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311 lines
14 KiB
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==================
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Security in Django
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==================
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This document is an overview of Django's security features. It includes advice
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on securing a Django-powered site.
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.. _cross-site-scripting:
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Cross site scripting (XSS) protection
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=====================================
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.. highlight:: html+django
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XSS attacks allow a user to inject client side scripts into the browsers of
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other users. This is usually achieved by storing the malicious scripts in the
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database where it will be retrieved and displayed to other users, or by getting
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users to click a link which will cause the attacker's JavaScript to be executed
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by the user's browser. However, XSS attacks can originate from any untrusted
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source of data, such as cookies or web services, whenever the data is not
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sufficiently sanitized before including in a page.
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Using Django templates protects you against the majority of XSS attacks.
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However, it is important to understand what protections it provides
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and its limitations.
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Django templates :ref:`escape specific characters <automatic-html-escaping>`
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which are particularly dangerous to HTML. While this protects users from most
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malicious input, it is not entirely foolproof. For example, it will not
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protect the following:
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.. code-block:: text
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<style class={{ var }}>...</style>
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.. highlighting as html+django fails due to intentionally missing quotes.
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If ``var`` is set to ``'class1 onmouseover=javascript:func()'``, this can result
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in unauthorized JavaScript execution, depending on how the browser renders
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imperfect HTML. (Quoting the attribute value would fix this case.)
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It is also important to be particularly careful when using ``is_safe`` with
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custom template tags, the :tfilter:`safe` template tag, :mod:`mark_safe
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<django.utils.safestring>`, and when autoescape is turned off.
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In addition, if you are using the template system to output something other
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than HTML, there may be entirely separate characters and words which require
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escaping.
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You should also be very careful when storing HTML in the database, especially
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when that HTML is retrieved and displayed.
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Cross site request forgery (CSRF) protection
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============================================
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CSRF attacks allow a malicious user to execute actions using the credentials
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of another user without that user's knowledge or consent.
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Django has built-in protection against most types of CSRF attacks, providing you
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have :ref:`enabled and used it <using-csrf>` where appropriate. However, as with
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any mitigation technique, there are limitations. For example, it is possible to
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disable the CSRF module globally or for particular views. You should only do
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this if you know what you are doing. There are other :ref:`limitations
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<csrf-limitations>` if your site has subdomains that are outside of your
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control.
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:ref:`CSRF protection works <how-csrf-works>` by checking for a secret in each
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POST request. This ensures that a malicious user cannot "replay" a form POST to
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your website and have another logged in user unwittingly submit that form. The
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malicious user would have to know the secret, which is user specific (using a
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cookie).
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When deployed with :ref:`HTTPS <security-recommendation-ssl>`,
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``CsrfViewMiddleware`` will check that the HTTP referer header is set to a
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URL on the same origin (including subdomain and port). Because HTTPS
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provides additional security, it is imperative to ensure connections use HTTPS
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where it is available by forwarding insecure connection requests and using
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HSTS for supported browsers.
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Be very careful with marking views with the ``csrf_exempt`` decorator unless
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it is absolutely necessary.
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.. _sql-injection-protection:
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SQL injection protection
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========================
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SQL injection is a type of attack where a malicious user is able to execute
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arbitrary SQL code on a database. This can result in records
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being deleted or data leakage.
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Django's querysets are protected from SQL injection since their queries are
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constructed using query parameterization. A query's SQL code is defined
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separately from the query's parameters. Since parameters may be user-provided
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and therefore unsafe, they are escaped by the underlying database driver.
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Django also gives developers power to write :ref:`raw queries
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<executing-raw-queries>` or execute :ref:`custom sql <executing-custom-sql>`.
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These capabilities should be used sparingly and you should always be careful to
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properly escape any parameters that the user can control. In addition, you
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should exercise caution when using :meth:`~django.db.models.query.QuerySet.extra`
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and :class:`~django.db.models.expressions.RawSQL`.
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Clickjacking protection
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=======================
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Clickjacking is a type of attack where a malicious site wraps another site
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in a frame. This attack can result in an unsuspecting user being tricked
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into performing unintended actions on the target site.
