interface=CipherBackend) class TestAESModeCFB(object): test_cfb = generate_encrypt_test( load_nist_vectors, os.path.join("ciphers", "AES", "CFB"), [ "CFB128GFSbox128.rsp", "CFB128GFSbox192.rsp", "CFB128GFSbox256.rsp", "CFB128KeySbox128.rsp", "CFB128KeySbox192.rsp", "CFB128KeySbox256.rsp", "CFB128VarKey128.rsp", "CFB128VarKey192.rsp", "CFB128VarKey256.rsp", "CFB128VarTxt128.rsp", "CFB128VarTxt192.rsp", "CFB128VarTxt256.rsp", "CFB128MMT128.rsp", "CFB128MMT192.rsp", "CFB128MMT256.rsp", ], lambda key, **kwargs: algorithms.AES(binascii.unhexlify(key)), lambda iv, **kwargs: modes.CFB(binascii.unhexlify(iv)), ) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.CFB8(b"\x00" * 16) ), skip_message="Does not support AES CFB8", ) @pytest.mark.requires_backend_interface(interface=CipherBackend) class TestAESModeCFB8(object): test_cfb8 = generate_encrypt_test( load_nist_vectors, os.path.join("ciphers", "AES", "CFB"), [ "CFB8GFSbox128.rsp", "CFB8GFSbox192.rsp", "CFB8GFSbox256.rsp", "CFB8KeySbox128.rsp", "CFB8KeySbox192.rsp", "CFB8KeySbox256.rsp", "CFB8VarKey128.rsp", "CFB8VarKey192.rsp", "CFB8VarKey256.rsp", "CFB8VarTxt128.rsp", "CFB8VarTxt192.rsp", "CFB8VarTxt256.rsp", "CFB8MMT128.rsp", "CFB8MMT192.rsp", "CFB8MMT256.rsp", ], lambda key, **kwargs: algorithms.AES(binascii.unhexlify(key)), lambda iv, **kwargs: modes.CFB8(binascii.unhexlify(iv)), ) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.CTR(b"\x00" * 16) ), skip_message="Does not support AES CTR", ) @pytest.mark.requires_backend_interface(interface=CipherBackend) class TestAESModeCTR(object): test_ctr = generate_encrypt_test( load_nist_vectors, os.path.join("ciphers", "AES", "CTR"), ["aes-128-ctr.txt", "aes-192-ctr.txt", "aes-256-ctr.txt"], lambda key, **kwargs: algorithms.AES(binascii.unhexlify(key)), lambda iv, **kwargs: modes.CTR(binascii.unhexlify(iv)), ) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.GCM(b"\x00" * 12) ), skip_message="Does not support AES GCM", ) @pytest.mark.requires_backend_interface(interface=CipherBackend) class TestAESModeGCM(object): test_gcm = generate_aead_test( load_nist_vectors, os.path.join("ciphers", "AES", "GCM"), [ "gcmDecrypt128.rsp", "gcmDecrypt192.rsp", "gcmDecrypt256.rsp", "gcmEncryptExtIV128.rsp", "gcmEncryptExtIV192.rsp", "gcmEncryptExtIV256.rsp", ], algorithms.AES, modes.GCM, ) def test_gcm_tag_with_only_aad(self, backend): key = binascii.unhexlify(b"5211242698bed4774a090620a6ca56f3") iv = binascii.unhexlify(b"b1e1349120b6e832ef976f5d") aad = binascii.unhexlify(b"b6d729aab8e6416d7002b9faa794c410d8d2f193") tag = binascii.unhexlify(b"0f247e7f9c2505de374006738018493b") cipher = base.Cipher( algorithms.AES(key), modes.GCM(iv), backend=backend ) encryptor = cipher.encryptor() encryptor.authenticate_additional_data(aad) encryptor.finalize() assert encryptor.tag == tag def test_gcm_ciphertext_with_no_aad(self, backend): key = binascii.unhexlify(b"e98b72a9881a84ca6b76e0f43e68647a") iv = binascii.unhexlify(b"8b23299fde174053f3d652ba") ct = binascii.unhexlify(b"5a3c1cf1985dbb8bed818036fdd5ab42") tag = binascii.unhexlify(b"23c7ab0f952b7091cd324835043b5eb5") pt = binascii.unhexlify(b"28286a321293253c3e0aa2704a278032") cipher = base.Cipher( algorithms.AES(key), modes.GCM(iv), backend=backend ) encryptor = cipher.encryptor() computed_ct = encryptor.update(pt) + encryptor.finalize() assert computed_ct == ct assert encryptor.tag == tag def test_gcm_ciphertext_limit(self, backend): encryptor = base.Cipher( algorithms.AES(b"\x00" * 16), modes.GCM(b"\x01" * 16), backend=backend ).encryptor() encryptor._bytes_processed = modes.GCM._MAX_ENCRYPTED_BYTES - 16 encryptor.update(b"0" * 16) assert ( encryptor._bytes_processed == modes.GCM._MAX_ENCRYPTED_BYTES ) with pytest.raises(ValueError): encryptor.update(b"0") def test_gcm_aad_limit(self, backend): encryptor = base.Cipher( algorithms.AES(b"\x00" * 16), modes.GCM(b"\x01" * 16), backend=backend ).encryptor() encryptor._aad_bytes_processed = modes.GCM._MAX_AAD_BYTES - 16 encryptor.authenticate_additional_data(b"0" * 16) assert encryptor._aad_bytes_processed == modes.GCM._MAX_AAD_BYTES with pytest.raises(ValueError): encryptor.authenticate_additional_data(b"0") def test_gcm_ciphertext_increments(self, backend): encryptor = base.Cipher( algorithms.AES(b"\x00" * 16), modes.GCM(b"\x01" * 16), backend=backend ).encryptor() encryptor.update(b"0" * 8) assert encryptor._bytes_processed == 8 encryptor.update(b"0" * 7) assert encryptor._bytes_processed == 15 encryptor.update(b"0" * 18) assert encryptor._bytes_processed == 33 def test_gcm_aad_increments(self, backend): encryptor = base.Cipher( algorithms.AES(b"\x00" * 16), modes.GCM(b"\x01" * 16), backend=backend ).encryptor() encryptor.authenticate_additional_data(b"0" * 8) assert encryptor._aad_bytes_processed == 8 encryptor.authenticate_additional_data(b"0" * 18) assert encryptor._aad_bytes_processed == 26 def test_gcm_tag_decrypt_none(self, backend): key = binascii.unhexlify(b"5211242698bed4774a090620a6ca56f3") iv = binascii.unhexlify(b"b1e1349120b6e832ef976f5d") aad = binascii.unhexlify(b"b6d729aab8e6416d7002b9faa794c410d8d2f193") encryptor = base.Cipher( algorithms.AES(key), modes.GCM(iv), backend=backend ).encryptor() encryptor.authenticate_additional_data(aad) encryptor.finalize() if ( backend._lib.CRYPTOGRAPHY_OPENSSL_LESS_THAN_102 and not backend._lib.CRYPTOGRAPHY_IS_LIBRESSL ): with pytest.raises(NotImplementedError): decryptor = base.Cipher( algorithms.AES(key), modes.GCM(iv), backend=backend ).decryptor() else: decryptor = base.Cipher( algorithms.AES(key), modes.GCM(iv), backend=backend ).decryptor() decryptor.authenticate_additional_data(aad) with pytest.raises(ValueError): decryptor.finalize() def test_gcm_tag_decrypt_mode(self, backend): key = binascii.unhexlify(b"5211242698bed4774a090620a6ca56f3") iv = binascii.unhexlify(b"b1e1349120b6e832ef976f5d") aad = binascii.unhexlify(b"b6d729aab8e6416d7002b9faa794c410d8d2f193") encryptor = base.Cipher( algorithms.AES(key), modes.GCM(iv), backend=backend ).encryptor() encryptor.authenticate_additional_data(aad) encryptor.finalize() tag = encryptor.tag decryptor = base.Cipher( algorithms.AES(key), modes.GCM(iv, tag), backend=backend ).decryptor() decryptor.authenticate_additional_data(aad) decryptor.finalize() def test_gcm_tag_decrypt_finalize(self, backend): key = binascii.unhexlify(b"5211242698bed4774a090620a6ca56f3") iv = binascii.unhexlify(b"b1e1349120b6e832ef976f5d") aad = binascii.unhexlify(b"b6d729aab8e6416d7002b9faa794c410d8d2f193") encryptor = base.Cipher( algorithms.AES(key), modes.GCM(iv), backend=backend ).encryptor() encryptor.authenticate_additional_data(aad) encryptor.finalize() tag = encryptor.tag if ( backend._lib.CRYPTOGRAPHY_OPENSSL_LESS_THAN_102 and not backend._lib.CRYPTOGRAPHY_IS_LIBRESSL ): with pytest.raises(NotImplementedError): decryptor = base.Cipher( algorithms.AES(key), modes.GCM(iv), backend=backend ).decryptor() decryptor = base.Cipher( algorithms.AES(key), modes.GCM(iv, tag=encryptor.tag), backend=backend ).decryptor() else: decryptor = base.Cipher( algorithms.AES(key), modes.GCM(iv), backend=backend ).decryptor() decryptor.authenticate_additional_data(aad) if ( backend._lib.CRYPTOGRAPHY_OPENSSL_LESS_THAN_102 and not backend._lib.CRYPTOGRAPHY_IS_LIBRESSL ): with pytest.raises(NotImplementedError): decryptor.finalize_with_tag(tag) decryptor.finalize() else: decryptor.finalize_with_tag(tag) @pytest.mark.supported( only_if=lambda backend: ( not backend._lib.CRYPTOGRAPHY_OPENSSL_LESS_THAN_102 or backend._lib.CRYPTOGRAPHY_IS_LIBRESSL ), skip_message="Not supported on OpenSSL 1.0.1", ) def test_gcm_tag_decrypt_finalize_tag_length(self, backend): decryptor = base.Cipher( algorithms.AES(b"0" * 16), modes.GCM(b"0" * 12), backend=backend ).decryptor() with pytest.raises(ValueError): decryptor.finalize_with_tag(b"tagtooshort") def test_buffer_protocol(self, backend): data = bytearray(b"helloworld") enc = base.Cipher( algorithms.AES(bytearray(b"\x00" * 16)), modes.GCM(bytearray(b"\x00" * 12)), backend ).encryptor() enc.authenticate_additional_data(bytearray(b"foo")) ct = enc.update(data) + enc.finalize() dec = base.Cipher( algorithms.AES(bytearray(b"\x00" * 16)), modes.GCM(bytearray(b"\x00" * 12), enc.tag), backend ).decryptor() dec.authenticate_additional_data(bytearray(b"foo")) pt = dec.update(ct) + dec.finalize() assert pt == data @pytest.mark.parametrize( "mode", [ modes.CBC(bytearray(b"\x00" * 16)), modes.CTR(bytearray(b"\x00" * 16)), modes.OFB(bytearray(b"\x00" * 16)), modes.CFB(bytearray(b"\x00" * 16)), modes.CFB8(bytearray(b"\x00" * 16)), modes.XTS(bytearray(b"\x00" * 16)), ] ) @pytest.mark.requires_backend_interface(interface=CipherBackend) def test_buffer_protocol_alternate_modes(mode, backend): data = bytearray(b"sixteen_byte_msg") cipher = base.Cipher( algorithms.AES(bytearray(b"\x00" * 32)), mode, backend ) enc = cipher.encryptor() ct = enc.update(data) + enc.finalize() dec = cipher.decryptor() pt = dec.update(ct) + dec.finalize() assert pt == data