This document explains all middleware components that come with Django. For information on how to use them and how to write your own middleware, see the middleware usage guide.
Enable the site-wide cache. If these are enabled, each Django-powered page will
be cached for as long as the CACHE_MIDDLEWARE_SECONDS setting
defines. See the cache documentation.
Adds a few conveniences for perfectionists:
Forbids access to user agents in the DISALLOWED_USER_AGENTS
setting, which should be a list of compiled regular expression objects.
Performs URL rewriting based on the APPEND_SLASH and
PREPEND_WWW settings.
If APPEND_SLASH is True and the initial URL doesn’t end
with a slash, and it is not found in the URLconf, then a new URL is
formed by appending a slash at the end. If this new URL is found in the
URLconf, then Django redirects the request to this new URL. Otherwise,
the initial URL is processed as usual.
For example, foo.com/bar will be redirected to foo.com/bar/ if
you don’t have a valid URL pattern for foo.com/bar but do have a
valid pattern for foo.com/bar/.
If PREPEND_WWW is True, URLs that lack a leading “www.”
will be redirected to the same URL with a leading “www.”
Both of these options are meant to normalize URLs. The philosophy is that
each URL should exist in one, and only one, place. Technically a URL
foo.com/bar is distinct from foo.com/bar/ – a search-engine
indexer would treat them as separate URLs – so it’s best practice to
normalize URLs.
If necessary, individual views may be excluded from the APPEND_SLASH
behavior using the no_append_slash()
decorator:
from django.views.decorators.common import no_append_slash
@no_append_slash
def sensitive_fbv(request, *args, **kwargs):
"""View to be excluded from APPEND_SLASH."""
return HttpResponse()
Sets the Content-Length header for non-streaming responses.
Defaults to HttpResponsePermanentRedirect. Subclass
CommonMiddleware and override the attribute to customize the redirects
issued by the middleware.
Sends broken link notification emails to MANAGERS (see
How to manage error reporting).
Defaults to 100. Subclass GZipMiddleware and override the attribute
to change the maximum number of random bytes that is included with
compressed responses.
Note
Security researchers revealed that when compression techniques (including
GZipMiddleware) are used on a website, the site may become exposed to a
number of possible attacks.
To mitigate attacks, Django implements a technique called Heal The Breach
(HTB). It adds up to 100 bytes (see
max_random_bytes) of random bytes to each response
to make the attacks less effective.
For more details, see the BREACH paper (PDF), breachattack.com, and the Heal The Breach (HTB) paper.
Mitigation for the BREACH attack was added.
The django.middleware.gzip.GZipMiddleware compresses content for browsers
that understand GZip compression (all modern browsers).
This middleware should be placed before any other middleware that need to read or write the response body so that compression happens afterward.
It will NOT compress content if any of the following are true:
The content body is less than 200 bytes long.
The response has already set the Content-Encoding header.
The request (the browser) hasn’t sent an Accept-Encoding header
containing gzip.
If the response has an ETag header, the ETag is made weak to comply with
RFC 9110#section-8.8.1.
You can apply GZip compression to individual views using the
gzip_page() decorator.
Handles conditional GET operations. If the response doesn’t have an ETag
header, the middleware adds one if needed. If the response has an ETag or
Last-Modified header, and the request has If-None-Match or
If-Modified-Since, the response is replaced by an
HttpResponseNotModified.
Enables language selection based on data from the request. It customizes content for each user. See the internationalization documentation.
Defaults to HttpResponseRedirect. Subclass
LocaleMiddleware and override the attribute to customize the redirects
issued by the middleware.
Enables cookie- and session-based message support. See the messages documentation.
Warning
If your deployment situation allows, it’s usually a good idea to have your
front-end web server perform the functionality provided by the
SecurityMiddleware. That way, if there are requests that aren’t served
by Django (such as static media or user-uploaded files), they will have
the same protections as requests to your Django application.
The django.middleware.security.SecurityMiddleware provides several security
enhancements to the request/response cycle. Each one can be independently
enabled or disabled with a setting.
For sites that should only be accessed over HTTPS, you can instruct modern browsers to refuse to connect to your domain name via an insecure connection (for a given period of time) by setting the “Strict-Transport-Security” header. This reduces your exposure to some SSL-stripping man-in-the-middle (MITM) attacks.
SecurityMiddleware will set this header for you on all HTTPS responses if
you set the SECURE_HSTS_SECONDS setting to a non-zero integer value.
When enabling HSTS, it’s a good idea to first use a small value for testing,
for example, SECURE_HSTS_SECONDS = 3600 for one
hour. Each time a web browser sees the HSTS header from your site, it will
refuse to communicate non-securely (using HTTP) with your domain for the given
period of time. Once you confirm that all assets are served securely on your
site (i.e. HSTS didn’t break anything), it’s a good idea to increase this value
so that infrequent visitors will be protected (31536000 seconds, i.e. 1 year,
is common).
