import os import sys import unittest from types import ModuleType, SimpleNamespace from unittest import mock from django.conf import ENVIRONMENT_VARIABLE, LazySettings, Settings, settings from django.core.exceptions import ImproperlyConfigured from django.http import HttpRequest from django.test import ( SimpleTestCase, TestCase, TransactionTestCase, modify_settings, override_settings, signals, ) from django.test.utils import requires_tz_support from django.urls import clear_script_prefix, set_script_prefix @modify_settings(ITEMS={ 'prepend': ['b'], 'append': ['d'], 'remove': ['a', 'e'] }) @override_settings(ITEMS=['a', 'c', 'e'], ITEMS_OUTER=[1, 2, 3], TEST='override', TEST_OUTER='outer') class FullyDecoratedTranTestCase(TransactionTestCase): available_apps = [] def test_override(self): self.assertEqual(settings.ITEMS, ['b', 'c', 'd']) self.assertEqual(settings.ITEMS_OUTER, [1, 2, 3]) self.assertEqual(settings.TEST, 'override') self.assertEqual(settings.TEST_OUTER, 'outer') @modify_settings(ITEMS={ 'append': ['e', 'f'], 'prepend': ['a'], 'remove': ['d', 'c'], }) def test_method_list_override(self): self.assertEqual(settings.ITEMS, ['a', 'b', 'e', 'f']) self.assertEqual(settings.ITEMS_OUTER, [1, 2, 3]) @modify_settings(ITEMS={ 'append': ['b'], 'prepend': ['d'], 'remove': ['a', 'c', 'e'], }) def test_method_list_override_no_ops(self): self.assertEqual(settings.ITEMS, ['b', 'd']) @modify_settings(ITEMS={ 'append': 'e', 'prepend': 'a', 'remove': 'c', }) def test_method_list_override_strings(self): self.assertEqual(settings.ITEMS, ['a', 'b', 'd', 'e']) @modify_settings(ITEMS={'remove': ['b', 'd']}) @modify_settings(ITEMS={'append': ['b'], 'prepend': ['d']}) def test_method_list_override_nested_order(self): self.assertEqual(settings.ITEMS, ['d', 'c', 'b']) @override_settings(TEST='override2') def test_method_override(self): self.assertEqual(settings.TEST, 'override2') self.assertEqual(settings.TEST_OUTER, 'outer') def test_decorated_testcase_name(self): self.assertEqual(FullyDecoratedTranTestCase.__name__, 'FullyDecoratedTranTestCase') def test_decorated_testcase_module(self): self.assertEqual(FullyDecoratedTranTestCase.__module__, __name__) @modify_settings(ITEMS={ 'prepend': ['b'], 'append': ['d'], 'remove': ['a', 'e'] }) @override_settings(ITEMS=['a', 'c', 'e'], TEST='override') class FullyDecoratedTestCase(TestCase): def test_override(self): self.assertEqual(settings.ITEMS, ['b', 'c', 'd']) self.assertEqual(settings.TEST, 'override') @modify_settings(ITEMS={ 'append': 'e', 'prepend': 'a', 'remove': 'c', }) @override_settings(TEST='override2') def test_method_override(self): self.assertEqual(settings.ITEMS, ['a', 'b', 'd', 'e']) self.assertEqual(settings.TEST, 'override2') class ClassDecoratedTestCaseSuper(TestCase): """ Dummy class for testing max recursion error in child class call to super(). Refs #17011. """ def test_max_recursion_error(self): pass @override_settings(TEST='override') class ClassDecoratedTestCase(ClassDecoratedTestCaseSuper): @classmethod def setUpClass(cls): super().setUpClass() cls.foo = getattr(settings, 'TEST', 'BUG') def test_override(self): self.assertEqual(settings.TEST, 'override') def test_setupclass_override(self): """Settings are overridden within setUpClass (#21281).""" self.assertEqual(self.foo, 'override') @override_settings(TEST='override2') def test_method_override(self): self.assertEqual(settings.TEST, 'override2') def test_max_recursion_error(self): """ Overriding a method on a super class and then calling that method on the super class should not trigger infinite recursion. See #17011. """ super().test_max_recursion_error() @modify_settings(ITEMS={'append': 'mother'}) @override_settings(ITEMS=['father'], TEST='override-parent') class