tests/primitives/test_nist.py - platform/external/python/cryptography - Gitiles

 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #    http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
 # implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 """
 Test using the NIST Test Vectors
 """

 from __future__ import absolute_import, division, print_function

 import binascii
 import itertools
 import os

 import pytest

 from cryptography.primitives.block import BlockCipher, ciphers, modes

 from ..utils import load_nist_vectors_from_file


 def parameterize_encrypt_test(cipher, vector_type, params, fnames):
     return pytest.mark.parametrize(params,
         list(itertools.chain.from_iterable(
             load_nist_vectors_from_file(
                 os.path.join(cipher, vector_type, fname),
                 "ENCRYPT",
                 params
             )
             for fname in fnames
         ))
     )


 class TestAES_CBC(object):
     @parameterize_encrypt_test(
         "AES", "KAT",
         ("key", "iv", "plaintext", "ciphertext"),
         [
             "CBCGFSbox128.rsp",
             "CBCGFSbox192.rsp",
             "CBCGFSbox256.rsp",
             "CBCKeySbox128.rsp",
             "CBCKeySbox192.rsp",
             "CBCKeySbox256.rsp",
             "CBCVarKey128.rsp",
             "CBCVarKey192.rsp",
             "CBCVarKey256.rsp",
             "CBCVarTxt128.rsp",
             "CBCVarTxt192.rsp",
             "CBCVarTxt256.rsp",
         ]
     )
     def test_KAT(self, key, iv, plaintext, ciphertext):
         cipher = BlockCipher(
             ciphers.AES(binascii.unhexlify(key)),
             modes.CBC(binascii.unhexlify(iv)),
         )
         actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
         actual_ciphertext += cipher.finalize()
         assert binascii.hexlify(actual_ciphertext) == ciphertext

     @parameterize_encrypt_test(
         "AES", "MMT",
         ("key", "iv", "plaintext", "ciphertext"),
         [
             "CBCMMT128.rsp",
             "CBCMMT192.rsp",
             "CBCMMT256.rsp",
         ]
     )
     def test_MMT(self, key, iv, plaintext, ciphertext):
         cipher = BlockCipher(
             ciphers.AES(binascii.unhexlify(key)),
             modes.CBC(binascii.unhexlify(iv)),
         )
         actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
         actual_ciphertext += cipher.finalize()
         assert binascii.hexlify(actual_ciphertext) == ciphertext


 class TestAES_ECB(object):
     @parameterize_encrypt_test(
         "AES", "KAT",
         ("key", "plaintext", "ciphertext"),
         [
             "ECBGFSbox128.rsp",
             "ECBGFSbox192.rsp",
             "ECBGFSbox256.rsp",
             "ECBKeySbox128.rsp",
             "ECBKeySbox192.rsp",
             "ECBKeySbox256.rsp",
             "ECBVarKey128.rsp",
             "ECBVarKey192.rsp",
             "ECBVarKey256.rsp",
             "ECBVarTxt128.rsp",
             "ECBVarTxt192.rsp",
             "ECBVarTxt256.rsp",
         ]
     )
     def test_KAT(self, key, plaintext, ciphertext):
         cipher = BlockCipher(
             ciphers.AES(binascii.unhexlify(key)),
             modes.ECB()
         )
         actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
         actual_ciphertext += cipher.finalize()
         assert binascii.hexlify(actual_ciphertext) == ciphertext

     @parameterize_encrypt_test(
         "AES", "MMT",
         ("key", "plaintext", "ciphertext"),
         [
             "ECBMMT128.rsp",
             "ECBMMT192.rsp",
             "ECBMMT256.rsp",
         ]
     )
     def test_MMT(self, key, plaintext, ciphertext):
         cipher = BlockCipher(
             ciphers.AES(binascii.unhexlify(key)),
             modes.ECB()
         )
         actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
         actual_ciphertext += cipher.finalize()
         assert binascii.hexlify(actual_ciphertext) == ciphertext


 class TestAES_OFB(object):
     @parameterize_encrypt_test(
         "AES", "KAT",
         ("key", "iv", "plaintext", "ciphertext"),
         [
             "OFBGFSbox128.rsp",
             "OFBGFSbox192.rsp",
             "OFBGFSbox256.rsp",
             "OFBKeySbox128.rsp",
             "OFBKeySbox192.rsp",
             "OFBKeySbox256.rsp",
             "OFBVarKey128.rsp",
             "OFBVarKey192.rsp",
             "OFBVarKey256.rsp",
             "OFBVarTxt128.rsp",
             "OFBVarTxt192.rsp",
             "OFBVarTxt256.rsp",
         ]
     )
     def test_KAT(self, key, iv, plaintext, ciphertext):
         cipher = BlockCipher(
             ciphers.AES(binascii.unhexlify(key)),
             modes.OFB(binascii.unhexlify(iv))
         )
         actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
         actual_ciphertext += cipher.finalize()
         assert binascii.hexlify(actual_ciphertext) == ciphertext

