docker-maven
Supported tags and respective Dockerfile links
Images are published under:
csanchez/maven
maven
(linux and extending Docker official images only)ghcr.io/carlossg/maven
(linux only)
Linux Based Images
See Docker Hub or GitHub Container Registry for an updated list of tags
openjdk-8(deprecated)openjdk-8-slim(deprecated)openjdk-11(deprecated)openjdk-11-slim(deprecated)openjdk-17(deprecated)openjdk-17-slim(deprecated)openjdk-18(deprecated)openjdk-18-slim(deprecated)- eclipse-temurin-8
- eclipse-temurin-8-alpine
- eclipse-temurin-8-focal
- eclipse-temurin-11
- eclipse-temurin-11-alpine
- eclipse-temurin-11-focal
- eclipse-temurin-16
- eclipse-temurin-16-alpine
- eclipse-temurin-17
- eclipse-temurin-17-alpine
- eclipse-temurin-17-focal
- eclipse-temurin-20
- eclipse-temurin-20-alpine
- ibm-semeru-11-focal
- ibm-semeru-17-focal
- ibmjava-8
- amazoncorretto-8
- amazoncorretto-11
- amazoncorretto-16
- amazoncorretto-17
- amazoncorretto-20
- amazoncorretto-8-debian
- amazoncorretto-11-debian
- amazoncorretto-17-debian
- amazoncorretto-20-debian
- sapmachine-11
- sapmachine-17
Only under csanchez/maven
and ghcr.io/carlossg/maven
:
- azulzulu-11
- azulzulu-11-alpine
- azulzulu-17
- azulzulu-17-alpine
- libericaopenjdk-11
- libericaopenjdk-11-alpine
- libericaopenjdk-17
- libericaopenjdk-17-alpine
- libericaopenjdk-8
- libericaopenjdk-8-alpine
- microsoft-openjdk-11-ubuntu
- microsoft-openjdk-16-ubuntu
- microsoft-openjdk-17-ubuntu
Windows Based Images
See Docker Hub csanchez/maven
for an updated list of tags
openjdk-8-windowsservercore-1809(deprecated)openjdk-8-nanoserver(deprecated)openjdk-11-windowsservercore-1809(deprecated)openjdk-11-nanoserver(deprecated)- amazoncorretto-8-windowsservercore-1809
- amazoncorretto-11-windowsservercore-1809
- amazoncorretto-15-windowsservercore-1809
- azulzulu-11-windowsservercore-1809
What is Maven?
Apache Maven is a software project management and comprehension tool. Based on the concept of a project object model (POM), Maven can manage a project's build, reporting and documentation from a central piece of information.
How to use this image
You can run a Maven project by using the Maven Docker image directly,
passing a Maven command to docker run
:
Linux
docker run -it --rm --name my-maven-project -v "$(pwd)":/usr/src/mymaven -w /usr/src/mymaven maven:3.3-jdk-8 mvn verify
Windows
docker run -it --rm --name my-maven-project -v "$(Get-Location)":C:/Src -w C:/Src csanchez/maven:3.3-jdk-8-windows mvn verify
Windows
docker run -it --rm --name my-maven-project -v "$(Get-Location)":C:/Src -w C:/Src maven:3.3-jdk-8-windows mvn clean install
Building local Docker image (optional)
This is a base image that you can extend, so it has the bare minimum packages needed. If you add custom package(s) to the Dockerfile
, then you can build your local Docker image like this:
docker build --tag my_local_maven:3.9.3-jdk-8 .
Multi-stage Builds
You can build your application with Maven and package it in an image that does not include Maven using multi-stage builds.
# build
FROM maven
WORKDIR /usr/src/app
COPY pom.xml .
RUN mvn -B -e -C -T 1C org.apache.maven.plugins:maven-dependency-plugin:3.1.2:go-offline
COPY . .