ParentDecoratedTestCase(TestCase): pass @modify_settings(ITEMS={'append': ['child']}) @override_settings(TEST='override-child') class ChildDecoratedTestCase(ParentDecoratedTestCase): def test_override_settings_inheritance(self): self.assertEqual(settings.ITEMS, ['father', 'mother', 'child']) self.assertEqual(settings.TEST, 'override-child') class SettingsTests(SimpleTestCase): def setUp(self): self.testvalue = None signals.setting_changed.connect(self.signal_callback) def tearDown(self): signals.setting_changed.disconnect(self.signal_callback) def signal_callback(self, sender, setting, value, **kwargs): if setting == 'TEST': self.testvalue = value def test_override(self): settings.TEST = 'test' self.assertEqual('test', settings.TEST) with self.settings(TEST='override'): self.assertEqual('override', settings.TEST) self.assertEqual('test', settings.TEST) del settings.TEST def test_override_change(self): settings.TEST = 'test' self.assertEqual('test', settings.TEST) with self.settings(TEST='override'): self.assertEqual('override', settings.TEST) settings.TEST = 'test2' self.assertEqual('test', settings.TEST) del settings.TEST def test_override_doesnt_leak(self): with self.assertRaises(AttributeError): getattr(settings, 'TEST') with self.settings(TEST='override'): self.assertEqual('override', settings.TEST) settings.TEST = 'test' with self.assertRaises(AttributeError): getattr(settings, 'TEST') @override_settings(TEST='override') def test_decorator(self): self.assertEqual('override', settings.TEST) def test_context_manager(self): with self.assertRaises(AttributeError): getattr(settings, 'TEST') override = override_settings(TEST='override') with self.assertRaises(AttributeError): getattr(settings, 'TEST') override.enable() self.assertEqual('override', settings.TEST) override.disable() with self.assertRaises(AttributeError): getattr(settings, 'TEST') def test_class_decorator(self): # SimpleTestCase can be decorated by override_settings, but not ut.TestCase class SimpleTestCaseSubclass(SimpleTestCase): pass class UnittestTestCaseSubclass(unittest.TestCase): pass decorated = override_settings(TEST='override')(SimpleTestCaseSubclass) self.assertIsInstance(decorated, type) self.assertTrue(issubclass(decorated, SimpleTestCase)) with self.assertRaisesMessage(Exception, "Only subclasses of Django SimpleTestCase"): decorated = override_settings(TEST='override')(UnittestTestCaseSubclass) def test_signal_callback_context_manager(self): with self.assertRaises(AttributeError): getattr(settings, 'TEST') with self.settings(TEST='override'): self.assertEqual(self.testvalue, 'override') self.assertIsNone(self.testvalue) @override_settings(TEST='override') def test_signal_callback_decorator(self): self.assertEqual(self.testvalue, 'override') # # Regression tests for #10130: deleting settings. # def test_settings_delete(self): settings.TEST = 'test' self.assertEqual('test', settings.TEST) del settings.TEST msg = "'Settings' object has no attribute 'TEST'" with self.assertRaisesMessage(AttributeError, msg): getattr(settings, 'TEST') def test_settings_delete_wrapped(self): with self.assertRaisesMessage(TypeError, "can't delete _wrapped."): delattr(settings, '_wrapped') def test_override_settings_delete(self): """ Allow deletion of a setting in an overridden settings set (#18824) """ previous_i18n = settings.USE_I18N previous_l10n = settings.USE_L10N with self.settings(USE_I18N=False): del settings.USE_I18N with self.assertRaises(AttributeError): getattr(settings, 'USE_I18N') # Should also work for a non-overridden setting del settings.USE_L10N with self.assertRaises(AttributeError): getattr(settings, 'USE_L10N') self.assertNotIn('USE_I18N', dir(settings)) self.assertNotIn('USE_L10N', dir(settings)) self.assertEqual(settings.USE_I18N, previous_i18n) self.assertEqual(settings.USE_L10N, previous_l10n) def