from __future__ import unicode_literals import re from django import forms from django.contrib.auth.forms import ( AdminPasswordChangeForm, AuthenticationForm, PasswordChangeForm, PasswordResetForm, ReadOnlyPasswordHashField, ReadOnlyPasswordHashWidget, SetPasswordForm, UserChangeForm, UserCreationForm, ) from django.contrib.auth.models import User from django.contrib.sites.models import Site from django.core import mail from django.core.mail import EmailMultiAlternatives from django.forms.fields import CharField, Field from django.test import SimpleTestCase, TestCase, mock, override_settings from django.utils import translation from django.utils.encoding import force_text from django.utils.text import capfirst from django.utils.translation import ugettext as _ from .settings import AUTH_TEMPLATES class TestDataMixin(object): @classmethod def setUpTestData(cls): cls.u1 = User.objects.create_user(username='testclient', password='password', email='testclient@example.com') cls.u2 = User.objects.create_user(username='inactive', password='password', is_active=False) cls.u3 = User.objects.create_user(username='staff', password='password') cls.u4 = User.objects.create(username='empty_password', password='') cls.u5 = User.objects.create(username='unmanageable_password', password='$') cls.u6 = User.objects.create(username='unknown_password', password='foo$bar') class UserCreationFormTest(TestDataMixin, TestCase): def test_user_already_exists(self): data = { 'username': 'testclient', 'password1': 'test123', 'password2': 'test123', } form = UserCreationForm(data) self.assertFalse(form.is_valid()) self.assertEqual(form["username"].errors, [force_text(User._meta.get_field('username').error_messages['unique'])]) def test_invalid_data(self): data = { 'username': 'jsmith!', 'password1': 'test123', 'password2': 'test123', } form = UserCreationForm(data) self.assertFalse(form.is_valid()) validator = next(v for v in User._meta.get_field('username').validators if v.code == 'invalid') self.assertEqual(form["username"].errors, [force_text(validator.message)]) def test_password_verification(self): # The verification password is incorrect. data = { 'username': 'jsmith', 'password1': 'test123', 'password2': 'test', } form = UserCreationForm(data) self.assertFalse(form.is_valid()) self.assertEqual(form["password2"].errors, [force_text(form.error_messages['password_mismatch'])]) def test_both_passwords(self): # One (or both) passwords weren't given data = {'username': 'jsmith'} form = UserCreationForm(data) required_error = [force_text(Field.default_error_messages['required'])] self.assertFalse(form.is_valid()) self.assertEqual(form['password1'].errors, required_error) self.assertEqual(form['password2'].errors, required_error) data['password2'] = 'test123' form = UserCreationForm(data) self.assertFalse(form.is_valid()) self.assertEqual(form['password1'].errors, required_error) self.assertEqual(form['password2'].errors, []) @mock.patch('django.contrib.auth.password_validation.password_changed') def test_success(self, password_changed): # The success case. data = { 'username': 'jsmith@example.com', 'password1': 'test123', 'password2': 'test123', } form = UserCreationForm(data) self.assertTrue(form.is_valid()) form.save(commit=False) self.assertEqual(password_changed.call_count, 0) u = form.save() self.assertEqual(password_changed.call_count, 1) self.assertEqual(repr(u), '') @override_settings(AUTH_PASSWORD_VALIDATORS=[ {'NAME': 'django.contrib.auth.password_validation.UserAttributeSimilarityValidator'}, {'NAME': 'django.contrib.auth.password_validation.MinimumLengthValidator', 'OPTIONS': { 'min_length': 12, }}, ]) def test_validates_password(self): data = { 'username': 'testclient', 'password1': 'testclient', 'password2': 'testclient', } form = UserCreationForm(data) self.assertFalse(form.is_valid()) self.assertEqual(len(form['password2'].errors), 2) self.assertIn('The password is too similar to the