# 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 base64 import itertools import os import textwrap import pytest from cryptography.exceptions import UnsupportedAlgorithm, _Reasons from cryptography.hazmat.backends.interfaces import ( DERSerializationBackend, DSABackend, EllipticCurveBackend, PEMSerializationBackend, RSABackend ) from cryptography.hazmat.primitives.asymmetric import dsa, ec, rsa from cryptography.hazmat.primitives.serialization import ( BestAvailableEncryption, Encoding, NoEncryption, PrivateFormat, PublicFormat, load_der_parameters, load_der_private_key, load_der_public_key, load_pem_parameters, load_pem_private_key, load_pem_public_key, load_ssh_public_key ) from .test_ec import _skip_curve_unsupported from .utils import ( _check_dsa_private_numbers, _check_rsa_private_numbers, load_vectors_from_file ) from ...utils import raises_unsupported_algorithm class TestBufferProtocolSerialization(object): @pytest.mark.requires_backend_interface(interface=RSABackend) @pytest.mark.parametrize( ("key_path", "password"), [ (["DER_Serialization", "enc-rsa-pkcs8.der"], bytearray(b"foobar")), (["DER_Serialization", "enc2-rsa-pkcs8.der"], bytearray(b"baz")), (["DER_Serialization", "unenc-rsa-pkcs8.der"], None), (["DER_Serialization", "testrsa.der"], None), ] ) def test_load_der_rsa_private_key(self, key_path, password, backend): data = load_vectors_from_file( os.path.join("asymmetric", *key_path), lambda derfile: derfile.read(), mode="rb" ) key = load_der_private_key(bytearray(data), password, backend) assert key assert isinstance(key, rsa.RSAPrivateKey) _check_rsa_private_numbers(key.private_numbers()) @pytest.mark.requires_backend_interface(interface=RSABackend) @pytest.mark.parametrize( ("key_path", "password"), [ ( ["PEM_Serialization", "rsa_private_key.pem"], bytearray(b"123456") ), (["PKCS8", "unenc-rsa-pkcs8.pem"], None), (["PKCS8", "enc-rsa-pkcs8.pem"], bytearray(b"foobar")), (["PKCS8", "enc2-rsa-pkcs8.pem"], bytearray(b"baz")), ( ["Traditional_OpenSSL_Serialization", "key1.pem"], bytearray(b"123456") ), ] ) def test_load_pem_rsa_private_key(self, key_path, password, backend): data = load_vectors_from_file( os.path.join("asymmetric", *key_path), lambda pemfile: pemfile.read(), mode="rb" ) key = load_pem_private_key(bytearray(data), password, backend) assert key assert isinstance(key, rsa.RSAPrivateKey) _check_rsa_private_numbers(key.private_numbers()) @pytest.mark.requires_backend_interface(interface=DERSerializationBackend) class TestDERSerialization(object): @pytest.mark.requires_backend_interface(interface=RSABackend) @pytest.mark.parametrize( ("key_path", "password"), [ (["DER_Serialization", "enc-rsa-pkcs8.der"], b"foobar"), (["DER_Serialization", "enc2-rsa-pkcs8.der"], b"baz"), (["DER_Serialization", "unenc-rsa-pkcs8.der"], None), (["DER_Serialization", "testrsa.der"], None), ] ) def test_load_der_rsa_private_key(self, key_path, password, backend): key = load_vectors_from_file( os.path.join("asymmetric", *key_path), lambda derfile: load_der_private_key( derfile.read(), password, backend ), mode="rb" ) assert key assert isinstance(key, rsa.RSAPrivateKey) _check_rsa_private_numbers(key.private_numbers()) @pytest.mark.requires_backend_interface(interface=DSABackend) @pytest.mark.parametrize( ("key_path", "password"), [ (["DER_Serialization", "unenc-dsa-pkcs8.der"], None), (["DER_Serialization", "dsa.1024.der"], None), (["DER_Serialization", "dsa.2048.der"], None), (["DER_Serialization", "dsa.3072.der"], None), ] ) def test_load_der_dsa_private_key(self, key_path, password, backend): key = load_vectors_from_file( os.path.join("asymmetric", *key_path), lambda derfile: load_der_private_key( derfile.read(), password, backend ), mode="rb" ) assert key assert isinstance(key, dsa.DSAPrivateKey) _check_dsa_private_numbers(key.private_numbers()) @pytest.mark.parametrize( "key_path", [ ["DER_Serialization", "enc-rsa-pkcs8.der"], ] ) @pytest.mark.requires_backend_interface(interface=RSABackend) def test_password_not_bytes(self, key_path, backend): key_file = os.path.join("asymmetric", *key_path) password = u"this password is not bytes" with pytest.raises(TypeError): load_vectors_from_file( key_file, lambda derfile: load_der_private_key( derfile.read(), password, backend ), mode="rb" ) @pytest.mark.parametrize( ("key_path", "password"), [ (["DER_Serialization", "ec_private_key.der"], None), (["DER_Serialization", "ec_private_key_encrypted.der"], b"123456"), ] ) @pytest.mark.requires_backend_interface(interface=EllipticCurveBackend) def test_load_der_ec_private_key(self, key_path, password, backend): _skip_curve_unsupported(backend, ec.SECP256R1()) key = load_vectors_from_file( os.path.join("asymmetric", *key_path), lambda derfile: load_der_private_key( derfile.read(), password, backend ), mode="rb" ) assert key assert isinstance(key, ec.EllipticCurvePrivateKey) assert key.curve.name == "secp256r1" assert key.curve.key_size == 256 @pytest.mark.parametrize( "key_path", [ ["DER_Serialization", "enc-rsa-pkcs8.der"], ] ) @pytest.mark.requires_backend_interface(interface=RSABackend) def test_wrong_password(self, key_path, backend): key_file = os.path.join("asymmetric", *key_path) password = b"this password is wrong" with pytest.raises(ValueError): load_vectors_from_file( key_file, lambda derfile: load_der_private_key( derfile.read(), password, backend ), mode="rb" ) @pytest.mark.parametrize( "key_path", [ ["DER_Serialization", "unenc-rsa-pkcs8.der"] ] ) @pytest.mark.requires_backend_interface(interface=RSABackend) def test_unused_password(self, key_path, backend): key_file = os.path.join("asymmetric", *key_path) password = b"this password will not be used" with pytest.raises(TypeError): load_vectors_from_file( key_file, lambda derfile: load_der_private_key( derfile.read(), password, backend ), mode="rb" ) @pytest.mark.parametrize( ("key_path", "password"), itertools.product( [ ["DER_Serialization", "enc-rsa-pkcs8.der"], ], [b"", None] ) ) @pytest.mark.requires_backend_interface(interface=RSABackend) def test_missing_password(self, key_path, password, backend): key_file = os.path.join("asymmetric", *key_path) with pytest.raises(TypeError): load_vectors_from_file( key_file, lambda derfile: load_der_private_key( derfile.read(), password, backend ), mode="rb" ) def test_wrong_format(self, backend): key_data = b"---- NOT A KEY ----\n" with pytest.raises(ValueError): load_der_private_key( key_data, None, backend ) with pytest.raises(ValueError): load_der_private_key( key_data, b"this password will not be used", backend ) def test_corrupt_der_pkcs8(self, backend): # unenc-rsa-pkcs8 with a bunch of data missing. key_data = textwrap.dedent("""\ MIICdQIBADALBgkqhkiG9w0BAQEEggJhMIICXQIBAAKBgQC7JHoJfg6yNzLMOWet 8Z49a4KD0dCspMAYvo2YAMB7/wdEycocujbhJ2n/seONi+5XqTqqFkM5VBl8rmkk FPZk/7x0xmdsTPECSWnHK+HhoaNDFPR3j8jQhVo1laxiqcEhAHegi5cwtFosuJAv FiRC0Cgz+frQPFQEBsAV9RuasyQxqzxrR0Ow0qncBeGBWbYE6WZhqtcLAI895b+i +F4lbB4iD7T9QeIDMU/aIMXA81UO4cns1z4qDAHKeyLLrPQrJ/B4X7XC+egUWm5+ hr1qmyAMusyXIBECQQDJWZ8piluf4yrYfsJAn6hF5T4RjTztbqvO0GVG2McHY7Uj NPSffhzHx/ll0fQEQji+OgydCCX8o3HZrgw5YfSJAkEA7e+rqdU5nO5ZG//PSEQb tjLnRiTzBH/elQhtdZ5nF7pcpNTi4k13zutmKcWW4GK75azcRGJUhu1kDM7QYAOd SQJAVNkYcifkvna7GmooL5VYEsQsqLbM4v0NF2TIGNfG3z1MGp75KrC5LhL97MNR we2p/bd2k0HYyCKUGnf2nMPDiQJBAI75pwittSoE240EobUGIDTSz8CJsXIxuDmL z+KOpdpPRR5TQmbEMEspjsFpFymMiuYPgmihQbO2cJl1qScY5OkCQQCJ6m5tcN8l Xxg/SNpjEIv+qAyUD96XVlOJlOIeLHQ8kYE0C6ZA+MsqYIzgAreJk88Yn0lU/X0/ mu/UpE/BRZmR """).encode() bad_der = base64.b64decode(b"".join(key_data.splitlines())) with pytest.raises(ValueError): load_der_private_key( bad_der, None, backend ) with pytest.raises(ValueError): load_der_private_key( bad_der, b"this password will not be used", backend ) def test_corrupt_traditional_format_der(self, backend): # privkey with a bunch of data missing. key_data = textwrap.dedent("""\ MIIBPAIBAAJBAKrbeqkuRk8VcRmWFmtP+LviMB3+6dizWW3DwaffznyHGAFwUJ/I Tv0XtbsCyl3QoyKGhrOAy3RvPK5M38iuXT0CAwEAAQJAZ3cnzaHXM/bxGaR5CR1R rD1qFBAVfoQFiOH9uPJgMaoAuoQEisPHVcZDKcOv4wEg6/TInAIXBnEigtqvRzuy mvcpHZwQJdmdHHkGKAs37Dfxi67HbkUCIQCeZGliHXFa071Fp06ZeWlR2ADonTZz rJBhdTe0v5pCeQIhAIZfkiGgGBX4cIuuckzEm43g9WMUjxP/0GlK39vIyihxAiEA mymehFRT0MvqW5xAKAx7Pgkt8HVKwVhc2LwGKHE0DZM= """).encode() bad_der = base64.b64decode(b"".join(key_data.splitlines())) with pytest.raises(ValueError): load_pem_private_key(bad_der, None, backend) with pytest.raises(ValueError): load_pem_private_key( bad_der, b"this password will not be used", backend ) @pytest.mark.parametrize( "key_file", [ os.path.join( "asymmetric", "DER_Serialization", "unenc-rsa-pkcs8.pub.der"), os.path.join( "asymmetric", "DER_Serialization", "rsa_public_key.der"), os.path.join("asymmetric", "public", "PKCS1", "rsa.pub.der"), ] ) @pytest.mark.requires_backend_interface(interface=RSABackend) def test_load_der_rsa_public_key(self, key_file, backend): key = load_vectors_from_file( key_file, lambda derfile: load_der_public_key( derfile.read(), backend ), mode="rb" ) assert key assert isinstance(key, rsa.RSAPublicKey) numbers = key.public_numbers() assert numbers.e == 65537 def test_load_der_invalid_public_key(self, backend): with pytest.raises(ValueError): load_der_public_key(b"invalid data", backend) @pytest.mark.parametrize( "key_file", [ os.path.join( "asymmetric", "DER_Serialization", "unenc-dsa-pkcs8.pub.der"), os.path.join( "asymmetric", "DER_Serialization", "dsa_public_key.der"), ] ) @pytest.mark.requires_backend_interface(interface=DSABackend) def test_load_der_dsa_public_key(self, key_file, backend): key = load_vectors_from_file( key_file, lambda derfile: load_der_public_key( derfile.read(), backend ), mode="rb" ) assert key assert isinstance(key, dsa.DSAPublicKey) @pytest.mark.requires_backend_interface(interface=EllipticCurveBackend) def test_load_ec_public_key(self, backend): _skip_curve_unsupported(backend, ec.SECP256R1()) key = load_vectors_from_file( os.path.join( "asymmetric", "DER_Serialization", "ec_public_key.der"), lambda derfile: load_der_public_key( derfile.read(), backend ), mode="rb" ) assert key assert isinstance(key, ec.EllipticCurvePublicKey) assert key.curve.name == "secp256r1" assert key.curve.key_size == 256 def test_wrong_parameters_format(self, backend): param_data = b"---- NOT A KEY ----\n" with pytest.raises(ValueError): load_der_parameters( param_data, backend ) @pytest.mark.requires_backend_interface(interface=PEMSerializationBackend) class TestPEMSerialization(object): @pytest.mark.parametrize( ("key_file", "password"), [ (["PEM_Serialization", "rsa_private_key.pem"], b"123456"), (["PKCS8", "unenc-rsa-pkcs8.pem"], None), (["PKCS8", "enc-rsa-pkcs8.pem"], b"foobar"), (["PKCS8", "enc2-rsa-pkcs8.pem"], b"baz"), (["PKCS8", "pkcs12_s2k_pem-X_9607.pem"], b"123456"), (["PKCS8", "pkcs12_s2k_pem-X_9671.pem"], b"123456"), (["PKCS8", "pkcs12_s2k_pem-X_9925.pem"], b"123456"), (["PKCS8", "pkcs12_s2k_pem-X_9926.pem"], b"123456"), (["PKCS8", "pkcs12_s2k_pem-X_9927.pem"], b"123456"), (["PKCS8", "pkcs12_s2k_pem-X_9928.pem"], b"123456"), (["PKCS8", "pkcs12_s2k_pem-X_9929.pem"], b"123456"), (["PKCS8", "pkcs12_s2k_pem-X_9930.pem"], b"123456"), (["PKCS8", "pkcs12_s2k_pem-X_9931.pem"], b"123456"), (["PKCS8", "pkcs12_s2k_pem-X_9932.pem"], b"123456"), (["Traditional_OpenSSL_Serialization", "key1.pem"], b"123456"), (["Traditional_OpenSSL_Serialization", "key2.pem"], b"a123456"), (["Traditional_OpenSSL_Serialization", "testrsa.pem"], None), (["Traditional_OpenSSL_Serialization", "testrsa-encrypted.pem"], b"password"), ] ) def test_load_pem_rsa_private_key(self, key_file, password, backend): key = load_vectors_from_file( os.path.join("asymmetric", *key_file), lambda pemfile: load_pem_private_key( pemfile.read().encode(), password, backend ) ) assert key assert isinstance(key, rsa.RSAPrivateKey) _check_rsa_private_numbers(key.private_numbers()) @pytest.mark.parametrize( ("key_path", "password"), [ (["Traditional_OpenSSL_Serialization", "dsa.1024.pem"], None), (["Traditional_OpenSSL_Serialization", "dsa.2048.pem"], None), (["Traditional_OpenSSL_Serialization", "dsa.3072.pem"], None), (["PKCS8", "unenc-dsa-pkcs8.pem"], None), (["PEM_Serialization", "dsa_private_key.pem"], b"123456"), ] ) def test_load_dsa_private_key(self, key_path, password, backend): key = load_vectors_from_file( os.path.join("asymmetric", *key_path), lambda pemfile: load_pem_private_key( pemfile.read().encode(), password, backend ) ) assert key assert isinstance(key, dsa.DSAPrivateKey) _check_dsa_private_numbers(key.private_numbers()) @pytest.mark.parametrize( ("key_path", "password"), [ (["PKCS8", "ec_private_key.pem"], None), (["PKCS8", "ec_private_key_encrypted.pem"], b"123456"), (["PEM_Serialization", "ec_private_key.pem"], None), (["PEM_Serialization", "ec_private_key_encrypted.pem"], b"123456"), ] ) @pytest.mark.requires_backend_interface(interface=EllipticCurveBackend) def test_load_pem_ec_private_key(self, key_path, password, backend): _skip_curve_unsupported(backend, ec.SECP256R1()) key = load_vectors_from_file( os.path.join("asymmetric", *key_path), lambda pemfile: load_pem_private_key( pemfile.read().encode(), password, backend ) ) assert key assert isinstance(key, ec.EllipticCurvePrivateKey) assert key.curve.name == "secp256r1" assert key.curve.key_size == 256 @pytest.mark.parametrize( ("key_file"), [ os.path.join("asymmetric", "PKCS8", "unenc-rsa-pkcs8.pub.pem"), os.path.join( "asymmetric", "PEM_Serialization", "rsa_public_key.pem"), os.path.join("asymmetric", "public", "PKCS1", "rsa.pub.pem"), ] ) def test_load_pem_rsa_public_key(self, key_file, backend): key = load_vectors_from_file( key_file, lambda pemfile: load_pem_public_key( pemfile.read().encode(), backend ) ) assert key assert isinstance(key, rsa.RSAPublicKey) numbers = key.public_numbers() assert numbers.e == 65537 @pytest.mark.parametrize( ("key_file"), [ os.path.join("asymmetric", "PKCS8", "unenc-dsa-pkcs8.pub.pem"), os.path.join( "asymmetric", "PEM_Serialization", "dsa_public_key.pem"), ] ) def test_load_pem_dsa_public_key(self, key_file, backend): key = load_vectors_from_file( key_file, lambda pemfile: load_pem_public_key( pemfile.read().encode(), backend ) ) assert key assert isinstance(key, dsa.DSAPublicKey) @pytest.mark.requires_backend_interface(interface=EllipticCurveBackend) def test_load_ec_public_key(self, backend): _skip_curve_unsupported(backend, ec.SECP256R1()) key = load_vectors_from_file( os.path.join( "asymmetric", "PEM_Serialization", "ec_public_key.pem"), lambda pemfile: load_pem_public_key( pemfile.read().encode(), backend ) ) assert key assert isinstance(key, ec.EllipticCurvePublicKey) assert key.curve.name == "secp256r1" assert key.curve.key_size == 256 def test_rsa_traditional_encrypted_values(self, backend): pkey = load_vectors_from_file( os.path.join( "asymmetric", "Traditional_OpenSSL_Serialization", "key1.pem"), lambda pemfile: load_pem_private_key( pemfile.read().encode(), b"123456", backend ) ) assert pkey numbers = pkey.private_numbers() assert numbers.p == int( "fb7d316fc51531b36d93adaefaf52db6ad5beb793d37c4cf9dfc1ddd17cfbafb", 16 ) assert numbers.q == int( "df98264e646de9a0fbeab094e31caad5bc7adceaaae3c800ca0275dd4bb307f5", 16 ) assert numbers.d == int( "db4848c36f478dd5d38f35ae519643b6b810d404bcb76c00e44015e56ca1cab0" "7bb7ae91f6b4b43fcfc82a47d7ed55b8c575152116994c2ce5325ec24313b911", 16 ) assert numbers.dmp1 == int( "ce997f967192c2bcc3853186f1559fd355c190c58ddc15cbf5de9b6df954c727", 16 ) assert numbers.dmq1 == int( "b018a57ab20ffaa3862435445d863369b852cf70a67c55058213e3fe10e3848d", 16 ) assert numbers.iqmp == int( "6a8d830616924f5cf2d1bc1973f97fde6b63e052222ac7be06aa2532d10bac76", 16 ) assert numbers.public_numbers.e == 65537 assert numbers.public_numbers.n == int( "dba786074f2f0350ce1d99f5aed5b520cfe0deb5429ec8f2a88563763f566e77" "9814b7c310e5326edae31198eed439b845dd2db99eaa60f5c16a43f4be6bcf37", 16 ) @pytest.mark.parametrize( "key_path", [ ["Traditional_OpenSSL_Serialization", "testrsa.pem"], ["PKCS8", "unenc-rsa-pkcs8.pem"] ] ) def test_unused_password(self, key_path, backend): key_file = os.path.join("asymmetric", *key_path) password = b"this password will not be used" with pytest.raises(TypeError): load_vectors_from_file( key_file, lambda pemfile: load_pem_private_key( pemfile.read().encode(), password, backend ) ) @pytest.mark.parametrize( "key_path", [ ["Traditional_OpenSSL_Serialization", "testrsa-encrypted.pem"], ["PKCS8", "enc-rsa-pkcs8.pem"] ] ) def test_password_not_bytes(self, key_path, backend): key_file = os.path.join("asymmetric", *key_path) password = u"this password is not bytes" with pytest.raises(TypeError): load_vectors_from_file( key_file, lambda pemfile: load_pem_private_key( pemfile.read().encode(), password, backend ) ) @pytest.mark.parametrize( "key_path", [ ["Traditional_OpenSSL_Serialization", "testrsa-encrypted.pem"], ["PKCS8", "enc-rsa-pkcs8.pem"] ] ) def test_wrong_password(self, key_path, backend): key_file = os.path.join("asymmetric", *key_path) password = b"this password is wrong" with pytest.raises(ValueError): load_vectors_from_file( key_file, lambda pemfile: load_pem_private_key( pemfile.read().encode(), password, backend ) ) @pytest.mark.parametrize( ("key_path", "password"), itertools.product( [ ["Traditional_OpenSSL_Serialization", "testrsa-encrypted.pem"], ["PKCS8", "enc-rsa-pkcs8.pem"], ], [b"", None] ) ) def test_missing_password(self, key_path, password, backend): key_file = os.path.join("asymmetric", *key_path) with pytest.raises(TypeError): load_vectors_from_file( key_file, lambda pemfile: load_pem_private_key( pemfile.read().encode(), password, backend ) ) def test_wrong_private_format(self, backend): key_data = b"---- NOT A KEY ----\n" with pytest.raises(ValueError): load_pem_private_key( key_data, None, backend ) with pytest.raises(ValueError): load_pem_private_key( key_data, b"this password will not be used", backend ) def test_wrong_public_format(self, backend): key_data = b"---- NOT A KEY ----\n" with pytest.raises(ValueError): load_pem_public_key(key_data, backend) def test_wrong_parameters_format(self, backend): param_data = b"---- NOT A KEY ----\n" with pytest.raises(ValueError): load_pem_parameters(param_data, backend) def test_corrupt_traditional_format(self, backend): # privkey.pem with a bunch of data missing. key_data = textwrap.dedent("""\ -----BEGIN RSA PRIVATE KEY----- MIIBPAIBAAJBAKrbeqkuRk8VcRmWFmtP+LviMB3+6dizWW3DwaffznyHGAFwUJ/I Tv0XtbsCyl3QoyKGhrOAy3RvPK5M38iuXT0CAwEAAQJAZ3cnzaHXM/bxGaR5CR1R rD1qFBAVfoQFiOH9uPJgMaoAuoQEisPHVcZDKcOv4wEg6/TInAIXBnEigtqvRzuy mvcpHZwQJdmdHHkGKAs37Dfxi67HbkUCIQCeZGliHXFa071Fp06ZeWlR2ADonTZz rJBhdTe0v5pCeQIhAIZfkiGgGBX4cIuuckzEm43g9WMUjxP/0GlK39vIyihxAiEA mymehFRT0MvqW5xAKAx7Pgkt8HVKwVhc2LwGKHE0DZM= -----END RSA PRIVATE KEY----- """).encode() with pytest.raises(ValueError): load_pem_private_key( key_data, None, backend ) with pytest.raises(ValueError): load_pem_private_key( key_data, b"this password will not be used", backend ) def test_traditional_encrypted_corrupt_format(self, backend): # privkey.pem with a single bit flipped key_data = textwrap.dedent("""\ -----BEGIN RSA PRIVATE KEY----- Proc-Type: <,ENCRYPTED DEK-Info: AES-128-CBC,5E22A2BD85A653FB7A3ED20DE84F54CD hAqtb5ZkTMGcs4BBDQ1SKZzdQThWRDzEDxM3qBfjvYa35KxZ54aic013mW/lwj2I v5bbpOjrHYHNAiZYZ7RNb+ztbF6F/g5PA5g7mFwEq+LFBY0InIplYBSv9QtE+lot Dy4AlZa/+NzJwgdKDb+JVfk5SddyD4ywnyeORnMPy4xXKvjXwmW+iLibZVKsjIgw H8hSxcD+FhWyJm9h9uLtmpuqhQo0jTUYpnTezZx2xeVPB53Ev7YCxR9Nsgj5GsVf 9Z/hqLB7IFgM3pa0z3PQeUIZF/cEf72fISWIOBwwkzVrPUkXWfbuWeJXQXSs3amE 5A295jD9BQp9CY0nNFSsy+qiXWToq2xT3y5zVNEStmN0SCGNaIlUnJzL9IHW+oMI kPmXZMnAYBWeeCF1gf3J3aE5lZInegHNfEI0+J0LazC2aNU5Dg/BNqrmRqKWEIo/ -----END RSA PRIVATE KEY----- """).encode() password = b"this password is wrong" with pytest.raises(ValueError): load_pem_private_key( key_data, None, backend ) with pytest.raises(ValueError): load_pem_private_key( key_data, password, backend ) def test_unsupported_key_encryption(self, backend): key_data = textwrap.dedent("""\ -----BEGIN RSA PRIVATE KEY----- Proc-Type: 4,ENCRYPTED DEK-Info: FAKE-123,5E22A2BD85A653FB7A3ED20DE84F54CD hAqtb5ZkTMGcs4BBDQ1SKZzdQThWRDzEDxM3qBfjvYa35KxZ54aic013mW/lwj2I v5bbpOjrHYHNAiZYZ7RNb+ztbF6F/g5PA5g7mFwEq+LFBY0InIplYBSv9QtE+lot Dy4AlZa/+NzJwgdKDb+JVfk5SddyD4ywnyeORnMPy4xXKvjXwmW+iLibZVKsjIgw H8hSxcD+FhWyJm9h9uLtmpuqhQo0jTUYpnTezZx2xeVPB53Ev7YCxR9Nsgj5GsVf 9Z/hqLB7IFgM3pa0z3PQeUIZF/cEf72fISWIOBwwkzVrPUkXWfbuWeJXQXSs3amE 5A295jD9BQp9CY0nNFSsy+qiXWToq2xT3y5zVNEStmN0SCGNaIlUnJzL9IHW+oMI kPmXZMnAYBWeeCF1gf3J3aE5lZInegHNfEI0+J0LazC2aNU5Dg/BNqrmRqKWEIo/ -----END RSA PRIVATE KEY----- """).encode() password = b"password" with raises_unsupported_algorithm(_Reasons.UNSUPPORTED_CIPHER): load_pem_private_key( key_data, password, backend ) def test_corrupt_pkcs8_format(self, backend): # unenc-rsa-pkcs8.pem with a bunch of data missing. key_data = textwrap.dedent("""\ -----BEGIN PRIVATE KEY----- MIICdQIBADALBgkqhkiG9w0BAQEEggJhMIICXQIBAAKBgQC7JHoJfg6yNzLMOWet 8Z49a4KD0dCspMAYvo2YAMB7/wdEycocujbhJ2n/seONi+5XqTqqFkM5VBl8rmkk FPZk/7x0xmdsTPECSWnHK+HhoaNDFPR3j8jQhVo1laxiqcEhAHegi5cwtFosuJAv FiRC0Cgz+frQPFQEBsAV9RuasyQxqzxrR0Ow0qncBeGBWbYE6WZhqtcLAI895b+i +F4lbB4iD7T9QeIDMU/aIMXA81UO4cns1z4qDAHKeyLLrPQrJ/B4X7XC+egUWm5+ hr1qmyAMusyXIBECQQDJWZ8piluf4yrYfsJAn6hF5T4RjTztbqvO0GVG2McHY7Uj NPSffhzHx/ll0fQEQji+OgydCCX8o3HZrgw5YfSJAkEA7e+rqdU5nO5ZG//PSEQb tjLnRiTzBH/elQhtdZ5nF7pcpNTi4k13zutmKcWW4GK75azcRGJUhu1kDM7QYAOd SQJAVNkYcifkvna7GmooL5VYEsQsqLbM4v0NF2TIGNfG3z1MGp75KrC5LhL97MNR we2p/bd2k0HYyCKUGnf2nMPDiQJBAI75pwittSoE240EobUGIDTSz8CJsXIxuDmL z+KOpdpPRR5TQmbEMEspjsFpFymMiuYPgmihQbO2cJl1qScY5OkCQQCJ6m5tcN8l Xxg/SNpjEIv+qAyUD96XVlOJlOIeLHQ8kYE0C6ZA+MsqYIzgAreJk88Yn0lU/X0/ mu/UpE/BRZmR -----END PRIVATE KEY----- """).encode() with