test_override_settings_nested(self): """ override_settings uses the actual _wrapped attribute at runtime, not when it was instantiated. """ with self.assertRaises(AttributeError): getattr(settings, 'TEST') with self.assertRaises(AttributeError): getattr(settings, 'TEST2') inner = override_settings(TEST2='override') with override_settings(TEST='override'): self.assertEqual('override', settings.TEST) with inner: self.assertEqual('override', settings.TEST) self.assertEqual('override', settings.TEST2) # inner's __exit__ should have restored the settings of the outer # context manager, not those when the class was instantiated self.assertEqual('override', settings.TEST) with self.assertRaises(AttributeError): getattr(settings, 'TEST2') with self.assertRaises(AttributeError): getattr(settings, 'TEST') with self.assertRaises(AttributeError): getattr(settings, 'TEST2') @override_settings(SECRET_KEY='') def test_no_secret_key(self): msg = 'The SECRET_KEY setting must not be empty.' with self.assertRaisesMessage(ImproperlyConfigured, msg): settings.SECRET_KEY def test_no_settings_module(self): msg = ( 'Requested setting%s, but settings are not configured. You ' 'must either define the environment variable DJANGO_SETTINGS_MODULE ' 'or call settings.configure() before accessing settings.' ) orig_settings = os.environ[ENVIRONMENT_VARIABLE] os.environ[ENVIRONMENT_VARIABLE] = '' try: with self.assertRaisesMessage(ImproperlyConfigured, msg % 's'): settings._setup() with self.assertRaisesMessage(ImproperlyConfigured, msg % ' TEST'): settings._setup('TEST') finally: os.environ[ENVIRONMENT_VARIABLE] = orig_settings def test_already_configured(self): with self.assertRaisesMessage(RuntimeError, 'Settings already configured.'): settings.configure() def test_nonupper_settings_prohibited_in_configure(self): s = LazySettings() with self.assertRaisesMessage(TypeError, "Setting 'foo' must be uppercase."): s.configure(foo='bar') def test_nonupper_settings_ignored_in_default_settings(self): s = LazySettings() s.configure(SimpleNamespace(foo='bar')) with self.assertRaises(AttributeError): getattr(s, 'foo') @requires_tz_support @mock.patch('django.conf.global_settings.TIME_ZONE', 'test') def test_incorrect_timezone(self): with self.assertRaisesMessage(ValueError, 'Incorrect timezone setting: test'): settings._setup() class TestComplexSettingOverride(SimpleTestCase): def setUp(self): self.old_warn_override_settings = signals.COMPLEX_OVERRIDE_SETTINGS.copy() signals.COMPLEX_OVERRIDE_SETTINGS.add('TEST_WARN') def tearDown(self): signals.COMPLEX_OVERRIDE_SETTINGS = self.old_warn_override_settings self.assertNotIn('TEST_WARN', signals.COMPLEX_OVERRIDE_SETTINGS) def test_complex_override_warning(self): """Regression test for #19031""" msg = 'Overriding setting TEST_WARN can lead to unexpected behavior.' with self.assertWarnsMessage(UserWarning, msg) as cm: with override_settings(TEST_WARN='override'): self.assertEqual(settings.TEST_WARN, 'override') self.assertEqual(cm.filename, __file__) class SecureProxySslHeaderTest(SimpleTestCase): @override_settings(SECURE_PROXY_SSL_HEADER=None) def test_none(self): req = HttpRequest() self.assertIs(req.is_secure(), False) @override_settings(SECURE_PROXY_SSL_HEADER=('HTTP_X_FORWARDED_PROTO', 'https')) def test_set_without_xheader(self): req = HttpRequest() self.assertIs(req.is_secure(), False) @override_settings(SECURE_PROXY_SSL_HEADER=('HTTP_X_FORWARDED_PROTO', 'https')) def test_set_with_xheader_wrong(self): req = HttpRequest() req.META['HTTP_X_FORWARDED_PROTO'] = 'wrongvalue' self.assertIs(req.is_secure(), False) @override_settings(SECURE_PROXY_SSL_HEADER=('HTTP_X_FORWARDED_PROTO', 