from datetime import timedelta import shutil import string import tempfile import warnings from django.conf import settings from django.contrib.sessions.backends.db import SessionStore as DatabaseSession from django.contrib.sessions.backends.cache import SessionStore as CacheSession from django.contrib.sessions.backends.cached_db import SessionStore as CacheDBSession from django.contrib.sessions.backends.file import SessionStore as FileSession from django.contrib.sessions.backends.signed_cookies import SessionStore as CookieSession from django.contrib.sessions.models import Session from django.contrib.sessions.middleware import SessionMiddleware from django.core.cache import DEFAULT_CACHE_ALIAS from django.core.exceptions import ImproperlyConfigured, SuspiciousOperation from django.http import HttpResponse from django.test import TestCase, RequestFactory from django.test.utils import override_settings from django.utils import six from django.utils import timezone from django.utils import unittest class SessionTestsMixin(object): # This does not inherit from TestCase to avoid any tests being run with this # class, which wouldn't work, and to allow different TestCase subclasses to # be used. backend = None # subclasses must specify def setUp(self): self.session = self.backend() def tearDown(self): # NB: be careful to delete any sessions created; stale sessions fill up # the /tmp (with some backends) and eventually overwhelm it after lots # of runs (think buildbots) self.session.delete() def test_new_session(self): self.assertFalse(self.session.modified) self.assertFalse(self.session.accessed) def test_get_empty(self): self.assertEqual(self.session.get('cat'), None) def test_store(self): self.session['cat'] = "dog" self.assertTrue(self.session.modified) self.assertEqual(self.session.pop('cat'), 'dog') def test_pop(self): self.session['some key'] = 'exists' # Need to reset these to pretend we haven't accessed it: self.accessed = False self.modified = False self.assertEqual(self.session.pop('some key'), 'exists') self.assertTrue(self.session.accessed) self.assertTrue(self.session.modified) self.assertEqual(self.session.get('some key'), None) def test_pop_default(self): self.assertEqual(self.session.pop('some key', 'does not exist'), 'does not exist') self.assertTrue(self.session.accessed) self.assertFalse(self.session.modified) def test_setdefault(self): self.assertEqual(self.session.setdefault('foo', 'bar'), 'bar') self.assertEqual(self.session.setdefault('foo', 'baz'), 'bar') self.assertTrue(self.session.accessed) self.assertTrue(self.session.modified) def test_update(self): self.session.update({'update key': 1}) self.assertTrue(self.session.accessed) self.assertTrue(self.session.modified) self.assertEqual(self.session.get('update key', None), 1) def test_has_key(self): self.session['some key'] = 1 self.session.modified = False self.session.accessed = False self.assertTrue('some key' in self.session) self.assertTrue(self.session.accessed) self.assertFalse(self.session.modified) def test_values(self): self.assertEqual(list(self.session.values()), []) self.assertTrue(self.session.accessed) self.session['some key'] = 1 self.assertEqual(list(self.session.values()), [1]) def test_iterkeys(self): self.session['x'] = 1 self.session.modified = False self.session.accessed = False i = six.iterkeys(self.session) self.assertTrue(hasattr(i, '__iter__')) self.assertTrue(self.session.accessed) self.assertFalse(self.session.modified) self.assertEqual(list(i), ['x']) def test_itervalues(self): self.session['x'] = 1 self.session.modified = False self.session.accessed = False i = six.itervalues(self.session) self.assertTrue(hasattr(i, '__iter__')) self.assertTrue(self.session.accessed) self.assertFalse(self.session.modified) self.assertEqual(list(i), [1]) def test_iteritems(self): self.session['x'] = 1 self.session.modified = False self.session.accessed = False i = six.iteritems(self.session) self.assertTrue(hasattr(i, '__iter__')) self.assertTrue(self.session.accessed) self.assertFalse(self.session.modified) self.assertEqual(list(i), [('x', 1)]) def test_clear(self): self.session['x'] = 1 self.session.modified = False self.session.accessed = False self.assertEqual(list(self.session.items()), [('x', 1)]) self.session.clear() self.assertEqual(list(self.session.items()), []) self.assertTrue(self.session.accessed) self.assertTrue(self.session.modified) def test_save(self): if (hasattr(self.session, '_cache') and 'DummyCache' in settings.CACHES[DEFAULT_CACHE_ALIAS]['BACKEND']): raise unittest.SkipTest("Session saving tests require a real cache backend") self.session.save() self.assertTrue(self.session.exists(self.session.session_key)) def