# # This file is part of pyasn1-modules software. # # Created by Russ Housley # Copyright (c) 2019, Vigil Security, LLC # License: http://snmplabs.com/pyasn1/license.html # import sys import unittest from pyasn1.codec.der import decoder as der_decoder from pyasn1.codec.der import encoder as der_encoder from pyasn1.type import univ from pyasn1_modules import pem from pyasn1_modules import rfc5280 from pyasn1_modules import rfc4055 class PSSDefautTestCase(unittest.TestCase): pss_default_pem_text = "MAsGCSqGSIb3DQEBCg==" def setUp(self): self.asn1Spec = rfc5280.AlgorithmIdentifier() def testDerCodec(self): substrate = pem.readBase64fromText(self.pss_default_pem_text) asn1Object, rest = der_decoder.decode(substrate, asn1Spec=self.asn1Spec) self.assertFalse(rest) self.assertTrue(asn1Object.prettyPrint()) self.assertTrue(rfc4055.id_RSASSA_PSS, asn1Object[0]) self.assertEqual(substrate, der_encoder.encode(asn1Object)) self.assertEqual(substrate, der_encoder.encode(asn1Object)) def testOpenTypes(self): substrate = pem.readBase64fromText(self.pss_default_pem_text) asn1Object, rest = der_decoder.decode(substrate, asn1Spec=self.asn1Spec, decodeOpenTypes=True) self.assertFalse(rest) self.assertTrue(asn1Object.prettyPrint()) self.assertEqual(substrate, der_encoder.encode(asn1Object)) self.assertFalse(asn1Object['parameters'].hasValue()) class PSSSHA512TestCase(unittest.TestCase): pss_sha512_pem_text = "MDwGCSqGSIb3DQEBCjAvoA8wDQYJYIZIAWUDBAIDBQChHDAaBg" \ "kqhkiG9w0BAQgwDQYJYIZIAWUDBAIDBQA=" def setUp(self): self.asn1Spec = rfc5280.AlgorithmIdentifier() def testDerCodec(self): substrate = pem.readBase64fromText(self.pss_sha512_pem_text) asn1Object, rest = der_decoder.decode( substrate, asn1Spec=self.asn1Spec) self.assertFalse(rest) self.assertTrue(asn1Object.prettyPrint()) self.assertTrue(rfc4055.id_RSASSA_PSS, asn1Object[0]) self.assertEqual(substrate, der_encoder.encode(asn1Object)) self.assertEqual(substrate, der_encoder.encode(asn1Object)) def testOpenTypes(self): substrate = pem.readBase64fromText(self.pss_sha512_pem_text) asn1Object, rest = der_decoder.decode( substrate, asn1Spec=self.asn1Spec, decodeOpenTypes=True) self.assertFalse(rest) self.assertTrue(asn1Object.prettyPrint()) self.assertEqual(substrate, der_encoder.encode(asn1Object)) self.assertTrue(asn1Object['parameters'].hasValue()) self.assertTrue(20, asn1Object['parameters']['saltLength']) class OAEPDefautTestCase(unittest.TestCase): oaep_default_pem_text = "MAsGCSqGSIb3DQEBBw==" def setUp(self): self.asn1Spec = rfc5280.AlgorithmIdentifier() def testDerCodec(self): substrate = pem.readBase64fromText(self.oaep_default_pem_text) asn1Object, rest = der_decoder.decode(substrate, asn1Spec=self.asn1Spec) self.assertFalse(rest) self.assertTrue(asn1Object.prettyPrint()) self.assertTrue(rfc4055.id_RSAES_OAEP, asn1Object[0]) self.assertEqual(substrate, der_encoder.encode(asn1Object)) self.assertEqual(substrate, der_encoder.encode(asn1Object)) def testOpenTypes(self): substrate = pem.readBase64fromText(self.oaep_default_pem_text) asn1Object, rest = der_decoder.decode( substrate, asn1Spec=self.asn1Spec, decodeOpenTypes=True) self.assertFalse(rest) self.assertTrue(asn1Object.prettyPrint()) self.assertEqual(substrate, der_encoder.encode(asn1Object)) self.assertFalse(asn1Object['parameters'].hasValue()) class OAEPSHA256TestCase(unittest.TestCase): oaep_sha256_pem_text = "MDwGCSqGSIb3DQEBBzAvoA8wDQYJYIZIAWUDBAIBBQChHDAaB" \ "gkqhkiG9w0BAQgwDQYJYIZIAWUDBAIBBQA=" def setUp(self): self.asn1Spec = rfc5280.AlgorithmIdentifier() def testDerCodec(self): substrate = pem.readBase64fromText(self.oaep_sha256_pem_text) asn1Object, rest = der_decoder.decode(substrate, asn1Spec=self.asn1Spec) self.assertFalse(rest) self.assertTrue(asn1Object.prettyPrint()) self.assertTrue(rfc4055.id_RSAES_OAEP, asn1Object[0]) self.assertEqual(substrate, der_encoder.encode(asn1Object)) self.assertEqual(substrate, der_encoder.encode(asn1Object)) def testOpenTypes(self): substrate = pem.readBase64fromText(self.oaep_sha256_pem_text) asn1Object, rest = der_decoder.decode( substrate, asn1Spec=self.asn1Spec, decodeOpenTypes=True) self.assertFalse(rest) self.assertTrue(asn1Object.prettyPrint()) self.assertEqual(substrate, der_encoder.encode(asn1Object)) self.assertTrue(asn1Object['parameters'].hasValue()) oaep_p = asn1Object['parameters'] self.assertEqual(univ.Null(""), oaep_p['hashFunc']['parameters']) self.assertEqual(univ.Null(""), oaep_p['maskGenFunc']['parameters']['parameters']) class OAEPFullTestCase(unittest.TestCase): oaep_full_pem_text = "MFMGCSqGSIb3DQEBBzBGoA8wDQYJYIZIAWUDBAICBQChHDAaBgk" \ "qhkiG9w0BAQgwDQYJYIZIAWUDBAICBQCiFTATBgkqhkiG9w0BAQ" \ "kEBmZvb2Jhcg==" def setUp(self): self.asn1Spec = rfc5280.AlgorithmIdentifier() def testDerCodec(self): substrate = pem.readBase64fromText(self.oaep_full_pem_text) asn1Object, rest = der_decoder.decode(substrate, asn1Spec=self.asn1Spec) self.assertFalse(rest) self.assertTrue(asn1Object.prettyPrint()) self.assertTrue(rfc4055.id_RSAES_OAEP, asn1Object[0]) self.assertEqual(substrate, der_encoder.encode(asn1Object)) self.assertEqual(substrate, der_encoder.encode(asn1Object)) def testOpenTypes(self): substrate = pem.readBase64fromText(self.oaep_full_pem_text) asn1Object, rest = der_decoder.decode(substrate, asn1Spec=self.asn1Spec, decodeOpenTypes=True) self.assertFalse(rest) self.assertTrue(asn1Object.prettyPrint()) self.assertEqual(substrate, der_encoder.encode(asn1Object)) self.assertTrue(asn1Object['parameters'].hasValue()) oaep_p = asn1Object['parameters'] self.assertEqual(univ.Null(""), oaep_p['hashFunc']['parameters']) self.assertEqual( univ.Null(""), oaep_p['maskGenFunc']['parameters']['parameters']) self.assertEqual( univ.OctetString(value='foobar'), oaep_p['pSourceFunc']['parameters']) suite = unittest.TestLoader().loadTestsFromModule(sys.modules[__name__]) if __name__ == '__main__': result = unittest.TextTestRunner(verbosity=2).run(suite) sys.exit(not result.wasSuccessful())