     @parameterize_encrypt_test(
         "AES", "MMT",
         ("key", "iv", "plaintext", "ciphertext"),
         [
             "OFBMMT128.rsp",
             "OFBMMT192.rsp",
             "OFBMMT256.rsp",
         ]
     )
     def test_MMT(self, key, iv, plaintext, ciphertext):
         cipher = BlockCipher(
             ciphers.AES(binascii.unhexlify(key)),
             modes.OFB(binascii.unhexlify(iv))
         )
         actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
         actual_ciphertext += cipher.finalize()
         assert binascii.hexlify(actual_ciphertext) == ciphertext


 class TestAES_CFB(object):
     @parameterize_encrypt_test(
         "AES", "KAT",
         ("key", "iv", "plaintext", "ciphertext"),
         [
             "CFB128GFSbox128.rsp",
             "CFB128GFSbox192.rsp",
             "CFB128GFSbox256.rsp",
             "CFB128KeySbox128.rsp",
             "CFB128KeySbox192.rsp",
             "CFB128KeySbox256.rsp",
             "CFB128VarKey128.rsp",
             "CFB128VarKey192.rsp",
             "CFB128VarKey256.rsp",
             "CFB128VarTxt128.rsp",
             "CFB128VarTxt192.rsp",
             "CFB128VarTxt256.rsp",
         ]
     )
     def test_KAT(self, key, iv, plaintext, ciphertext):
         cipher = BlockCipher(
             ciphers.AES(binascii.unhexlify(key)),
             modes.CFB(binascii.unhexlify(iv))
         )
         actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
         actual_ciphertext += cipher.finalize()
         assert binascii.hexlify(actual_ciphertext) == ciphertext

     @parameterize_encrypt_test(
         "AES", "MMT",
         ("key", "iv", "plaintext", "ciphertext"),
         [
             "CFB128MMT128.rsp",
             "CFB128MMT192.rsp",
             "CFB128MMT256.rsp",
         ]
     )
     def test_MMT(self, key, iv, plaintext, ciphertext):
         cipher = BlockCipher(
             ciphers.AES(binascii.unhexlify(key)),
             modes.CFB(binascii.unhexlify(iv))
         )
         actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
         actual_ciphertext += cipher.finalize()
         assert binascii.hexlify(actual_ciphertext) == ciphertext
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
	# implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	"""
	Test using the NIST Test Vectors
	"""

	from __future__ import absolute_import, division, print_function

	import binascii
	import itertools
	import os

	import pytest

	from cryptography.primitives.block import BlockCipher, ciphers, modes

	from ..utils import load_nist_vectors_from_file


	def parameterize_encrypt_test(cipher, vector_type, params, fnames):
	return pytest.mark.parametrize(params,
	list(itertools.chain.from_iterable(
	load_nist_vectors_from_file(
	os.path.join(cipher, vector_type, fname),
	"ENCRYPT",
	params
	)
	for fname in fnames
	))
	)


	class TestAES_CBC(object):
	@parameterize_encrypt_test(
	"AES", "KAT",
	("key", "iv", "plaintext", "ciphertext"),
	[
	"CBCGFSbox128.rsp",
	"CBCGFSbox192.rsp",
	"CBCGFSbox256.rsp",
	"CBCKeySbox128.rsp",
	"CBCKeySbox192.rsp",
	"CBCKeySbox256.rsp",
	"CBCVarKey128.rsp",
	"CBCVarKey192.rsp",
	"CBCVarKey256.rsp",
	"CBCVarTxt128.rsp",
	"CBCVarTxt192.rsp",
	"CBCVarTxt256.rsp",
	]
	)
	def test_KAT(self, key, iv, plaintext, ciphertext):
	cipher = BlockCipher(
	ciphers.AES(binascii.unhexlify(key)),
	modes.CBC(binascii.unhexlify(iv)),
	)
	actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
	actual_ciphertext += cipher.finalize()
	assert binascii.hexlify(actual_ciphertext) == ciphertext