RUN mvn -B -e -o -T 1C verify
# package without maven
FROM openjdk
COPY --from=0 /usr/src/app/target/*.jar ./
Reusing the Maven local repository
The local Maven repository can be reused across containers by creating a volume and mounting it in /root/.m2
.
docker volume create --name maven-repo
docker run -it -v maven-repo:/root/.m2 maven mvn archetype:generate # will download artifacts
docker run -it -v maven-repo:/root/.m2 maven mvn archetype:generate # will reuse downloaded artifacts
Or you can just use your home .m2 cache directory that you share e.g. with your Eclipse/IDEA:
docker run -it --rm -v "$PWD":/usr/src/mymaven -v "$HOME/.m2":/root/.m2 -v "$PWD/target:/usr/src/mymaven/target" -w /usr/src/mymaven maven mvn package
Packaging a local repository with the image
The $MAVEN_CONFIG
dir (default to /root/.m2
or C:\Users\ContainerUser\.m2
) could be configured as a volume so anything copied there in a Dockerfile
at build time is lost. For that reason the dir /usr/share/maven/ref/
(or C:\ProgramData\Maven\Reference
) exists, and anything in that directory will be copied
on container startup to $MAVEN_CONFIG
.
To create a pre-packaged repository, create a pom.xml
with the dependencies you need and use this in your Dockerfile
.
/usr/share/maven/ref/settings-docker.xml
(C:\ProgramData\Maven\Reference\settings-docker.xml
) is a settings file that
changes the local repository to /usr/share/maven/ref/repository
(C:\Programdata\Maven\Reference\repository
),
but you can use your own settings file as long as it uses /usr/share/maven/ref/repository
(C:\ProgramData\Maven\Reference\repository
)
as local repo.
COPY pom.xml /tmp/pom.xml
RUN mvn -B -f /tmp/pom.xml -s /usr/share/maven/ref/settings-docker.xml dependency:resolve
To add your custom settings.xml
file to the image use
COPY settings.xml /usr/share/maven/ref/
For an example, check the tests
dir
Running as non-root (not supported on Windows)
Maven needs the user home to download artifacts to, and if the user does not exist in the image an extra
user.home
Java property needs to be set.
For example, to run as the current user (instead of root), mounting the host Maven repo (at ~/.m2
)
docker run -v ~/.m2:/var/maven/.m2 -it --rm -u $(id -u) -e MAVEN_CONFIG=/var/maven/.m2 maven mvn -Duser.home=/var/maven archetype:generate
Image Variants
The maven
images come in many flavors, each designed for a specific use case.
maven:<version>
This is the defacto image. If you are unsure about what your needs are, you probably want to use this one. It is designed to be used both as a throw away container (mount your source code and start the container to start your app), as well as the base to build other images off of.
Installed Packages
The following packages are currently installed in each variant. Some come from the parent images and some are installed in this image for backwards compatibility.
git | curl | tar | bash | which | gzip | procps | gpg | ssh | |
---|---|---|---|---|---|---|---|---|---|
amazoncorretto-8 | ✔️ | ✔️ | |||||||
amazoncorretto-8-debian | ✔️ | ✔️ | |||||||
amazoncorretto-11 | ✔️ | ✔️ | |||||||
amazoncorretto-11-debian | |||||||||
amazoncorretto-17 | ✔️ | ✔️ | ✔️ | ||||||
amazoncorretto-17-debian | |||||||||
amazoncorretto-20 | ✔️ | ||||||||
amazoncorretto-20-debian | |||||||||
azulzulu-11 | |||||||||
azulzulu-11-alpine | ✔️ | ✔️ | ✔️ | ||||||
azulzulu-17 | ✔️ | ||||||||
azulzulu-17-alpine | ✔️ | ||||||||
eclipse-temurin-8 | ✔️ | ✔️ | |||||||
eclipse-temurin-8-alpine | ✔️ | ✔️ | ✔️ | ||||||
eclipse-temurin-8-focal | ✔️ | ✔️ | ✔️ | ✔️ | ✔️ | ✔️ | |||
eclipse-temurin-11 | ✔️ | ||||||||
eclipse-temurin-11-alpine | ✔️ | ✔️ | |||||||
