WordPress is one of the most versatile open source content management systems on the market. WordPress is built for high performance and is scalable to many servers, has easy integration via REST, JSON, SOAP and other formats, and features a whopping 15,000 plugins to extend and customize the application for just about any type of website.
$ curl -LO https://raw.githubusercontent.com/bitnami/bitnami-docker-wordpress/master/docker-compose.yml
$ docker-compose up
- Bitnami closely tracks upstream source changes and promptly publishes new versions of this image using our automated systems.
- With Bitnami images the latest bug fixes and features are available as soon as possible.
- Bitnami containers, virtual machines and cloud images use the same components and configuration approach - making it easy to switch between formats based on your project needs.
- All our images are based on minideb a minimalist Debian based container image which gives you a small base container image and the familiarity of a leading linux distribution.
- All Bitnami images available in Docker Hub are signed with Docker Content Trust (DTC). You can use
DOCKER_CONTENT_TRUST=1
to verify the integrity of the images. - Bitnami container images are released daily with the latest distribution packages available.
This CVE scan report contains a security report with all open CVEs. To get the list of actionable security issues, find the "latest" tag, click the vulnerability report link under the corresponding "Security scan" field and then select the "Only show fixable" filter on the next page.
Deploying Bitnami applications as Helm Charts is the easiest way to get started with our applications on Kubernetes. Read more about the installation in the Bitnami WordPress Chart GitHub repository.
Bitnami containers can be used with Kubeapps for deployment and management of Helm Charts in clusters.
NOTE: Debian 8 images have been deprecated in favor of Debian 9 images. Bitnami will not longer publish new Docker images based on Debian 8 NOTE: RHEL images are not available in any public registry. You can build them on your side on top of RHEL as described on this doc.
Learn more about the Bitnami tagging policy and the difference between rolling tags and immutable tags in our documentation page.
5-ol-7
,5.2.2-ol-7-r17
(5/ol-7/Dockerfile)5-debian-9
,5.2.2-debian-9-r16
,5
,5.2.2
,5.2.2-r16
,latest
(5/debian-9/Dockerfile)5-rhel-7
,5.1.1-rhel-7-r40
(5/rhel-7/Dockerfile)
Subscribe to project updates by watching the bitnami/wordpress GitHub repo.
To run this application you need Docker Engine >= 1.10.0
. Docker Compose is recommended with a version 1.6.0
or later.
WordPress requires access to a MySQL or MariaDB database to store information. We'll use our very own MariaDB image for the database requirements.
The recommended way to run WordPress is using Docker Compose using the following docker-compose.yml
template:
version: '2'
services:
mariadb:
image: 'bitnami/mariadb:latest'
volumes:
- 'mariadb_data:/bitnami'
environment:
- MARIADB_USER=bn_wordpress
- MARIADB_DATABASE=bitnami_wordpress
- ALLOW_EMPTY_PASSWORD=yes
wordpress:
image: 'bitnami/wordpress:latest'
ports:
- '80:80'
- '443:443'
volumes:
- 'wordpress_data:/bitnami'
depends_on:
- mariadb
environment:
- MARIADB_HOST=mariadb
- MARIADB_PORT_NUMBER=3306
- WORDPRESS_DATABASE_USER=bn_wordpress
- WORDPRESS_DATABASE_NAME=bitnami_wordpress
- ALLOW_EMPTY_PASSWORD=yes
volumes:
mariadb_data:
driver: local
wordpress_data:
driver: local
Launch the containers using:
$ docker-compose up -d
If you want to run the application manually instead of using docker-compose
, these are the basic steps you need to run:
- Create a network
$ docker network create wordpress-tier
- Create a volume for MariaDB persistence and create a MariaDB container
$ docker volume create --name mariadb_data
$ docker run -d --name mariadb \
-e ALLOW_EMPTY_PASSWORD=yes \
-e MARIADB_USER=bn_wordpress \
-e MARIADB_DATABASE=bitnami_wordpress \
--net wordpress-tier \
--volume mariadb_data:/bitnami \
bitnami/mariadb:latest
- Create volumes for WordPress persistence and launch the container
$ docker volume create --name wordpress_data
$ docker run -d --name wordpress -p 80:80 -p 443:443 \
-e ALLOW_EMPTY_PASSWORD=yes \
-e WORDPRESS_DATABASE_USER=bn_wordpress \
-e WORDPRESS_DATABASE_NAME=bitnami_wordpress \
--net wordpress-tier \
--volume wordpress_data:/bitnami \
bitnami/wordpress:latest
Access your application at http://your-ip/
If you remove the container all your data and configurations will be lost, and the next time you run the image the database will be reinitialized. To avoid this loss of data, you should mount a volume that will persist even after the container is removed.
