docker-ros automatically builds minimal container images of ROS applications.
Important
This repository is open-sourced and maintained by the Institute for Automotive Engineering (ika) at RWTH Aachen University.
DevOps, Containerization and Orchestration of Software-Defined Vehicles are some of many research topics within our Vehicle Intelligence & Automated Driving domain.
If you would like to learn more about how we can support your DevOps or automated driving efforts, feel free to reach out to us!
    Timo Woopen - Manager Research Area Vehicle Intelligence & Automated Driving
    +49 241 80 23549
    [email protected]
We recommend to use docker-ros in combination with our other tools for Docker and ROS.
- docker-ros-ml-images provides machine learning-enabled ROS Docker images
- docker-run is a CLI tool for simplified interaction with Docker images
docker-ros provides a generic Dockerfile that can be used to build development and deployment Docker images for arbitrary ROS packages or package stacks. Building such images can easily be automated by integrating docker-ros into CI through the provided GitHub action or GitLab CI template. The development image built by docker-ros contains all required dependencies and the source code of your ROS-based repository. The deployment image only contains dependencies and the compiled binaries created by building the ROS packages in the repository. docker-ros is also able to build multi-arch Docker images for amd64 and arm64 architectures.
The Dockerfile performs the following steps to build these images:
- All dependency repositories that are defined in a
.reposfile anywhere in the repository are cloned using vcstool. - (optional) Packages blacklisted in a special file
blacklisted-packages.txtare removed from the workspace (see Advanced Dependencies). - The ROS dependencies listed in each package's
package.xmlare installed by rosdep. - (optional) Additional apt dependencies from a special file
additional-debs.txtare installed, if needed (see Advanced Dependencies). - (optional) Additional pip requirements from a special file
additional-pip-requirements.txtare installed, if needed (see Advanced Dependencies). - (optional) A special folder
additional-files/is copied into the images, if needed (see Advanced Dependencies). - (optional) A special script
custom.shis executed to perform further arbitrary installation commands, if needed (see Advanced Dependencies). - (deployment) All ROS packages are built using
catkin(ROS) orcolcon(ROS2). - (deployment) A custom launch command is configured to run on container start.
docker-ros is made for automated execution in GitHub or GitLab CI pipelines. For local execution, see Build images locally.
GitHub
GitHub offers free minutes on GitHub-hosted runners executing GitHub Actions, see here. No further setup is required other than integrating docker-ros into your repository, see Usage.
Note that GitHub is currently only offering Linux runners based on the amd64 architecture. docker-ros can also build multi-arch Docker images solely on the amd64 platform through emulation, but performance can be improved greatly by deploying self-hosted runners for the arm64 platform.
GitLab
Note
GitLab offers free minutes on GitLab-hosted runners executing GitLab CI pipelines on gitlab.com, see here. On self-hosted GitLab instances, you can set up self-hosted runners, see here.
Note that GitLab is currently only offering Linux runners based on the amd64 architecture. docker-ros can also build multi-arch Docker images solely on the amd64 platform through emulation, but performance can be improved greatly by deploying self-hosted runners for the arm64 platform.
docker-ros can easily be integrated into any GitHub or GitLab repository containing ROS packages. Example integrations can be found in the following sections. Configuration options can be found here. For local execution, see Build images locally.
GitHub
docker-ros provides a GitHub action that can simply be added to a job via the jobs.<job_id>.steps[*].uses keyword. A quick start for GitHub Actions is found here.
GitLab
docker-ros provides a GitLab CI template that can simply be included in a .gitlab-ci.yml file. A quick start for GitLab CI is found here.
