# 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. from __future__ import absolute_import, division, print_function import os import subprocess import sys import textwrap import pretend import pytest from cryptography import utils from cryptography.exceptions import InternalError, _Reasons from cryptography.hazmat.backends.interfaces import EllipticCurveBackend from cryptography.hazmat.backends.openssl.backend import ( Backend, backend ) from cryptography.hazmat.backends.openssl.ec import _sn_to_elliptic_curve from cryptography.hazmat.primitives import hashes, interfaces from cryptography.hazmat.primitives.asymmetric import dsa, ec, padding from cryptography.hazmat.primitives.ciphers import Cipher from cryptography.hazmat.primitives.ciphers.algorithms import AES from cryptography.hazmat.primitives.ciphers.modes import CBC, CTR from cryptography.hazmat.primitives.interfaces import BlockCipherAlgorithm from ..primitives.fixtures_rsa import RSA_KEY_512 from ..primitives.test_ec import _skip_curve_unsupported from ...utils import load_vectors_from_file, raises_unsupported_algorithm @utils.register_interface(interfaces.Mode) class DummyMode(object): name = "dummy-mode" def validate_for_algorithm(self, algorithm): pass @utils.register_interface(interfaces.CipherAlgorithm) class DummyCipher(object): name = "dummy-cipher" key_size = None @utils.register_interface(interfaces.AsymmetricPadding) class DummyPadding(object): name = "dummy-cipher" @utils.register_interface(interfaces.HashAlgorithm) class DummyHash(object): name = "dummy-hash" block_size = None digest_size = None class DummyMGF(object): _salt_length = 0 class TestOpenSSL(object): def test_backend_exists(self): assert backend def test_openssl_version_text(self): """ This test checks the value of OPENSSL_VERSION_TEXT. Unfortunately, this define does not appear to have a formal content definition, so for now we'll test to see if it starts with OpenSSL as that appears to be true for every OpenSSL. """ assert backend.openssl_version_text().startswith("OpenSSL") def test_supports_cipher(self): assert backend.cipher_supported(None, None) is False def test_aes_ctr_always_available(self): # AES CTR should always be available in both 0.9.8 and 1.0.0+ assert backend.cipher_supported(AES(b"\x00" * 16), CTR(b"\x00" * 16)) is True def test_register_duplicate_cipher_adapter(self): with pytest.raises(ValueError): backend.register_cipher_adapter(AES, CBC, None) @pytest.mark.parametrize("mode", [DummyMode(), None]) def test_nonexistent_cipher(self, mode): b = Backend() b.register_cipher_adapter( DummyCipher, type(mode), lambda backend, cipher, mode: backend._ffi.NULL ) cipher = Cipher( DummyCipher(), mode, backend=b, ) with raises_unsupported_algorithm(_Reasons.UNSUPPORTED_CIPHER): cipher.encryptor() def test_consume_errors(self): for i in range(10): backend._lib.ERR_put_error(backend._lib.ERR_LIB_EVP, 0, 0, b"test_openssl.py", -1) assert backend._lib.ERR_peek_error() != 0 errors = backend._consume_errors() assert backend._lib.ERR_peek_error() == 0 assert len(errors) == 10 def test_openssl_error_string(self): backend._lib.ERR_put_error( backend._lib.ERR_LIB_EVP, backend._lib.EVP_F_EVP_DECRYPTFINAL_EX, 0, b"test_openssl.py", -1 ) errors = backend._consume_errors() exc = backend._unknown_error(errors[0]) assert ( "digital envelope routines:" "EVP_DecryptFinal_ex:digital envelope routines" in str(exc) ) def test_ssl_ciphers_registered(self): meth = backend._lib.TLSv1_method() ctx = backend._lib.SSL_CTX_new(meth) assert ctx != backend._ffi.NULL backend._lib.SSL_CTX_free(ctx) def test_evp_ciphers_registered(self): cipher = backend._lib.EVP_get_cipherbyname(b"aes-256-cbc") assert