import builtins import getpass import sys from datetime import date from io import StringIO from unittest import mock from django.apps import apps from django.contrib.auth import get_permission_codename, management from django.contrib.auth.management import ( create_permissions, get_default_username, ) from django.contrib.auth.management.commands import ( changepassword, createsuperuser, ) from django.contrib.auth.models import Group, Permission, User from django.contrib.contenttypes.models import ContentType from django.core.management import call_command from django.core.management.base import CommandError from django.db import migrations from django.test import TestCase, override_settings from django.utils.translation import gettext_lazy as _ from .models import ( CustomUser, CustomUserNonUniqueUsername, CustomUserWithFK, Email, UserProxy, ) MOCK_INPUT_KEY_TO_PROMPTS = { # @mock_inputs dict key: [expected prompt messages], 'bypass': ['Bypass password validation and create user anyway? [y/N]: '], 'email': ['Email address: '], 'date_of_birth': ['Date of birth: '], 'first_name': ['First name: '], 'username': ['Username: ', lambda: "Username (leave blank to use '%s'): " % get_default_username()], } def mock_inputs(inputs): """ Decorator to temporarily replace input/getpass to allow interactive createsuperuser. """ def inner(test_func): def wrapped(*args): class mock_getpass: @staticmethod def getpass(prompt=b'Password: ', stream=None): if callable(inputs['password']): return inputs['password']() return inputs['password'] def mock_input(prompt): assert '__proxy__' not in prompt response = None for key, val in inputs.items(): if val == 'KeyboardInterrupt': raise KeyboardInterrupt # get() fallback because sometimes 'key' is the actual # prompt rather than a shortcut name. prompt_msgs = MOCK_INPUT_KEY_TO_PROMPTS.get(key, key) if isinstance(prompt_msgs, list): prompt_msgs = [msg() if callable(msg) else msg for msg in prompt_msgs] if prompt in prompt_msgs: if callable(val): response = val() else: response = val break if response is None: raise ValueError('Mock input for %r not found.' % prompt) return response old_getpass = createsuperuser.getpass old_input = builtins.input createsuperuser.getpass = mock_getpass builtins.input = mock_input try: test_func(*args) finally: createsuperuser.getpass = old_getpass builtins.input = old_input return wrapped return inner class MockTTY: """ A fake stdin object that pretends to be a TTY to be used in conjunction with mock_inputs. """ def isatty(self): return True class MockInputTests(TestCase): @mock_inputs({'username': 'alice'}) def test_input_not_found(self): with self.assertRaisesMessage(ValueError, "Mock input for 'Email address: ' not found."): call_command('createsuperuser', stdin=MockTTY()) class GetDefaultUsernameTestCase(TestCase): def setUp(self): self.old_get_system_username = management.get_system_username def tearDown(self): management.get_system_username = self.old_get_system_username def test_actual_implementation(self): self.assertIsInstance(management.get_system_username(), str) def test_simple(self): management.get_system_username = lambda: 'joe' self.assertEqual(management.get_default_username(), 'joe') def test_existing(self): User.objects.create(username='joe') management.get_system_username = lambda: 'joe' self.assertEqual(management.get_default_username(), '') self.assertEqual( management.get_default_username(check_db=False), 'joe') def test_i18n(self): # 'Julia' with accented 'u': management.get_system_username = lambda: 'J\xfalia' self.assertEqual(management.get_default_username(), 'julia') @override_settings(AUTH_PASSWORD_VALIDATORS=[ {'NAME': 'django.contrib.auth.password_validation.NumericPasswordValidator'}, ]) class ChangepasswordManagementCommandTestCase(TestCase): @classmethod def setUpTestData(cls): cls.user = User.objects.create_user(username='joe', password='qwerty') def setUp(self): self.stdout = StringIO() self.stderr = StringIO() def tearDown(self): self.stdout.close() self.stderr.close() @mock.patch.object(getpass, 'getpass', return_value='password') def test_get_pass(self, mock_get_pass): call_command('changepassword', username='joe', stdout=self.stdout) self.assertIs(User.objects.get(username='joe').check_password('password'), True) @mock.patch.object(getpass, 'getpass', return_value='') def test_get_pass_no_input(self, mock_get_pass): with self.assertRaisesMessage(CommandError, 'aborted'): call_command('changepassword', username='joe', stdout=self.stdout) @mock.patch.object(changepassword.Command, '_get_pass', return_value='new_password') def