This repository acts as an index for the ROS distributions. If you would like to add a package to the index you can either index it for just documentation, for binary builds or continuous integration tests. This repository also holds the rosdep rules.
If you would like to add a package for binary release please see the Bloom documentation. Bloom is a tool which will help you do the release as well as open a pull-request for you. It will also assist adding documentation and source entries. There are several helpful tutorials which provide instructions on how to do things like make a first release.
Once you have made a release make sure that you are subscribed to the appropriate subcategory of our Release management Category for the appropriate distros. This is our primary method of communications with maintainers and is where the ROS Boss will coordinate releases. It is expected that all maintainers are watching those categories to allow us to coordinate.
When releasing a new package into a distribution, please follow the naming guidelines set out in the ROS REP 144: ROS Package Naming.
When releasing a new package into a ROS distribution, the reviewers will check that the package has the following characteristics:
- The source repository must be publicly accessible.
- The license should be one of the open-source ones listed in https://opensource.org/licenses (preferably one of the "Popular licenses").
- The license must be reflected in the
package.xml
file of all sub-packages in the repository. - A LICENSE file exists in the source repository. This is because the short identifiers in the
package.xml
file aren't specific enough to unambiguously identify the license. - The source repository should contain one or more ROS packages (meaning they have a
package.xml
in the source repository). Packages that are not ROS packages can be accepted, but they are rare and require special handling in the release repository.
For review simplicity, these rules apply to all packages, even ones that have previously been released into ROS 1 or ROS 2 distributions.
Once a ros/rosdisto
pull request is merged, the package will be built in the ROS build farm.
It is important that the author follow up to verify that the package has successfully built for a particular distribution.
This can be checked via both the distribution status page:
- For a ROS Distribution, use
repositories.ros.org/status_page/
, for example ROS packages for Melodic. - For a ROS 2 Distribution, use
repo.ros2.org/status_page/
, for example ROS packages for Foxy.
Additionally, it may be necessary to determine build failures, these jobs are located at:
If a package continuously fails to build, the ROS Boss for that distribution may choose to revert the pull request that introduced it. Or they may take other actions to avoid repeated failures.
In general you should not override or replace system dependencies from the system distribution with a package in the ROS distribution. This is part of the software engineering process of maintaining the distribution that all developers can rely on specific versions of software to be available and remain consistent within the distribution. If you truly need newer versions of underlying libraries then you can consider targeting a newer ROS distribution that targets a newer platform which hopefully will have a higher version of your necessary dependency. If the necessary version of your dependency isn't available even on the latest platforms, please reach out and encourage the upstream operating systems to move forward to at least your minimum version for the next release of the upstream distributions. By doing this you will make sure that it's available for everyone in the future.
Obviously this is a slow process and doesn’t fix things immediately. There are workarounds such as embedding copies of the libraries into your package or making another package with the newer library version. This usually can be made to work well in your local development environment. However if you want to release this style of workaround into a ROS distribution you must make sure not to break other users who are expecting the system version either in downstream packages or elsewhere on the system.
To release a ROS package which will overlay a system dependency it must:
- Install side by side with the system one, with a different name.
- Not cause compile errors for any packages including downstream ones.
- Not cause linking errors or crashes at runtime for yours or any downstream packages, including ones that use the system version on any of our target platforms.
The release pipeline will only catch the first issue automatically. Manual review is required for the latter two. But in general if you want to do this without being disruptive you need to:
- Adjust paths to avoid installation collisions.
- Change all namespaces to avoid symbol collisions
- Change header paths to not collide with the system ones if you export the include directories
Embedding a copy inside your package, potentially statically linking a version into your executables is another way to do it as well. It’s going to require a non-trivial amount of engineering and modifications to make this possible and most people decide it’s not worth it.
In many situations a common approach for this is to not actually release it onto the public distro and distribute it separately through a side channel. This will allow people to opt into the potentially disruptive change. An example of this is Ubuntu’s PPAs or just instructions for end users to compile from source.