username.', form['password2'].errors) self.assertIn( 'This password is too short. It must contain at least 12 characters.', form['password2'].errors ) class AuthenticationFormTest(TestDataMixin, TestCase): def test_invalid_username(self): # The user submits an invalid username. data = { 'username': 'jsmith_does_not_exist', 'password': 'test123', } form = AuthenticationForm(None, data) self.assertFalse(form.is_valid()) self.assertEqual(form.non_field_errors(), [force_text(form.error_messages['invalid_login'] % { 'username': User._meta.get_field('username').verbose_name })]) def test_inactive_user(self): # The user is inactive. data = { 'username': 'inactive', 'password': 'password', } form = AuthenticationForm(None, data) self.assertFalse(form.is_valid()) self.assertEqual(form.non_field_errors(), [force_text(form.error_messages['inactive'])]) def test_inactive_user_i18n(self): with self.settings(USE_I18N=True), translation.override('pt-br', deactivate=True): # The user is inactive. data = { 'username': 'inactive', 'password': 'password', } form = AuthenticationForm(None, data) self.assertFalse(form.is_valid()) self.assertEqual(form.non_field_errors(), [force_text(form.error_messages['inactive'])]) def test_custom_login_allowed_policy(self): # The user is inactive, but our custom form policy allows them to log in. data = { 'username': 'inactive', 'password': 'password', } class AuthenticationFormWithInactiveUsersOkay(AuthenticationForm): def confirm_login_allowed(self, user): pass form = AuthenticationFormWithInactiveUsersOkay(None, data) self.assertTrue(form.is_valid()) # If we want to disallow some logins according to custom logic, # we should raise a django.forms.ValidationError in the form. class PickyAuthenticationForm(AuthenticationForm): def confirm_login_allowed(self, user): if user.username == "inactive": raise forms.ValidationError("This user is disallowed.") raise forms.ValidationError("Sorry, nobody's allowed in.") form = PickyAuthenticationForm(None, data) self.assertFalse(form.is_valid()) self.assertEqual(form.non_field_errors(), ['This user is disallowed.']) data = { 'username': 'testclient', 'password': 'password', } form = PickyAuthenticationForm(None, data) self.assertFalse(form.is_valid()) self.assertEqual(form.non_field_errors(), ["Sorry, nobody's allowed in."]) def test_success(self): # The success case data = { 'username': 'testclient', 'password': 'password', } form = AuthenticationForm(None, data) self.assertTrue(form.is_valid()) self.assertEqual(form.non_field_errors(), []) def test_username_field_label(self): class CustomAuthenticationForm(AuthenticationForm): username = CharField(label="Name", max_length=75) form = CustomAuthenticationForm() self.assertEqual(form['username'].label, "Name") def test_username_field_label_not_set(self): class CustomAuthenticationForm(AuthenticationForm): username = CharField() form = CustomAuthenticationForm() username_field = User._meta.get_field(User.USERNAME_FIELD) self.assertEqual(form.fields['username'].label, capfirst(username_field.verbose_name)) def test_username_field_label_empty_string(self): class CustomAuthenticationForm(AuthenticationForm): username = CharField(label='') form = CustomAuthenticationForm() self.assertEqual(form.fields['username'].label, "") class SetPasswordFormTest(TestDataMixin, TestCase): def test_password_verification(self): # The two new passwords do not match. user = User.objects.get(username='testclient') data = { 'new_password1': 'abc123', 'new_password2': 'abc', } form = SetPasswordForm(user, data) self.assertFalse(form.is_valid()) self.assertEqual(form["new_password2"].errors, [force_text(form.error_messages['password_mismatch'])]) @mock.patch('django.contrib.auth.password_validation.password_changed') def test_success(self, password_changed): user = User.objects.get(username='testclient') data = { 'new_password1': 'abc123', 'new_password2': 'abc123', } form = SetPasswordForm(user, data) self.assertTrue(form.is_valid()) form.save(commit=False) self.assertEqual(password_changed.call_count, 0) form.save() self.assertEqual(password_changed.call_count, 1) @override_settings(AUTH_PASSWORD_VALIDATORS=[ {'NAME': 'django.contrib.auth.password_validation.UserAttributeSimilarityValidator'}, {'NAME': 'django.contrib.auth.password_validation.MinimumLengthValidator', 'OPTIONS': { 'min_length': 12, }}, ]) def test_validates_password(self): user = User.objects.get(username='testclient') data = { 'new_password1': 'testclient', 'new_password2': 'testclient', } form = SetPasswordForm(user, data) self.assertFalse(form.is_valid()) self.assertEqual(len(form["new_password2"].errors), 2) self.assertIn('The password is too similar to the username.', form["new_password2"].errors) self.assertIn( 'This password is too short. It must contain at least 12 characters.', form["new_password2"].errors ) class PasswordChangeFormTest(TestDataMixin, TestCase): def test_incorrect_password(self): user = User.objects.get(username='testclient') data = { 'old_password': 'test', 'new_password1': 'abc123', 'new_password2': 'abc123', } form = PasswordChangeForm(user, data) self.assertFalse(form.is_valid()) self.assertEqual(form["old_password"].errors, [force_text(form.error_messages['password_incorrect'])]) def test_password_verification(self): # The two new passwords do not match. user = User.objects.get(username='testclient') data = { 'old_password': 'password', 'new_password1': 'abc123', 'new_password2': 'abc', } form = PasswordChangeForm(user, data) self.assertFalse(form.is_valid()) self.assertEqual(form["new_password2"].errors, [force_text(form.error_messages['password_mismatch'])]) @mock.patch('django.contrib.auth.password_validation.password_changed') def test_success(self, password_changed): # The success case. user = User.objects.get(username='testclient') data = { 'old_password': 'password', 'new_password1': 'abc123', 'new_password2': 'abc123', } form = PasswordChangeForm(user, data) self.assertTrue(form.is_valid()) form.save(commit=False) self.assertEqual(password_changed.call_count, 0) form.save() self.assertEqual(password_changed.call_count, 1) def test_field_order(self): # Regression test - check the order of fields: user = User.objects.get(username='testclient') self.assertEqual(list(PasswordChangeForm(user, {}).fields), ['old_password', 'new_password1', 'new_password2']) class UserChangeFormTest(TestDataMixin, TestCase): def test_username_validity(self): user = User.objects.get(username='testclient') data = {'username': 'not valid'} form = UserChangeForm(data, instance=user) self.assertFalse(form.is_valid()) validator = next(v for v in User._meta.get_field('username').validators if v.code == 'invalid') self.assertEqual(form["username"].errors, [force_text(validator.message)]) def test_bug_14242(self): # A regression test, introduce by adding an optimization for the # UserChangeForm. class MyUserForm(UserChangeForm): def __init__(self, *args, **kwargs): super(MyUserForm, self).__init__(*args, **kwargs) self.fields['groups'].help_text = 'These groups give users different permissions' class Meta(UserChangeForm.Meta): fields = ('groups',) # Just check we can create it MyUserForm({}) def test_unusable_password(self): user = User.objects.get(username='empty_password') user.set_unusable_password() user.save() form = UserChangeForm(instance=user) self.assertIn(_("No password set."), form.as_table()) def test_bug_17944_empty_password(self): user = User.objects.get(username='empty_password') form = UserChangeForm(instance=user) self.assertIn(_("No password set."), form.as_table()) def test_bug_17944_unmanageable_password(self): user = User.objects.get(username='unmanageable_password') form = UserChangeForm(instance=user) self.assertIn(_("Invalid password format or unknown hashing algorithm."), form.as_table()) def test_bug_17944_unknown_password_algorithm(self): user = User.objects.get(username='unknown_password') form = UserChangeForm(instance=user) self.assertIn(_("Invalid password format or unknown hashing algorithm."), form.as_table()) def test_bug_19133(self): "The change form does not return the password value" # Use the form to construct the POST data user = User.objects.get(username='testclient') form_for_data = UserChangeForm(instance=user) post_data = form_for_data.initial # The password field should be readonly, so anything # posted here should be ignored; the form will be # valid, and give back the 'initial' value for the # password field. post_data['password'] = 'new password' form = UserChangeForm(instance=user, data=post_data) self.assertTrue(form.is_valid()) # original hashed password contains $ self.assertIn('$', form.cleaned_data['password']) def test_bug_19349_bound_password_field(self): user = User.objects.get(username='testclient') form = UserChangeForm(data={}, instance=user) # When rendering the bound password field, # ReadOnlyPasswordHashWidget needs the initial # value to render correctly self.assertEqual(form.initial['password'], form['password'].value()) @override_settings(TEMPLATES=AUTH_TEMPLATES) class PasswordResetFormTest(TestDataMixin, TestCase): @classmethod def setUpClass(cls): super(PasswordResetFormTest, cls).setUpClass() # This cleanup is necessary because contrib.sites cache # makes tests interfere with each other, see #11505 Site.objects.clear_cache() def create_dummy_user(self): """ Create a user and return a tuple (user_object, username, email). """ username = 'jsmith' email = 'jsmith@example.com' user = User.objects.create_user(username, email, 'test123') return (user, username, email) def test_invalid_email(self): data = {'email': 'not valid'} form = PasswordResetForm(data) self.assertFalse(form.is_valid()) self.assertEqual(form['email'].errors, [_('Enter a valid email address.')]) def test_nonexistent_email(self): """ Test nonexistent email address. This should not fail because it would expose information about registered users. """ data = {'email': 'foo@bar.com'} form = PasswordResetForm(data) self.assertTrue(form.is_valid()) self.assertEqual(len(mail.outbox), 0) def test_cleaned_data(self): (user, username, email) = self.create_dummy_user() data = {'email': email} form = PasswordResetForm(data) self.assertTrue(form.is_valid()) form.save(domain_override='example.com') self.assertEqual(form.cleaned_data['email'], email) self.assertEqual(len(mail.outbox), 1) def test_custom_email_subject(self): data = {'email': 'testclient@example.com'} form = PasswordResetForm(data) self.assertTrue(form.is_valid()) # Since we're not providing a request object, we must provide a # domain_override to prevent the save operation from failing in the # potential case where contrib.sites is not installed. Refs #16412. form.save(domain_override='example.com') self.assertEqual(len(mail.outbox), 1) self.assertEqual(mail.outbox[0].subject, 'Custom password reset on example.com') def test_custom_email_constructor(self): data = {'email': 'testclient@example.com'} class CustomEmailPasswordResetForm(PasswordResetForm): def send_mail(self, subject_template_name, email_template_name, context, from_email, to_email, html_email_template_name=None): EmailMultiAlternatives( "Forgot your password?", "Sorry to hear you forgot your password.", None, [to_email], ['site_monitor@example.com'], headers={'Reply-To': 'webmaster@example.com'}, alternatives=[("Really sorry to hear you forgot your password.", "text/html")]).send() form = CustomEmailPasswordResetForm(data) self.assertTrue(form.is_valid()) # Since we're not providing a request object, we must provide a # domain_override to prevent the save operation from failing in the # potential case where contrib.sites is not installed. Refs #16412. form.save(domain_override='example.com') self.assertEqual(len(mail.outbox), 1) self.assertEqual(mail.outbox[0].subject, 'Forgot your password?') self.assertEqual(mail.outbox[0].bcc, ['site_monitor@example.com']) self.assertEqual(mail.outbox[0].content_subtype, "plain") def