test_system_username(self, mock_get_pass): """The system username is used if --username isn't provided.""" username = getpass.getuser() User.objects.create_user(username=username, password='qwerty') call_command('changepassword', stdout=self.stdout) self.assertIs(User.objects.get(username=username).check_password('new_password'), True) def test_nonexistent_username(self): with self.assertRaisesMessage(CommandError, "user 'test' does not exist"): call_command('changepassword', username='test', stdout=self.stdout) @mock.patch.object(changepassword.Command, '_get_pass', return_value='not qwerty') def test_that_changepassword_command_changes_joes_password(self, mock_get_pass): "Executing the changepassword management command should change joe's password" self.assertTrue(self.user.check_password('qwerty')) call_command('changepassword', username='joe', stdout=self.stdout) command_output = self.stdout.getvalue().strip() self.assertEqual( command_output, "Changing password for user 'joe'\nPassword changed successfully for user 'joe'" ) self.assertTrue(User.objects.get(username="joe").check_password("not qwerty")) @mock.patch.object(changepassword.Command, '_get_pass', side_effect=lambda *args: str(args)) def test_that_max_tries_exits_1(self, mock_get_pass): """ A CommandError should be thrown by handle() if the user enters in mismatched passwords three times. """ msg = "Aborting password change for user 'joe' after 3 attempts" with self.assertRaisesMessage(CommandError, msg): call_command('changepassword', username='joe', stdout=self.stdout, stderr=self.stderr) @mock.patch.object(changepassword.Command, '_get_pass', return_value='1234567890') def test_password_validation(self, mock_get_pass): """ A CommandError should be raised if the user enters in passwords which fail validation three times. """ abort_msg = "Aborting password change for user 'joe' after 3 attempts" with self.assertRaisesMessage(CommandError, abort_msg): call_command('changepassword', username='joe', stdout=self.stdout, stderr=self.stderr) self.assertIn('This password is entirely numeric.', self.stderr.getvalue()) @mock.patch.object(changepassword.Command, '_get_pass', return_value='not qwerty') def test_that_changepassword_command_works_with_nonascii_output(self, mock_get_pass): """ #21627 -- Executing the changepassword management command should allow non-ASCII characters from the User object representation. """ # 'Julia' with accented 'u': User.objects.create_user(username='J\xfalia', password='qwerty') call_command('changepassword', username='J\xfalia', stdout=self.stdout) class MultiDBChangepasswordManagementCommandTestCase(TestCase): databases = {'default', 'other'} @mock.patch.object(changepassword.Command, '_get_pass', return_value='not qwerty') def test_that_changepassword_command_with_database_option_uses_given_db(self, mock_get_pass): """ changepassword --database should operate on the specified DB. """ user = User.objects.db_manager('other').create_user(username='joe', password='qwerty') self.assertTrue(user.check_password('qwerty')) out = StringIO() call_command('changepassword', username='joe', database='other', stdout=out) command_output = out.getvalue().strip() self.assertEqual( command_output, "Changing password for user 'joe'\nPassword changed successfully for user 'joe'" ) self.assertTrue(User.objects.using('other').get(username="joe").check_password('not qwerty')) @override_settings( SILENCED_SYSTEM_CHECKS=['fields.W342'], # ForeignKey(unique=True) AUTH_PASSWORD_VALIDATORS=[{'NAME': 'django.contrib.auth.password_validation.NumericPasswordValidator'}], ) class CreatesuperuserManagementCommandTestCase(TestCase): def test_no_email_argument(self): new_io = StringIO() with self.assertRaisesMessage(CommandError, 'You must use --email with --noinput.'): call_command('createsuperuser', interactive=False, username='joe', stdout=new_io) def test_basic_usage(self): "Check the operation of the createsuperuser management command" # We can use the management command to create a superuser new_io = StringIO() call_command( "createsuperuser", interactive=False, username="joe", email="joe@somewhere.org", stdout=new_io ) command_output = new_io.getvalue().strip() self.assertEqual(command_output, 'Superuser created successfully.') u = User.objects.get(username="joe") self.assertEqual(u.email, 'joe@somewhere.org') # created password should be unusable self.assertFalse(u.has_usable_password()) def test_non_ascii_verbose_name(self): @mock_inputs({ 