GitHub
on: push
jobs:
docker-ros:
runs-on: ubuntu-latest
steps:
- uses: ika-rwth-aachen/[email protected]
with:
base-image: rwthika/ros2:humble
command: ros2 run my_pkg my_nodeGitLab
include:
- remote: https://raw.githubusercontent.com/ika-rwth-aachen/docker-ros/v1.3.1/.gitlab-ci/docker-ros.yml
variables:
BASE_IMAGE: rwthika/ros2:humble
COMMAND: ros2 run my_pkg my_nodeGitHub
on: push
jobs:
docker-ros:
runs-on: ubuntu-latest
steps:
- uses: ika-rwth-aachen/[email protected]
with:
base-image: rwthika/ros2:humble
command: ros2 run my_pkg my_node
target: dev,runGitLab
include:
- remote: https://raw.githubusercontent.com/ika-rwth-aachen/docker-ros/v1.3.1/.gitlab-ci/docker-ros.yml
variables:
BASE_IMAGE: rwthika/ros2:humble
COMMAND: ros2 run my_pkg my_node
TARGET: dev,runGitHub
on: push
jobs:
docker-ros:
runs-on: ubuntu-latest
steps:
- uses: ika-rwth-aachen/[email protected]
with:
base-image: rwthika/ros2:humble
command: ros2 run my_pkg my_node
target: dev,run
platform: amd64,arm64GitLab
include:
- remote: https://raw.githubusercontent.com/ika-rwth-aachen/docker-ros/v1.3.1/.gitlab-ci/docker-ros.yml
variables:
BASE_IMAGE: rwthika/ros2:humble
COMMAND: ros2 run my_pkg my_node
TARGET: dev,run
PLATFORM: amd64,arm64GitHub
on: push
jobs:
docker-ros:
runs-on: ubuntu-latest
steps:
- uses: ika-rwth-aachen/[email protected]
with:
base-image: rwthika/ros2:humble
command: ros2 run my_pkg my_node
enable-industrial-ci: 'true'GitLab
include:
- remote: https://raw.githubusercontent.com/ika-rwth-aachen/docker-ros/v1.3.1/.gitlab-ci/docker-ros.yml
variables:
BASE_IMAGE: rwthika/ros2:humble
COMMAND: ros2 run my_pkg my_node
ENABLE_INDUSTRIAL_CI: 'true'GitHub
on: push
jobs:
docker-ros:
strategy:
matrix:
target: [dev, run]
platform: [amd64, arm64]
runs-on: [self-hosted, "${{ matrix.platform }}"]
steps:
- uses: ika-rwth-aachen/[email protected]
with:
base-image: rwthika/ros2:humble
command: ros2 run my_pkg my_node
target: ${{ matrix.target }}
platform: ${{ matrix.platform }}
enable-singlearch-push: true
# TODO: manifestGitLab
# TODOdocker-ros can build Docker images locally by executing the build.sh script.
- Clone docker-ros as a Git submodule to
docker/docker-rosin your repository.# ros-repository/ mkdir -p docker git submodule add https://github.com/ika-rwth-aachen/docker-ros.git docker/docker-ros - Configure the build using the same environment variables as used for GitLab CI and run
build.sh, e.g.:# ros-repository/ BASE_IMAGE="rwthika/ros2:humble" \ COMMAND="ros2 run my_pkg my_node" \ IMAGE="my-image:latest" \ ./docker/docker-ros/scripts/build.sh
Note
You can alternatively store your environment variable configuration in a.envfile:# .env BASE_IMAGE="rwthika/ros2:humble" COMMAND="ros2 run my_pkg my_node" IMAGE="my-image:latest"
In order to keep things organized, we recommend to place all docker-ros related files in a docker folder on top repository level.
Most of the steps listed in About and below can be toggled between recursive and non-recursive mode, see Configuration Variables. This usually means that not only special files on the top-level are considered (e.g., docker/additional-requirements.txt), but also files with the same name (e.g., additional-requirements.txt) that are found anywhere in the workspace, even after cloning the upstream repositories in step 1.
If your ROS-based repository (or any of your repository's upstream dependencies, see .repos) contains ROS packages that should neither be built nor be used for determining dependencies, you can blacklist those in a special blacklisted-packages.txt file.
Create a file blacklisted-packages.txt in your docker folder (or configure a different BLACKLISTED_PACKAGES_FILE) and list any ROS package name to blacklist.
If your ROS-based repository requires system dependencies that cannot be installed by specifying their rosdep keys in a package.xml, you can use a special additional-debs.txt file.
Create a file additional-debs.txt in your docker folder (or configure a different ADDITIONAL_DEBS_FILE) and list any other dependencies that need to be installed via apt.
If your ROS-based repository requires Python dependencies that cannot be installed by specifying their rosdep keys in a package.xml, you can use a special additional-pip-requirements.txt file.
Create a file additional-pip-requirements.txt in your docker folder (or configure a different ADDITIONAL_PIP_FILE) and list any other Python dependencies that need to be installed via pip.
If your ROS-based repository requires to execute any other installation or pre-/post-installation steps, you can use a special custom.sh script.
Create a script custom.sh in your docker folder (or configure a different CUSTOM_SCRIPT_FILE) that executes arbitrary commands as part of the image building process.
If you need to have additional files present in the deployment image, you can use a special additional-files folder. The folder contents will be copied into the container before the custom installation script custom.sh is executed.
Create a folder additional-files in your docker folder (or configure a different ADDITIONAL_FILES_DIR) and place any files or directories in it. The contents will be copied to /docker-ros/additional-files in the image.