eclipse-temurin-11-focal | ✔️ | ✔️ | |||||||
eclipse-temurin-17 | |||||||||
eclipse-temurin-17-alpine | ✔️ | ||||||||
eclipse-temurin-17-focal | ✔️ | ✔️ | ✔️ | ✔️ | ✔️ | ||||
eclipse-temurin-20 | ✔️ | ✔️ | ✔️ | ||||||
eclipse-temurin-20-alpine | ✔️ | ✔️ | |||||||
ibm-semeru-11-focal | ✔️ | ||||||||
ibm-semeru-17-focal | ✔️ | ✔️ | ✔️ | ✔️ | |||||
ibmjava-8 | ✔️ | ✔️ | |||||||
libericaopenjdk-8 | ✔️ | ✔️ | |||||||
libericaopenjdk-8-alpine | ✔️ | ||||||||
libericaopenjdk-8-debian | ✔️ | ✔️ | ✔️ | ||||||
libericaopenjdk-11 | ✔️ | ||||||||
libericaopenjdk-11-alpine | ✔️ | ✔️ | ✔️ | ||||||
libericaopenjdk-11-debian | ✔️ | ||||||||
libericaopenjdk-17 | ✔️ | ||||||||
libericaopenjdk-17-alpine | ✔️ | ✔️ | ✔️ | ||||||
libericaopenjdk-17-debian | ✔️ | ||||||||
microsoft-openjdk-11-ubuntu | ✔️ | ||||||||
microsoft-openjdk-16-ubuntu | ✔️ | ✔️ | |||||||
microsoft-openjdk-17-ubuntu | ✔️ | ✔️ | ✔️ | ||||||
sapmachine-11 | ✔️ | ✔️ | |||||||
sapmachine-17 | ✔️ | ✔️ | ✔️ |
Image Verification
Images under csanchez/maven
and ghcr.io/carlossg/maven
are signed with sigstore/cosign
using GitHub OIDC
Verification can be done with cosign verify
Example:
COSIGN_EXPERIMENTAL=true cosign verify csanchez/maven:3-eclipse-temurin-17
Building
Build with the usual
docker build -t maven .
Tests are written using bats for Linux images and pester for Windows images
(requires Pester 4.x) under the tests
dir.
Use the env var TAG to choose what image to run tests against.
Linux
TAG=eclipse-temurin-17 bats tests
Windows
$env:TAG="openjdk-11" ; Invoke-Pester -Path tests
or run all the tests with
Linux
for dir in $(/bin/ls -1 -d */ | grep -v 'tests\|windows'); do TAG=$(basename $dir) bats tests; done
Windows
Get-ChildItem -File -Include "*windows*" | ForEach-Object { Push-Location ; $env:TAG=$_.Name ; Invoke-Pester -Path tests ; Pop-Location }
Bats can be easily installed with brew install bats-core
on OS X.
Note that you may first need to:
git submodule init
git submodule update
Pester comes with most modern Windows (Windows 10 and Windows Server 2019), but is an older version than required. You may need to follow this tutorial on upgrading Pester to 4.x.
Adding New Images
- Copy an existing dir (other than
eclipse-temurin-11
) to the new name and updateDockerfile
as needed. - Update
README.md
to include the new image and table with packages installed in that image. - Run
github-action-generation.sh
to generate new GitHub Actions for the new image - When adding a new JDK then it also needs to be added to the beginning of
common.sh
- When a parent image changes the
latest
tag to a new JDK version it can be updated incommon.sh
Publishing to Docker Hub
In order to publish the images a PR needs to be opened against docker-library/official-images
For that we use publish.sh
that runs generate-stackbrew-library.sh
License
View license information for the software contained in this image.
User Feedback
Issues
If you have any problems with or questions about this image, please contact us through a GitHub issue.
You can also reach many of the official image maintainers via the #docker-library
IRC channel on Freenode.
Contributing
You are invited to contribute new features, fixes, or updates, large or small; we are always thrilled to receive pull requests, and do our best to process them as fast as we can.
Before you start to code, we recommend discussing your plans through a GitHub issue, especially for more ambitious contributions. This gives other contributors a chance to point you in the right direction, give you feedback on your design, and help you find out if someone else is working on the same thing.