============================= Django 1.6.11.3 release notes ============================= *March 1, 2016* Django 1.6.11.3 fixes one security issue. It corresponds to the Django 1.8.10 and 1.9.3 releases. CVE-2016-2512: Malicious redirect and possible XSS attack via user-supplied redirect URLs containing basic auth =============================================================================================================== Django relies on user input in some cases (e.g. ``django.contrib.auth.views.login`` and ``i18n`` to redirect the user to an "on success" URL. The security check for these redirects (namely ``django.utils.http.is_safe_url()``) considered some URLs with basic authentication credentials "safe" when they shouldn't be. For example, a URL like ``http://mysite.example.com\@attacker.com`` would be considered safe if the request's host is ``http://mysite.example.com``, but redirecting to this URL sends the user to ``attacker.com``. Also, if a developer relies on ``is_safe_url()`` to provide safe redirect targets and puts such a URL into a link, they could suffer from an XSS attack. CVE-2016-2513: User enumeration through timing difference on password hasher work factor upgrade ================================================================================================ In each major version of Django since 1.6, the default number of iterations for the ``PBKDF2PasswordHasher`` and its subclasses has increased. This improves the security of the password as the speed of hardware increases, however, it also creates a timing difference between a login request for a user with a password encoded in an older number of iterations and login request for a nonexistent user (which runs the default hasher's default number of iterations since Django 1.6). This only affects users who haven't logged in since the iterations were increased. The first time a user logs in after an iterations increase, their password is updated with the new iterations and there is no longer a timing difference. The new ``BasePasswordHasher.harden_runtime()`` method allows hashers to bridge the runtime gap between the work factor (e.g. iterations) supplied in existing encoded passwords and the default work factor of the hasher. This method is implemented for ``PBKDF2PasswordHasher`` and ``BCryptPasswordHasher``. The number of rounds for the latter hasher hasn't changed since Django 1.4, but some projects may subclass it and increase the work factor as needed. A warning will be emitted for any third-party password hashers that don't implement a ``harden_runtime()`` method. If you have different password hashes in your database (such as SHA1 hashes from users who haven't logged in since the default hasher switched to PBKDF2 in Django 1.4), the timing difference on a login request for these users may be even greater and this fix doesn't remedy that difference (or any difference when changing hashers). You may be able to upgrade those hashes to prevent a timing attack for that case.