In the case that a package is released into a ROS distribution that is then later available in upstream system distributions when the ROS distribution rolls forward the ROS packages should be removed in favor of relying on the system version. To provide a gentle transition, a placeholder package can be provided that only depends on the rosdep key. This should be considered a deprecated package and dependent packages should switch to use the rosdep key. This transitional package is likely something that should be scoped to be released into rolling only and not be in a subsequent released distribution. It is up to the judgement of the ROS Distro's release manager to make an exception.
If you just want to submit for documentation indexing only this tutorial will get you going.
If you would like to index your package for continuous integration tests you can add a source entry in the same way as the documentation index.
The version
field is required to be a branch name. This is due to the Jenkins Git Plugin that will always trigger if a repository has changed. After querying Cloudbees support they replied with:
The git plugin is configured to build for a tag / sha1 will always trigger a build.
As such the CI on this repository will enforce that the source version is a branch to not cause continuous triggering of builds. Also of note is that a tag has priority over a branch with the same name so a tag with the same name as the branch cannot exist either.
This repository also holds the rosdep keys. There is a guide for submitting rosdep keys here. Updates to rosdep rules require the review of two people. This will usually means that it needs a +1, and then it can be merged by a different person.
For convenience in reviewing, please comment in the PR with links to the web listings of packages such as on http://packages.ubuntu.com, http://packages.debian.org, and https://packages.fedoraproject.org or if a pip package pypi.python.org.
Please also briefly describe the package being added and what use case you want to use it for. It's valuable to have a record of the packages as submitted and their intended purpose for clarity in the future so that if there's a conflict there's information to fall back on instead of speculation about the original use cases.
- Native packages are strongly preferred. (They are required for packaging and have upgrade and conflict tracking.)
- Please use the smallest notation possible. For example if an ubuntu package is the same for all versions only write the generic ubuntu rule, don't call out the same package name for every version of ubuntu. Similarly don't call out indirect dependencies or default options for packages.
- Python packages should go in the
python.yaml
. - Homebrew into
osx-homebrew.yaml
. - Supported Platforms
- Rules can be contributed for any platform. However to be released they must be at least cover the supported platforms in REP 3: http://www.ros.org/reps/rep-0003.html So:
- Ubuntu and Debian are top priority.
- Fedora and Gentoo have packaging jobs and should be filled in if they are available.
- OSX is also nice to have.
- NixOS is not required, but may be added if desired
- If specific versions are called out, there should be coverage of all versions currently targeted by supported ROS distros.
- If there's a new distro in prerelease adding a rule for it is fine. However please don't target 'sid' as it's a rolling target and when the keys change our database gets out of date.
- Rules for EOL Distros will be pruned periodically.
- If you are trying to use an EOL platform for historical purposes, you can access the old rules from tags of the rosdistro when that platform was supported, but there will not be any support or changes. example
- Keep everything in alphabetical order for better merging.
- No trailing whitespace.
- No blank lines.
Keys in the rosdep database are required to come from packages contained in the following repositories only.
- Ubuntu Repositories: Main, Universe, or Multiverse
- ROS Sources: https://wiki.ros.org/Installation/Ubuntu/Sources
- Debian Repositories: Main, Contrib, or Non-Free
- ROS Sources: The Ubuntu guide also works for currently supported Debian distributions: https://wiki.ros.org/Installation/Ubuntu/Sources
- Fedora Project Repositories: release or updates
- CentOS Repositories: base, extras, centos-sclo-rh, or updates
- Additionally, for CentOS 8+: AppStream or PowerTools
- Fedora Project Repositories: epel
TODO
- Gentoo Portage Repository (e.g.
rsync://rsync.us.gentoo.org/gentoo-portage
) - ROS-Overlay:
https://github.com/ros/ros-overlay
If the ebuild you are referencing is not in either of those locations, please file a PR into ROS-Overlay to add it and any needed dependencies to the tree.
Note that pip
cannot be used to install system packages on Gentoo.
If the package is not present in the Gentoo package repository, please create an issue on the https://github.com/ros/ros-overlay repository so that it may be created at a later date, omit the key from the new rosdep rule, and link the created issue in the PR which is adding the rule. Here's a simple example.
Packages must be in the official Archlinux core, extra, or community repositories at the time they are contributed.
Packages in the AUR may not be added directly. Work has been proposed to add a separate installer for AUR packages ros-infrastructure/rosdep#560.