For persistence you should mount a volume at the /bitnami
path. Additionally you should mount a volume for persistence of the MariaDB data.
The above examples define docker volumes namely mariadb_data
and wordpress_data
. The Wordpress application state will persist as long as these volumes are not removed.
To avoid inadvertent removal of these volumes you can mount host directories as data volumes. Alternatively you can make use of volume plugins to host the volume data.
The following docker-compose.yml
template demonstrates the use of host directories as data volumes.
version: '2'
services:
mariadb:
image: 'bitnami/mariadb:latest'
environment:
- ALLOW_EMPTY_PASSWORD=yes
- MARIADB_USER=bn_wordpress
- MARIADB_DATABASE=bitnami_wordpress
volumes:
- /path/to/mariadb-persistence:/bitnami
wordpress:
image: bitnami/wordpress:latest
depends_on:
- mariadb
ports:
- '80:80'
- '443:443'
environment:
- WORDPRESS_DATABASE_USER=bn_wordpress
- WORDPRESS_DATABASE_NAME=bitnami_wordpress
- ALLOW_EMPTY_PASSWORD=yes
volumes:
- /path/to/wordpress-persistence:/bitnami
- Create a network (if it does not exist)
$ docker network create wordpress-tier
- Create a MariaDB container with host volume
$ docker run -d --name mariadb \
-e ALLOW_EMPTY_PASSWORD=yes \
-e MARIADB_USER=bn_wordpress \
-e MARIADB_DATABASE=bitnami_wordpress \
--net wordpress-tier \
--volume /path/to/mariadb-persistence:/bitnami \
bitnami/mariadb:latest
- Create the WordPress the container with host volumes
$ docker run -d --name wordpress -p 80:80 -p 443:443 \
-e ALLOW_EMPTY_PASSWORD=yes \
-e WORDPRESS_DATABASE_USER=bn_wordpress \
-e WORDPRESS_DATABASE_NAME=bitnami_wordpress \
--net wordpress-tier \
--volume /path/to/wordpress-persistence:/bitnami \
bitnami/wordpress:latest
Bitnami provides up-to-date versions of MariaDB and WordPress, including security patches, soon after they are made upstream. We recommend that you follow these steps to upgrade your container. We will cover here the upgrade of the WordPress container. For the MariaDB upgrade see https://github.com/bitnami/bitnami-docker-mariadb/blob/master/README.md#upgrade-this-image
The bitnami/wordpress:latest
tag always points to the most recent release. To get the most recent release you can simple repull the latest
tag from the Docker Hub with docker pull bitnami/wordpress:latest
. However it is recommended to use tagged versions.
- Get the updated images:
$ docker pull bitnami/wordpress:latest
- Stop your container
- For docker-compose:
$ docker-compose stop wordpress
- For manual execution:
$ docker stop wordpress
- Take a snapshot of the application state
$ rsync -a /path/to/wordpress-persistence /path/to/wordpress-persistence.bkp.$(date +%Y%m%d-%H.%M.%S)
Additionally, snapshot the MariaDB data
You can use these snapshots to restore the application state should the upgrade fail.
- Remove the stopped container
- For docker-compose:
$ docker-compose rm wordpress
- For manual execution:
$ docker rm wordpress
- Run the new image
- For docker-compose:
$ docker-compose up wordpress
- For manual execution (mount the directories if needed):
docker run --name wordpress bitnami/wordpress:latest
The WordPress instance can be customized by specifying environment variables on the first run. The following environment values are provided to custom WordPress:
WORDPRESS_USERNAME
: WordPress application username. Default: userWORDPRESS_PASSWORD
: WordPress application password. Default: bitnamiWORDPRESS_EMAIL
: WordPress application email. Default: [email protected]WORDPRESS_FIRST_NAME
: WordPress user first name. Default: FirstNameWORDPRESS_LAST_NAME
: WordPress user last name. Default: LastNameWORDPRESS_BLOG_NAME
: WordPress blog name. Default: User's blogWORDPRESS_HTACCESS_OVERRIDE_NONE
: Set the ApacheAllowOverride
variable toNone
. All the default directives will be loaded from/opt/bitnami/wordpress/wordpress-htaccess.conf
. Default: yes.