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Django contains :ref:`clickjacking protection <clickjacking-prevention>` in
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the form of the
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:mod:`X-Frame-Options middleware <django.middleware.clickjacking.XFrameOptionsMiddleware>`
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which in a supporting browser can prevent a site from being rendered inside
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a frame. It is possible to disable the protection on a per view basis
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or to configure the exact header value sent.
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The middleware is strongly recommended for any site that does not need to have
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its pages wrapped in a frame by third party sites, or only needs to allow that
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for a small section of the site.
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.. _security-recommendation-ssl:
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SSL/HTTPS
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=========
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It is always better for security to deploy your site behind HTTPS. Without
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this, it is possible for malicious network users to sniff authentication
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credentials or any other information transferred between client and server, and
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in some cases -- **active** network attackers -- to alter data that is sent in
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either direction.
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If you want the protection that HTTPS provides, and have enabled it on your
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server, there are some additional steps you may need:
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* If necessary, set :setting:`SECURE_PROXY_SSL_HEADER`, ensuring that you have
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understood the warnings there thoroughly. Failure to do this can result
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in CSRF vulnerabilities, and failure to do it correctly can also be
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dangerous!
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* Set :setting:`SECURE_SSL_REDIRECT` to ``True``, so that requests over HTTP
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are redirected to HTTPS.
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Please note the caveats under :setting:`SECURE_PROXY_SSL_HEADER`. For the
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case of a reverse proxy, it may be easier or more secure to configure the
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main web server to do the redirect to HTTPS.
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* Use 'secure' cookies.
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If a browser connects initially via HTTP, which is the default for most
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browsers, it is possible for existing cookies to be leaked. For this reason,
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you should set your :setting:`SESSION_COOKIE_SECURE` and
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:setting:`CSRF_COOKIE_SECURE` settings to ``True``. This instructs the browser
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to only send these cookies over HTTPS connections. Note that this will mean
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that sessions will not work over HTTP, and the CSRF protection will prevent
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any POST data being accepted over HTTP (which will be fine if you are
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redirecting all HTTP traffic to HTTPS).
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* Use :ref:`http-strict-transport-security` (HSTS)
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HSTS is an HTTP header that informs a browser that all future connections
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to a particular site should always use HTTPS. Combined with redirecting
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requests over HTTP to HTTPS, this will ensure that connections always enjoy
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the added security of SSL provided one successful connection has occurred.
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HSTS may either be configured with :setting:`SECURE_HSTS_SECONDS`,
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:setting:`SECURE_HSTS_INCLUDE_SUBDOMAINS`, and :setting:`SECURE_HSTS_PRELOAD`,
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or on the web server.
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.. _host-headers-virtual-hosting:
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Host header validation
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======================
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Django uses the ``Host`` header provided by the client to construct URLs in
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certain cases. While these values are sanitized to prevent Cross Site Scripting
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attacks, a fake ``Host`` value can be used for Cross-Site Request Forgery,
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cache poisoning attacks, and poisoning links in emails.
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Because even seemingly-secure web server configurations are susceptible to fake
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``Host`` headers, Django validates ``Host`` headers against the
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:setting:`ALLOWED_HOSTS` setting in the
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:meth:`django.http.HttpRequest.get_host()` method.
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This validation only applies via :meth:`~django.http.HttpRequest.get_host()`;
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if your code accesses the ``Host`` header directly from ``request.META`` you
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are bypassing this security protection.
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For more details see the full :setting:`ALLOWED_HOSTS` documentation.
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.. warning::
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Previous versions of this document recommended configuring your web server to
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ensure it validates incoming HTTP ``Host`` headers. While this is still
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recommended, in many common web servers a configuration that seems to
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validate the ``Host`` header may not in fact do so. For instance, even if
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Apache is configured such that your Django site is served from a non-default
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virtual host with the ``ServerName`` set, it is still possible for an HTTP
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request to match this virtual host and supply a fake ``Host`` header. Thus,
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Django now requires that you set :setting:`ALLOWED_HOSTS` explicitly rather
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than relying on web server configuration.
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Additionally, Django requires you to explicitly enable support for the
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``X-Forwarded-Host`` header (via the :setting:`USE_X_FORWARDED_HOST` setting)
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if your configuration requires it.