test_delete(self): self.session.save() self.session.delete(self.session.session_key) self.assertFalse(self.session.exists(self.session.session_key)) def test_flush(self): self.session['foo'] = 'bar' self.session.save() prev_key = self.session.session_key self.session.flush() self.assertFalse(self.session.exists(prev_key)) self.assertNotEqual(self.session.session_key, prev_key) self.assertTrue(self.session.modified) self.assertTrue(self.session.accessed) def test_cycle(self): self.session['a'], self.session['b'] = 'c', 'd' self.session.save() prev_key = self.session.session_key prev_data = list(self.session.items()) self.session.cycle_key() self.assertNotEqual(self.session.session_key, prev_key) self.assertEqual(list(self.session.items()), prev_data) def test_invalid_key(self): # Submitting an invalid session key (either by guessing, or if the db has # removed the key) results in a new key being generated. try: session = self.backend('1') try: session.save() except AttributeError: self.fail("The session object did not save properly. Middleware may be saving cache items without namespaces.") self.assertNotEqual(session.session_key, '1') self.assertEqual(session.get('cat'), None) session.delete() finally: # Some backends leave a stale cache entry for the invalid # session key; make sure that entry is manually deleted session.delete('1') def test_session_key_is_read_only(self): def set_session_key(session): session.session_key = session._get_new_session_key() self.assertRaises(AttributeError, set_session_key, self.session) # Custom session expiry def test_default_expiry(self): # A normal session has a max age equal to settings self.assertEqual(self.session.get_expiry_age(), settings.SESSION_COOKIE_AGE) # So does a custom session with an idle expiration time of 0 (but it'll # expire at browser close) self.session.set_expiry(0) self.assertEqual(self.session.get_expiry_age(), settings.SESSION_COOKIE_AGE) def test_custom_expiry_seconds(self): # Using seconds self.session.set_expiry(10) delta = self.session.get_expiry_date() - timezone.now() self.assertTrue(delta.seconds in (9, 10)) age = self.session.get_expiry_age() self.assertTrue(age in (9, 10)) def test_custom_expiry_timedelta(self): # Using timedelta self.session.set_expiry(timedelta(seconds=10)) delta = self.session.get_expiry_date() - timezone.now() self.assertTrue(delta.seconds in (9, 10)) age = self.session.get_expiry_age() self.assertTrue(age in (9, 10)) def test_custom_expiry_datetime(self): # Using fixed datetime self.session.set_expiry(timezone.now() + timedelta(seconds=10)) delta = self.session.get_expiry_date() - timezone.now() self.assertTrue(delta.seconds in (9, 10)) age = self.session.get_expiry_age() self.assertTrue(age in (9, 10)) def test_custom_expiry_reset(self): self.session.set_expiry(None) self.session.set_expiry(10) self.session.set_expiry(None) self.assertEqual(self.session.get_expiry_age(), settings.SESSION_COOKIE_AGE) def test_get_expire_at_browser_close(self): # Tests get_expire_at_browser_close with different settings and different # set_expiry calls with override_settings(SESSION_EXPIRE_AT_BROWSER_CLOSE=False): self.session.set_expiry(10) self.assertFalse(self.session.get_expire_at_browser_close()) self.session.set_expiry(0) self.assertTrue(self.session.get_expire_at_browser_close()) self.session.set_expiry(None) self.assertFalse(self.session.get_expire_at_browser_close()) with override_settings(SESSION_EXPIRE_AT_BROWSER_CLOSE=True): self.session.set_expiry(10) self.assertFalse(self.session.get_expire_at_browser_close()) self.session.set_expiry(0) self.assertTrue(self.session.get_expire_at_browser_close()) self.session.set_expiry(None) self.assertTrue(self.session.get_expire_at_browser_close()) def test_decode(self): # Ensure we can decode what we encode data = {'a test key': 'a test value'} encoded = self.session.encode(data) self.assertEqual(self.session.decode(encoded), data) class DatabaseSessionTests(SessionTestsMixin, TestCase): backend = DatabaseSession def test_session_get_decoded(self): """ Test we can use Session.get_decoded to retrieve data stored in normal way """ self.session['x'] = 1 self.session.save() s = Session.objects.get(session_key=self.session.session_key) self.assertEqual(s.get_decoded(), {'x': 1}) def test_sessionmanager_save(self): """ Test SessionManager.save method """ # Create a session self.session['y'] = 1 self.session.save() s = Session.objects.get(session_key=self.session.session_key) # Change it Session.objects.save(s.session_key, {'y': 2}, s.expire_date) # Clear cache, so that it will be retrieved from DB del self.session._session_cache self.assertEqual(self.session['y'], 2) @override_settings(USE_TZ=True) class DatabaseSessionWithTimeZoneTests(DatabaseSessionTests): pass class CacheDBSessionTests(SessionTestsMixin, TestCase): backend = CacheDBSession @unittest.skipIf('DummyCache' in settings.CACHES[DEFAULT_CACHE_ALIAS]['BACKEND'], "Session saving tests require a real cache backend") def test_exists_searches_cache_first(self): self.session.save() with self.assertNumQueries(0): self.assertTrue(self.session.exists(self.session.session_key)) def test_load_overlong_key(self): # Some backends might issue a warning with warnings.catch_warnings(): warnings.simplefilter("ignore") self.session._session_key = (string.ascii_letters + string.digits) * 20 self.assertEqual(self.session.load(), {}) @override_settings(USE_TZ=True) class CacheDBSessionWithTimeZoneTests(CacheDBSessionTests): pass # Don't need DB flushing for these tests, so can use unittest.TestCase as base class class FileSessionTests(SessionTestsMixin, unittest.TestCase): backend = FileSession def setUp(self): super(FileSessionTests, self).setUp() # Do file session tests in an isolated directory, and kill it after we're done. self.original_session_file_path = settings.SESSION_FILE_PATH self.temp_session_store = settings.SESSION_FILE_PATH = tempfile.mkdtemp() def tearDown(self): settings.SESSION_FILE_PATH = self.original_session_file_path shutil.rmtree(self.temp_session_store) super(FileSessionTests, self).tearDown() @override_settings( SESSION_FILE_PATH="/if/this/directory/exists/you/have/a/weird/computer") def test_configuration_check(self): # Make sure the file backend checks for a good storage dir self.assertRaises(ImproperlyConfigured, self.backend) def test_invalid_key_backslash(self): # Ensure we don't allow directory-traversal self.assertRaises(SuspiciousOperation, self.backend("a\\b\\c").load) def test_invalid_key_forwardslash(self): # Ensure we don't allow directory-traversal self.assertRaises(SuspiciousOperation, self.backend("a/b/c").load) class CacheSessionTests(SessionTestsMixin, unittest.TestCase): backend = CacheSession def test_load_overlong_key(self): # Some backends might issue a warning with warnings.catch_warnings(): warnings.simplefilter("ignore") self.session._session_key = (string.ascii_letters + string.digits) * 20 self.assertEqual(self.session.load(), {}) class SessionMiddlewareTests(unittest.TestCase): @override_settings(SESSION_COOKIE_SECURE=True) def test_secure_session_cookie(self): request = RequestFactory().get('/') response = HttpResponse('Session test') middleware = SessionMiddleware() # Simulate a request the modifies the session middleware.process_request(request) request.session['hello'] = 'world' # Handle the response through the middleware response = middleware.process_response(request, response) self.assertTrue( response.cookies[settings.SESSION_COOKIE_NAME]['secure']) @override_settings(SESSION_COOKIE_HTTPONLY=True) def test_httponly_session_cookie(self): request = RequestFactory().get('/') response = HttpResponse('Session test') middleware = SessionMiddleware() # Simulate a request the modifies the session middleware.process_request(request) request.session['hello'] = 'world' # Handle the response through the middleware response = middleware.process_response(request, response) self.assertTrue( response.cookies[settings.SESSION_COOKIE_NAME]['httponly']) self.assertIn('httponly', str(response.cookies[settings.SESSION_COOKIE_NAME])) @override_settings(SESSION_COOKIE_HTTPONLY=False) def test_no_httponly_session_cookie(self): request = RequestFactory().get('/') response = HttpResponse('Session test') middleware = SessionMiddleware() # Simulate a request the modifies the session middleware.process_request(request) request.session['hello'] = 'world' # Handle the response through the middleware response = middleware.process_response(request, response) self.assertFalse(response.cookies[settings.SESSION_COOKIE_NAME]['httponly']) self.assertNotIn('httponly', str(response.cookies[settings.SESSION_COOKIE_NAME])) def test_session_save_on_500(self): request = RequestFactory().get('/') response = HttpResponse('Horrible error') response.status_code = 500 middleware = SessionMiddleware() # Simulate a request the modifies the session middleware.process_request(request) request.session['hello'] = 'world' # Handle the response through the middleware response = middleware.process_response(request, response) # Check that the value wasn't saved above. self.assertNotIn('hello', request.session.load()) class CookieSessionTests(SessionTestsMixin, TestCase): backend = CookieSession def test_save(self): """ This test tested exists() in the other session backends, but that doesn't make sense for us. """ pass def test_cycle(self): """ This test tested cycle_key() which would create a new session key for the same session data. But we can't invalidate previously signed cookies (other than letting them expire naturally) so testing for this behavior is meaningless. """ pass