cipher != backend._ffi.NULL def test_error_strings_loaded(self): # returns a value in a static buffer err = backend._lib.ERR_error_string(101183626, backend._ffi.NULL) assert backend._ffi.string(err) == ( b"error:0607F08A:digital envelope routines:EVP_EncryptFinal_ex:" b"data not multiple of block length" ) def test_unknown_error_in_cipher_finalize(self): cipher = Cipher(AES(b"\0" * 16), CBC(b"\0" * 16), backend=backend) enc = cipher.encryptor() enc.update(b"\0") backend._lib.ERR_put_error(0, 0, 1, b"test_openssl.py", -1) with pytest.raises(InternalError): enc.finalize() def test_derive_pbkdf2_raises_unsupported_on_old_openssl(self): if backend.pbkdf2_hmac_supported(hashes.SHA256()): pytest.skip("Requires an older OpenSSL") with raises_unsupported_algorithm(_Reasons.UNSUPPORTED_HASH): backend.derive_pbkdf2_hmac(hashes.SHA256(), 10, b"", 1000, b"") @pytest.mark.skipif( backend._lib.OPENSSL_VERSION_NUMBER >= 0x1000000f, reason="Requires an older OpenSSL. Must be < 1.0.0" ) def test_large_key_size_on_old_openssl(self): with pytest.raises(ValueError): dsa.generate_parameters(2048, backend=backend) with pytest.raises(ValueError): dsa.generate_parameters(3072, backend=backend) @pytest.mark.skipif( backend._lib.OPENSSL_VERSION_NUMBER < 0x1000000f, reason="Requires a newer OpenSSL. Must be >= 1.0.0" ) def test_large_key_size_on_new_openssl(self): parameters = dsa.generate_parameters(2048, backend) param_num = parameters.parameter_numbers() assert utils.bit_length(param_num.p) == 2048 parameters = dsa.generate_parameters(3072, backend) param_num = parameters.parameter_numbers() assert utils.bit_length(param_num.p) == 3072 def test_int_to_bn(self): value = (2 ** 4242) - 4242 bn = backend._int_to_bn(value) assert bn != backend._ffi.NULL bn = backend._ffi.gc(bn, backend._lib.BN_free) assert bn assert backend._bn_to_int(bn) == value def test_int_to_bn_inplace(self): value = (2 ** 4242) - 4242 bn_ptr = backend._lib.BN_new() assert bn_ptr != backend._ffi.NULL bn_ptr = backend._ffi.gc(bn_ptr, backend._lib.BN_free) bn = backend._int_to_bn(value, bn_ptr) assert bn == bn_ptr assert backend._bn_to_int(bn_ptr) == value class TestOpenSSLRandomEngine(object): def teardown_method(self, method): # we need to reset state to being default. backend is a shared global # for all these tests. backend.activate_osrandom_engine() current_default = backend._lib.ENGINE_get_default_RAND() name = backend._lib.ENGINE_get_name(current_default) assert name == backend._lib.Cryptography_osrandom_engine_name def test_osrandom_engine_is_default(self, tmpdir): engine_printer = textwrap.dedent( """ import sys from cryptography.hazmat.backends.openssl.backend import backend e = backend._lib.ENGINE_get_default_RAND() name = backend._lib.ENGINE_get_name(e) sys.stdout.write(backend._ffi.string(name).decode('ascii')) res = backend._lib.ENGINE_free(e) assert res == 1 """ ) engine_name = tmpdir.join('engine_name') with engine_name.open('w') as out: subprocess.check_call( [sys.executable, "-c", engine_printer], stdout=out ) osrandom_engine_name = backend._ffi.string( backend._lib.Cryptography_osrandom_engine_name ) assert engine_name.read().encode('ascii') == osrandom_engine_name def test_osrandom_sanity_check(self): # This test serves as a check against catastrophic failure. buf = backend._ffi.new("char[]", 500) res = backend._lib.RAND_bytes(buf, 500) assert res == 1 assert backend._ffi.buffer(buf)[:] != "\x00" * 500 def test_activate_osrandom_already_default(self): e = backend._lib.ENGINE_get_default_RAND() name = backend._lib.ENGINE_get_name(e) assert name == backend._lib.Cryptography_osrandom_engine_name res = backend._lib.ENGINE_free(e) assert res == 1 