pytest.raises(ValueError): load_pem_private_key( key_data, None, backend ) with pytest.raises(ValueError): load_pem_private_key( key_data, b"this password will not be used", backend ) def test_pks8_encrypted_corrupt_format(self, backend): # enc-rsa-pkcs8.pem with some bits flipped. key_data = textwrap.dedent("""\ -----BEGIN ENCRYPTED PRIVATE KEY----- MIICojAcBgoqhkiG9w0BDAEDMA4ECHK0M0+QuEL9AgIBIcSCAoDRq+KRY+0XP0tO lwBTzViiXSXoyNnKAZKt5r5K/fGNntv22g/1s/ZNCetrqsJDC5eMUPPacz06jFq/ Ipsep4/OgjQ9UAOzXNrWEoNyrHnWDo7usgD3CW0mKyqER4+wG0adVMbt3N+CJHGB 85jzRmQTfkdx1rSWeSx+XyswHn8ER4+hQ+omKWMVm7AFkjjmP/KnhUnLT98J8rhU ArQoFPHz/6HVkypFccNaPPNg6IA4aS2A+TU9vJYOaXSVfFB2yf99hfYYzC+ukmuU 5Lun0cysK5s/5uSwDueUmDQKspnaNyiaMGDxvw8hilJc7vg0fGObfnbIpizhxJwq gKBfR7Zt0Hv8OYi1He4MehfMGdbHskztF+yQ40LplBGXQrvAqpU4zShga1BoQ98T 0ekbBmqj7hg47VFsppXR7DKhx7G7rpMmdKbFhAZVCjae7rRGpUtD52cpFdPhMyAX huhMkoczwUW8B/rM4272lkHo6Br0yk/TQfTEGkvryflNVu6lniPTV151WV5U1M3o 3G3a44eDyt7Ln+WSOpWtbPQMTrpKhur6WXgJvrpa/m02oOGdvOlDsoOCgavgQMWg 7xKKL7620pHl7p7f/8tlE8q6vLXVvyNtAOgt/JAr2rgvrHaZSzDE0DwgCjBXEm+7 cVMVNkHod7bLQefVanVtWqPzbmr8f7gKeuGwWSG9oew/lN2hxcLEPJHAQlnLgx3P 0GdGjK9NvwA0EP2gYIeE4+UtSder7xQ7bVh25VB20R4TTIIs4aXXCVOoQPagnzaT 6JLgl8FrvdfjHwIvmSOO1YMNmILBq000Q8WDqyErBDs4hsvtO6VQ4LeqJj6gClX3 qeJNaJFu -----END ENCRYPTED PRIVATE KEY----- """).encode() password = b"this password is wrong" with pytest.raises(ValueError): load_pem_private_key( key_data, None, backend ) with pytest.raises(ValueError): load_pem_private_key( key_data, password, backend ) def test_rsa_pkcs8_encrypted_values(self, backend): pkey = load_vectors_from_file( os.path.join( "asymmetric", "PKCS8", "enc-rsa-pkcs8.pem"), lambda pemfile: load_pem_private_key( pemfile.read().encode(), b"foobar", backend ) ) assert pkey numbers = pkey.private_numbers() assert numbers.public_numbers.n == int( "00beec64d6db5760ac2fd4c971145641b9bd7f5c56558ece608795c79807" "376a7fe5b19f95b35ca358ea5c8abd7ae051d49cd2f1e45969a1ae945460" "3c14b278664a0e414ebc8913acb6203626985525e17a600611b028542dd0" "562aad787fb4f1650aa318cdcff751e1b187cbf6785fbe164e9809491b95" "dd68480567c99b1a57", 16 ) assert numbers.public_numbers.e == 65537 assert numbers.d == int( "0cfe316e9dc6b8817f4fcfd5ae38a0886f68f773b8a6db4c9e6d8703c599" "f3d9785c3a2c09e4c8090909fb3721e19a3009ec21221523a729265707a5" "8f13063671c42a4096cad378ef2510cb59e23071489d8893ac4934dd149f" "34f2d094bea57f1c8027c3a77248ac9b91218737d0c3c3dfa7d7829e6977" "cf7d995688c86c81", 16 ) assert numbers.p == int( "00db122ac857b2c0437d7616daa98e597bb75ca9ad3a47a70bec10c10036" "03328794b225c8e3eee6ffd3fd6d2253d28e071fe27d629ab072faa14377" "ce6118cb67", 16 ) assert numbers.q == int( "00df1b8aa8506fcbbbb9d00257f2975e38b33d2698fd0f37e82d7ef38c56" "f21b6ced63c825383782a7115cfcc093300987dbd2853b518d1c8f26382a" "2d2586d391", 16 ) assert numbers.dmp1 == int( "00be18aca13e60712fdf5daa85421eb10d86d654b269e1255656194fb0c4" "2dd01a1070ea12c19f5c39e09587af02f7b1a1030d016a9ffabf3b36d699" "ceaf38d9bf", 16 ) assert numbers.dmq1 == int( "71aa8978f90a0c050744b77cf1263725b203ac9f730606d8ae1d289dce4a" "28b8d534e9ea347aeb808c73107e583eb80c546d2bddadcdb3c82693a4c1" "3d863451", 16 ) assert numbers.iqmp == int( "136b7b1afac6e6279f71b24217b7083485a5e827d156024609dae39d48a6" "bdb55af2f062cc4a3b077434e6fffad5faa29a2b5dba2bed3e4621e478c0" "97ccfe7f", 16 ) def test_load_pem_dsa_private_key(self, backend): key = load_vectors_from_file( os.path.join("asymmetric", "PKCS8", "unenc-dsa-pkcs8.pem"), lambda pemfile: load_pem_private_key( pemfile.read().encode(), None, backend ) ) assert key assert isinstance(key, dsa.DSAPrivateKey) params = key.parameters() assert isinstance(params, dsa.DSAParameters) num = key.private_numbers() pub = num.public_numbers parameter_numbers = pub.parameter_numbers assert num.x == int("00a535a8e1d0d91beafc8bee1d9b2a3a8de3311203", 16) assert pub.y == int( "2b260ea97dc6a12ae932c640e7df3d8ff04a8a05a0324f8d5f1b23f15fa1" "70ff3f42061124eff2586cb11b49a82dcdc1b90fc6a84fb10109cb67db5d" "2da971aeaf17be5e37284563e4c64d9e5fc8480258b319f0de29d54d8350" "70d9e287914d77df81491f4423b62da984eb3f45eb2a29fcea5dae525ac6" "ab6bcce04bfdf5b6", 16 ) assert parameter_numbers.p == int( "00aa0930cc145825221caffa28ac2894196a27833de5ec21270791689420" "7774a2e7b238b0d36f1b2499a2c2585083eb01432924418d867faa212dd1" "071d4dceb2782794ad393cc08a4d4ada7f68d6e839a5fcd34b4e402d82cb" "8a8cb40fec31911bf9bd360b034caacb4c5e947992573c9e90099c1b0f05" "940cabe5d2de49a167", 16 ) assert parameter_numbers.q == int( "00adc0e869b36f0ac013a681fdf4d4899d69820451", 16) assert parameter_numbers.g == int( "008c6b4589afa53a4d1048bfc346d1f386ca75521ccf72ddaa251286880e" "e13201ff48890bbfc33d79bacaec71e7a778507bd5f1a66422e39415be03" "e71141ba324f5b93131929182c88a9fa4062836066cebe74b5c6690c7d10" "1106c240ab7ebd54e4e3301fd086ce6adac922fb2713a2b0887cba13b9bc" "68ce5cfff241cd3246", 16 ) @pytest.mark.parametrize( ("key_file", "password"), [ ("bad-oid-dsa-key.pem", None), ] ) def test_load_bad_oid_key(self, key_file, password, backend): with pytest.raises(ValueError): load_vectors_from_file( os.path.join( "asymmetric", "PKCS8", key_file), lambda pemfile: load_pem_private_key( pemfile.read().encode(), password, backend ) ) @pytest.mark.parametrize( ("key_file", "password"), [ ("bad-encryption-oid.pem", b"password"), ] ) def test_load_bad_encryption_oid_key(self, key_file, password, backend): with raises_unsupported_algorithm(_Reasons.UNSUPPORTED_CIPHER): load_vectors_from_file( os.path.join( "asymmetric", "PKCS8", key_file), lambda