MARIADB_HOST
: Hostname for MariaDB server. Default: mariadbMARIADB_PORT_NUMBER
: Port used by MariaDB server. Default: 3306WORDPRESS_DATABASE_NAME
: Database name that WordPress will use to connect with the database. Default: bitnami_wordpressWORDPRESS_TABLE_PREFIX
: Table prefix to use in WordPress. Default: wp_WORDPRESS_DATABASE_USER
: Database user that WordPress will use to connect with the database. Default: bn_wordpressWORDPRESS_DATABASE_PASSWORD
: Database password that WordPress will use to connect with the database. No defaults.WORDPRESS_SKIP_INSTALL
: Force the container to not execute the WordPress installation wizard. This is necessary in case you use a database that already has WordPress data. Default: noALLOW_EMPTY_PASSWORD
: It can be used to allow blank passwords. Default: no
MARIADB_HOST
: Hostname for MariaDB server. Default: mariadbMARIADB_PORT_NUMBER
: Port used by MariaDB server. Default: 3306MARIADB_ROOT_USER
: Database admin user. Default: rootMARIADB_ROOT_PASSWORD
: Database password for theMARIADB_ROOT_USER
user. No defaults.MYSQL_CLIENT_CREATE_DATABASE_NAME
: New database to be created by the mysql client module. No defaults.WORDPRESS_TABLE_PREFIX
: Table prefix to use in WordPress. Default: wp_MYSQL_CLIENT_CREATE_DATABASE_USER
: New database user to be created by the mysql client module. No defaults.MYSQL_CLIENT_CREATE_DATABASE_PASSWORD
: Database password for theMYSQL_CLIENT_CREATE_DATABASE_USER
user. No defaults.ALLOW_EMPTY_PASSWORD
: It can be used to allow blank passwords. Default: no
version: '2'
services:
mariadb:
image: 'bitnami/mariadb:latest'
environment:
- MARIADB_USER=bn_wordpress
- MARIADB_DATABASE=bitnami_wordpress
- ALLOW_EMPTY_PASSWORD=yes
volumes:
- mariadb_data:/bitnami
wordpress:
image: bitnami/wordpress:latest
depends_on:
- mariadb
ports:
- '80:80'
- '443:443'
environment:
- MARIADB_HOST=mariadb
- MARIADB_PORT_NUMBER=3306
- WORDPRESS_DATABASE_USER=bn_wordpress
- WORDPRESS_DATABASE_NAME=bitnami_wordpress
- ALLOW_EMPTY_PASSWORD=yes
volumes:
- wordpress_data:/bitnami
volumes:
mariadb_data:
driver: local
wordpress_data:
driver: local
$ docker run -d --name wordpress -p 80:80 -p 443:443 \
--net wordpress-tier \
-e ALLOW_EMPTY_PASSWORD=yes \
-e WORDPRESS_DATABASE_USER=bn_wordpress \
-e WORDPRESS_DATABASE_NAME=bitnami_wordpress \
-e WORDPRESS_PASSWORD=my_password \
--volume wordpress_data:/bitnami \
bitnami/wordpress:latest
To configure WordPress to send email using SMTP you can set the following environment variables:
SMTP_HOST
: Host for outgoing SMTP email. No defaults.SMTP_PORT
: Port for outgoing SMTP email. No defaults.SMTP_USER
: User of SMTP used for authentication (likely email). No defaults.SMTP_PASSWORD
: Password for SMTP. No defaults.SMTP_PROTOCOL
: Secure connection protocol to use for SMTP [tls, ssl, none]. No defaults.
