Deployment checklist
The internet is a hostile environment. Before deploying your Django project, you should take some time to review your settings, with security, performance, and operations in mind.
Django includes many security features. Some are built-in and always enabled. Others are optional because they aren’t always appropriate, or because they’re inconvenient for development. For example, forcing HTTPS may not be suitable for all websites, and it’s impractical for local development.
Performance optimizations are another category of trade-offs with convenience. For instance, caching is useful in production, less so for local development. Error reporting needs are also widely different.
The following checklist includes settings that:
- must be set properly for Django to provide the expected level of security;
- are expected to be different in each environment;
- enable optional security features;
- enable performance optimizations;
- provide error reporting.
Many of these settings are sensitive and should be treated as confidential. If you’re releasing the source code for your project, a common practice is to publish suitable settings for development, and to use a private settings module for production.
Run manage.py check --deploy
Some of the checks described below can be automated using the check —deploy option. Be sure to run it against your production settings file as described in the option’s documentation.
Switch away from manage.py runserver
The runserver command is not designed for a production setting. Be sure to switch to a production-ready WSGI or ASGI server. For a few common options, see WSGI servers or ASGI servers.
Critical settings
SECRET_KEY
The secret key must be a large random value and it must be kept secret.
Make sure that the key used in production isn’t used anywhere else and avoid committing it to source control. This reduces the number of vectors from which an attacker may acquire the key.
Instead of hardcoding the secret key in your settings module, consider loading it from an environment variable:
import os
SECRET_KEY = os.environ["SECRET_KEY"]
or from a file:
with open("/etc/secret_key.txt") as f:
SECRET_KEY = f.read().strip()
If rotating secret keys, you may use SECRET_KEY_FALLBACKS:
import os
SECRET_KEY = os.environ["CURRENT_SECRET_KEY"]
SECRET_KEY_FALLBACKS = [
os.environ["OLD_SECRET_KEY"],
]
Ensure that old secret keys are removed from SECRET_KEY_FALLBACKS
in a timely manner.
DEBUG
You must never enable debug in production.
You’re certainly developing your project with DEBUG = True, since this enables handy features like full tracebacks in your browser.
For a production environment, though, this is a really bad idea, because it leaks lots of information about your project: excerpts of your source code, local variables, settings, libraries used, etc.
Environment-specific settings
ALLOWED_HOSTS
When DEBUG = False, Django doesn’t work at all without a suitable value for ALLOWED_HOSTS.
This setting is required to protect your site against some CSRF attacks. If you use a wildcard, you must perform your own validation of the Host
HTTP header, or otherwise ensure that you aren’t vulnerable to this category of attacks.
You should also configure the web server that sits in front of Django to validate the host. It should respond with a static error page or ignore requests for incorrect hosts instead of forwarding the request to Django. This way you’ll avoid spurious errors in your Django logs (or emails if you have error reporting configured that way). For example, on nginx you might set up a default server to return “444 No Response” on an unrecognized host:
server {
listen 80 default_server;
return 444;
}
CACHES
If you’re using a cache, connection parameters may be different in development and in production. Django defaults to per-process local-memory caching which may not be desirable.
Cache servers often have weak authentication. Make sure they only accept connections from your application servers.
DATABASES
Database connection parameters are probably different in development and in production.
Database passwords are very sensitive. You should protect them exactly like SECRET_KEY.
For maximum security, make sure database servers only accept connections from your application servers.
If you haven’t set up backups for your database, do it right now!
EMAIL_BACKEND and related settings
If your site sends emails, these values need to be set correctly.
By default, Django sends email from webmaster@localhost and root@localhost. However, some mail providers reject email from these addresses. To use different sender addresses, modify the DEFAULT_FROM_EMAIL and SERVER_EMAIL settings.
STATIC_ROOT and STATIC_URL
Static files are automatically served by the development server. In production, you must define a STATIC_ROOT directory where collectstatic will copy them.
See How to manage static files (e.g. images, JavaScript, CSS) for more information.
MEDIA_ROOT and MEDIA_URL
Media files are uploaded by your users. They’re untrusted! Make sure your web server never attempts to interpret them. For instance, if a user uploads a .php
file, the web server shouldn’t execute it.
Now is a good time to check your backup strategy for these files.
HTTPS
Any website which allows users to log in should enforce site-wide HTTPS to avoid transmitting access tokens in clear. In Django, access tokens include the login/password, the session cookie, and password reset tokens. (You can’t do much to protect password reset tokens if you’re sending them by email.)
Protecting sensitive areas such as the user account or the admin isn’t sufficient, because the same session cookie is used for HTTP and HTTPS. Your web server must redirect all HTTP traffic to HTTPS, and only transmit HTTPS requests to Django.
Once you’ve set up HTTPS, enable the following settings.
CSRF_COOKIE_SECURE
Set this to True
to avoid transmitting the CSRF cookie over HTTP accidentally.
SESSION_COOKIE_SECURE
Set this to True
to avoid transmitting the session cookie over HTTP accidentally.
Performance optimizations
Setting DEBUG = False disables several features that are only useful in development. In addition, you can tune the following settings.
Sessions
Consider using cached sessions to improve performance.
If using database-backed sessions, regularly clear old sessions to avoid storing unnecessary data.
CONN_MAX_AGE
Enabling persistent database connections can result in a nice speed-up when connecting to the database accounts for a significant part of the request processing time.
This helps a lot on virtualized hosts with limited network performance.
TEMPLATES
Enabling the cached template loader often improves performance drastically, as it avoids compiling each template every time it needs to be rendered. When DEBUG = False, the cached template loader is enabled automatically. See django.template.loaders.cached.Loader for more information.
Error reporting
By the time you push your code to production, it’s hopefully robust, but you can’t rule out unexpected errors. Thankfully, Django can capture errors and notify you accordingly.
LOGGING
Review your logging configuration before putting your website in production, and check that it works as expected as soon as you have received some traffic.
See Logging for details on logging.
ADMINS and MANAGERS
ADMINS will be notified of 500 errors by email.
MANAGERS will be notified of 404 errors. IGNORABLE_404_URLS can help filter out spurious reports.
See How to manage error reporting for details on error reporting by email.
Error reporting by email doesn’t scale very well
Consider using an error monitoring system such as Sentry before your inbox is flooded by reports. Sentry can also aggregate logs.
Customize the default error views
Django includes default views and templates for several HTTP error codes. You may want to override the default templates by creating the following templates in your root template directory: 404.html
, 500.html
, 403.html
, and 400.html
. The default error views that use these templates should suffice for 99% of web applications, but you can customize them as well.