# 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 import keywrap from cryptography.hazmat.primitives.ciphers import algorithms, modes from .utils import _load_all_params from ...utils import load_nist_vectors @pytest.mark.requires_backend_interface(interface=CipherBackend) class TestAESKeyWrap(object): @pytest.mark.parametrize( "params", _load_all_params( os.path.join("keywrap", "kwtestvectors"), ["KW_AE_128.txt", "KW_AE_192.txt", "KW_AE_256.txt"], load_nist_vectors, ), ) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.ECB() ), skip_message="Does not support AES key wrap (RFC 3394) because AES-ECB" " is unsupported", ) def test_wrap(self, backend, params): wrapping_key = binascii.unhexlify(params["k"]) key_to_wrap = binascii.unhexlify(params["p"]) wrapped_key = keywrap.aes_key_wrap(wrapping_key, key_to_wrap, backend) assert params["c"] == binascii.hexlify(wrapped_key) @pytest.mark.parametrize( "params", _load_all_params( os.path.join("keywrap", "kwtestvectors"), ["KW_AD_128.txt", "KW_AD_192.txt", "KW_AD_256.txt"], load_nist_vectors, ), ) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.ECB() ), skip_message="Does not support AES key wrap (RFC 3394) because AES-ECB" " is unsupported", ) def test_unwrap(self, backend, params): wrapping_key = binascii.unhexlify(params["k"]) wrapped_key = binascii.unhexlify(params["c"]) if params.get("fail") is True: with pytest.raises(keywrap.InvalidUnwrap): keywrap.aes_key_unwrap(wrapping_key, wrapped_key, backend) else: unwrapped_key = keywrap.aes_key_unwrap( wrapping_key, wrapped_key, backend ) assert params["p"] == binascii.hexlify(unwrapped_key) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.ECB() ), skip_message="Does not support AES key wrap (RFC 3394) because AES-ECB" " is unsupported", ) def test_wrap_invalid_key_length(self, backend): # The wrapping key must be of length [16, 24, 32] with pytest.raises(ValueError): keywrap.aes_key_wrap(b"badkey", b"sixteen_byte_key", backend) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.ECB() ), skip_message="Does not support AES key wrap (RFC 3394) because AES-ECB" " is unsupported", ) def test_unwrap_invalid_key_length(self, backend): with pytest.raises(ValueError): keywrap.aes_key_unwrap(b"badkey", b"\x00" * 24, backend) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.ECB() ), skip_message="Does not support AES key wrap (RFC 3394) because AES-ECB" " is unsupported", ) def test_wrap_invalid_key_to_wrap_length(self, backend): # Keys to wrap must be at least 16 bytes long with pytest.raises(ValueError): keywrap.aes_key_wrap(b"sixteen_byte_key", b"\x00" * 15, backend) # Keys to wrap must be a multiple of 8 bytes with pytest.raises(ValueError): keywrap.aes_key_wrap(b"sixteen_byte_key", b"\x00" * 23, backend) def test_unwrap_invalid_wrapped_key_length(self, backend): # Keys to unwrap must be at least 24 bytes with pytest.raises(keywrap.InvalidUnwrap): keywrap.aes_key_unwrap(b"sixteen_byte_key", b"\x00" * 16, backend) # Keys to unwrap must be a multiple of 8 bytes with pytest.raises(keywrap.InvalidUnwrap): keywrap.aes_key_unwrap(b"sixteen_byte_key", b"\x00" * 27, backend) @pytest.mark.supported( only_if=lambda backend: backend.cipher_supported( algorithms.AES(b"\x00" * 16), modes.ECB() ), skip_message="Does not support AES key wrap (RFC 5649) because AES-ECB" " is unsupported", ) @pytest.mark.requires_backend_interface(interface=CipherBackend) class TestAESKeyWrapWithPadding(object): @pytest.mark.parametrize( "params", _load_all_params( os.path.join("keywrap", "kwtestvectors"), ["KWP_AE_128.txt", "KWP_AE_192.txt", "KWP_AE_256.txt"], load_nist_vectors, ), ) def test_wrap(self, backend, params): wrapping_key = binascii.unhexlify(params["k"]) key_to_wrap = binascii.unhexlify(params["p"]) wrapped_key = keywrap.aes_key_wrap_with_padding( wrapping_key, key_to_wrap, backend ) assert params["c"] == binascii.hexlify(wrapped_key) @pytest.mark.parametrize( "params", _load_all_params("keywrap", ["kwp_botan.txt"], load_nist_vectors), ) def test_wrap_additional_vectors(self, backend, params): wrapping_key = binascii.unhexlify(params["key"]) key_to_wrap = binascii.unhexlify(params["input"]) wrapped_key = keywrap.aes_key_wrap_with_padding( wrapping_key, key_to_wrap, backend ) assert wrapped_key == binascii.unhexlify(params["output"]) @pytest.mark.parametrize( "params", _load_all_params( os.path.join("keywrap", "kwtestvectors"), ["KWP_AD_128.txt", "KWP_AD_192.txt", "KWP_AD_256.txt"], load_nist_vectors, ), ) def test_unwrap(self, backend, params): wrapping_key = binascii.unhexlify(params["k"]) wrapped_key = binascii.unhexlify(params["c"]) if params.get("fail") is True: with pytest.raises(keywrap.InvalidUnwrap): keywrap.aes_key_unwrap_with_padding( wrapping_key, wrapped_key, backend ) else: unwrapped_key = keywrap.aes_key_unwrap_with_padding( wrapping_key, wrapped_key, backend ) assert params["p"] == binascii.hexlify(unwrapped_key) @pytest.mark.parametrize( "params", _load_all_params("keywrap", ["kwp_botan.txt"], load_nist_vectors), ) def test_unwrap_additional_vectors(self, backend, params): wrapping_key = binascii.unhexlify(params["key"]) wrapped_key = binascii.unhexlify(params["output"]) unwrapped_key = keywrap.aes_key_unwrap_with_padding( wrapping_key, wrapped_key, backend ) assert unwrapped_key == binascii.unhexlify(params["input"]) def test_unwrap_invalid_wrapped_key_length(self, backend): # Keys to unwrap must be at least 16 bytes with pytest.raises( keywrap.InvalidUnwrap, match="Must be at least 16 bytes" ): keywrap.aes_key_unwrap_with_padding( b"sixteen_byte_key", b"\x00" * 15, backend ) def test_wrap_invalid_key_length(self, backend): with pytest.raises(ValueError, match="must be a valid AES key length"): keywrap.aes_key_wrap_with_padding(b"badkey", b"\x00", backend) def test_unwrap_invalid_key_length(self, backend): with pytest.raises(ValueError, match="must be a valid AES key length"): keywrap.aes_key_unwrap_with_padding( b"badkey", b"\x00" * 16, backend )