'password': "nopasswd", "Uživatel (leave blank to use '%s'): " % get_default_username(): 'foo', # username (cz) 'email': 'nolocale@somewhere.org', }) def test(self): username_field = User._meta.get_field('username') old_verbose_name = username_field.verbose_name username_field.verbose_name = _('u\u017eivatel') new_io = StringIO() try: call_command( "createsuperuser", interactive=True, stdout=new_io, stdin=MockTTY(), ) finally: username_field.verbose_name = old_verbose_name command_output = new_io.getvalue().strip() self.assertEqual(command_output, 'Superuser created successfully.') test(self) def test_verbosity_zero(self): # We can suppress output on the management command new_io = StringIO() call_command( "createsuperuser", interactive=False, username="joe2", email="joe2@somewhere.org", verbosity=0, stdout=new_io ) command_output = new_io.getvalue().strip() self.assertEqual(command_output, '') u = User.objects.get(username="joe2") self.assertEqual(u.email, 'joe2@somewhere.org') self.assertFalse(u.has_usable_password()) def test_email_in_username(self): new_io = StringIO() call_command( "createsuperuser", interactive=False, username="joe+admin@somewhere.org", email="joe@somewhere.org", stdout=new_io ) u = User._default_manager.get(username="joe+admin@somewhere.org") self.assertEqual(u.email, 'joe@somewhere.org') self.assertFalse(u.has_usable_password()) @override_settings(AUTH_USER_MODEL='auth_tests.CustomUser') def test_swappable_user(self): "A superuser can be created when a custom user model is in use" # We can use the management command to create a superuser # We skip validation because the temporary substitution of the # swappable User model messes with validation. new_io = StringIO() call_command( "createsuperuser", interactive=False, email="joe@somewhere.org", date_of_birth="1976-04-01", first_name='Joe', stdout=new_io, ) command_output = new_io.getvalue().strip() self.assertEqual(command_output, 'Superuser created successfully.') u = CustomUser._default_manager.get(email="joe@somewhere.org") self.assertEqual(u.date_of_birth, date(1976, 4, 1)) # created password should be unusable self.assertFalse(u.has_usable_password()) @override_settings(AUTH_USER_MODEL='auth_tests.CustomUser') def test_swappable_user_missing_required_field(self): "A Custom superuser won't be created when a required field isn't provided" # We can use the management command to create a superuser # We skip validation because the temporary substitution of the # swappable User model messes with validation. new_io = StringIO() with self.assertRaisesMessage(CommandError, 'You must use --email with --noinput.'): call_command( "createsuperuser", interactive=False, stdout=new_io, stderr=new_io, ) self.assertEqual(CustomUser._default_manager.count(), 0) @override_settings( AUTH_USER_MODEL='auth_tests.CustomUserNonUniqueUsername', AUTHENTICATION_BACKENDS=['my.custom.backend'], ) def test_swappable_user_username_non_unique(self): @mock_inputs({ 'username': 'joe', 'password': 'nopasswd', }) def createsuperuser(): new_io = StringIO() call_command( "createsuperuser", interactive=True, email="joe@somewhere.org", stdout=new_io, stdin=MockTTY(), ) command_output = new_io.getvalue().strip() self.assertEqual(command_output, 'Superuser created successfully.') for i in range(2): createsuperuser() users = CustomUserNonUniqueUsername.objects.filter(username="joe") self.assertEqual(users.count(), 2) def test_skip_if_not_in_TTY(self): """ If the command is not called from a TTY, it should be skipped and a message should be displayed (#7423). """ class FakeStdin: """A fake stdin object that has isatty() return False.""" def isatty(self): return False out = StringIO() call_command( "createsuperuser", stdin=FakeStdin(), stdout=out, interactive=True, ) self.assertEqual(User._default_manager.count(), 0) self.assertIn("Superuser creation skipped", out.getvalue()) def test_passing_stdin(self): """ You can pass a stdin object as an option and it should be available on self.stdin. If no such option is passed, it defaults to sys.stdin. """ sentinel = object() command = createsuperuser.Command() call_command( command, stdin=sentinel, stdout=StringIO(), stderr=StringIO(), interactive=False, verbosity=0, username='janet', email='janet@example.com', ) self.assertIs(command.stdin, sentinel) command = createsuperuser.Command() call_command( command, stdout=StringIO(), stderr=StringIO(), interactive=False, verbosity=0, username='joe', email='joe@example.com', ) self.assertIs(command.stdin, sys.stdin) @override_settings(AUTH_USER_MODEL='auth_tests.CustomUserWithFK') def