# -*- encoding: utf-8 -*- from __future__ import unicode_literals import locale from django.contrib.auth import get_user_model from django.contrib.auth.management.commands import createsuperuser from django.contrib.auth.models import User, AnonymousUser from django.contrib.auth.tests.custom_user import CustomUser from django.contrib.auth.tests.utils import skipIfCustomUser from django.core.exceptions import ImproperlyConfigured from django.core.management import call_command from django.test import TestCase from django.test.utils import override_settings from django.utils import translation from django.utils.encoding import force_str from django.utils.six import binary_type, PY3, StringIO 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 not PY3: # getpass on Windows only supports prompt as bytestring (#19807) assert isinstance(prompt, binary_type) return inputs['password'] def mock_input(prompt): # prompt should be encoded in Python 2. This line will raise an # Exception if prompt contains unencoded non-ascii on Python 2. prompt = str(prompt) assert str('__proxy__') not in prompt response = '' for key, val in inputs.items(): if force_str(key) in prompt.lower(): response = val break return response old_getpass = createsuperuser.getpass old_input = createsuperuser.input createsuperuser.getpass = mock_getpass createsuperuser.input = mock_input try: test_func(*args) finally: createsuperuser.getpass = old_getpass createsuperuser.input = old_input return wrapped return inner @skipIfCustomUser class BasicTestCase(TestCase): def test_user(self): "Check that users can be created and can set their password" u = User.objects.create_user('testuser', 'test@example.com', 'testpw') self.assertTrue(u.has_usable_password()) self.assertFalse(u.check_password('bad')) self.assertTrue(u.check_password('testpw')) # Check we can manually set an unusable password u.set_unusable_password() u.save() self.assertFalse(u.check_password('testpw')) self.assertFalse(u.has_usable_password()) u.set_password('testpw') self.assertTrue(u.check_password('testpw')) u.set_password(None) self.assertFalse(u.has_usable_password()) # Check authentication/permissions self.assertTrue(u.is_authenticated()) self.assertFalse(u.is_staff) self.assertTrue(u.is_active) self.assertFalse(u.is_superuser) # Check API-based user creation with no password u2 = User.objects.create_user('testuser2', 'test2@example.com') self.assertFalse(u2.has_usable_password()) def test_user_no_email(self): "Check that users can be created without an email" u = User.objects.create_user('testuser1') self.assertEqual(u.email, '') u2 = User.objects.create_user('testuser2', email='') self.assertEqual(u2.email, '') u3 = User.objects.create_user('testuser3', email=None) self.assertEqual(u3.email, '') def test_anonymous_user(self): "Check the properties of the anonymous user" a = AnonymousUser() self.assertEqual(a.pk, None) self.assertFalse(a.is_authenticated()) self.assertFalse(a.is_staff) self.assertFalse(a.is_active) self.assertFalse(a.is_superuser) self.assertEqual(a.groups.all().count(), 0) self.assertEqual(a.user_permissions.all().count(), 0) def test_superuser(self): "Check the creation and properties of a superuser" super = User.objects.create_superuser('super', 'super@example.com', 'super') self.assertTrue(super.is_superuser) self.assertTrue(super.is_active) self.assertTrue(super.is_staff) def test_createsuperuser_management_command(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()) # We can supress 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()) call_command("createsuperuser", interactive=False, username="joe+admin@somewhere.org", email="joe@somewhere.org", verbosity=0 ) u = User.objects.get(username="joe+admin@somewhere.org") self.assertEqual(u.email, 'joe@somewhere.org') self.assertFalse(u.has_usable_password()) @mock_inputs({'password': "nopasswd"}) def test_createsuperuser_nolocale(self): """ Check that createsuperuser does not break when no locale is set. See ticket #16017. """ old_getdefaultlocale = locale.getdefaultlocale try: # Temporarily remove locale information locale.getdefaultlocale = lambda: (None, None) # Call the command in this new environment call_command("createsuperuser", interactive=True, username="nolocale@somewhere.org", email="nolocale@somewhere.org", verbosity=0 ) except TypeError: self.fail("createsuperuser fails if the OS provides no information about the current locale") finally: # Re-apply locale information locale.getdefaultlocale = old_getdefaultlocale # If we were successful, a user should have been created u = User.objects.get(username="nolocale@somewhere.org") self.assertEqual(u.email, 'nolocale@somewhere.org') @mock_inputs({ 'password': "nopasswd", 'uživatel': 'foo', # username (cz) 'email': 'nolocale@somewhere.org'}) def test_createsuperuser_non_ascii_verbose_name(self): # Aliased so the string doesn't get extracted from django.utils.translation import ugettext_lazy as ulazy username_field = User._meta.get_field('username') old_verbose_name = username_field.verbose_name username_field.verbose_name = ulazy('uživatel') new_io = StringIO() try: call_command("createsuperuser", interactive=True, stdout=new_io ) finally: username_field.verbose_name = old_verbose_name command_output = new_io.getvalue().strip() self.assertEqual(command_output, 'Superuser created successfully.') def test_get_user_model(self): "The current user model can be retrieved" self.assertEqual(get_user_model(), User) @override_settings(AUTH_USER_MODEL='auth.CustomUser') def test_swappable_user(self): "The current user model can be swapped out for another" self.assertEqual(get_user_model(), CustomUser) with self.assertRaises(AttributeError): User.objects.all() @override_settings(AUTH_USER_MODEL='badsetting') def test_swappable_user_bad_setting(self): "The alternate user setting must point to something in the format app.model" with self.assertRaises(ImproperlyConfigured): get_user_model() @override_settings(AUTH_USER_MODEL='thismodel.doesntexist') def test_swappable_user_nonexistent_model(self): "The current user model must point to an installed model" with self.assertRaises(ImproperlyConfigured): get_user_model() @skipIfCustomUser def test_user_verbose_names_translatable(self): "Default User model verbose names are translatable (#19945)" with translation.override('en'): self.assertEqual(User._meta.verbose_name, 'user') self.assertEqual(User._meta.verbose_name_plural, 'users') with translation.override('es'): self.assertEqual(User._meta.verbose_name, 'usuario') self.assertEqual(User._meta.verbose_name_plural, 'usuarios')