Docker-LAMP is a set of docker images that include the phusion baseimage (16.04 and 18.04 varieties), along with a LAMP stack (Apache, MySQL and PHP) all in one handy package.
With Ubuntu 18.04 amd 16.04 images on the latest-1804
and latest-1604
tags, Docker-LAMP is flexible enough to use with all of your LAMP projects.
- Introduction
- Image Versions
- Using the image
- Adding your own content
- Developing the image
- Inspiration
- Contributing
- License
As a developer, part of my day to day role is to build LAMP applications. I searched in vein for an image that had everything I wanted, up-to-date packages, a simple interface, good documentation and active support.
To complicate things even further I needed an image, or actually two, that would run my applications on both 14.04 and 16.04. Having two entirely separate workflows didn't make any sense to me, and Docker-LAMP was born.
Designed to be a single interface that just 'gets out of your way', and works on 14.04 and 16.04 with php 5 and 7. You can move between all 4 images without changing how you work with Docker.
NOTE: PHP 5.6 is end of life, so the PHP 5 images
mattrayner/lamp:latest-1404-php5
andmattrayner/lamp:latest-1604-php5
will not receive any updates. Although these images will stay on Docker Hub, we strongly recommend updating you applications to PHP7.
NOTE: The 14.04 variant of this image is no longer being actively supported for updated
There are 3 main 'versions' of the docker image. The table below shows the different tags you can use, along with the PHP, MySQL and Apache versions that come with it.
Component | latest-1404 |
latest-1604 |
latest-1804 |
---|---|---|---|
Apache | 2.4.7 |
2.4.18 |
2.4.29 |
MySQL | 5.5.62 |
5.7.29 |
5.7.29 |
PHP | 7.3.3 |
7.4.3 |
7.4.3 |
phpMyAdmin | 4.8.5 |
5.0.1 |
5.0.1 |
This is the quickest way
# Launch a 18.04 based image
docker run -p "80:80" -v ${PWD}/app:/app mattrayner/lamp:latest-1804
# Launch a 16.04 based image
docker run -p "80:80" -v ${PWD}/app:/app mattrayner/lamp:latest-1604
# Launch a 14.04 based image
docker run -p "80:80" -v ${PWD}/app:/app mattrayner/lamp:latest-1404
FROM mattrayner/lamp:latest-1804
# Your custom commands
CMD ["/run.sh"]
By default, the image comes with a root
MySQL account that has no password. This account is only available locally, i.e. within your application. It is not available from outside your docker image or through phpMyAdmin.
When you first run the image you'll see a message showing your admin
user's password. This user can be used locally and externally, either by connecting to your MySQL port (default 3306) and using a tool like MySQL Workbench or Sequel Pro, or through phpMyAdmin.
If you need this login later, you can run docker logs CONTAINER_ID
and you should see it at the top of the log.
So your application needs a database - you have two options...
- PHPMyAdmin
- Command line
Docker-LAMP comes pre-installed with phpMyAdmin available from http://DOCKER_ADDRESS/phpmyadmin
.
NOTE: you cannot use the root
user with PHPMyAdmin. We recommend logging in with the admin user mentioned in the introduction to this section.
First, get the ID of your running container with docker ps
, then run the below command replacing CONTAINER_ID
and DATABASE_NAME
with your required values:
docker exec CONTAINER_ID mysql -uroot -e "create database DATABASE_NAME"
The 'easiest' way to add your own content to the lamp image is using Docker volumes. This will effectively 'sync' a particular folder on your machine with that on the docker container.
The below examples assume the following project layout and that you are running the commands from the 'project root'.
/ (project root)
/app/ (your PHP files live here)
/mysql/ (docker will create this and store your MySQL data here)
In english, your project should contain a folder called app
containing all of your app's code. That's pretty much it.
The below command will run the docker image mattrayner/lamp:latest
interactively, exposing port 80
on the host machine with port 80
on the docker container. It will then create a volume linking the app/
directory within your project to the /app
directory on the container. This is where Apache is expecting your PHP to live.
docker run -i -t -p "80:80" -v ${PWD}/app:/app mattrayner/lamp:latest
The below command will run the docker image mattrayner/lamp:latest
, creating a mysql/
folder within your project. This folder will be linked to /var/lib/mysql
where all of the MySQL files from container lives. You will now be able to stop/start the container and keep your database changes.
