class DjangoLoaderTest(unittest.TestCase): def setUp(self): dirname = os.path.dirname(__file__) abs_path_dirname = os.path.abspath(os.path.expanduser(dirname)) self.wsgi_app_path = os.path.join(abs_path_dirname, 'app-path/app') self.app_loader = DjangoAppLoader() ''' Ensure we can load a djangoapp even with hidden folders inside the wsgi-app folder. ''' def test_can_load_django_app(self): self.assertTrue(self.app_loader.can_load(self.wsgi_app_path))
def setUp(self): dirname = os.path.dirname(__file__) self.abs_app_path = os.path.join(FIXTURE, WSGID_APP_NAME) self.wsgid_appfolder_fullpath = os.path.join(self.abs_app_path, 'app/') self.app_loader = DjangoAppLoader()
class DjangoLoaderTest(unittest.TestCase): def setUp(self): dirname = os.path.dirname(__file__) self.abs_app_path = os.path.join(FIXTURE, WSGID_APP_NAME) self.wsgid_appfolder_fullpath = os.path.join(self.abs_app_path, 'app/') self.app_loader = DjangoAppLoader() # def tearDown(self): # setattr(settings, '_wrapped', None) #So django thinks we are not configured yet ''' Ensure we can load a djangoapp even with hidden folders inside the wsgi-app folder. ''' def test_can_load_with_hidden_folder(self): self.assertTrue(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) with patch('os.listdir'): os.listdir.return_value = ['.git', '.hg', 'mydjangoapp'] app = self.app_loader.load_app(self.wsgid_appfolder_fullpath, 'app') self.assertEquals(django.core.handlers.wsgi.WSGIHandler, app.__class__) self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE']) ''' Check that we can recognize a simple wsgid app with a django app inside ''' def test_can_load_django_app(self, *args): self.assertTrue(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) ''' A valid django folder must be importable, so we have to check that __init__.py exists. ''' def test_django_folder_must_have_init(self): djangoapp_path = os.path.join(FIXTURE, 'wsgidapp-noinit/app') self.assertFalse(self.app_loader.can_load(djangoapp_path)) def test_django_project_folder_added_to_sys_path(self): with patch('sys.path') as mock_syspath: with patch('os.listdir'): dirs = ['mydjangoapp', 'otherdjangoapp'] os.listdir.return_value = dirs self.assertTrue(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) os.listdir.return_value = list(reversed(dirs)) self.app_loader.load_app(self.wsgid_appfolder_fullpath, 'appname') self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE']) djangoproject_folder = os.path.join(self.wsgid_appfolder_fullpath, 'mydjangoapp') expected = [((self.wsgid_appfolder_fullpath,), {}), ((djangoproject_folder,), {})] self.assertEquals(expected ,mock_syspath.append.call_args_list) ''' Check if we return False for a non-django app folder ''' def test_not_django_wsgid_app_folder(self): with patch('os.listdir'): os.listdir.return_value = [] self.assertFalse(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) ''' Since os.list returns the result in a random order, DjangoAppLoader can return True for can_load() but get a different result on the second call to os.listdir (inside load_app()) We should consistently load the django app from the same folder we said we could load it. ''' def test_prepared_for_os_listdir_random(self): with patch('os.listdir'): dirs = ['mydjangoapp', 'otherdjangoapp'] os.listdir.return_value = dirs self.assertTrue(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) os.listdir.return_value = list(reversed(dirs)) self.app_loader.load_app(self.wsgid_appfolder_fullpath, 'appname') self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE']) ''' Check that we can load a django app that is not the first one (in alphabetical order) ''' def test_can_load_the_second_folder(self): with patch('os.listdir'): os.listdir.return_value = ['anotherfolder', 'mydjangoapp'] self.assertTrue(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) self.app_loader.load_app(self.wsgid_appfolder_fullpath, None) self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE']) ''' Any setting inside settngs.py that are *not* mentioned on django.json must remain available when we do: from django.conf settings settings.MY_NON_OVERRIDEN_OPTION ''' def test_custom_options_must_remain(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertEquals('still-the-same-value', settings.MY_OTHER_CUSTOM_SETTING) ''' If we have a setting in django.json that does not exist in