# 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 generate_aead_test, generate_encrypt_test
from ...utils import load_nist_vectors
@pytest.mark.supported(
only_if=lambda backend: backend.cipher_supported(
algorithms.AES("\x00" * 16), modes.CBC("\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("\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("\x00" * 16), modes.OFB("\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("\x00" * 16), modes.CFB("\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("\x00" * 16), modes.CFB8("\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("\x00" * 16), modes.CTR("\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("\x00" * 16), modes.GCM("\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