pemfile: load_pem_private_key( pemfile.read().encode(), password, backend ) ) @pytest.mark.requires_backend_interface(interface=RSABackend) class TestRSASSHSerialization(object): def test_load_ssh_public_key_unsupported(self, backend): ssh_key = b'ecdsa-sha2-junk AAAAE2VjZHNhLXNoYTItbmlzdHAyNTY=' with pytest.raises(UnsupportedAlgorithm): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_bad_format(self, backend): ssh_key = b'ssh-rsa not-a-real-key' with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_rsa_too_short(self, backend): ssh_key = b'ssh-rsa' with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_truncated_int(self, backend): ssh_key = b'ssh-rsa AAAAB3NzaC1yc2EAAAA=' with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) ssh_key = b'ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAAACKr+IHXo' with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_rsa_comment_with_spaces(self, backend): ssh_key = ( b"ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQDDu/XRP1kyK6Cgt36gts9XAk" b"FiiuJLW6RU0j3KKVZSs1I7Z3UmU9/9aVh/rZV43WQG8jaR6kkcP4stOR0DEtll" b"PDA7ZRBnrfiHpSQYQ874AZaAoIjgkv7DBfsE6gcDQLub0PFjWyrYQUJhtOLQEK" b"vY/G0vt2iRL3juawWmCFdTK3W3XvwAdgGk71i6lHt+deOPNEPN2H58E4odrZ2f" b"sxn/adpDqfb2sM0kPwQs0aWvrrKGvUaustkivQE4XWiSFnB0oJB/lKK/CKVKuy" b"///ImSCGHQRvhwariN2tvZ6CBNSLh3iQgeB0AkyJlng7MXB2qYq/Ci2FUOryCX" # Extra section appended b"2MzHvnbv testkey@localhost extra" ) load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_rsa_extra_data_after_modulo(self, backend): ssh_key = ( b"ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQDDu/XRP1kyK6Cgt36gts9XAk" b"FiiuJLW6RU0j3KKVZSs1I7Z3UmU9/9aVh/rZV43WQG8jaR6kkcP4stOR0DEtll" b"PDA7ZRBnrfiHpSQYQ874AZaAoIjgkv7DBfsE6gcDQLub0PFjWyrYQUJhtOLQEK" b"vY/G0vt2iRL3juawWmCFdTK3W3XvwAdgGk71i6lHt+deOPNEPN2H58E4odrZ2f" b"sxn/adpDqfb2sM0kPwQs0aWvrrKGvUaustkivQE4XWiSFnB0oJB/lKK/CKVKuy" b"///ImSCGHQRvhwariN2tvZ6CBNSLh3iQgeB0AkyJlng7MXB2qYq/Ci2FUOryCX" b"2MzHvnbvAQ== testkey@localhost" ) with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_rsa_different_string(self, backend): ssh_key = ( # "AAAAB3NzA" the final A is capitalized here to cause the string # ssh-rsa inside the base64 encoded blob to be incorrect. It should # be a lower case 'a'. b"ssh-rsa AAAAB3NzAC1yc2EAAAADAQABAAABAQDDu/XRP1kyK6Cgt36gts9XAk" b"FiiuJLW6RU0j3KKVZSs1I7Z3UmU9/9aVh/rZV43WQG8jaR6kkcP4stOR0DEtll" b"PDA7ZRBnrfiHpSQYQ874AZaAoIjgkv7DBfsE6gcDQLub0PFjWyrYQUJhtOLQEK" b"vY/G0vt2iRL3juawWmCFdTK3W3XvwAdgGk71i6lHt+deOPNEPN2H58E4odrZ2f" b"sxn/adpDqfb2sM0kPwQs0aWvrrKGvUaustkivQE4XWiSFnB0oJB/lKK/CKVKuy" b"///ImSCGHQRvhwariN2tvZ6CBNSLh3iQgeB0AkyJlng7MXB2qYq/Ci2FUOryCX" b"2MzHvnbvAQ== testkey@localhost" ) with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_rsa(self, backend): ssh_key = ( b"ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQDDu/XRP1kyK6Cgt36gts9XAk" b"FiiuJLW6RU0j3KKVZSs1I7Z3UmU9/9aVh/rZV43WQG8jaR6kkcP4stOR0DEtll" b"PDA7ZRBnrfiHpSQYQ874AZaAoIjgkv7DBfsE6gcDQLub0PFjWyrYQUJhtOLQEK" b"vY/G0vt2iRL3juawWmCFdTK3W3XvwAdgGk71i6lHt+deOPNEPN2H58E4odrZ2f" b"sxn/adpDqfb2sM0kPwQs0aWvrrKGvUaustkivQE4XWiSFnB0oJB/lKK/CKVKuy" b"///ImSCGHQRvhwariN2tvZ6CBNSLh3iQgeB0AkyJlng7MXB2qYq/Ci2FUOryCX" b"2MzHvnbv testkey@localhost" ) key = load_ssh_public_key(ssh_key, backend) assert key is not None assert isinstance(key, rsa.RSAPublicKey) numbers = key.public_numbers() expected_e = 0x10001 expected_n = int( '00C3BBF5D13F59322BA0A0B77EA0B6CF570241628AE24B5BA454D' '23DCA295652B3523B67752653DFFD69587FAD9578DD6406F23691' 'EA491C3F8B2D391D0312D9653C303B651067ADF887A5241843CEF' '8019680A088E092FEC305FB04EA070340BB9BD0F1635B2AD84142' '61B4E2D010ABD8FC6D2FB768912F78EE6B05A60857532B75B75EF' 'C007601A4EF58BA947B7E75E38F3443CDD87E7C138A1DAD9D9FB3' '19FF69DA43A9F6F6B0CD243F042CD1A5AFAEB286BD46AEB2D922B' 'D01385D6892167074A0907F94A2BF08A54ABB2FFFFC89920861D0' '46F8706AB88DDADBD9E8204D48B87789081E074024C8996783B31' '7076A98ABF0A2D8550EAF2097D8CCC7BE76EF', 16) expected = rsa.RSAPublicNumbers(expected_e, expected_n) assert numbers == expected @pytest.mark.requires_backend_interface(interface=DSABackend) class TestDSSSSHSerialization(object): def test_load_ssh_public_key_dss_too_short(self, backend): ssh_key = b'ssh-dss' with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_dss_comment_with_spaces(self, backend): ssh_key = ( b"ssh-dss AAAAB3NzaC1kc3MAAACBALmwUtfwdjAUjU2Dixd5DvT0NDcjjr69UD" b"LqSD/Xt5Al7D3GXr1WOrWGpjO0NE9qzRCvMTU7zykRH6XjuNXB6Hvv48Zfm4vm" b"nHQHFmmMg2bI75JbnOwdzWnnPZJrVU4rS23dFFPqs5ug+EbhVVrcwzxahjcSjJ" b"7WEQSkVQWnSPbbAAAAFQDXmpD3DIkGvLSBf1GdUF4PHKtUrQAAAIB/bJFwss+2" b"fngmfG/Li5OyL7A9iVoGdkUaFaxEUROTp7wkm2z49fXFAir+/U31v50Tu98YLf" b"WvKlxdHcdgQYV9Ww5LIrhWwwD4UKOwC6w5S3KHVbi3pWUi7vxJFXOWfeu1mC/J" b"TWqMKR91j+rmOtdppWIZRyIVIqLcMdGO3m+2VgAAAIANFDz5KQH5NvoljpoRQi" b"RgyPjxWXiE7vjLElKj4v8KrpanAywBzdhIW1y/tzpGuwRwj5ihi8iNTHgSsoTa" b"j5AG5HPomJf5vJElxpu/2O9pHA52wcNObIQ7j+JA5uWusxNIbl+pF6sSiP8abr" b"z53N7tPF/IhHTjBHb1Ol7IFu9p9A== testkey@localhost extra" ) load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_dss_extra_data_after_modulo(self, backend): ssh_key = ( b"ssh-dss