import json from django.contrib.messages import constants from django.contrib.messages.storage.base import Message from django.contrib.messages.storage.cookie import ( CookieStorage, MessageDecoder, MessageEncoder, ) from django.test import SimpleTestCase, override_settings from django.utils.safestring import SafeData, mark_safe from .base import BaseTests def set_cookie_data(storage, messages, invalid=False, encode_empty=False): """ Set ``request.COOKIES`` with the encoded data and remove the storage backend's loaded data cache. """ encoded_data = storage._encode(messages, encode_empty=encode_empty) if invalid: # Truncate the first character so that the hash is invalid. encoded_data = encoded_data[1:] storage.request.COOKIES = {CookieStorage.cookie_name: encoded_data} if hasattr(storage, '_loaded_data'): del storage._loaded_data def stored_cookie_messages_count(storage, response): """ Return an integer containing the number of messages stored. """ # Get a list of cookies, excluding ones with a max-age of 0 (because # they have been marked for deletion). cookie = response.cookies.get(storage.cookie_name) if not cookie or cookie['max-age'] == 0: return 0 data = storage._decode(cookie.value) if not data: return 0 if data[-1] == CookieStorage.not_finished: data.pop() return len(data) @override_settings(SESSION_COOKIE_DOMAIN='.example.com', SESSION_COOKIE_SECURE=True, SESSION_COOKIE_HTTPONLY=True) class CookieTests(BaseTests, SimpleTestCase): storage_class = CookieStorage def stored_messages_count(self, storage, response): return stored_cookie_messages_count(storage, response) def test_get(self): storage = self.storage_class(self.get_request()) # Set initial data. example_messages = ['test', 'me'] set_cookie_data(storage, example_messages) # The message contains what's expected. self.assertEqual(list(storage), example_messages) def test_cookie_setings(self): """ CookieStorage honors SESSION_COOKIE_DOMAIN, SESSION_COOKIE_SECURE, and SESSION_COOKIE_HTTPONLY (#15618, #20972). """ # Test before the messages have been consumed storage = self.get_storage() response = self.get_response() storage.add(constants.INFO, 'test') storage.update(response) self.assertIn('test', response.cookies['messages'].value) self.assertEqual(response.cookies['messages']['domain'], '.example.com') self.assertEqual(response.cookies['messages']['expires'], '') self.assertIs(response.cookies['messages']['secure'], True) self.assertIs(response.cookies['messages']['httponly'], True) # Test deletion of the cookie (storing with an empty value) after the messages have been consumed storage = self.get_storage() response = self.get_response() storage.add(constants.INFO, 'test') for m in storage: pass # Iterate through the storage to simulate consumption of messages. storage.update(response) self.assertEqual(response.cookies['messages'].value, '') self.assertEqual(response.cookies['messages']['domain'], '.example.com') self.assertEqual(response.cookies['messages']['expires'], 'Thu, 01 Jan 1970 00:00:00 GMT') def test_get_bad_cookie(self): request = self.get_request() storage = self.storage_class(request) # Set initial (invalid) data. example_messages = ['test', 'me'] set_cookie_data(storage, example_messages, invalid=True) # The message actually contains what we expect. self.assertEqual(list(storage), []) def test_max_cookie_length(self): """ If the data exceeds what is allowed in a cookie, older messages are removed before saving (and returned by the ``update`` method). """ storage = self.get_storage() response = self.get_response() # When storing as a cookie, the cookie has constant overhead of approx # 54 chars, and each message has a constant overhead of about 37 chars # and a variable overhead of zero in the best case. We aim for a message # size which will fit 4 messages into the cookie, but not 5. # See also FallbackTest.test_session_fallback msg_size = int((CookieStorage.max_cookie_size - 54) / 4.5 - 37) for i in range(5): storage.add(constants.INFO, str(i) * msg_size) unstored_messages = storage.update(response) cookie_storing = self.stored_messages_count(storage, response) self.assertEqual(cookie_storing, 4) self.assertEqual(len(unstored_messages), 1) self.assertEqual(unstored_messages[0].message, '0' * msg_size) def test_json_encoder_decoder(self): """ A complex nested data structure containing Message instances is properly encoded/decoded by the custom JSON encoder/decoder classes. """ messages = [ { 'message': Message(constants.INFO, 'Test message'), 'message_list': [ Message(constants.INFO, 'message %s') for x in range(5) ] + [{'another-message': Message(constants.ERROR, 'error')}], }, Message(constants.INFO, 'message %s'), ] encoder = MessageEncoder(separators=(',', ':')) value = encoder.encode(messages) decoded_messages = json.loads(value, cls=MessageDecoder) self.assertEqual(messages, decoded_messages) def test_safedata(self): """ A message containing SafeData is keeping its safe status when retrieved from the message storage. """ def encode_decode(data): message = Message(constants.DEBUG, data) encoded = storage._encode(message) decoded = storage._decode(encoded) return decoded.message storage = self.get_storage() self.assertIsInstance(encode_decode(mark_safe("Hello Django!")), SafeData) self.assertNotIsInstance(encode_decode("Hello Django!"), SafeData) def test_pre_1_5_message_format(self): """ Messages that were set in the cookie before the addition of is_safedata are decoded correctly (#22426). """ # Encode the messages using the current encoder. messages = [Message(constants.INFO, 'message %s') for x in range(5)] encoder = MessageEncoder(separators=(',', ':')) encoded_messages = encoder.encode(messages) # Remove the is_safedata flag from the messages in order to imitate # the behavior of before 1.5 (monkey patching). encoded_messages = json.loads(encoded_messages) for obj in encoded_messages: obj.pop(1) encoded_messages = json.dumps(encoded_messages, separators=(',', ':')) # Decode the messages in the old format (without is_safedata) decoded_messages = json.loads(encoded_messages, cls=MessageDecoder) self.assertEqual(messages, decoded_messages)