This would be an example of SMTP configuration using a GMail account:
- docker-compose (application part):
wordpress:
image: bitnami/wordpress:latest
ports:
- 80:80
- 443:443
environment:
- MARIADB_HOST=mariadb
- MARIADB_PORT_NUMBER=3306
- WORDPRESS_DATABASE_USER=bn_wordpress
- WORDPRESS_DATABASE_NAME=bitnami_wordpress
- SMTP_HOST=smtp.gmail.com
- SMTP_PORT=587
- [email protected]
- SMTP_PASSWORD=your_password
- SMTP_PROTOCOL=tls
volumes:
- wordpress_data:/bitnami/wordpress
- For manual execution:
$ docker run -d --name wordpress -p 80:80 -p 443:443 \
--net wordpress-tier \
--env SMTP_HOST=smtp.gmail.com --env SMTP_PORT=587 \
--env [email protected] --env SMTP_PASSWORD=your_password \
--env ALLOW_EMPTY_PASSWORD=yes --env WORDPRESS_DATABASE_USER=bn_wordpress \
--env WORDPRESS_DATABASE_NAME=bitnami_wordpress \
--volume wordpress_data:/bitnami/wordpress \
bitnami/wordpress:latest
The Bitnami WordPress container supports connecting the WordPress application to an external database. In order to configure it, you should set the following environment variables:
MARIADB_HOST
: Hostname for MariaDB server. Default: mariadbMARIADB_PORT_NUMBER
: Port used by MariaDB server. Default: 3306WORDPRESS_DATABASE_NAME
: Database name that WordPress will use to connect with the database. Default: bitnami_wordpressWORDPRESS_DATABASE_USER
: Database user that WordPress will use to connect with the database. Default: bn_wordpressWORDPRESS_DATABASE_PASSWORD
: Database password that WordPress will use to connect with the database. No defaults.
This would be an example of using an external database for WordPress.
- docker-compose:
wordpress:
image: bitnami/wordpress:latest
ports:
- 80:80
- 443:443
environment:
- MARIADB_HOST=mariadb_host
- MARIADB_PORT_NUMBER=3306
- WORDPRESS_DATABASE_NAME=wordpress_db
- WORDPRESS_DATABASE_USER=wordpress_user
- WORDPRESS_DATABASE_PASSWORD=wordpress_password
volumes:
- wordpress_data:/bitnami
- For manual execution:
$ docker run -d --name wordpress -p 80:80 -p 443:443 \
--net wordpress-tier \
--env MARIADB_HOST=mariadb_host \
--env MARIADB_PORT_NUMBER=3306 \
--env WORDPRESS_DATABASE_NAME=wordpress_db \
--env WORDPRESS_DATABASE_USER=wordpress_user \
--env WORDPRESS_DATABASE_PASSWORD=wordpress_password \
--volume wordpress_data:/bitnami \
bitnami/wordpress:latest
In case the database already contains data from a previous WordPress installation, you need to set the variable WORDPRESS_SKIP_INSTALL
to yes
. Otherwise, the container would execute the installation wizard and could modify the existing data in the database. Note that, when setting WORDPRESS_SKIP_INSTALL
to yes
, the values WORDPRESS_USERNAME
, WORDPRESS_PASSWORD
, WORDPRESS_BLOG_NAME
, WORDPRESS_EMAIL
, WORDPRESS_BLOG_NAME
and WORDPRESS_SMTP_*
variables will be ignored. Make sure that, in this imported database, the table prefix matches the one set in WORDPRESS_TABLE_PREFIX
.
The Bitnami WordPress container includes the command line interface wp-cli that can help you to manage and interact with your WP sites. To run this tool, please note you need use the proper system user, daemon.
This would be an example of using wp-cli to display the help menu:
- Using
docker-compose
command:
$ docker-compose exec wordpress sudo -u daemon -- wp help
- Using
docker
command:
$ docker exec wordpress sudo -u daemon -- wp help
Find more information about parameters available in the tool in the official documentation.
The Bitnami WordPress Docker image is designed to be extended so it can be used as the base image for your custom web applications.
Before extending this image, please note there are certain configuration settings you can modify using the original image:
- Settings that can be adapted using environment variables. For instance, you can change the ports used by Apache for HTTP and HTTPS, by setting the environment variables
APACHE_HTTP_PORT_NUMBER
andAPACHE_HTTPS_PORT_NUMBER
respectively. - Adding custom virtual hosts.
- Replacing the 'httpd.conf' file.
- Using custom SSL certificates.