AAAAB3NzaC1kc3MAAACBALmwUtfwdjAUjU2Dixd5DvT0NDcjjr69UD" b"LqSD/Xt5Al7D3GXr1WOrWGpjO0NE9qzRCvMTU7zykRH6XjuNXB6Hvv48Zfm4vm" b"nHQHFmmMg2bI75JbnOwdzWnnPZJrVU4rS23dFFPqs5ug+EbhVVrcwzxahjcSjJ" b"7WEQSkVQWnSPbbAAAAFQDXmpD3DIkGvLSBf1GdUF4PHKtUrQAAAIB/bJFwss+2" b"fngmfG/Li5OyL7A9iVoGdkUaFaxEUROTp7wkm2z49fXFAir+/U31v50Tu98YLf" b"WvKlxdHcdgQYV9Ww5LIrhWwwD4UKOwC6w5S3KHVbi3pWUi7vxJFXOWfeu1mC/J" b"TWqMKR91j+rmOtdppWIZRyIVIqLcMdGO3m+2VgAAAIANFDz5KQH5NvoljpoRQi" b"RgyPjxWXiE7vjLElKj4v8KrpanAywBzdhIW1y/tzpGuwRwj5ihi8iNTHgSsoTa" b"j5AG5HPomJf5vJElxpu/2O9pHA52wcNObIQ7j+JA5uWusxNIbl+pF6sSiP8abr" b"z53N7tPF/IhHTjBHb1Ol7IFu9p9AAwMD== testkey@localhost" ) with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_dss_different_string(self, backend): ssh_key = ( # "AAAAB3NzA" the final A is capitalized here to cause the string # ssh-dss inside the base64 encoded blob to be incorrect. It should # be a lower case 'a'. b"ssh-dss AAAAB3NzAC1kc3MAAACBALmwUtfwdjAUjU2Dixd5DvT0NDcjjr69UD" b"LqSD/Xt5Al7D3GXr1WOrWGpjO0NE9qzRCvMTU7zykRH6XjuNXB6Hvv48Zfm4vm" b"nHQHFmmMg2bI75JbnOwdzWnnPZJrVU4rS23dFFPqs5ug+EbhVVrcwzxahjcSjJ" b"7WEQSkVQWnSPbbAAAAFQDXmpD3DIkGvLSBf1GdUF4PHKtUrQAAAIB/bJFwss+2" b"fngmfG/Li5OyL7A9iVoGdkUaFaxEUROTp7wkm2z49fXFAir+/U31v50Tu98YLf" b"WvKlxdHcdgQYV9Ww5LIrhWwwD4UKOwC6w5S3KHVbi3pWUi7vxJFXOWfeu1mC/J" b"TWqMKR91j+rmOtdppWIZRyIVIqLcMdGO3m+2VgAAAIANFDz5KQH5NvoljpoRQi" b"RgyPjxWXiE7vjLElKj4v8KrpanAywBzdhIW1y/tzpGuwRwj5ihi8iNTHgSsoTa" b"j5AG5HPomJf5vJElxpu/2O9pHA52wcNObIQ7j+JA5uWusxNIbl+pF6sSiP8abr" b"z53N7tPF/IhHTjBHb1Ol7IFu9p9A== testkey@localhost" ) with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_dss(self, backend): ssh_key = ( b"ssh-dss AAAAB3NzaC1kc3MAAACBALmwUtfwdjAUjU2Dixd5DvT0NDcjjr69UD" b"LqSD/Xt5Al7D3GXr1WOrWGpjO0NE9qzRCvMTU7zykRH6XjuNXB6Hvv48Zfm4vm" b"nHQHFmmMg2bI75JbnOwdzWnnPZJrVU4rS23dFFPqs5ug+EbhVVrcwzxahjcSjJ" b"7WEQSkVQWnSPbbAAAAFQDXmpD3DIkGvLSBf1GdUF4PHKtUrQAAAIB/bJFwss+2" b"fngmfG/Li5OyL7A9iVoGdkUaFaxEUROTp7wkm2z49fXFAir+/U31v50Tu98YLf" b"WvKlxdHcdgQYV9Ww5LIrhWwwD4UKOwC6w5S3KHVbi3pWUi7vxJFXOWfeu1mC/J" b"TWqMKR91j+rmOtdppWIZRyIVIqLcMdGO3m+2VgAAAIANFDz5KQH5NvoljpoRQi" b"RgyPjxWXiE7vjLElKj4v8KrpanAywBzdhIW1y/tzpGuwRwj5ihi8iNTHgSsoTa" b"j5AG5HPomJf5vJElxpu/2O9pHA52wcNObIQ7j+JA5uWusxNIbl+pF6sSiP8abr" b"z53N7tPF/IhHTjBHb1Ol7IFu9p9A== testkey@localhost" ) key = load_ssh_public_key(ssh_key, backend) assert key is not None assert isinstance(key, dsa.DSAPublicKey) numbers = key.public_numbers() expected_y = int( "d143cf92901f936fa258e9a11422460c8f8f1597884eef8cb1252a3e2ff0aae" "96a7032c01cdd8485b5cbfb73a46bb04708f98a18bc88d4c7812b284da8f900" "6e473e89897f9bc9125c69bbfd8ef691c0e76c1c34e6c843b8fe240e6e5aeb3" "13486e5fa917ab1288ff1a6ebcf9dcdeed3c5fc88474e30476f53a5ec816ef6" "9f4", 16 ) expected_p = int( "b9b052d7f07630148d4d838b17790ef4f43437238ebebd5032ea483fd7b7902" "5ec3dc65ebd563ab586a633b4344f6acd10af31353bcf29111fa5e3b8d5c1e8" "7befe3c65f9b8be69c740716698c8366c8ef925b9cec1dcd69e73d926b554e2" "b4b6ddd1453eab39ba0f846e1555adcc33c5a8637128c9ed61104a45505a748" "f6db", 16 ) expected_q = 1230879958723280233885494314531920096931919647917 expected_g = int( "7f6c9170b2cfb67e78267c6fcb8b93b22fb03d895a0676451a15ac44511393a" "7bc249b6cf8f5f5c5022afefd4df5bf9d13bbdf182df5af2a5c5d1dc7604185" "7d5b0e4b22b856c300f850a3b00bac394b728755b8b7a56522eefc491573967" "debb5982fc94d6a8c291f758feae63ad769a5621947221522a2dc31d18ede6f" "b656", 16 ) expected = dsa.DSAPublicNumbers( expected_y, dsa.DSAParameterNumbers(expected_p, expected_q, expected_g) ) assert numbers == expected @pytest.mark.requires_backend_interface(interface=EllipticCurveBackend) class TestECDSASSHSerialization(object): def test_load_ssh_public_key_ecdsa_nist_p256(self, backend): _skip_curve_unsupported(backend, ec.SECP256R1()) ssh_key = ( b"ecdsa-sha2-nistp256 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAy" b"NTYAAABBBGG2MfkHXp0UkxUyllDzWNBAImsvt5t7pFtTXegZK2WbGxml8zMrgWi5" b"teIg1TO03/FD9hbpBFgBeix3NrCFPls= root@cloud-server-01" ) key = load_ssh_public_key(ssh_key, backend) assert isinstance(key, ec.EllipticCurvePublicKey) expected_x = int( "44196257377740326295529888716212621920056478823906609851236662550" "785814128027", 10 ) expected_y = int( "12257763433170736656417248739355923610241609728032203358057767672" "925775019611", 10 ) assert key.public_numbers() == ec.EllipticCurvePublicNumbers( expected_x, expected_y, ec.SECP256R1() ) def test_load_ssh_public_key_ecdsa_nist_p384(self, backend): _skip_curve_unsupported(backend, ec.SECP384R1()) ssh_key = ( b"ecdsa-sha2-nistp384 AAAAE2VjZHNhLXNoYTItbmlzdHAzODQAAAAIbmlzdHAz" b"ODQAAABhBMzucOm9wbwg4iMr5QL0ya0XNQGXpw4wM5f12E3tWhdcrzyGHyel71t1" b"4bvF9JZ2/WIuSxUr33XDl8jYo+lMQ5N7Vanc7f7i3AR1YydatL3wQfZStQ1I3rBa" b"qQtRSEU8Tg== root@cloud-server-01" ) key = load_ssh_public_key(ssh_key, backend) expected_x = int( "31541830871345183397582554827482786756220448716666815789487537666" "592636882822352575507883817901562613492450642523901", 10 ) expected_y = int( "15111413269431823234030344298767984698884955023183354737123929430" "995703524272335782455051101616329050844273733614670", 10 ) assert key.public_numbers() == ec.EllipticCurvePublicNumbers( expected_x, expected_y, ec.SECP384R1() ) def test_load_ssh_public_key_ecdsa_nist_p521(self, backend): _skip_curve_unsupported(backend, ec.SECP521R1()) ssh_key = ( b"ecdsa-sha2-nistp521 AAAAE2VjZHNhLXNoYTItbmlzdHA1MjEAAAAIbmlzdHA1" b"MjEAAACFBAGTrRhMSEgF6Ni+PXNz+5fjS4lw3ypUILVVQ0Av+0hQxOx+MyozELon" b"I8NKbrbBjijEs1GuImsmkTmWsMXS1j2A7wB4Kseh7W9KA9IZJ1+TMrzWUEwvOOXi" b"wT23pbaWWXG4NaM7vssWfZBnvz3S174TCXnJ+DSccvWBFnKP0KchzLKxbg== " b"root@cloud-server-01" ) key = load_ssh_public_key(ssh_key, backend) expected_x = int( "54124123120178189598842622575230904027376313369742467279346415219" "77809037378785192537810367028427387173980786968395921877911964629" "142163122798974160187785455", 10 ) expected_y = int( "16111775122845033200938694062381820957441843014849125660011303579" "15284560361402515564433711416776946492019498546572162801954089916" "006665939539407104638103918", 10 ) assert key.public_numbers() == ec.EllipticCurvePublicNumbers( expected_x, expected_y, ec.SECP521R1() ) def test_load_ssh_public_key_ecdsa_nist_p256_trailing_data(self, backend): ssh_key = ( b"ecdsa-sha2-nistp256 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAy" b"NTYAAABBBGG2MfkHXp0UkxUyllDzWNBAImsvt5t7pFtTXegZK2WbGxml8zMrgWi5" b"teIg1TO03/FD9hbpBFgBeix3NrCFPltB= root@cloud-server-01" ) with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_ecdsa_nist_p256_missing_data(self, backend): ssh_key = ( b"ecdsa-sha2-nistp256 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAy" b"NTYAAABBBGG2MfkHXp0UkxUyllDzWNBAImsvt5t7pFtTXegZK2WbGxml8zMrgWi5" b"teIg1TO03/FD9hbpBFgBeix3NrCF= root@cloud-server-01" ) with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_ecdsa_nist_p256_compressed(self, backend): # If we ever implement compressed points, note that this is not a valid # one, it just has the compressed marker in the right place. ssh_key = ( b"ecdsa-sha2-nistp256 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAy" b"NTYAAABBAWG2MfkHXp0UkxUyllDzWNBAImsvt5t7pFtTXegZK2WbGxml8zMrgWi5" b"teIg1TO03/FD9hbpBFgBeix3NrCFPls= root@cloud-server-01" ) with pytest.raises(NotImplementedError): load_ssh_public_key(ssh_key, backend) def test_load_ssh_public_key_ecdsa_nist_p256_bad_curve_name(self, backend): ssh_key = ( # The curve name in here is changed to be "nistp255". b"ecdsa-sha2-nistp256 AAAAE2VjZHNhLXNoYTItbmlzdHAyNTYAAAAIbmlzdHAy" b"NTUAAABBBGG2MfkHXp0UkxUyllDzWNBAImsvt5t7pFtTXegZK2WbGxml8zMrgWi5" b"teIg1TO03/FD9hbpBFgBeix3NrCFPls= root@cloud-server-01" ) with pytest.raises(ValueError): load_ssh_public_key(ssh_key, backend) class TestKeySerializationEncryptionTypes(object): def test_non_bytes_password(self): with pytest.raises(ValueError): BestAvailableEncryption(object()) def test_encryption_with_zero_length_password(self): with pytest.raises(ValueError): BestAvailableEncryption(b"") @pytest.mark.supported( only_if=lambda backend: backend.x448_supported(), skip_message="Requires OpenSSL with X448 support" ) class TestX448Serialization(object): def test_load_der_private_key(self, backend): data = load_vectors_from_file( os.path.join("asymmetric", "X448", "x448-pkcs8-enc.der"), lambda derfile: derfile.read(), mode="rb" ) unencrypted = load_vectors_from_file( os.path.join("asymmetric", "X448", "x448-pkcs8.der"), lambda derfile: derfile.read(), mode="rb" ) key = load_der_private_key(data, b"password", backend) assert key.private_bytes( Encoding.DER, PrivateFormat.PKCS8, NoEncryption() ) == unencrypted def test_load_pem_private_key(self, backend): data = load_vectors_from_file( os.path.join("asymmetric", "X448", "x448-pkcs8-enc.pem"), lambda pemfile: pemfile.read(), mode="rb" ) unencrypted = load_vectors_from_file( os.path.join("asymmetric", "X448", "x448-pkcs8.pem"), lambda pemfile: pemfile.read(), mode="rb" ) key = load_pem_private_key(data, b"password", backend) assert key.private_bytes( Encoding.PEM, PrivateFormat.PKCS8, NoEncryption() ) == unencrypted @pytest.mark.parametrize( ("key_path", "encoding", "loader"), [ ( ["X448", "x448-pub.pem"], Encoding.PEM, load_pem_public_key ), ( ["X448", "x448-pub.der"], Encoding.DER, load_der_public_key ), ] ) def test_load_public_key(self, key_path, encoding, loader, backend): data = load_vectors_from_file( os.path.join("asymmetric", *key_path), lambda pemfile: pemfile.read(), mode="rb" ) public_key = loader(data, backend) assert public_key.public_bytes( encoding, PublicFormat.SubjectPublicKeyInfo ) == data @pytest.mark.supported( only_if=lambda backend: backend.x25519_supported(), skip_message="Requires OpenSSL with X25519 support" ) class TestX25519Serialization(object): def test_load_der_private_key(self, backend): data = load_vectors_from_file( os.path.join("asymmetric", "X25519", "x25519-pkcs8-enc.der"), lambda derfile: derfile.read(), mode="rb" ) unencrypted = load_vectors_from_file( os.path.join("asymmetric", "X25519", "x25519-pkcs8.der"), lambda derfile: derfile.read(), mode="rb" ) key = load_der_private_key(data, b"password", backend) assert key.private_bytes( Encoding.DER, PrivateFormat.PKCS8, NoEncryption() ) == unencrypted def test_load_pem_private_key(self, backend): data = load_vectors_from_file( os.path.join("asymmetric", "X25519", "x25519-pkcs8-enc.pem"), lambda pemfile: pemfile.read(), mode="rb" ) unencrypted = load_vectors_from_file( os.path.join("asymmetric", "X25519", "x25519-pkcs8.pem"), lambda pemfile: pemfile.read(), mode="rb" ) key = load_pem_private_key(data, b"password", backend) assert key.private_bytes( Encoding.PEM, PrivateFormat.PKCS8, NoEncryption() ) == unencrypted @pytest.mark.parametrize( ("key_path", "encoding", "loader"), [ ( ["X25519", "x25519-pub.pem"], Encoding.PEM, load_pem_public_key ), ( ["X25519", "x25519-pub.der"], Encoding.DER, load_der_public_key ), ] ) def test_load_public_key(self, key_path, encoding, loader, backend): data = load_vectors_from_file( os.path.join("asymmetric", *key_path), lambda pemfile: pemfile.read(), mode="rb" ) public_key = loader(data, backend) assert public_key.public_bytes( encoding, PublicFormat.SubjectPublicKeyInfo ) == data