-
- def test_unencrypted_pem(self):
- key=PKey(privkey=self.rsa)
- self.assertIsNotNone(key.key)
- self.assertEqual(str(key),self.rsakeytext)
- def test_export_priv_pem(self):
- key=PKey(privkey=self.ec1priv)
- out=key.exportpriv()
- self.assertEqual(self.ec1priv,out)
- def test_unencrypted_pem_ec(self):
-
- key=PKey(privkey=self.ec1priv)
- self.assertIsNotNone(key.key)
- self.assertEqual(str(key),self.ec1keytext)
- def test_unencrypted_der_ec(self):
- key=PKey(privkey=pem2der(self.ec1priv),format="DER")
- self.assertIsNotNone(key.key)
- self.assertEqual(str(key),self.ec1keytext)
- def test_pubkey_pem(self):
- key=PKey(pubkey=self.ec1pub)
- self.assertIsNotNone(key.key)
- self.assertEqual(str(key),self.ec1keytext)
- def test_pubkey_der(self):
- key=PKey(pubkey=pem2der(self.ec1pub),format="DER")
- self.assertIsNotNone(key.key)
- self.assertEqual(str(key),self.ec1keytext)
- def test_compare(self):
- key1=PKey(privkey=self.ec1priv)
- self.assertIsNotNone(key1.key)
- key2=PKey(pubkey=self.ec1pub)
- self.assertIsNotNone(key2.key)
- self.assertEqual(key1,key2)
- def test_sign(self):
- signer=PKey(privkey=self.ec1priv)
- digest=b16decode("FFCA2587CFD4846E4CB975B503C9EB940F94566AA394E8BD571458B9DA5097D5")
- signature=signer.sign(digest)
- self.assertTrue(len(signature)>0)
- verifier=PKey(pubkey=self.ec1pub)
- self.assertTrue(verifier.verify(digest,signature))
- def test_generate(self):
- newkey=PKey.generate("rsa")
- self.assertIsNotNone(newkey.key)
- s=str(newkey)
- self.assertEqual(s[:s.find("\n")],"Public-Key: (1024 bit)")
- def test_generate_params(self):
- newkey=PKey.generate("rsa",rsa_keygen_bits=2048)
- self.assertIsNotNone(newkey.key)
- s=str(newkey)
- self.assertEqual(s[:s.find("\n")],"Public-Key: (2048 bit)")
- def test_generate_ec(self):
- templkey=PKey(pubkey=self.ec1pub)
- newkey=PKey.generate("ec",paramsfrom=templkey)
- self.assertIsNotNone(newkey.key)
- s=str(newkey)
- self.assertEqual(s[:s.find("\n")],"Public-Key: (256 bit)")
- self.assertNotEqual(str(templkey),str(newkey))
+
+ def test_unencrypted_pem(self):
+ key=PKey(privkey=self.rsa)
+ self.assertIsNotNone(key.key)
+ self.assertEqual(str(key),self.rsakeytext)
+ def test_export_priv_pem(self):
+ key=PKey(privkey=self.ec1priv)
+ out=key.exportpriv()
+ self.assertEqual(self.ec1priv,out)
+ def test_unencrypted_pem_ec(self):
+
+ key=PKey(privkey=self.ec1priv)
+ self.assertIsNotNone(key.key)
+ self.assertEqual(str(key),self.ec1keytext)
+ def test_unencrypted_der_ec(self):
+ key=PKey(privkey=pem2der(self.ec1priv),format="DER")
+ self.assertIsNotNone(key.key)
+ self.assertEqual(str(key),self.ec1keytext)
+ def test_pubkey_pem(self):
+ key=PKey(pubkey=self.ec1pub)
+ self.assertIsNotNone(key.key)
+ self.assertEqual(str(key),self.ec1keytext)
+ def test_pubkey_der(self):
+ key=PKey(pubkey=pem2der(self.ec1pub),format="DER")
+ self.assertIsNotNone(key.key)
+ self.assertEqual(str(key),self.ec1keytext)
+ def test_compare(self):
+ key1=PKey(privkey=self.ec1priv)
+ self.assertIsNotNone(key1.key)
+ key2=PKey(pubkey=self.ec1pub)
+ self.assertIsNotNone(key2.key)
+ self.assertEqual(key1,key2)
+ def test_sign(self):
+ signer=PKey(privkey=self.ec1priv)
+ digest=b16decode("FFCA2587CFD4846E4CB975B503C9EB940F94566AA394E8BD571458B9DA5097D5")
+ signature=signer.sign(digest)
+ self.assertTrue(len(signature)>0)
+ verifier=PKey(pubkey=self.ec1pub)
+ self.assertTrue(verifier.verify(digest,signature))
+ def test_generate(self):
+ newkey=PKey.generate("rsa")
+ self.assertIsNotNone(newkey.key)
+ s=str(newkey)
+ self.assertEqual(s[:s.find("\n")],"Public-Key: (1024 bit)")
+ def test_generate_params(self):
+ newkey=PKey.generate("rsa",rsa_keygen_bits=2048)
+ self.assertIsNotNone(newkey.key)
+ s=str(newkey)
+ self.assertEqual(s[:s.find("\n")],"Public-Key: (2048 bit)")
+ def test_generate_ec(self):
+ templkey=PKey(pubkey=self.ec1pub)
+ newkey=PKey.generate("ec",paramsfrom=templkey)
+ self.assertIsNotNone(newkey.key)
+ s=str(newkey)
+ self.assertEqual(s[:s.find("\n")],"Public-Key: (256 bit)")
+ self.assertNotEqual(str(templkey),str(newkey))