'https')) def test_set_with_xheader_right(self): req = HttpRequest() req.META['HTTP_X_FORWARDED_PROTO'] = 'https' self.assertIs(req.is_secure(), True) @override_settings(SECURE_PROXY_SSL_HEADER=('HTTP_X_FORWARDED_PROTO', 'https')) def test_xheader_preferred_to_underlying_request(self): class ProxyRequest(HttpRequest): def _get_scheme(self): """Proxy always connecting via HTTPS""" return 'https' # Client connects via HTTP. req = ProxyRequest() req.META['HTTP_X_FORWARDED_PROTO'] = 'http' self.assertIs(req.is_secure(), False) class IsOverriddenTest(SimpleTestCase): def test_configure(self): s = LazySettings() s.configure(SECRET_KEY='foo') self.assertTrue(s.is_overridden('SECRET_KEY')) def test_module(self): settings_module = ModuleType('fake_settings_module') settings_module.SECRET_KEY = 'foo' sys.modules['fake_settings_module'] = settings_module try: s = Settings('fake_settings_module') self.assertTrue(s.is_overridden('SECRET_KEY')) self.assertFalse(s.is_overridden('ALLOWED_HOSTS')) finally: del sys.modules['fake_settings_module'] def test_override(self): self.assertFalse(settings.is_overridden('ALLOWED_HOSTS')) with override_settings(ALLOWED_HOSTS=[]): self.assertTrue(settings.is_overridden('ALLOWED_HOSTS')) def test_unevaluated_lazysettings_repr(self): lazy_settings = LazySettings() expected = '' self.assertEqual(repr(lazy_settings), expected) def test_evaluated_lazysettings_repr(self): lazy_settings = LazySettings() module = os.environ.get(ENVIRONMENT_VARIABLE) expected = '' % module # Force evaluation of the lazy object. lazy_settings.APPEND_SLASH self.assertEqual(repr(lazy_settings), expected) def test_usersettingsholder_repr(self): lazy_settings = LazySettings() lazy_settings.configure(APPEND_SLASH=False) expected = '' self.assertEqual(repr(lazy_settings._wrapped), expected) def test_settings_repr(self): module = os.environ.get(ENVIRONMENT_VARIABLE) lazy_settings = Settings(module) expected = '' % module self.assertEqual(repr(lazy_settings), expected) class TestListSettings(unittest.TestCase): """ Make sure settings that should be lists or tuples throw ImproperlyConfigured if they are set to a string instead of a list or tuple. """ list_or_tuple_settings = ( "INSTALLED_APPS", "TEMPLATE_DIRS", "LOCALE_PATHS", ) def test_tuple_settings(self): settings_module = ModuleType('fake_settings_module') settings_module.SECRET_KEY = 'foo' for setting in self.list_or_tuple_settings: setattr(settings_module, setting, ('non_list_or_tuple_value')) sys.modules['fake_settings_module'] = settings_module try: with self.assertRaises(ImproperlyConfigured): Settings('fake_settings_module') finally: del sys.modules['fake_settings_module'] delattr(settings_module, setting) class SettingChangeEnterException(Exception): pass class SettingChangeExitException(Exception): pass class OverrideSettingsIsolationOnExceptionTests(SimpleTestCase): """ The override_settings context manager restore settings if one of the receivers of "setting_changed" signal fails. Check the three cases of receiver failure detailed in receiver(). In each case, ALL receivers are called when exiting the context manager. """ def setUp(self): signals.setting_changed.connect(self.receiver) self.addCleanup(signals.setting_changed.disconnect, self.receiver) # Create a spy that's connected to the `setting_changed` signal and # executed AFTER `self.receiver`. self.spy_receiver = mock.Mock() signals.setting_changed.connect(self.spy_receiver) self.addCleanup(signals.setting_changed.disconnect, self.spy_receiver) def receiver(self, **kwargs): """ A receiver that fails while certain settings are being changed. - SETTING_BOTH raises an error while receiving the signal on both entering and exiting the context manager. - SETTING_ENTER raises an error