You may also add -p 3306:3306
after -p 80:80
to expose the mysql sockets on your host machine. This will allow you to connect an external application such as SequelPro or MySQL Workbench.
docker run -i -t -p "80:80" -v ${PWD}/mysql:/var/lib/mysql mattrayner/lamp:latest
The below command is our 'recommended' solution. It both adds your own PHP and persists database files. We have created a more advanced alias in our .bash_profile
files to enable the short commands ldi
and launchdocker
. See the next section for an example.
docker run -i -t -p "80:80" -v ${PWD}/app:/app -v ${PWD}/mysql:/var/lib/mysql mattrayner/lamp:latest
The below example can be added to your ~/.bash_profile
file to add the alias commands ldi
and launchdocker
. By default it will launch the 16.04 image - if you need the 14.04 image, simply change the docker run
command to use mattrayner/lamp:latest-1404
instead of mattrayner/lamp:latest
.
# A helper function to launch docker container using mattrayner/lamp with overrideable parameters
#
# $1 - Apache Port (optional)
# $2 - MySQL Port (optional - no value will cause MySQL not to be mapped)
function launchdockerwithparams {
APACHE_PORT=80
MYSQL_PORT_COMMAND=""
if ! [[ -z "$1" ]]; then
APACHE_PORT=$1
fi
if ! [[ -z "$2" ]]; then
MYSQL_PORT_COMMAND="-p \"$2:3306\""
fi
docker run -i -t -p "$APACHE_PORT:80" $MYSQL_PORT_COMMAND -v ${PWD}/app:/app -v ${PWD}/mysql:/var/lib/mysql mattrayner/lamp:latest
}
alias launchdocker='launchdockerwithparams $1 $2'
alias ldi='launchdockerwithparams $1 $2'
# Launch docker and map port 80 for apache
ldi
# Launch docker and map port 8080 for apache
ldi 8080
# Launch docker and map port 3000 for apache along with 3306 for MySQL
ldi 3000 3306
# Clone the project from Github
git clone https://github.com/mattrayner/docker-lamp.git
cd docker-lamp
# Build the images
docker build -t=mattrayner/lamp:latest -f ./1804/Dockerfile .
docker build -t=mattrayner/lamp:latest-1604 -f ./1604/Dockerfile .
docker build -t=mattrayner/lamp:latest-1804 -f ./1804/Dockerfile .
# Run the image as a container
docker run -d -p "3000:80" mattrayner/lamp:latest-1804
# Sleep to allow the container to boot
sleep 5
# Curl out the contents of our new container
curl "http://$(docker-machine ip):3000/"
We use docker-compose
to setup, build and run our testing environment. It allows us to offload a large amount of the testing overhead to Docker, and to ensure that we always test our image in a consistent way that's not affected by the host machine.
We've developed a single-line test command you can run on your machine within the docker-lamp
directory. This will test any changes that may have been made, as well as comparing installed versions of Apache, MySQL, PHP and phpMyAdmin against those expected.
docker-compose -f docker-compose.test.yml -p ci build; docker-compose -f docker-compose.test.yml -p ci up -d; cd tests && ./test.sh; echo "Exited with status code: $?";
So what does this command do?
First, build that latest version of our docker-compose images.
Launch our docker containers (web1804
and web1604
) in daemon mode.
Change into the test directory and run out tests
Report back whether the tests passed or not
This image was originally based on dgraziotin/lamp, with a few changes to make it compatible with the Concrete5 CMS.
I also changed the setup to create ubuntu (well, baseimage, but you get what I'm saying) images so that this project could be as useful as possible to as many people as possible.
If you wish to submit a bug fix or feature, you can create a pull request and it will be merged pending a code review.
- Clone/fork it
- Create your feature branch (git checkout -b my-new-feature)
- Commit your changes (git commit -am 'Add some feature')
- Test your changes using the steps in Testing
- Push to the branch (git push origin my-new-feature)
- Create a new Pull Request
Docker-LAMP is licensed under the Apache 2.0 License.