Additionally, if you set the SECURE_HSTS_INCLUDE_SUBDOMAINS setting
to True, SecurityMiddleware will add the includeSubDomains directive
to the Strict-Transport-Security header. This is recommended (assuming all
subdomains are served exclusively using HTTPS), otherwise your site may still
be vulnerable via an insecure connection to a subdomain.
If you wish to submit your site to the browser preload list, set the
SECURE_HSTS_PRELOAD setting to True. That appends the
preload directive to the Strict-Transport-Security header.
Warning
The HSTS policy applies to your entire domain, not just the URL of the response that you set the header on. Therefore, you should only use it if your entire domain is served via HTTPS only.
Browsers properly respecting the HSTS header will refuse to allow users to bypass warnings and connect to a site with an expired, self-signed, or otherwise invalid SSL certificate. If you use HSTS, make sure your certificates are in good shape and stay that way!
Note
If you are deployed behind a load-balancer or reverse-proxy server, and the
Strict-Transport-Security header is not being added to your responses,
it may be because Django doesn’t realize that it’s on a secure connection;
you may need to set the SECURE_PROXY_SSL_HEADER setting.
Browsers use the Referer header as a way to send information to a site about how users got there. When a user clicks a link, the browser will send the full URL of the linking page as the referrer. While this can be useful for some purposes – like figuring out who’s linking to your site – it also can cause privacy concerns by informing one site that a user was visiting another site.
Some browsers have the ability to accept hints about whether they should send
the HTTP Referer header when a user clicks a link; this hint is provided
via the Referrer-Policy header. This header can suggest any of three
behaviors to browsers:
Full URL: send the entire URL in the Referer header. For example, if the
user is visiting https://example.com/page.html, the Referer header
would contain "https://example.com/page.html".
Origin only: send only the “origin” in the referrer. The origin consists of
the scheme, host and (optionally) port number. For example, if the user is
visiting https://example.com/page.html, the origin would be
https://example.com/.
No referrer: do not send a Referer header at all.
There are two types of conditions this header can tell a browser to watch out for:
Same-origin versus cross-origin: a link from https://example.com/1.html
to https://example.com/2.html is same-origin. A link from
https://example.com/page.html to https://not.example.com/page.html is
cross-origin.
Protocol downgrade: a downgrade occurs if the page containing the link is served via HTTPS, but the page being linked to is not served via HTTPS.
Warning
When your site is served via HTTPS, Django’s CSRF protection system requires the Referer header to be present, so
completely disabling the Referer header will interfere with CSRF
protection. To gain most of the benefits of disabling Referer headers
while also keeping CSRF protection, consider enabling only same-origin
referrers.
SecurityMiddleware can set the Referrer-Policy header for you, based on
the SECURE_REFERRER_POLICY setting (note spelling: browsers send a
Referer header when a user clicks a link, but the header instructing a
browser whether to do so is spelled Referrer-Policy). The valid values for
this setting are:
no-referrerInstructs the browser to send no referrer for links clicked on this site.
no-referrer-when-downgradeInstructs the browser to send a full URL as the referrer, but only when no protocol downgrade occurs.
originInstructs the browser to send only the origin, not the full URL, as the referrer.
origin-when-cross-originInstructs the browser to send the full URL as the referrer for same-origin links, and only the origin for cross-origin links.
same-originInstructs the browser to send a full URL, but only for same-origin links. No referrer will be sent for cross-origin links.
strict-originInstructs the browser to send only the origin, not the full URL, and to send no referrer when a protocol downgrade occurs.
strict-origin-when-cross-originInstructs the browser to send the full URL when the link is same-origin and no protocol downgrade occurs; send only the origin when the link is cross-origin and no protocol downgrade occurs; and no referrer when a protocol downgrade occurs.
unsafe-urlInstructs the browser to always send the full URL as the referrer.
Unknown Policy Values
Where a policy value is unknown by a user agent, it is possible to
specify multiple policy values to provide a fallback. The last specified
value that is understood takes precedence. To support this, an iterable or
comma-separated string can be used with SECURE_REFERRER_POLICY.
Some browsers have the ability to isolate top-level windows from other
documents by putting them in a separate browsing context group based on the
value of the Cross-Origin Opener Policy (COOP) header. If a document that
is isolated in this way opens a cross-origin popup window, the popup’s
window.opener property will be null. Isolating windows using COOP is a
defense-in-depth protection against cross-origin attacks, especially those like
Spectre which allowed exfiltration of data loaded into a shared browsing
context.
