ContentBox sports its very own ContentBox Docker image. As with the CommandBox image, the [major].[minor].[patch]
versioning mirrors the upstream product version, so it's easy to pull deploy a specific version, should your application require it.
The image is packaged with a self-contained express version, which uses an in-memory H2 database. To stand up an image for testing purposes, using an unconfigured express edition, simply run:
Note The command above is using
&&
to concatenate the two commands which will work under *unix. If you are in windows, replace&&
with;
in Powershell, replace&&
with&
in Cmd, or run the two commands separately
A new container will be spun up from the image and, upon opening your browser to http://[docker machine ip]:8080
, you will be directed to configure your ContentBox installation using the ContentBox Installer.
The above run
command produces an image which is self-contained, and would be destroyed when the container is stopped. If we wanted to run a version in production, we would need to persist, at the very minimum, the database and user-uploaded assets. In order to do this we need to mount those resources in to the Docker host file system.
By convention, the express
H2 database is stored at /data/contentbox/db
inside the container. In addition, the default storage location for the CMS user media assets is set to /app/includes/shared/media
. Let's mount both of those volume points, so that our database and user-uploaded assets persists between restarts:
Now, once our image is up, we can walk through the initial configuration. Once configuration is complete, simply stop the container and then start it without the environment variable install
in place. The H2 database and uploads will be persisted and the installer will be removed automatically on container start.
Because the express
flag produces a ContentBox installation which runs on a file-based, in-memory H2 database, it's really suitable only for testing or low-traffic containers. For scalability, we would want to connect to an database server, which would allow us to connect from multiple containers in a distributed fasion (MySQL, Oracle, MSSQL, etc)
The image is configured to allow all ORM-supported JDBC drivers to be configured by specifying the environment variables to connect. Alternately, you may specify a CFCONFIG
environment variable which points to file containing your engine configuration, including datasources.
By convention, the datasource name expected is simply named contentbox
.
To programatically configure the database on container start, environment variables which represent your datasource configuration should be provided. There are two patterns supported:
DB_DRIVER
configuration - which may be used for Adobe Coldfusion servers
DB_CLASS
configuration - which configures a datasource by JDBC driver and connection string (Both Adobe and Lucee)
An example container run
command, configuring a MySQL database would be executed like so:
To use the DB_DRIVER
syntax for Adobe Coldfusion, an example run
command would be:
As you can see, these commands can become quite long. As such, using Docker Compose or CFConfig may provide a more manageable alternative.
A number of environment variables, specific to the ContentBox image, are availabe for use. They include:
express=true
- Uses an H2, in-memory database. Useful for very small sites or for testing the image. See http://www.h2database.com/html/main.html
install=true
(alias: installer
) - Adds the installer module at runtime, to assit in configuring your installation. You would omit this from your run
command, once your database has been configured
$HEALTHCHECK_URI
- Specifies the URI endpoint for container health checks. By default, this is set http://127.0.0.1:${PORT}/
at 1 minute intervals with 5 retries and a timeout of 30s
FWREINIT_PW
- Allows you to specify the reinit password for the ColdBox framework
SESSION_STORAGE
- Allows the customization of session storage. Allows any valid this.sessionStorage
value, available in Application.cfc. By default it will use the JDBC connection to store your sessions in your database of choice.
DISTRIBUTED_CACHE
- Allows you to specify a CacheBox cache region for distributing ContentBox content, flash messages, cache storage, RSS feeds, sitemaps and settings. There are only three cache regions defined in this image: default
, template
and jdbc
. jdbc
is the default cache that will distribute your data, default
and template
are in-memory caches. Please see the distributed caching section below to see how to register more caches.
H2_DIR
- Allows you to specify a custom directory path for your H2 database. By convention, this is set to /data/contentbox/db
within the container
contentbox_*
- All Contentbox "Geek Settings" may be provided as environment variables, allowing granular control of your ContentBox settings.
ORM_SECONDARY_CACHE
- If true
it will activate the ORM secondary cash to the ehcache
provider. By default it is turned off.
ORM_DIALECT
- You can choose the specific ORM dialect if needed, if not we will try to auto-detect it for you.
In addition, the CommandBox docker image environment variables are also available to use in your container. For additional information on using the CommandBox docker image, see the initial release blog entry.
By default, the ContentBox image will use the Lucee Open Source CFML engine for running the application. It will also configure the datasource to store user sessions so you can easily scale the image or send it to Docker Swarm, Kubernetes, etc for scalability. You can also use the SESSION_STORAGE
environment variable to switch the connection to any backend you like.
By default, our image configures a jdbc
CacheBox cache region that will be used to distribute settings, flash data, content, RSS feeds, sitemaps, etc. This means that out-of-the-box, your ContentBox containers can use the database to distribute its content within a swarm or set of services. However, if you would like to use your own CacheBox providers or a more sophisticated distributed cache like Redis or Couchbase, you can.
We have also prepared a docker compose and distribution example using Redis (more caches to come) and the ContentBox image. This example will allow you to have a stack that can easily distribute your sessions and content via Redis. You can find the repository here: https://github.com/Ortus-Solutions/docker-contentbox-distributed
The image contains built-in capabilities for healthchecks for the running application. You can customize the URL entry point by using the $HEALTHCHECK_URI
environment variable. By default, this is set http://127.0.0.1:${PORT}/
at 1 minute intervals with 5 retries and a timeout of 30s.
Playing around with the image is great, but what does this mean for you as a developer? Effectively it means that you can develop and deploy customized CMS applications with only a single theme directory (and, possibly, a customized config/Coldbox.cfc
file).
The image location for the themes directory in ContentBox is /app/modules/contentbox/themes
. Any theme mounted in to this directory can be configured in the run of the container, which means you no longer have to commit an entire ContentBox installation to your repository. You can mount only those files and folders ( e.g. - custom modules ) necessary for your application to do its thing. In addition, you also have power to reconfigure ContentBox settings on-the-fly using environment variables prefixed with contentbox_{site}_{setting}={value}
.
Let's start an image with a custom theme, and a ColdBox module, persisting our assets, while using a MySQL database with the installer:
Please note the following customizable paths for custom assets.
/app/includes/shared/media
- ContentBox Media Manager
/app/modules
- CommandBox managed modules
/app/modules_app
- Custom ColdBox modules
/app/modules/contentbox/themes
- Custom ContentBox Themes
/app/modules/contentbox/widgets
- Custom ContentBox Widgets
/app/modules/contentbox/modules_user
- Custom ContentBox Modules
There are more geek settings and paths that we have time to go in to in this post but, suffice it to say, you will be able to control nearly every aspect of your site settings on the startup of your Docker container.
For a list open source themes, readily available for your customization, visit Forgebox.
Note that the
Application.cfc
and theconfig
directory of the ContentBox Docker image have some customizations specific to their purpose. If you wish to customize those, please see the Docker build repository files to ensure those customizations are present in yours.
The ContentBox image for Docker re-vamps the entire Modular CMS game by de-coupling your customizations and user assets from the underlying framework. It can makes your source code lighter-weight, as well as providing you with a standardized development environment, which matches your production container strategy.