	@parameterize_encrypt_test(
	"AES", "MMT",
	("key", "iv", "plaintext", "ciphertext"),
	[
	"CBCMMT128.rsp",
	"CBCMMT192.rsp",
	"CBCMMT256.rsp",
	]
	)
	def test_MMT(self, key, iv, plaintext, ciphertext):
	cipher = BlockCipher(
	ciphers.AES(binascii.unhexlify(key)),
	modes.CBC(binascii.unhexlify(iv)),
	)
	actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
	actual_ciphertext += cipher.finalize()
	assert binascii.hexlify(actual_ciphertext) == ciphertext


	class TestAES_ECB(object):
	@parameterize_encrypt_test(
	"AES", "KAT",
	("key", "plaintext", "ciphertext"),
	[
	"ECBGFSbox128.rsp",
	"ECBGFSbox192.rsp",
	"ECBGFSbox256.rsp",
	"ECBKeySbox128.rsp",
	"ECBKeySbox192.rsp",
	"ECBKeySbox256.rsp",
	"ECBVarKey128.rsp",
	"ECBVarKey192.rsp",
	"ECBVarKey256.rsp",
	"ECBVarTxt128.rsp",
	"ECBVarTxt192.rsp",
	"ECBVarTxt256.rsp",
	]
	)
	def test_KAT(self, key, plaintext, ciphertext):
	cipher = BlockCipher(
	ciphers.AES(binascii.unhexlify(key)),
	modes.ECB()
	)
	actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
	actual_ciphertext += cipher.finalize()
	assert binascii.hexlify(actual_ciphertext) == ciphertext

	@parameterize_encrypt_test(
	"AES", "MMT",
	("key", "plaintext", "ciphertext"),
	[
	"ECBMMT128.rsp",
	"ECBMMT192.rsp",
	"ECBMMT256.rsp",
	]
	)
	def test_MMT(self, key, plaintext, ciphertext):
	cipher = BlockCipher(
	ciphers.AES(binascii.unhexlify(key)),
	modes.ECB()
	)
	actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
	actual_ciphertext += cipher.finalize()
	assert binascii.hexlify(actual_ciphertext) == ciphertext


	class TestAES_OFB(object):
	@parameterize_encrypt_test(
	"AES", "KAT",
	("key", "iv", "plaintext", "ciphertext"),
	[
	"OFBGFSbox128.rsp",
	"OFBGFSbox192.rsp",
	"OFBGFSbox256.rsp",
	"OFBKeySbox128.rsp",
	"OFBKeySbox192.rsp",
	"OFBKeySbox256.rsp",
	"OFBVarKey128.rsp",
	"OFBVarKey192.rsp",
	"OFBVarKey256.rsp",
	"OFBVarTxt128.rsp",
	"OFBVarTxt192.rsp",
	"OFBVarTxt256.rsp",
	]
	)
	def test_KAT(self, key, iv, plaintext, ciphertext):
	cipher = BlockCipher(
	ciphers.AES(binascii.unhexlify(key)),
	modes.OFB(binascii.unhexlify(iv))
	)
	actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
	actual_ciphertext += cipher.finalize()
	assert binascii.hexlify(actual_ciphertext) == ciphertext

	@parameterize_encrypt_test(
	"AES", "MMT",
	("key", "iv", "plaintext", "ciphertext"),
	[
	"OFBMMT128.rsp",
	"OFBMMT192.rsp",
	"OFBMMT256.rsp",
	]
	)
	def test_MMT(self, key, iv, plaintext, ciphertext):
	cipher = BlockCipher(
	ciphers.AES(binascii.unhexlify(key)),
	modes.OFB(binascii.unhexlify(iv))
	)
	actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
	actual_ciphertext += cipher.finalize()
	assert binascii.hexlify(actual_ciphertext) == ciphertext


	class TestAES_CFB(object):
	@parameterize_encrypt_test(
	"AES", "KAT",
	("key", "iv", "plaintext", "ciphertext"),
	[
	"CFB128GFSbox128.rsp",
	"CFB128GFSbox192.rsp",
	"CFB128GFSbox256.rsp",
	"CFB128KeySbox128.rsp",
	"CFB128KeySbox192.rsp",
	"CFB128KeySbox256.rsp",
	"CFB128VarKey128.rsp",
	"CFB128VarKey192.rsp",
	"CFB128VarKey256.rsp",
	"CFB128VarTxt128.rsp",
	"CFB128VarTxt192.rsp",
	"CFB128VarTxt256.rsp",
	]
	)
	def test_KAT(self, key, iv, plaintext, ciphertext):
	cipher = BlockCipher(
	ciphers.AES(binascii.unhexlify(key)),
	modes.CFB(binascii.unhexlify(iv))
	)
	actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
	actual_ciphertext += cipher.finalize()
	assert binascii.hexlify(actual_ciphertext) == ciphertext

	@parameterize_encrypt_test(
	"AES", "MMT",
	("key", "iv", "plaintext", "ciphertext"),
	[
	"CFB128MMT128.rsp",
	"CFB128MMT192.rsp",
	"CFB128MMT256.rsp",
	]
	)
	def test_MMT(self, key, iv, plaintext, ciphertext):
	cipher = BlockCipher(
	ciphers.AES(binascii.unhexlify(key)),
	modes.CFB(binascii.unhexlify(iv))
	)
	actual_ciphertext = cipher.encrypt(binascii.unhexlify(plaintext))
	actual_ciphertext += cipher.finalize()
	assert binascii.hexlify(actual_ciphertext) == ciphertext