test_fields_with_fk(self): new_io = StringIO() group = Group.objects.create(name='mygroup') email = Email.objects.create(email='mymail@gmail.com') call_command( 'createsuperuser', interactive=False, username=email.pk, email=email.email, group=group.pk, stdout=new_io, ) command_output = new_io.getvalue().strip() self.assertEqual(command_output, 'Superuser created successfully.') u = CustomUserWithFK._default_manager.get(email=email) self.assertEqual(u.username, email) self.assertEqual(u.group, group) non_existent_email = 'mymail2@gmail.com' msg = 'email instance with email %r does not exist.' % non_existent_email with self.assertRaisesMessage(CommandError, msg): call_command( 'createsuperuser', interactive=False, username=email.pk, email=non_existent_email, stdout=new_io, ) @override_settings(AUTH_USER_MODEL='auth_tests.CustomUserWithFK') def test_fields_with_fk_interactive(self): new_io = StringIO() group = Group.objects.create(name='mygroup') email = Email.objects.create(email='mymail@gmail.com') @mock_inputs({ 'password': 'nopasswd', 'Username (Email.id): ': email.pk, 'Email (Email.email): ': email.email, 'Group (Group.id): ': group.pk, }) def test(self): call_command( 'createsuperuser', interactive=True, stdout=new_io, stdin=MockTTY(), ) command_output = new_io.getvalue().strip() self.assertEqual(command_output, 'Superuser created successfully.') u = CustomUserWithFK._default_manager.get(email=email) self.assertEqual(u.username, email) self.assertEqual(u.group, group) test(self) def test_default_username(self): """createsuperuser uses a default username when one isn't provided.""" # Get the default username before creating a user. default_username = get_default_username() new_io = StringIO() entered_passwords = ['password', 'password'] def return_passwords(): return entered_passwords.pop(0) @mock_inputs({'password': return_passwords, 'username': '', 'email': ''}) def test(self): call_command( 'createsuperuser', interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual(new_io.getvalue().strip(), 'Superuser created successfully.') self.assertTrue(User.objects.filter(username=default_username).exists()) test(self) def test_password_validation(self): """ Creation should fail if the password fails validation. """ new_io = StringIO() entered_passwords = ['1234567890', '1234567890', 'password', 'password'] def bad_then_good_password(): return entered_passwords.pop(0) @mock_inputs({ 'password': bad_then_good_password, 'username': 'joe1234567890', 'email': '', 'bypass': 'n', }) def test(self): call_command( "createsuperuser", interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual( new_io.getvalue().strip(), "This password is entirely numeric.\n" "Superuser created successfully." ) test(self) @override_settings(AUTH_PASSWORD_VALIDATORS=[ {'NAME': 'django.contrib.auth.password_validation.UserAttributeSimilarityValidator'}, ]) def test_validate_password_against_username(self): new_io = StringIO() username = 'supremelycomplex' entered_passwords = [username, username, 'superduperunguessablepassword', 'superduperunguessablepassword'] def bad_then_good_password(): return entered_passwords.pop(0) @mock_inputs({ 'password': bad_then_good_password, 'username': username, 'email': '', 'bypass': 'n', }) def test(self): call_command( 'createsuperuser', interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual( new_io.getvalue().strip(), 'The password is too similar to the username.\n' 'Superuser created successfully.' ) test(self) @override_settings( AUTH_USER_MODEL='auth_tests.CustomUser', AUTH_PASSWORD_VALIDATORS=[ {'NAME': 'django.contrib.auth.password_validation.UserAttributeSimilarityValidator'}, ] ) def test_validate_password_against_required_fields(self): new_io = StringIO() first_name = 'josephine' entered_passwords = [first_name, first_name, 'superduperunguessablepassword', 'superduperunguessablepassword'] def bad_then_good_password(): return entered_passwords.pop(0) @mock_inputs({ 'password': bad_then_good_password, 'username': 'whatever', 'first_name': first_name, 'date_of_birth': '1970-01-01', 'email': 'joey@example.com', 'bypass': 'n', }) def test(self): call_command( 'createsuperuser', interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual( new_io.getvalue().strip(), "The password is too similar to the first name.