SecurityMiddleware can set the Cross-Origin-Opener-Policy header for
you, based on the SECURE_CROSS_ORIGIN_OPENER_POLICY setting. The
valid values for this setting are:
same-originIsolates the browsing context exclusively to same-origin documents. Cross-origin documents are not loaded in the same browsing context. This is the default and most secure option.
same-origin-allow-popupsIsolates the browsing context to same-origin documents or those which
either don’t set COOP or which opt out of isolation by setting a COOP of
unsafe-none.
unsafe-noneAllows the document to be added to its opener’s browsing context group
unless the opener itself has a COOP of same-origin or
same-origin-allow-popups.
X-Content-Type-Options: nosniff¶Some browsers will try to guess the content types of the assets that they
fetch, overriding the Content-Type header. While this can help display
sites with improperly configured servers, it can also pose a security
risk.
If your site serves user-uploaded files, a malicious user could upload a specially-crafted file that would be interpreted as HTML or JavaScript by the browser when you expected it to be something harmless.
To prevent the browser from guessing the content type and force it to
always use the type provided in the Content-Type header, you can pass
the X-Content-Type-Options: nosniff header. SecurityMiddleware will
do this for all responses if the SECURE_CONTENT_TYPE_NOSNIFF setting
is True.
Note that in most deployment situations where Django isn’t involved in serving
user-uploaded files, this setting won’t help you. For example, if your
MEDIA_URL is served directly by your front-end web server (nginx,
Apache, etc.) then you’d want to set this header there. On the other hand, if
you are using Django to do something like require authorization in order to
download files and you cannot set the header using your web server, this
setting will be useful.
If your site offers both HTTP and HTTPS connections, most users will end up with an unsecured connection by default. For best security, you should redirect all HTTP connections to HTTPS.
If you set the SECURE_SSL_REDIRECT setting to True,
SecurityMiddleware will permanently (HTTP 301) redirect all HTTP
connections to HTTPS.
Note
For performance reasons, it’s preferable to do these redirects outside of
Django, in a front-end load balancer or reverse-proxy server such as
nginx. SECURE_SSL_REDIRECT is intended for the deployment
situations where this isn’t an option.
If the SECURE_SSL_HOST setting has a value, all redirects will be
sent to that host instead of the originally-requested host.
If there are a few pages on your site that should be available over HTTP, and
not redirected to HTTPS, you can list regular expressions to match those URLs
in the SECURE_REDIRECT_EXEMPT setting.
Note
If you are deployed behind a load-balancer or reverse-proxy server and
Django can’t seem to tell when a request actually is already secure, you
may need to set the SECURE_PROXY_SSL_HEADER setting.
Enables session support. See the session documentation.
Adds the site attribute representing the current site to every incoming
HttpRequest object. See the sites documentation.
Adds the user attribute, representing the currently-logged-in user, to
every incoming HttpRequest object. See Authentication in web requests.
Middleware for utilizing web server provided authentication. See How to authenticate using REMOTE_USER for usage details.
Middleware for utilizing web server provided authentication when enabled only on the login page. See Using REMOTE_USER on login pages only for usage details.
Adds protection against Cross Site Request Forgeries by adding hidden form fields to POST forms and checking requests for the correct value. See the Cross Site Request Forgery protection documentation.
X-Frame-Options middleware¶Simple clickjacking protection via the X-Frame-Options header.
Here are some hints about the ordering of various Django middleware classes:
It should go near the top of the list if you’re going to turn on the SSL redirect as that avoids running through a bunch of other unnecessary middleware.
Before those that modify the Vary header (SessionMiddleware,
GZipMiddleware, LocaleMiddleware).
Before any middleware that may change or use the response body.
After UpdateCacheMiddleware: Modifies Vary header.
Before any middleware that may raise an exception to trigger an error
view (such as PermissionDenied) if you’re
using CSRF_USE_SESSIONS.
After UpdateCacheMiddleware: Modifies Vary header.
Before any middleware that may change the response (it sets the ETag
header).
After GZipMiddleware so it won’t calculate an ETag header on gzipped
contents.
One of the topmost, after SessionMiddleware (uses session data) and
UpdateCacheMiddleware (modifies Vary header).
Before any middleware that may change the response (it sets the
Content-Length header). A middleware that appears before
CommonMiddleware and changes the response must reset Content-Length.
Close to the top: it redirects when APPEND_SLASH or
PREPEND_WWW are set to True.
After SessionMiddleware if you’re using CSRF_USE_SESSIONS.
Before any view middleware that assumes that CSRF attacks have been dealt with.
Before RemoteUserMiddleware, or any
other authentication middleware that may perform a login, and hence rotate
the CSRF token, before calling down the middleware chain.
After SessionMiddleware if you’re using CSRF_USE_SESSIONS.
After SessionMiddleware: uses session storage.
After SessionMiddleware: can use session-based storage.
After any middleware that modifies the Vary header: that header is used
to pick a value for the cache hash-key.
Should be near the bottom as it’s a last-resort type of middleware.
Should be near the bottom as it’s a last-resort type of middleware.
Dec 25, 2023