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Referrer policy
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===============
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Browsers use the ``Referer`` header as a way to send information to a site
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about how users got there. By setting a *Referrer Policy* you can help to
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protect the privacy of your users, restricting under which circumstances the
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``Referer`` header is set. See :ref:`the referrer policy section of the
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security middleware reference <referrer-policy>` for details.
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Cross-origin opener policy
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==========================
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The cross-origin opener policy (COOP) header allows browsers to isolate a
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top-level window from other documents by putting them in a different context
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group so that they cannot directly interact with the top-level window. If a
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document protected by COOP opens a cross-origin popup window, the popup’s
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``window.opener`` property will be ``null``. COOP protects against cross-origin
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attacks. See :ref:`the cross-origin opener policy section of the security
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middleware reference <cross-origin-opener-policy>` for details.
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Session security
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================
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Similar to the :ref:`CSRF limitations <csrf-limitations>` requiring a site to
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be deployed such that untrusted users don't have access to any subdomains,
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:mod:`django.contrib.sessions` also has limitations. See :ref:`the session
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topic guide section on security <topics-session-security>` for details.
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.. _user-uploaded-content-security:
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User-uploaded content
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=====================
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.. note::
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Consider :ref:`serving static files from a cloud service or CDN
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<staticfiles-from-cdn>` to avoid some of these issues.
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* If your site accepts file uploads, it is strongly advised that you limit
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these uploads in your web server configuration to a reasonable
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size in order to prevent denial of service (DOS) attacks. In Apache, this
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can be easily set using the LimitRequestBody_ directive.
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* If you are serving your own static files, be sure that handlers like Apache's
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``mod_php``, which would execute static files as code, are disabled. You don't
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want users to be able to execute arbitrary code by uploading and requesting a
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specially crafted file.
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* Django's media upload handling poses some vulnerabilities when that media is
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served in ways that do not follow security best practices. Specifically, an
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HTML file can be uploaded as an image if that file contains a valid PNG
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header followed by malicious HTML. This file will pass verification of the
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library that Django uses for :class:`~django.db.models.ImageField` image
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processing (Pillow). When this file is subsequently displayed to a
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user, it may be displayed as HTML depending on the type and configuration of
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your web server.
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No bulletproof technical solution exists at the framework level to safely
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validate all user uploaded file content, however, there are some other steps
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you can take to mitigate these attacks:
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#. One class of attacks can be prevented by always serving user uploaded
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content from a distinct top-level or second-level domain. This prevents
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any exploit blocked by `same-origin policy`_ protections such as cross
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site scripting. For example, if your site runs on ``example.com``, you
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would want to serve uploaded content (the :setting:`MEDIA_URL` setting)
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from something like ``usercontent-example.com``. It's *not* sufficient to
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serve content from a subdomain like ``usercontent.example.com``.
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#. Beyond this, applications may choose to define a list of allowable
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file extensions for user uploaded files and configure the web server
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to only serve such files.
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.. _same-origin policy: https://en.wikipedia.org/wiki/Same-origin_policy
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.. _additional-security-topics:
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Additional security topics
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==========================
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While Django provides good security protection out of the box, it is still
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important to properly deploy your application and take advantage of the
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security protection of the web server, operating system and other components.
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* Make sure that your Python code is outside of the web server's root. This
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will ensure that your Python code is not accidentally served as plain text
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(or accidentally executed).
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* Take care with any :ref:`user uploaded files <file-upload-security>`.
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* Django does not throttle requests to authenticate users. To protect against
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brute-force attacks against the authentication system, you may consider
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deploying a Django plugin or web server module to throttle these requests.
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* Keep your :setting:`SECRET_KEY`, and :setting:`SECRET_KEY_FALLBACKS` if in
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use, secret.
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* It is a good idea to limit the accessibility of your caching system and
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database using a firewall.
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* Take a look at the Open Web Application Security Project (OWASP) `Top 10
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list`_ which identifies some common vulnerabilities in web applications. While
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Django has tools to address some of the issues, other issues must be
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accounted for in the design of your project.
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* Mozilla discusses various topics regarding `web security`_. Their
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pages also include security principles that apply to any system.
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.. _LimitRequestBody: https://httpd.apache.org/docs/2.4/mod/core.html#limitrequestbody
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.. _Top 10 list: https://owasp.org/Top10/
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.. _web security: https://infosec.mozilla.org/guidelines/web_security.html
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