from datetime import datetime, timedelta from django.conf import settings from django.contrib.auth.models import User from django.contrib.auth.tokens import PasswordResetTokenGenerator from django.test import TestCase class MockedPasswordResetTokenGenerator(PasswordResetTokenGenerator): def __init__(self, now): self._now_val = now def _now(self): return self._now_val class TokenGeneratorTest(TestCase): def test_make_token(self): user = User.objects.create_user('tokentestuser', 'test2@example.com', 'testpw') p0 = PasswordResetTokenGenerator() tk1 = p0.make_token(user) self.assertIs(p0.check_token(user, tk1), True) def test_10265(self): """ The token generated for a user created in the same request will work correctly. """ user = User.objects.create_user('comebackkid', 'test3@example.com', 'testpw') user_reload = User.objects.get(username='comebackkid') p0 = MockedPasswordResetTokenGenerator(datetime.now()) tk1 = p0.make_token(user) tk2 = p0.make_token(user_reload) self.assertEqual(tk1, tk2) def test_timeout(self): """The token is valid after n seconds, but no greater.""" # Uses a mocked version of PasswordResetTokenGenerator so we can change # the value of 'now'. user = User.objects.create_user('tokentestuser', 'test2@example.com', 'testpw') p0 = PasswordResetTokenGenerator() tk1 = p0.make_token(user) p1 = MockedPasswordResetTokenGenerator( datetime.now() + timedelta(seconds=settings.PASSWORD_RESET_TIMEOUT) ) self.assertIs(p1.check_token(user, tk1), True) p2 = MockedPasswordResetTokenGenerator( datetime.now() + timedelta(seconds=(settings.PASSWORD_RESET_TIMEOUT + 1)) ) self.assertIs(p2.check_token(user, tk1), False) with self.settings(PASSWORD_RESET_TIMEOUT=60 * 60): p3 = MockedPasswordResetTokenGenerator( datetime.now() + timedelta(seconds=settings.PASSWORD_RESET_TIMEOUT) ) self.assertIs(p3.check_token(user, tk1), True) p4 = MockedPasswordResetTokenGenerator( datetime.now() + timedelta(seconds=(settings.PASSWORD_RESET_TIMEOUT + 1)) ) self.assertIs(p4.check_token(user, tk1), False) def test_check_token_with_nonexistent_token_and_user(self): user = User.objects.create_user('tokentestuser', 'test2@example.com', 'testpw') p0 = PasswordResetTokenGenerator() tk1 = p0.make_token(user) self.assertIs(p0.check_token(None, tk1), False) self.assertIs(p0.check_token(user, None), False) def test_token_with_different_secret(self): """ A valid token can be created with a secret other than SECRET_KEY by using the PasswordResetTokenGenerator.secret attribute. """ user = User.objects.create_user('tokentestuser', 'test2@example.com', 'testpw') new_secret = 'abcdefghijkl' # Create and check a token with a different secret. p0 = PasswordResetTokenGenerator() p0.secret = new_secret tk0 = p0.make_token(user) self.assertIs(p0.check_token(user, tk0), True) # Create and check a token with the default secret. p1 = PasswordResetTokenGenerator() self.assertEqual(p1.secret, settings.SECRET_KEY) self.assertNotEqual(p1.secret, new_secret) tk1 = p1.make_token(user) # Tokens created with a different secret don't validate. self.assertIs(p0.check_token(user, tk1), False) self.assertIs(p1.check_token(user, tk0), False) def test_legacy_token_validation(self): # RemovedInDjango40Warning: pre-Django 3.1 tokens will be invalid. user = User.objects.create_user('tokentestuser', 'test2@example.com', 'testpw') p_old_generator = PasswordResetTokenGenerator() p_old_generator.algorithm = 'sha1' p_new_generator = PasswordResetTokenGenerator() legacy_token = p_old_generator.make_token(user) self.assertIs(p_old_generator.check_token(user, legacy_token), True) self.assertIs(p_new_generator.check_token(user, legacy_token), True)