def test_decrypt_validate_and_encrypt(self): """This test takes encrypted data, validates and then encrypt""" test_input = { 'name': 'LcyInWDZsUv22ocRHM3+yg7QO9ArjlhP2R9v5CSZIRc=', 'address': 'LcyInWDZsUv22ocRHM3+yryn2OYg2jesvpgClxA/sdQ=', } counter_dict = { 'name': { 'validator': 'str', 'regex': 'John Doe', 'pre_transform': 'decode', 'transform': 'encode' }, 'address': { 'validator': 'str', 'regex': 'John Doe Street', 'pre_transform': 'decode', 'transform': 'encode' }, } validated_items = maat.scale(test_input, counter_dict) difference = ddiff(validated_items, self.expected_encoded) # if the differ finds no difference a empty dictionary is returned self.assertEqual(difference, {})
def test_decrypt_validate_and_encrypt_fail_on_name(self): """This test takes encrypted data, validates and before encypting fails because the value of name is not valid""" test_input = { 'name': 'LcyInWDZsUv22ocRHM3+yg7QO9ArjlhP2R9v5CSZIRc=', 'address': 'LcyInWDZsUv22ocRHM3+yryn2OYg2jesvpgClxA/sdQ=', } counter_dict = { 'name': { 'validator': 'str', 'regex': 'Jane', 'pre_transform': 'decode', 'transform': 'encode' }, 'address': { 'validator': 'str', 'regex': 'John Doe Street', 'pre_transform': 'decode', 'transform': 'encode' }, } err_msg = 'key: "name" contains invalid item "John Doe": does not adhere to regex rules Jane' with self.assertRaisesRegex(maat.Invalid, err_msg): validated_items = maat.scale(test_input, counter_dict)
def test_validate_and_transform_incoming_data(self): """This test takes data, validates and then encrypt""" test_input = { 'name': 'John Doe', 'address': 'John Doe Street', } counter_dict = { 'name': { 'validator': 'str', 'regex': 'John Doe', 'transform': 'encode' }, 'address': { 'validator': 'str', 'regex': 'John Doe Street', 'transform': 'encode' }, } validated_items = maat.scale(test_input, counter_dict) difference = ddiff(validated_items, self.expected_encoded) # if the differ finds no difference a empty dictionary is returned self.assertEqual(difference, {})