\n" "Superuser created successfully." ) test(self) def test_blank_username(self): """Creation fails if --username is blank.""" new_io = StringIO() def test(self): with self.assertRaisesMessage(CommandError, 'Username cannot be blank.'): call_command( 'createsuperuser', username='', stdin=MockTTY(), stdout=new_io, stderr=new_io, ) test(self) def test_blank_username_non_interactive(self): new_io = StringIO() def test(self): with self.assertRaisesMessage(CommandError, 'Username cannot be blank.'): call_command( 'createsuperuser', username='', interactive=False, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) test(self) def test_password_validation_bypass(self): """ Password validation can be bypassed by entering 'y' at the prompt. """ new_io = StringIO() @mock_inputs({ 'password': '1234567890', 'username': 'joe1234567890', 'email': '', 'bypass': 'y', }) def test(self): call_command( 'createsuperuser', interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual( new_io.getvalue().strip(), 'This password is entirely numeric.\n' 'Superuser created successfully.' ) test(self) def test_invalid_username(self): """Creation fails if the username fails validation.""" user_field = User._meta.get_field(User.USERNAME_FIELD) new_io = StringIO() entered_passwords = ['password', 'password'] # Enter an invalid (too long) username first and then a valid one. invalid_username = ('x' * user_field.max_length) + 'y' entered_usernames = [invalid_username, 'janet'] def return_passwords(): return entered_passwords.pop(0) def return_usernames(): return entered_usernames.pop(0) @mock_inputs({'password': return_passwords, 'username': return_usernames, 'email': ''}) def test(self): call_command( 'createsuperuser', interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual( new_io.getvalue().strip(), 'Error: Ensure this value has at most %s characters (it has %s).\n' 'Superuser created successfully.' % (user_field.max_length, len(invalid_username)) ) test(self) @mock_inputs({'username': 'KeyboardInterrupt'}) def test_keyboard_interrupt(self): new_io = StringIO() with self.assertRaises(SystemExit): call_command( 'createsuperuser', interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual(new_io.getvalue(), '\nOperation cancelled.\n') def test_existing_username(self): """Creation fails if the username already exists.""" user = User.objects.create(username='janet') new_io = StringIO() entered_passwords = ['password', 'password'] # Enter the existing username first and then a new one. entered_usernames = [user.username, 'joe'] def return_passwords(): return entered_passwords.pop(0) def return_usernames(): return entered_usernames.pop(0) @mock_inputs({'password': return_passwords, 'username': return_usernames, 'email': ''}) def test(self): call_command( 'createsuperuser', interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual( new_io.getvalue().strip(), 'Error: That username is already taken.\n' 'Superuser created successfully.' ) test(self) def test_existing_username_non_interactive(self): """Creation fails if the username already exists.""" User.objects.create(username='janet') new_io = StringIO() with self.assertRaisesMessage(CommandError, "Error: That username is already taken."): call_command( 'createsuperuser', username='janet', email='', interactive=False, stdout=new_io, ) def test_existing_username_provided_via_option_and_interactive(self): """call_command() gets username='janet' and interactive=True.""" new_io = StringIO() entered_passwords = ['password', 'password'] User.objects.create(username='janet') def return_passwords(): return entered_passwords.pop(0) @mock_inputs({ 'password': return_passwords, 'username': 'janet1', 'email': 'test@test.com' }) def test(self): call_command( 'createsuperuser', username='janet', interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) msg = 'Error: That username is already taken.\nSuperuser created successfully.' self.assertEqual(new_io.getvalue().strip(), msg) test(self) def test_validation_mismatched_passwords(self): """ Creation should fail if the user enters mismatched passwords. """ new_io = StringIO() # The first two passwords do not match, but the second two do match and # are valid. entered_passwords = ["password", "not password", "password2", "password2"] def mismatched_passwords_then_matched(): return entered_passwords.pop(0) @mock_inputs({ 'password': mismatched_passwords_then_matched, 'username': 'joe1234567890', 'email': '', }) def test(self): call_command( "createsuperuser", interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual( new_io.getvalue().strip(), "Error: Your passwords didn't match.