If your desired customizations cannot be covered using the methods mentioned above, extend the image. To do so, create your own image using a Dockerfile with the format below:
FROM bitnami/wordpress
## Put your customizations below
...
Here is an example of extending the image with the following modifications:
- Install the
vim
editor - Modify the Apache configuration file
- Modify the ports used by Apache
FROM bitnami/wordpress
LABEL maintainer "Bitnami <[email protected]>"
## Install 'vim'
RUN install_packages vim
## Enable mod_ratelimit module
RUN sed -i -r 's/#LoadModule ratelimit_module/LoadModule ratelimit_module/' /opt/bitnami/apache/conf/httpd.conf
## Modify the ports used by Apache by default
# It is also possible to change these environment variables at runtime
ENV APACHE_HTTP_PORT_NUMBER=8181
ENV APACHE_HTTPS_PORT_NUMBER=8143
EXPOSE 8181 8143
Based on the extended image, you can use a Docker Compose file like the one below to add other features:
version: '2'
services:
mariadb:
image: 'bitnami/mariadb:10.3'
volumes:
- 'mariadb_data:/bitnami'
environment:
- MARIADB_USER=bn_wordpress
- MARIADB_DATABASE=bitnami_wordpress
- ALLOW_EMPTY_PASSWORD=yes
wordpress:
build: .
ports:
- '80:8181'
- '443:8143'
volumes:
- 'wordpress_data:/bitnami'
depends_on:
- mariadb
environment:
- MARIADB_HOST=mariadb
- MARIADB_PORT_NUMBER=3306
- WORDPRESS_DATABASE_USER=bn_wordpress
- WORDPRESS_DATABASE_NAME=bitnami_wordpress
- ALLOW_EMPTY_PASSWORD=yes
volumes:
mariadb_data:
driver: local
wordpress_data:
driver: local
- This image has been adapted so it's easier to customize. See the Customize this image section for more information.
- The Apache configuration volume (
/bitnami/apache
) has been deprecated, and support for this feature will be dropped in the near future. Until then, the container will enable the Apache configuration from that volume if it exists. By default, and if the configuration volume does not exist, the configuration files will be regenerated each time the container is created. Users wanting to apply custom Apache configuration files are advised to mount a volume for the configuration at/opt/bitnami/apache/conf
, or mount specific configuration files individually. - The PHP configuration volume (
/bitnami/php
) has been deprecated, and support for this feature will be dropped in the near future. Until then, the container will enable the PHP configuration from that volume if it exists. By default, and if the configuration volume does not exist, the configuration files will be regenerated each time the container is created. Users wanting to apply custom PHP configuration files are advised to mount a volume for the configuration at/opt/bitnami/php/conf
, or mount specific configuration files individually. - Enabling custom Apache certificates by placing them at
/opt/bitnami/apache/certs
has been deprecated, and support for this functionality will be dropped in the near future. Users wanting to enable custom certificates are advised to mount their certificate files on top of the preconfigured ones at/certs
.
- Users reported that they wanted to import their WordPress database from other installations, such as this ticket. Now, in order to cover this use case, the variable
WORDPRESS_SKIP_INSTALL
can be set to avoid the container launch the WordPress installation wizard.
- For performance and security reasons, Apache will set the
AllowOverride
directive toNone
by default. This means that, instead of using.htaccess
files, all the default directives will be moved to the/opt/bitnami/wordpress/wordpress-htaccess.conf
file. The only downside of this is the compatibility with certain plugins, which would require changes in that file (you would need to mount a modified version ofwordpress-htaccess.conf
compatible with these plugins). If you want to have the default.htaccess
behavior, set theWORDPRESS_HTACCESS_OVERRIDE_NONE
env var tono
.
- wp-cli tool is included in the Docker image. Find it at /opt/bitnami/wp-cli/bin/wp.
We'd love for you to contribute to this container. You can request new features by creating an issue, or submit a pull request with your contribution.
If you encountered a problem running this container, you can file an issue. For us to provide better support, be sure to include the following information in your issue:
- Host OS and version
- Docker version (
$ docker version
) - Output of
$ docker info
- Version of this container (
$ echo $BITNAMI_IMAGE_VERSION
inside the container) - The command you used to run the container, and any relevant output you saw (masking any sensitive information)
Copyright 2015-2019 Bitnami
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.