backend.activate_osrandom_engine() e = backend._lib.ENGINE_get_default_RAND() name = backend._lib.ENGINE_get_name(e) assert name == backend._lib.Cryptography_osrandom_engine_name res = backend._lib.ENGINE_free(e) assert res == 1 def test_activate_osrandom_no_default(self): backend.activate_builtin_random() e = backend._lib.ENGINE_get_default_RAND() assert e == backend._ffi.NULL backend.activate_osrandom_engine() e = backend._lib.ENGINE_get_default_RAND() name = backend._lib.ENGINE_get_name(e) assert name == backend._lib.Cryptography_osrandom_engine_name res = backend._lib.ENGINE_free(e) assert res == 1 def test_activate_builtin_random(self): e = backend._lib.ENGINE_get_default_RAND() assert e != backend._ffi.NULL name = backend._lib.ENGINE_get_name(e) assert name == backend._lib.Cryptography_osrandom_engine_name res = backend._lib.ENGINE_free(e) assert res == 1 backend.activate_builtin_random() e = backend._lib.ENGINE_get_default_RAND() assert e == backend._ffi.NULL def test_activate_builtin_random_already_active(self): backend.activate_builtin_random() e = backend._lib.ENGINE_get_default_RAND() assert e == backend._ffi.NULL backend.activate_builtin_random() e = backend._lib.ENGINE_get_default_RAND() assert e == backend._ffi.NULL class TestOpenSSLRSA(object): def test_generate_rsa_parameters_supported(self): assert backend.generate_rsa_parameters_supported(1, 1024) is False assert backend.generate_rsa_parameters_supported(4, 1024) is False assert backend.generate_rsa_parameters_supported(3, 1024) is True assert backend.generate_rsa_parameters_supported(3, 511) is False def test_generate_bad_public_exponent(self): with pytest.raises(ValueError): backend.generate_rsa_private_key(public_exponent=1, key_size=2048) with pytest.raises(ValueError): backend.generate_rsa_private_key(public_exponent=4, key_size=2048) def test_cant_generate_insecure_tiny_key(self): with pytest.raises(ValueError): backend.generate_rsa_private_key(public_exponent=65537, key_size=511) with pytest.raises(ValueError): backend.generate_rsa_private_key(public_exponent=65537, key_size=256) @pytest.mark.skipif( backend._lib.OPENSSL_VERSION_NUMBER >= 0x1000100f, reason="Requires an older OpenSSL. Must be < 1.0.1" ) def test_non_sha1_pss_mgf1_hash_algorithm_on_old_openssl(self): private_key = RSA_KEY_512.private_key(backend) with raises_unsupported_algorithm(_Reasons.UNSUPPORTED_HASH): private_key.signer( padding.PSS( mgf=padding.MGF1( algorithm=hashes.SHA256(), ), salt_length=padding.PSS.MAX_LENGTH ), hashes.SHA1() ) public_key = private_key.public_key() with raises_unsupported_algorithm(_Reasons.UNSUPPORTED_HASH): public_key.verifier( b"sig", padding.PSS( mgf=padding.MGF1( algorithm=hashes.SHA256(), ), salt_length=padding.PSS.MAX_LENGTH ), hashes.SHA1() ) def test_rsa_padding_unsupported_pss_mgf1_hash(self): assert backend.rsa_padding_supported( padding.PSS(mgf=padding.MGF1(DummyHash()), salt_length=0) ) is False def test_rsa_padding_unsupported(self): assert backend.rsa_padding_supported(DummyPadding()) is False def test_rsa_padding_supported_pkcs1v15(self): assert backend.rsa_padding_supported(padding.PKCS1v15()) is True def test_rsa_padding_supported_pss(self): assert backend.rsa_padding_supported( padding.PSS(mgf=padding.MGF1(hashes.SHA1()), salt_length=0) ) is True def test_rsa_padding_supported_oaep(self): assert backend.rsa_padding_supported( padding.OAEP( mgf=padding.MGF1(algorithm=hashes.SHA1()), algorithm=hashes.SHA1(), label=None ), ) is True def test_rsa_padding_unsupported_mgf(self): assert backend.rsa_padding_supported( padding.OAEP( mgf=DummyMGF(), algorithm=hashes.SHA1(), label=None ), ) is False assert