def test_rsassa_pss_sign_int(self): # specialize the generic encoding function for the test vector salt emsa_pss_encode = functools.partial(emsa_pss.encode, salt=self.int_data.salt) signature = rsassa_pss.sign(self.int_data.private_key, self.int_data.message, emsa_pss_encode=emsa_pss_encode) self.assertEqual(signature, self.int_data.signature)
def test_rsassa_pss_sign_vect(): for example in vect_data.examples: private_key = example.private_key for sample in example.samples: emsa_pss_encode = functools.partial(emsa_pss.encode, salt=sample.salt) signature = rsassa_pss.sign(private_key, sample.message, emsa_pss_encode=emsa_pss_encode) assert signature == sample.signature
def test_generate_and_sign(): pub, priv = keys.generate_key_pair(number=5, size=1024) message = b'hello world' signature = rsassa_pss.sign(priv, message) assert rsassa_pss.verify(pub, message, signature)
def test_rsassa_pss_sign_int(): # specialize the generic encoding function for the test vector salt emsa_pss_encode = functools.partial(emsa_pss.encode, salt=int_data.salt) signature = rsassa_pss.sign(int_data.private_key, int_data.message, emsa_pss_encode=emsa_pss_encode) assert signature == int_data.signature
def test_generate_and_sign(self): pub, priv = primitives.generate_key_pair(number=5, size=1024) message = 'hello world' signature = rsassa_pss.sign(priv, message) self.assertTrue(rsassa_pss.verify(pub, message, signature))