This doc provides a technical deep-dive into Wagtail hosting concepts. Most likely, you'll want to choose a hosting provider instead.
Wagtail is built on Django, and so the vast majority of the deployment steps and considerations for deploying Django are also true for Wagtail. We recommend reading Django's "How to deploy Django" documentation.
When designing infrastructure for hosting a Wagtail site, there are a few basic requirements:
Django, being a web framework, needs a web server in order to operate. Since most web servers don’t natively speak Python, we need an interface to make that communication happen.
Wagtail can be deployed using either WSGI or ASGI, however Wagtail doesn't natively implement any async views or middleware, so we recommend WSGI.
As with all Django projects, static files are only served by the Django application server during development, when running through the manage.py runserver
command. In production, these need to be handled separately at the web server level.
See Django's documentation on deploying static files.
The JavaScript and CSS files used by the Wagtail admin frequently change between releases of Wagtail - it's important to avoid serving outdated versions of these files due to browser or server-side caching, as this can cause hard-to-diagnose issues.
We recommend enabling ManifestStaticFilesStorage in the STORAGES["staticfiles"]
setting - this ensures that different versions of files are assigned distinct URLs.
(user_uploaded_files)=
Wagtail follows Django's conventions for managing uploaded files.
So by default, Wagtail uses Django's built-in FileSystemStorage
class which stores files on your site's server, in the directory specified by the MEDIA_ROOT
setting.
Alternatively, Wagtail can be configured to store uploaded images and documents on a cloud storage service such as Amazon S3;
this is done through the STORAGES["default"]
setting in conjunction with an add-on package such as django-storages.
Any system that allows user-uploaded files is a potential security risk. For example, a user with the ability to upload HTML files could potentially launch a cross-site scripting attack against a user viewing that file. This may not be a concern if all users with access to the Wagtail admin are fully trusted - for example, a personal site where you are the only editor. With this in mind, Wagtail aims to provide a secure configuration by default, but developers may choose a more permissive setup if they understand the risks, as detailed below.
When using FileSystemStorage
, image urls are constructed starting from the path specified by the MEDIA_URL
.
In most cases, you should configure your web server to serve image files directly from the images
subdirectory of MEDIA_ROOT
(without passing through Django/Wagtail).
If [](svg_images) are enabled, it is possible for a user to upload an SVG file containing scripts that execute when the file is viewed directly; if this is a concern, several approaches for avoiding this are detailed under [](svg_security_considerations).
When using one of the cloud storage backends, images urls go directly to the cloud storage file url. If you would like to serve your images from a separate asset server or CDN, you can configure the image serve view to redirect instead.
Document serving is controlled by the WAGTAILDOCS_SERVE_METHOD method.
When using FileSystemStorage
, documents are stored in a documents
subdirectory within your site's MEDIA_ROOT
. In this case, WAGTAILDOCS_SERVE_METHOD
defaults to serve_view
, where Wagtail serves the document through a Django view that enforces privacy checks. This has the following implications:
documents
subdirectory of MEDIA_ROOT
within your web server configuration. This prevents users from bypassing collection privacy settings by accessing documents at their direct URL.The alternative serve methods 'direct'
and 'redirect'
work by serving the documents directly from MEDIA_ROOT
. This means it is not possible to block direct access to the documents
subdirectory, and so users may bypass permission checks by accessing the direct URL. Also, in the case that users with access to the Wagtail admin are not fully trusted, you will need to take additional steps to prevent the execution of scripts in documents:
WAGTAILDOCS_EXTENSIONS
setting may be used to restrict uploaded documents to an "allow list" of safe types.Content-Security-Policy: default-src 'none'
header for files within the documents
subdirectory, which will prevent the execution of scripts in those files.Content-Disposition: attachment
header for files within the documents
subdirectory, which will force the browser to download the file rather than displaying it inline.If a remote ("cloud") storage backend is used, the serve method will default to 'redirect'
and the document will be served directly from the cloud storage file url. In this case, users may be able to bypass permission checks, and scripts within documents may be executed (depending on the cloud storage service's configuration). However, the impact of cross-site scripting attacks is reduced, as the document is served from a different domain to the main site.
If these limitations are not acceptable, you may set the WAGTAILDOCS_SERVE_METHOD
to serve_view
and ensure that the documents are not publicly accessible using the cloud service's file url.
Be aware that setting up remote storage will not entirely offload file handling tasks from the application server - some Wagtail functionality requires files to be read back by the application server. In particular, original image files need to be read back whenever a new resized rendition is created, and documents may be configured to be served through a Django view in order to enforce permission checks (see WAGTAILDOCS_SERVE_METHOD).
The django-storages Amazon S3 backends (`storages.backends.s3boto.S3BotoStorage` and `storages.backends.s3boto3.S3Boto3Storage`) **do not correctly handle duplicate filenames** in their default configuration. When using these backends, `AWS_S3_FILE_OVERWRITE` must be set to `False`.
Wagtail is designed to take advantage of Django's cache framework when available to accelerate page loads. The cache is especially useful for the Wagtail admin, which can't take advantage of conventional CDN caching.
Wagtail supports any of Django's cache backend, however we recommend against using one tied to the specific process or environment Django is running (eg FileBasedCache
or LocMemCache
).
Wagtail, and by extension Django, can be deployed in many different ways on many different platforms. There is no "best" way to deploy it, however here are some tips to ensure your site is as stable and maintainable as possible:
Django has a deployment checklist which runs through everything you should have done or should be aware of before deploying a Django application.
Your production site should be as fast and performant as possible. For tips on how to ensure Wagtail performs as well as possible, take a look at our performance tips.
(deployment_examples)=
Some examples of deployments on a few hosting platforms can be found in [](/advanced_topics/third_party_tutorials). This is not a complete list of platforms where Wagtail can run, nor is it necessarily the only way to run Wagtail there.
An example of a production Wagtail site is guide.wagail.org, which is open-source and runs on Heroku. More information on its hosting environment can be found in its documentation.
If you have successfully installed Wagtail on your platform or infrastructure, please contribute your notes to this documentation!