backend.rsa_padding_supported( padding.PSS(mgf=DummyMGF(), salt_length=0) ) is False def test_unsupported_mgf1_hash_algorithm_decrypt(self): private_key = RSA_KEY_512.private_key(backend) with raises_unsupported_algorithm(_Reasons.UNSUPPORTED_HASH): private_key.decrypt( b"0" * 64, padding.OAEP( mgf=padding.MGF1(algorithm=hashes.SHA256()), algorithm=hashes.SHA1(), label=None ) ) def test_unsupported_oaep_hash_algorithm_decrypt(self): private_key = RSA_KEY_512.private_key(backend) with raises_unsupported_algorithm(_Reasons.UNSUPPORTED_HASH): private_key.decrypt( b"0" * 64, padding.OAEP( mgf=padding.MGF1(algorithm=hashes.SHA1()), algorithm=hashes.SHA256(), label=None ) ) def test_unsupported_oaep_label_decrypt(self): private_key = RSA_KEY_512.private_key(backend) with pytest.raises(ValueError): private_key.decrypt( b"0" * 64, padding.OAEP( mgf=padding.MGF1(algorithm=hashes.SHA1()), algorithm=hashes.SHA1(), label=b"label" ) ) @pytest.mark.skipif( backend._lib.OPENSSL_VERSION_NUMBER <= 0x10001000, reason="Requires an OpenSSL version >= 1.0.1" ) class TestOpenSSLCMAC(object): def test_unsupported_cipher(self): @utils.register_interface(BlockCipherAlgorithm) class FakeAlgorithm(object): block_size = 64 with raises_unsupported_algorithm(_Reasons.UNSUPPORTED_CIPHER): backend.create_cmac_ctx(FakeAlgorithm()) class TestOpenSSLSerialisationWithOpenSSL(object): def test_pem_password_cb_buffer_too_small(self): ffi_cb, cb = backend._pem_password_cb(b"aa") assert cb(None, 1, False, None) == 0 def test_unsupported_evp_pkey_type(self): key = pretend.stub(type="unsupported") with raises_unsupported_algorithm(None): backend._evp_pkey_to_private_key(key) with raises_unsupported_algorithm(None): backend._evp_pkey_to_public_key(key) def test_very_long_pem_serialization_password(self): password = "x" * 1024 with pytest.raises(ValueError): load_vectors_from_file( os.path.join( "asymmetric", "Traditional_OpenSSL_Serialization", "key1.pem" ), lambda pemfile: ( backend.load_traditional_openssl_pem_private_key( pemfile.read().encode(), password ) ) ) class TestOpenSSLEllipticCurve(object): def test_elliptic_curve_supported(self, monkeypatch): monkeypatch.setattr(backend._lib, "Cryptography_HAS_EC", 0) assert backend.elliptic_curve_supported(None) is False def test_elliptic_curve_signature_algorithm_supported(self, monkeypatch): monkeypatch.setattr(backend._lib, "Cryptography_HAS_EC", 0) assert backend.elliptic_curve_signature_algorithm_supported( None, None ) is False def test_sn_to_elliptic_curve_not_supported(self): with raises_unsupported_algorithm(_Reasons.UNSUPPORTED_ELLIPTIC_CURVE): _sn_to_elliptic_curve(backend, b"fake") @pytest.mark.requires_backend_interface(interface=EllipticCurveBackend) class TestDeprecatedECBackendMethods(object): def test_elliptic_curve_private_key_from_numbers(self): d = 5634846038258869671139984276180670841223409490498798721258 y = 4131560123026307384858369684985976479488628761329758810693 x = 3402090428547195623222463880060959356423657484435591627791 curve = ec.SECP192R1() _skip_curve_unsupported(backend, curve) pub_numbers = ec.EllipticCurvePublicNumbers( x=x, y=y, curve=curve ) numbers = ec.EllipticCurvePrivateNumbers( private_value=d, public_numbers=pub_numbers ) pytest.deprecated_call( backend.elliptic_curve_private_key_from_numbers, numbers ) def test_elliptic_curve_public_key_from_numbers(self): y = 4131560123026307384858369684985976479488628761329758810693 x = 3402090428547195623222463880060959356423657484435591627791 curve = ec.SECP192R1() _skip_curve_unsupported(backend, curve) pub_numbers = ec.EllipticCurvePublicNumbers( x=x, y=y, curve=curve ) pytest.deprecated_call( backend.elliptic_curve_public_key_from_numbers, pub_numbers )