\n" "Superuser created successfully." ) test(self) def test_validation_blank_password_entered(self): """ Creation should fail if the user enters blank passwords. """ new_io = StringIO() # The first two passwords are empty strings, but the second two are # valid. entered_passwords = ["", "", "password2", "password2"] def blank_passwords_then_valid(): return entered_passwords.pop(0) @mock_inputs({ 'password': blank_passwords_then_valid, 'username': 'joe1234567890', 'email': '', }) def test(self): call_command( "createsuperuser", interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual( new_io.getvalue().strip(), "Error: Blank passwords aren't allowed.\n" "Superuser created successfully." ) test(self) @override_settings(AUTH_USER_MODEL='auth_tests.NoPasswordUser') def test_usermodel_without_password(self): new_io = StringIO() def test(self): call_command( 'createsuperuser', interactive=False, stdin=MockTTY(), stdout=new_io, stderr=new_io, username='username', ) self.assertEqual(new_io.getvalue().strip(), 'Superuser created successfully.') test(self) @override_settings(AUTH_USER_MODEL='auth_tests.NoPasswordUser') def test_usermodel_without_password_interactive(self): new_io = StringIO() @mock_inputs({'username': 'username'}) def test(self): call_command( 'createsuperuser', interactive=True, stdin=MockTTY(), stdout=new_io, stderr=new_io, ) self.assertEqual(new_io.getvalue().strip(), 'Superuser created successfully.') test(self) class MultiDBCreatesuperuserTestCase(TestCase): databases = {'default', 'other'} def test_createsuperuser_command_with_database_option(self): """ changepassword --database should operate on the specified DB. """ new_io = StringIO() call_command( 'createsuperuser', interactive=False, username='joe', email='joe@somewhere.org', database='other', stdout=new_io, ) command_output = new_io.getvalue().strip() self.assertEqual(command_output, 'Superuser created successfully.') user = User.objects.using('other').get(username='joe') self.assertEqual(user.email, 'joe@somewhere.org') class CreatePermissionsTests(TestCase): def setUp(self): self._original_permissions = Permission._meta.permissions[:] self._original_default_permissions = Permission._meta.default_permissions self.app_config = apps.get_app_config('auth') def tearDown(self): Permission._meta.permissions = self._original_permissions Permission._meta.default_permissions = self._original_default_permissions ContentType.objects.clear_cache() def test_default_permissions(self): permission_content_type = ContentType.objects.get_by_natural_key('auth', 'permission') Permission._meta.permissions = [ ('my_custom_permission', 'Some permission'), ] create_permissions(self.app_config, verbosity=0) # view/add/change/delete permission by default + custom permission self.assertEqual(Permission.objects.filter( content_type=permission_content_type, ).count(), 5) Permission.objects.filter(content_type=permission_content_type).delete() Permission._meta.default_permissions = [] create_permissions(self.app_config, verbosity=0) # custom permission only since default permissions is empty self.assertEqual(Permission.objects.filter( content_type=permission_content_type, ).count(), 1) def test_unavailable_models(self): """ #24075 - Permissions shouldn't be created or deleted if the ContentType or Permission models aren't available. """ state = migrations.state.ProjectState() # Unavailable contenttypes.ContentType with self.assertNumQueries(0): create_permissions(self.app_config, verbosity=0, apps=state.apps) # Unavailable auth.Permission state = migrations.state.ProjectState(real_apps=['contenttypes']) with self.assertNumQueries(0): create_permissions(self.app_config, verbosity=0, apps=state.apps) def test_create_permissions_checks_contenttypes_created(self): """ `post_migrate` handler ordering isn't guaranteed. Simulate a case where create_permissions() is called before create_contenttypes(). """ # Warm the manager cache. ContentType.objects.get_for_model(Group) # Apply a deletion as if e.g. a database 'flush' had been executed. ContentType.objects.filter(app_label='auth', model='group').delete() # This fails with a foreign key constraint without the fix. create_permissions(apps.get_app_config('auth'), interactive=False, verbosity=0) def test_permission_with_proxy_content_type_created(self): """ A proxy model's permissions use its own content type rather than the content type of the concrete model. """ opts = UserProxy._meta codename = get_permission_codename('add', opts) self.assertTrue( Permission.objects.filter( content_type__model=opts.model_name, content_type__app_label=opts.app_label, codename=codename, ).exists() )