# Copyright 2015 Google Inc. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Unit tests for oauth2client._helpers.""" import unittest from oauth2client._helpers import _from_bytes from oauth2client._helpers import _json_encode from oauth2client._helpers import _parse_pem_key from oauth2client._helpers import _to_bytes from oauth2client._helpers import _urlsafe_b64decode from oauth2client._helpers import _urlsafe_b64encode class Test__parse_pem_key(unittest.TestCase): def test_valid_input(self): test_string = b'1234-----BEGIN FOO BAR BAZ' result = _parse_pem_key(test_string) self.assertEqual(result, test_string[4:]) def test_bad_input(self): test_string = b'DOES NOT HAVE DASHES' result = _parse_pem_key(test_string) self.assertEqual(result, None) class Test__json_encode(unittest.TestCase): def test_dictionary_input(self): # Use only a single key since dictionary hash order # is non-deterministic. data = {u'foo': 10} result = _json_encode(data) self.assertEqual(result, '{"foo":10}') def test_list_input(self): data = [42, 1337] result = _json_encode(data) self.assertEqual(result, '[42,1337]') class Test__to_bytes(unittest.TestCase): def test_with_bytes(self): value = b'bytes-val' self.assertEqual(_to_bytes(value), value) def test_with_unicode(self): value = u'string-val' encoded_value = b'string-val' self.assertEqual(_to_bytes(value), encoded_value) def test_with_nonstring_type(self): value = object() self.assertRaises(ValueError, _to_bytes, value) class Test__from_bytes(unittest.TestCase): def test_with_unicode(self): value = u'bytes-val' self.assertEqual(_from_bytes(value), value) def test_with_bytes(self): value = b'string-val' decoded_value = u'string-val' self.assertEqual(_from_bytes(value), decoded_value) def test_with_nonstring_type(self): value = object() self.assertRaises(ValueError, _from_bytes, value) class Test__urlsafe_b64encode(unittest.TestCase): DEADBEEF_ENCODED = b'ZGVhZGJlZWY' def test_valid_input_bytes(self): test_string = b'deadbeef' result = _urlsafe_b64encode(test_string) self.assertEqual(result, self.DEADBEEF_ENCODED) def test_valid_input_unicode(self): test_string = u'deadbeef' result = _urlsafe_b64encode(test_string) self.assertEqual(result, self.DEADBEEF_ENCODED) class Test__urlsafe_b64decode(unittest.TestCase): def test_valid_input_bytes(self): test_string = b'ZGVhZGJlZWY' result = _urlsafe_b64decode(test_string) self.assertEqual(result, b'deadbeef') def test_valid_input_unicode(self): test_string = b'ZGVhZGJlZWY' result = _urlsafe_b64decode(test_string) self.assertEqual(result, b'deadbeef') def test_bad_input(self): import binascii bad_string = b'+' self.assertRaises((TypeError, binascii.Error), _urlsafe_b64decode, bad_string) if __name__ == '__main__': # pragma: NO COVER unittest.main()