import csv from unittest import mock from urllib.parse import parse_qs, urlparse from django.contrib.auth import get_user_model from django.core.urlresolvers import reverse from django.http import QueryDict from django.test import Client from django.utils import timezone from django.utils.functional import cached_property import icalendar User = get_user_model() class TestCaseMixin: def assertForbidden(self, response): """ Test that the response (retrieved with a Client) is a denial of access. The response should verify one of the following: - its HTTP response code is 403, - it redirects to the login page with a GET parameter named 'next' whose value is the url of the requested page. """ request = response.wsgi_request try: try: # Is this an HTTP Forbidden response ? self.assertEqual(response.status_code, 403) except AssertionError: # A redirection to the login view is fine too. # Let's build the login url with the 'next' param on current # page. full_path = request.get_full_path() querystring = QueryDict(mutable=True) querystring['next'] = full_path login_url = '{}?{}'.format( reverse('cof-login'), querystring.urlencode(safe='/')) # We don't focus on what the login view does. # So don't fetch the redirect. self.assertRedirects( response, login_url, fetch_redirect_response=False, ) except AssertionError: raise AssertionError( "%(http_method)s request at %(path)s should be forbidden for " "%(username)s user.\n" "Response isn't 403, nor a redirect to login view. Instead, " "response code is %(code)d." % { 'http_method': request.method, 'path': request.get_full_path(), 'username': ( "'{}'".format(request.user) if request.user.is_authenticated() else 'anonymous' ), 'code': response.status_code, } ) def assertUrlsEqual(self, actual, expected): """ Test that the url 'actual' is as 'expected'. Arguments: actual (str): Url to verify. expected: Two forms are accepted. * (str): Expected url. Strings equality is checked. * (dict): Its keys must be attributes of 'urlparse(actual)'. Equality is checked for each present key, except for 'query' which must be a dict of the expected query string parameters. """ if type(expected) == dict: parsed = urlparse(actual) for part, expected_part in expected.items(): if part == 'query': self.assertDictEqual( parse_qs(parsed.query), expected.get('query', {}), ) else: self.assertEqual(getattr(parsed, part), expected_part) else: self.assertEqual(actual, expected) def load_from_csv_response(self, r): decoded = r.content.decode('utf-8') return list(csv.reader(decoded.split('\n')[:-1])) def _test_event_equal(self, event, exp): for k, v_desc in exp.items(): if isinstance(v_desc, tuple): v_getter = v_desc[0] v = v_desc[1] else: v_getter = lambda v: v v = v_desc if v_getter(event[k.upper()]) != v: return False return True def _find_event(self, ev, l): for i, elt in enumerate(l): if self._test_event_equal(ev, elt): return elt, i return False, -1 def assertCalEqual(self, ical_content, expected): remaining = expected.copy() unexpected = [] cal = icalendar.Calendar.from_ical(ical_content) for ev in cal.walk('vevent'): found, i_found = self._find_event(ev, remaining) if found: remaining.pop(i_found) else: unexpected.append(ev) self.assertListEqual(unexpected, []) self.assertListEqual(remaining, []) class ViewTestCaseMixin(TestCaseMixin): """ TestCase extension to ease tests of kfet views. Urls concerns ------------- # Basic usage Attributes: url_name (str): Name of view under test, as given to 'reverse' function. url_args (list, optional): Will be given to 'reverse' call. url_kwargs (dict, optional): Same. url_expcted (str): What 'reverse' should return given previous attributes. View url can then be accessed at the 'url' attribute. # Advanced usage If multiple combinations of url name, args, kwargs can be used for a view, it is possible to define 'urls_conf' attribute. It must be a list whose each item is a dict defining arguments for 'reverse' call ('name', 'args', 'kwargs' keys) and its expected result ('expected' key). The reversed urls can be accessed at the 't_urls' attribute. Users concerns -------------- During setup, the following users are created: - 'user': a basic user without any permission, - 'root': a superuser, account trigramme: 200. Their password is their username. One can create additionnal users with 'get_users_extra' method, or prevent these users to be created with 'get_users_base' method. See these two methods for further informations. By using 'register_user' method, these users can then be accessed at 'users' attribute by their label. A user label can be given to 'auth_user' attribute. The related user is then authenticated on self.client during test setup. Its value defaults to 'None', meaning no user is authenticated. Automated tests --------------- # Url reverse Based on url-related attributes/properties, the test 'test_urls' checks that expected url is returned by 'reverse' (once with basic url usage and each for advanced usage). # Forbidden responses The 'test_forbidden' test verifies that each user, from labels of 'auth_forbidden' attribute, can't access the url(s), i.e. response should be a 403, or a redirect to login view. Tested HTTP requests are given by 'http_methods' attribute. Additional data can be given by defining an attribute '_data'. """ url_name = None url_expected = None http_methods = ['GET'] auth_user = None auth_forbidden = [] def setUp(self): """ Warning: Do not forget to call super().setUp() in subclasses. """ # Signals handlers on login/logout send messages. # Due to the way the Django' test Client performs login, this raise an # error. As workaround, we mock the Django' messages module. patcher_messages = mock.patch('gestioncof.signals.messages') patcher_messages.start() self.addCleanup(patcher_messages.stop) # A test can mock 'django.utils.timezone.now' and give this as return # value. E.g. it is useful if the test checks values of 'auto_now' or # 'auto_now_add' fields. self.now = timezone.now() # Register of User instances. self.users = {} for label, user in dict(self.users_base, **self.users_extra).items(): self.register_user(label, user) if self.auth_user: # The wrapper is a sanity check. self.assertTrue( self.client.login( username=self.auth_user, password=self.auth_user, ) ) def tearDown(self): del self.users_base del self.users_extra def get_users_base(self): """ Dict of . Note: Don't access yourself this property. Use 'users_base' attribute which cache the returned value from here. It allows to give functions calls, which creates users instances, as values here. """ return { 'user': User.objects.create_user('user', '', 'user'), 'root': User.objects.create_superuser('root', '', 'root'), } @cached_property def users_base(self): return self.get_users_base() def get_users_extra(self): """ Dict of . Note: Don't access yourself this property. Use 'users_base' attribute which cache the returned value from here. It allows to give functions calls, which create users instances, as values here. """ return {} @cached_property def users_extra(self): return self.get_users_extra() def register_user(self, label, user): self.users[label] = user def get_user(self, label): if self.auth_user is not None: return self.auth_user return self.auth_user_mapping.get(label) @property def urls_conf(self): return [{ 'name': self.url_name, 'args': getattr(self, 'url_args', []), 'kwargs': getattr(self, 'url_kwargs', {}), 'expected': self.url_expected, }] @property def t_urls(self): return [ reverse( url_conf['name'], args=url_conf.get('args', []), kwargs=url_conf.get('kwargs', {}), ) for url_conf in self.urls_conf] @property def url(self): return self.t_urls[0] def test_urls(self): for url, conf in zip(self.t_urls, self.urls_conf): self.assertEqual(url, conf['expected']) def test_forbidden(self): for method in self.http_methods: for user in self.auth_forbidden: for url in self.t_urls: self.check_forbidden(method, url, user) def check_forbidden(self, method, url, user=None): method = method.lower() client = Client() if user is not None: client.login(username=user, password=user) send_request = getattr(client, method) data = getattr(self, '{}_data'.format(method), {}) r = send_request(url, data) self.assertForbidden(r)