only on enter. - SETTING_EXIT raises an error only on exit. """ setting = kwargs['setting'] enter = kwargs['enter'] if setting in ('SETTING_BOTH', 'SETTING_ENTER') and enter: raise SettingChangeEnterException if setting in ('SETTING_BOTH', 'SETTING_EXIT') and not enter: raise SettingChangeExitException def check_settings(self): """Assert that settings for these tests aren't present.""" self.assertFalse(hasattr(settings, 'SETTING_BOTH')) self.assertFalse(hasattr(settings, 'SETTING_ENTER')) self.assertFalse(hasattr(settings, 'SETTING_EXIT')) self.assertFalse(hasattr(settings, 'SETTING_PASS')) def check_spy_receiver_exit_calls(self, call_count): """ Assert that `self.spy_receiver` was called exactly `call_count` times with the ``enter=False`` keyword argument. """ kwargs_with_exit = [ kwargs for args, kwargs in self.spy_receiver.call_args_list if ('enter', False) in kwargs.items() ] self.assertEqual(len(kwargs_with_exit), call_count) def test_override_settings_both(self): """Receiver fails on both enter and exit.""" with self.assertRaises(SettingChangeEnterException): with override_settings(SETTING_PASS='BOTH', SETTING_BOTH='BOTH'): pass self.check_settings() # Two settings were touched, so expect two calls of `spy_receiver`. self.check_spy_receiver_exit_calls(call_count=2) def test_override_settings_enter(self): """Receiver fails on enter only.""" with self.assertRaises(SettingChangeEnterException): with override_settings(SETTING_PASS='ENTER', SETTING_ENTER='ENTER'): pass self.check_settings() # Two settings were touched, so expect two calls of `spy_receiver`. self.check_spy_receiver_exit_calls(call_count=2) def test_override_settings_exit(self): """Receiver fails on exit only.""" with self.assertRaises(SettingChangeExitException): with override_settings(SETTING_PASS='EXIT', SETTING_EXIT='EXIT'): pass self.check_settings() # Two settings were touched, so expect two calls of `spy_receiver`. self.check_spy_receiver_exit_calls(call_count=2) def test_override_settings_reusable_on_enter(self): """ Error is raised correctly when reusing the same override_settings instance. """ @override_settings(SETTING_ENTER='ENTER') def decorated_function(): pass with self.assertRaises(SettingChangeEnterException): decorated_function() signals.setting_changed.disconnect(self.receiver) # This call shouldn't raise any errors. decorated_function() class MediaURLStaticURLPrefixTest(SimpleTestCase): def set_script_name(self, val): clear_script_prefix() if val is not None: set_script_prefix(val) def test_not_prefixed(self): # Don't add SCRIPT_NAME prefix to valid URLs, absolute paths or None. tests = ( '/path/', 'http://myhost.com/path/', None, ) for setting in ('MEDIA_URL', 'STATIC_URL'): for path in tests: new_settings = {setting: path} with self.settings(**new_settings): for script_name in ['/somesubpath', '/somesubpath/', '/', '', None]: with self.subTest(script_name=script_name, **new_settings): try: self.set_script_name(script_name) self.assertEqual(getattr(settings, setting), path) finally: clear_script_prefix() def test_add_script_name_prefix(self): tests = ( # Relative paths. ('/somesubpath', 'path/', '/somesubpath/path/'), ('/somesubpath/', 'path/', '/somesubpath/path/'), ('/', 'path/', '/path/'), # Invalid URLs. ('/somesubpath/', 'htp://myhost.com/path/', '/somesubpath/htp://myhost.com/path/'), # Blank settings. ('/somesubpath/', '', '/somesubpath/'), ) for setting in ('MEDIA_URL', 'STATIC_URL'): for script_name, path, expected_path in tests: new_settings = {setting: path} with self.settings(**new_settings): with self.subTest(script_name=script_name, **new_settings): try: self.set_script_name(script_name) self.assertEqual(getattr(settings, setting), expected_path) finally: clear_script_prefix()