- FreeBSD project pkg repository: main or quarterly
- A database of FreeBSD packages is available at https://freshports.org
- NixOS unstable channel, search available at https://search.nixos.org/packages
- nix-ros-overlay
- openSUSE Repositories: Pool and Updates
- You can search for packages on https://software.opensuse.org
For pip installers they are expected to be in the main PyPI index https://pypi.org/.
When adding rules for python 3 packages, create a separate entry prefixed with python3-
rather than python
For example:
python-foobar:
debian: [python-foobar]
fedora: [python2-foobar]
ubuntu: [python-foobar]
...
python3-foobar:
debian: [python3-foobar]
fedora: [python3-foobar]
ubuntu: [python3-foobar]
You may see existing rules that use _python3
-suffixed distribution codenames.
These were trialed as a possible style of Python 3 rules and should not be used.
_python3
-suffixed keys may be removed when the platform they're targeting reaches end of life.
The guidance above should be followed for new rules.
Additionally, if you rely on a dependency that uses _python3
-suffixed codenames, add a new rule for it that follows the guidance above.
Python packages, which are only available on PyPI, should use the prefix python3-
and suffix -pip
to avoid colliding with future keys from package managers.
For example:
python3-foobar-pip:
ubuntu:
pip:
packages: [foobar]
In contrast to normal python entries, which are often different for python 2 and 3, pip entries for python 2 and 3 are almost always identical.
Hence no new entry would be needed. Though this would leave us with a mess of python3-*
, python-*-pip
and python3-*-pip
entries.
To prevent this, the python3-*-pip
entry should be mapped to the legacy python-*-pip
entry by using yaml anchors and aliases.
(Preferably this was the other way around. So the python3-*-pip
entry containing the contents and the anchor and the legacy python-*-pip
entry being aliased to it.
Though the anchor should be defined before the anchor is used and python3-
entries come after python-
entries in alphabetical order.)
For example:
python-foobar-pip: &migrate_eol_2025_04_30_python3_foobar_pip # Anchor
ubuntu:
pip:
packages: [foobar]
python3-foobar-pip: *migrate_eol_2025_04_30_python3_foobar_pip # Alias
The anchor/alias should be formatted as migrate_eol_<YYYY>_<MM>_<DD>_<NEW_KEY_UNDERSCORED>
.
The EOL date of the entry should match the EOL date of the longest supported current platform.
Some existing rules do not have python-
or python3-
prefixes, but this is no longer recommended.
If the package ever becomes available in Debian or Ubuntu, the python3-
prefix ensures that the pip
key is next to it alphabetically.
The -pip
key should be removed when the package becomes available on all platforms, and all existing users of the -pip
key should migrate to the new key.
As a reminder pip
rules should not be used on Gentoo.
See above for the Gentoo specific guidelines.
Some packages are only available as system packages in newer distributions. In such case, you can specify the default as system package, and pip for older distributions for which the system packages are not available.
For example:
python3-relatively-new-package
ubuntu:
'*': [python3-relatively-new-package]
bionic:
pip:
packages: [relatively-new-package]
When submitting pull requests it is expected that they pass the unit tests for formatting. The unit tests enforce alphabetization of elements and a consistent formatting to keep merging as clean as possible.
If you want to run the tests before submitting, first install the dependencies. Using pip
is recommended.
python3 -m pip install -r test/requirements.txt
To run the tests run nosetests
in the root of the repository.
These tests require several dependencies that can be installed either from the ROS repositories or via pip(list built based on the content of .travis.yaml:
Dependency | Ubuntu package (<=20.04) | Pip package |
---|---|---|
catkin_pkg | python-catkin-pkg | catkin-pkg |
github | python-github | PyGithub |
nose | python-nose | nose |
rosdistro | python-rosdistro | rosdistro |
ros_buildfarm | python-ros-buildfarm | ros-buildfarm |
unidiff | python-unidiff (Zesty and higher) | unidiff |
yamllint | yamllint | yamllint |
There is a tool rosdistro_reformat
which will fix most formatting errors such as alphabetization and correct formatting.
Note: There's a known issue discovered here that most tests won't run if you have the python package nose-unitttest
installed.