Note
GitHub Action input | GitLab CI environment variable
additional-debs-file|ADDITIONAL_DEBS_FILE
Relative filepath to file containing additional apt deb packages to install
default:docker/additional-debs.txtadditional-files-dir|ADDITIONAL_FILES_DIR
Relative path to directory containing additional files to copy into image
default:docker/additional-filesadditional-pip-file|ADDITIONAL_PIP_FILE
Relative filepath to file containing additional pip packages to install
default:docker/additional-pip-requirements.txtbase-image|BASE_IMAGE
Base imagename:tag
requiredblacklisted-packages-file|BLACKLISTED_PACKAGES_FILE
Relative filepath to file containing blacklisted packages
default:docker/blacklisted-packages.txtbuild-context|BUILD_CONTEXT
Build context of Docker build process
default:${{ github.workspace }}|.command|COMMAND
Launch command of run image
required iftarget=runcustom-script-file|CUSTOM_SCRIPT_FILE
Relative filepath to script containing custom installation commands
default:docker/custom.shdev-image-name|DEV_IMAGE_NAME
Image name of dev image
default:<IMAGE_NAME>dev-image-tag|DEV_IMAGE_TAG
Image tag of dev image
default:<IMAGE_TAG>-dev-|DOCKER_ROS_GIT_REF
Git reference of docker-ros to run in CI
default:mainenable-checkout|-
Enable checkout action to (re-)download your repository prior to running the pipeline
default:trueenable-checkout-submodules|-
Enable submodules for the checkout action (false|true|recursive)
default:recursiveenable-checkout-lfs|-
Enable Git LFS support for the checkout action
default:trueenable-industrial-ci|ENABLE_INDUSTRIAL_CI
Enable industrial_ci
default:falseenable-push-as-latest|ENABLE_PUSH_AS_LATEST
Push images with taglatest/latest-devin addition to the configured image names
default:falseenable-singlearch-push|ENABLE_SINGLEARCH_PUSH
Enable push of single arch images with-amd64/-arm64postfix
default:falsegit-https-password|GIT_HTTPS_PASSWORD
Password for cloning private Git repositories via HTTPS
default:${{ github.token }}|$CI_JOB_TOKENgit-https-server|GIT_HTTPS_SERVER
Server URL (without protocol) for cloning private Git repositories via HTTPS
default:github.com|$CI_SERVER_HOST:$CI_SERVER_PORTgit-https-user|GIT_HTTPS_USER
Username for cloning private Git repositories via HTTPS
default:${{ github.actor }}|gitlab-ci-tokenenable-recursive-additional-debs|ENABLE_RECURSIVE_ADDITIONAL_DEBS
Enable recursive discovery of files namedadditional-debs-file
default:falseenable-recursive-additional-pip|ENABLE_RECURSIVE_ADDITIONAL_PIP
Enable recursive discovery of files namedadditional-pip-file
default:falseenable-recursive-blacklisted-packages|ENABLE_RECURSIVE_BLACKLISTED_PACKAGES
Enable recursive discovery of files namedblacklisted-packages-file
default:falseenable-recursive-custom-script|ENABLE_RECURSIVE_CUSTOM_SCRIPT
Enable recursive discovery of files namedcustom-script-file
default:falseenable-recursive-vcs-import|ENABLE_RECURSIVE_VCS_IMPORT
Enable recursive discovery of files named*.repos
default:truegit-ssh-known-host-keys|GIT_SSH_KNOWN_HOST_KEYS
Known SSH host keys for cloning private Git repositories via SSH (may be obtained usingssh-keyscan)git-ssh-private-key|GIT_SSH_PRIVATE_KEY
SSH private key for cloning private Git repositories via SSHimage-name|IMAGE_NAME
Image name of run image
default:ghcr.io/${{ github.repository }}|$CI_REGISTRY_IMAGEimage-tag|IMAGE_TAG
Image tag of run image default:latestplatform|PLATFORM
Target platform architecture (comma-separated list)
default: runner architecture |amd64supported values:amd64,arm64registry|REGISTRY
Docker registry to push images to
default:ghcr.io|$CI_REGISTRYregistry-password|REGISTRY_PASSWORD
Docker registry password
default:${{ github.token }}|$CI_REGISTRY_PASSWORDregistry-user|REGISTRY_USER
Docker registry username
default:${{ github.actor }}|$CI_REGISTRY_USERrmw-implementation|RMW_IMPLEMENTATION
ROS 2 middleware implementation
default:rmw_cyclonedds_cpp
supported values:rmw_fastrtps_cpp,rmw_cyclonedds_cpp,rmw_gurumdds_cpp, ...ros-distro|ROS_DISTRO
ROS Distro
required if ROS is not installed inbase-image
supported values:rolling, ...,noetic, ...target|TARGET
Target stage of Dockerfile (comma-separated list)
default:runsupported values:dev,runvcs-import-file|VCS_IMPORT_FILE
Relative filepath to file containing additional repos to install via vcstools (only relevant ifenable-recursive-vcs-import=false)
default:.repos