test_preserve_username_case(self): """ Preserve the case of the user name (before the @ in the email address) when creating a user (#5605). """ user = User.objects.create_user('forms_test2', 'tesT@EXAMple.com', 'test') self.assertEqual(user.email, 'tesT@example.com') user = User.objects.create_user('forms_test3', 'tesT', 'test') self.assertEqual(user.email, 'tesT') def test_inactive_user(self): """ Test that inactive user cannot receive password reset email. """ (user, username, email) = self.create_dummy_user() user.is_active = False user.save() form = PasswordResetForm({'email': email}) self.assertTrue(form.is_valid()) form.save() self.assertEqual(len(mail.outbox), 0) def test_unusable_password(self): user = User.objects.create_user('testuser', 'test@example.com', 'test') data = {"email": "test@example.com"} form = PasswordResetForm(data) self.assertTrue(form.is_valid()) user.set_unusable_password() user.save() form = PasswordResetForm(data) # The form itself is valid, but no email is sent self.assertTrue(form.is_valid()) form.save() self.assertEqual(len(mail.outbox), 0) def test_save_plaintext_email(self): """ Test the PasswordResetForm.save() method with no html_email_template_name parameter passed in. Test to ensure original behavior is unchanged after the parameter was added. """ (user, username, email) = self.create_dummy_user() form = PasswordResetForm({"email": email}) self.assertTrue(form.is_valid()) form.save() self.assertEqual(len(mail.outbox), 1) message = mail.outbox[0].message() self.assertFalse(message.is_multipart()) self.assertEqual(message.get_content_type(), 'text/plain') self.assertEqual(message.get('subject'), 'Custom password reset on example.com') self.assertEqual(len(mail.outbox[0].alternatives), 0) self.assertEqual(message.get_all('to'), [email]) self.assertTrue(re.match(r'^http://example.com/reset/[\w+/-]', message.get_payload())) def test_save_html_email_template_name(self): """ Test the PasswordResetFOrm.save() method with html_email_template_name parameter specified. Test to ensure that a multipart email is sent with both text/plain and text/html parts. """ (user, username, email) = self.create_dummy_user() form = PasswordResetForm({"email": email}) self.assertTrue(form.is_valid()) form.save(html_email_template_name='registration/html_password_reset_email.html') self.assertEqual(len(mail.outbox), 1) self.assertEqual(len(mail.outbox[0].alternatives), 1) message = mail.outbox[0].message() self.assertEqual(message.get('subject'), 'Custom password reset on example.com') self.assertEqual(len(message.get_payload()), 2) self.assertTrue(message.is_multipart()) self.assertEqual(message.get_payload(0).get_content_type(), 'text/plain') self.assertEqual(message.get_payload(1).get_content_type(), 'text/html') self.assertEqual(message.get_all('to'), [email]) self.assertTrue(re.match(r'^http://example.com/reset/[\w/-]+', message.get_payload(0).get_payload())) self.assertTrue( re.match(r'^Link$', message.get_payload(1).get_payload()) ) class ReadOnlyPasswordHashTest(SimpleTestCase): def test_bug_19349_render_with_none_value(self): # Rendering the widget with value set to None # mustn't raise an exception. widget = ReadOnlyPasswordHashWidget() html = widget.render(name='password', value=None, attrs={}) self.assertIn(_("No password set."), html) def test_readonly_field_has_changed(self): field = ReadOnlyPasswordHashField() self.assertFalse(field.has_changed('aaa', 'bbb')) class AdminPasswordChangeFormTest(TestDataMixin, TestCase): @mock.patch('django.contrib.auth.password_validation.password_changed') def test_success(self, password_changed): user = User.objects.get(username='testclient') data = { 'password1': 'test123', 'password2': 'test123', } form = AdminPasswordChangeForm(user, data) self.assertTrue(form.is_valid()) form.save(commit=False) self.assertEqual(password_changed.call_count, 0) form.save() self.assertEqual(password_changed.call_count, 1)