settings, we must create it ''' def test_create_new_setting(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertEquals('a new value', settings.NEW_SETTING) ''' If we have a TEST_OPT inside settings.py and this same options inside wsgidappfolder/django.json, the JSON version must be available at: from django.conf import settings settings.TEST_OPT after DjangoAppLodare loads this app. ''' def test_override_existing_settings_option(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertEquals('other-value', settings.MY_CUSTOM_SETTING) ''' If django.json contains a setting that is a dict we must "join" this dict from django.json with the dict loaded from app's settings.py ''' def test_join_hash_setting(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertTrue(isinstance(settings.DATABASES, dict)) self.assertEquals(2, len(settings.DATABASES)) self.assertEquals("django.db.backends.postgresql", settings.DATABASES['default']['ENGINE']) self.assertEquals("pgdb", settings.DATABASES['default']['NAME']) self.assertEquals("postgres", settings.DATABASES['default']['USER']) self.assertEquals("pgpasswd", settings.DATABASES['default']['PASSWORD']) self.assertEquals("localhost", settings.DATABASES['default']['HOST']) self.assertEquals("5432", settings.DATABASES['default']['PORT']) self.assertEquals("mysql", settings.DATABASES['myotherdb']['ENGINE']) self.assertEquals("mydb", settings.DATABASES['myotherdb']['NAME']) self.assertEquals("user", settings.DATABASES['myotherdb']['USER']) self.assertEquals("passwd", settings.DATABASES['myotherdb']['PASSWORD']) self.assertEquals("localhost", settings.DATABASES['myotherdb']['HOST']) self.assertEquals("3598", settings.DATABASES['myotherdb']['PORT']) def test_override_hash_setting(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertTrue(isinstance(settings.MY_HASH, dict)) self.assertEquals(1, len(settings.MY_HASH)) self.assertEquals("new-v1", settings.MY_HASH['subhash']['k1']) self.assertEquals("new-v2", settings.MY_HASH['subhash']['k2']) self.assertEquals("new-v3", settings.MY_HASH['subhash']['k3']) ''' Whataver is on django.json, overrides settings.py, even if settings are of different types This does not apply if original settings is dict or tuple ''' def test_django_json_overrides_settings(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertTrue(isinstance(settings.GENERIC_SETTING, dict)) self.assertEquals(1, len(settings.GENERIC_SETTING)) self.assertEquals("v", settings.GENERIC_SETTING['k']) ''' If we find a list settings we must append the extra values at the end of the found list ''' def test_list_setting(self): setattr(settings, 'MY_LIST_SETTING', ['some value', 'another one']) app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertTrue(isinstance(settings.MY_LIST_SETTING, list)) self.assertEquals(['some value', 'another one', 'one more'], settings.MY_LIST_SETTING) ''' If we have a setting on django.json (that is a list) with the same name of another setting (that is a tuple), the list must be converted to tuple. ''' def test_convert_list_to_tuple(self): setattr(settings, 'TUPLE_SETTING', ('one', 'two')) app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertTrue(isinstance(settings.TUPLE_SETTING, tuple)) self.assertEquals(('one', 'two', 'three'), settings.TUPLE_SETTING)
class DjangoLoaderTest(unittest.TestCase): def setUp(self): dirname = os.path.dirname(__file__) self.abs_app_path = os.path.join(FIXTURE, WSGID_APP_NAME) self.wsgid_appfolder_fullpath = os.path.join(self.abs_app_path, 'app/') self.app_loader = DjangoAppLoader() ''' Ensure we can load a djangoapp even with hidden folders inside the wsgi-app folder. ''' def test_can_load_with_hidden_folder(self): self.assertTrue(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) with patch('os.listdir'): os.listdir.return_value = ['.git', '.hg', 'mydjangoapp'] app = self.app_loader.load_app(self.wsgid_appfolder_fullpath, 'app') self.assertEquals(django.core.handlers.wsgi.WSGIHandler, app.__class__) self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE']) ''' Check that we can recognize a simple wsgid app with a django app inside ''' def test_can_load_django_app(self): self.assertTrue(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) ''' Check if we return False for a non-django app folder ''' def test_not_django_wsgid_app_folder(self): with patch('os.listdir'): os.listdir.return_value = [] self.assertFalse(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) ''' Since os.list returns the result in a random order, DjangoAppLoader can return True for can_load() but get a different result on the second call to os.listdir (inside load_app()) We should consistently load the django app from the same folder we said we could load it. ''' def test_prepared_for_os_listdir_random(self): with patch('os.listdir'): dirs = ['mydjangoapp', 'otherdjangoapp'] os.listdir.return_value = dirs self.assertTrue(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) os.listdir.return_value = list(reversed(dirs)) self.app_loader.load_app(self.wsgid_appfolder_fullpath, 'appname') self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE']) ''' Check that we can load a django app that is not the first one (in alphabetical order) ''' def test_can_load_the_second_folder(self): with patch('os.listdir'): os.listdir.return_value = ['anotherfolder', 'mydjangoapp'] self.assertTrue(self.app_loader.can_load(self.wsgid_appfolder_fullpath)) self.app_loader.load_app(self.wsgid_appfolder_fullpath, None) self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE'])
def setUp(self): dirname = os.path.dirname(__file__) abs_path_dirname = os.path.abspath(os.path.expanduser(dirname)) self.wsgi_app_path = os.path.join(abs_path_dirname, 'app-path/app') self.app_loader = DjangoAppLoader()
class DjangoLoaderTest(unittest.TestCase): def setUp(self): dirname = os.path.dirname(__file__) self.abs_app_path = os.path.join(FIXTURE, WSGID_APP_NAME) self.wsgid_appfolder_fullpath = os.path.join(self.abs_app_path, 'app/') self.app_loader = DjangoAppLoader() # def tearDown(self): # setattr(settings, '_wrapped', None) #So django thinks we are not configured yet ''' Ensure we can load a djangoapp even with hidden folders inside the wsgi-app folder. ''' def test_can_load_with_hidden_folder(self): self.assertTrue(self.app_loader.can_load( self.wsgid_appfolder_fullpath)) with patch('os.listdir'): os.listdir.return_value = ['.git', '.hg', 'mydjangoapp'] app = self.app_loader.load_app(self.wsgid_appfolder_fullpath, 'app') self.assertEquals(django.core.handlers.wsgi.WSGIHandler, app.__class__) self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE']) ''' Check that we can recognize a simple wsgid app with a django app inside ''' def test_can_load_django_app(self, *args): self.assertTrue(self.app_loader.can_load( self.wsgid_appfolder_fullpath)) ''' A valid django folder must be importable, so we have to check that __init__.py exists. ''' def test_django_folder_must_have_init(self): djangoapp_path = os.path.join(FIXTURE, 'wsgidapp-noinit/app') self.assertFalse(self.app_loader.can_load(djangoapp_path)) def test_django_project_folder_added_to_sys_path(self): with patch('sys.path') as mock_syspath: with patch('os.listdir'): dirs = ['mydjangoapp', 'otherdjangoapp'] os.listdir.return_value = dirs self.assertTrue( self.app_loader.can_load(self.wsgid_appfolder_fullpath)) os.listdir.return_value = list(reversed(dirs)) self.app_loader.load_app(self.wsgid_appfolder_fullpath, 'appname') self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE']) djangoproject_folder = os.path.join( self.wsgid_appfolder_fullpath, 'mydjangoapp') expected = [((self.wsgid_appfolder_fullpath, ), {}), ((djangoproject_folder, ), {})] self.assertEquals(expected, mock_syspath.append.call_args_list) ''' Check if we return False for a non-django app folder ''' def test_not_django_wsgid_app_folder(self): with patch('os.listdir'): os.listdir.return_value = [] self.assertFalse( self.app_loader.can_load(self.wsgid_appfolder_fullpath)) ''' Since os.list returns the result in a random order, DjangoAppLoader can return True for can_load() but get a different result on the second call to os.listdir (inside load_app()) We should consistently load the django app from the same folder we said we could load it. ''' def test_prepared_for_os_listdir_random(self): with patch('os.listdir'): dirs = ['mydjangoapp', 'otherdjangoapp'] os.listdir.return_value = dirs self.assertTrue( self.app_loader.can_load(self.wsgid_appfolder_fullpath)) os.listdir.return_value = list(reversed(dirs)) self.app_loader.load_app(self.wsgid_appfolder_fullpath, 'appname') self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE']) ''' Check that we can load a django app that is not the first one (in alphabetical order) ''' def test_can_load_the_second_folder(self): with patch('os.listdir'): os.listdir.return_value = ['anotherfolder', 'mydjangoapp'] self.assertTrue( self.app_loader.can_load(self.wsgid_appfolder_fullpath)) self.app_loader.load_app(self.wsgid_appfolder_fullpath, None) self.assertEquals("mydjangoapp.settings", os.environ['DJANGO_SETTINGS_MODULE']) ''' Any setting inside settngs.py that are *not* mentioned on django.json must remain available when we do: from django.conf settings settings.MY_NON_OVERRIDEN_OPTION ''' def test_custom_options_must_remain(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertEquals('still-the-same-value', settings.MY_OTHER_CUSTOM_SETTING) ''' If we have a setting in django.json that does not exist in settings, we must create it ''' def test_create_new_setting(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertEquals('a new value', settings.NEW_SETTING) ''' If we have a TEST_OPT inside settings.py and this same options inside wsgidappfolder/django.json, the JSON version must be available at: from django.conf import settings settings.TEST_OPT after DjangoAppLodare loads this app. ''' def test_override_existing_settings_option(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertEquals('other-value', settings.MY_CUSTOM_SETTING) ''' If django.json contains a setting that is a dict we must "join" this dict from django.json with the dict loaded from app's settings.py ''' def test_join_hash_setting(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertTrue(isinstance(settings.DATABASES, dict)) self.assertEquals(2, len(settings.DATABASES)) self.assertEquals("django.db.backends.postgresql", settings.DATABASES['default']['ENGINE']) self.assertEquals("pgdb", settings.DATABASES['default']['NAME']) self.assertEquals("postgres", settings.DATABASES['default']['USER']) self.assertEquals("pgpasswd", settings.DATABASES['default']['PASSWORD']) self.assertEquals("localhost", settings.DATABASES['default']['HOST']) self.assertEquals("5432", settings.DATABASES['default']['PORT']) self.assertEquals("mysql", settings.DATABASES['myotherdb']['ENGINE']) self.assertEquals("mydb", settings.DATABASES['myotherdb']['NAME']) self.assertEquals("user", settings.DATABASES['myotherdb']['USER']) self.assertEquals("passwd", settings.DATABASES['myotherdb']['PASSWORD']) self.assertEquals("localhost", settings.DATABASES['myotherdb']['HOST']) self.assertEquals("3598", settings.DATABASES['myotherdb']['PORT']) def test_override_hash_setting(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertTrue(isinstance(settings.MY_HASH, dict)) self.assertEquals(1, len(settings.MY_HASH)) self.assertEquals("new-v1", settings.MY_HASH['subhash']['k1']) self.assertEquals("new-v2", settings.MY_HASH['subhash']['k2']) self.assertEquals("new-v3", settings.MY_HASH['subhash']['k3']) ''' Whataver is on django.json, overrides settings.py, even if settings are of different types This does not apply if original settings is dict or tuple ''' def test_django_json_overrides_settings(self): app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertTrue(isinstance(settings.GENERIC_SETTING, dict)) self.assertEquals(1, len(settings.GENERIC_SETTING)) self.assertEquals("v", settings.GENERIC_SETTING['k']) ''' If we find a list settings we must append the extra values at the end of the found list ''' def test_list_setting(self): setattr(settings, 'MY_LIST_SETTING', ['some value', 'another one']) app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertTrue(isinstance(settings.MY_LIST_SETTING, list)) self.assertEquals(['some value', 'another one', 'one more'], settings.MY_LIST_SETTING) ''' If we have a setting on django.json (that is a list) with the same name of another setting (that is a tuple), the list must be converted to tuple. ''' def test_convert_list_to_tuple(self): setattr(settings, 'TUPLE_SETTING', ('one', 'two')) app_path = os.path.join(FIXTURE, WSGID_APP_NAME, 'app') self.app_loader.load_app(app_path) self.assertTrue(isinstance(settings.TUPLE_SETTING, tuple)) self.assertEquals(('one', 'two', 'three'), settings.TUPLE_SETTING)
def setUp(self): dirname = os.path.dirname(__file__) self.abs_app_path = os.path.join(FIXTURE, WSGID_APP_NAME) self.wsgid_appfolder_fullpath = os.path.join(self.abs_app_path, 'app/') self.app_loader = DjangoAppLoader() wsgid.conf.settings = FakeOptions(django=False)