The goal of Project Skara is to investigate alternative SCM and code review options for the OpenJDK source code, including options based upon Git rather than Mercurial, and including options hosted by third parties.
This repository contains tooling for working with OpenJDK projects and their repositories. The following CLI tools are available as part of this repository:
- git-jcheck - a backwards compatible Git port of jcheck
- git-webrev - a backwards compatible Git port of webrev
- git-defpath - a backwards compatible Git port of defpath
- git-fork - fork a project on an external Git source code hosting provider to your personal space and optionally clone it
- git-sync - sync the personal fork of the project with the current state of the upstream repository
- git-pr - interact with pull requests for a project on an external Git source code hosting provider
- git-info - show OpenJDK information about commits, e.g. issue links, authors, contributors, etc.
- git-token - interact with a Git credential manager for handling personal access tokens
- git-translate - translate between Mercurial and Git hashes
- git-skara - learn about and update the Skara CLI tools
- git-trees - run a git command in a tree of repositories
- git-publish - publishes a local branch to a remote repository
- git-backport - backports a commit from another repository onto the current branch
There are also CLI tools available for importing OpenJDK Mercurial repositories into Git repositories and vice versa:
- git-openjdk-import
- git-verify-import
- hg-openjdk-import
The following server-side tools (so called "bots") for interacting with external Git source code hosting providers are available:
- hgbridge - continuously convert Mercurial repositories to git
- mlbridge - bridge messages between mailing lists and pull requests
- notify - send email notifications when repositories are updated
- pr - add OpenJDK workflow support for pull requests
- submit - example pull request test runner
- forward - forward commits to various repositories
- mirror - mirror repositories
- merge - merge commits between different repositories and/or branches
- test - test runner
JDK 17 or later and Gradle 7.2 or later is required for building. To build the project on macOS or GNU/Linux x64, just run the following command from the source tree root:
$ sh gradlew
To build the project on Windows x64, run the following command from the source tree root:
> gradlew
The extracted jlinked image will end up in the build
directory in the source
tree root. Note that the above commands will build the CLI tools, if you
also want to build the bot images run sh gradlew images
on GNU/Linux or
gradlew images
on Windows.
If you want to build on an operating system other than GNU/Linux, macOS or Windows or if you want to build on a CPU architecture other than x64, then ensure that you have JDK 17 or later installed locally and JAVA_HOME set to point to it. You can then run the following command from the source tree root:
$ sh gradlew
The extracted jlinked image will end up in the build
directory in the source
tree root.
If you don't want the build to automatically download any dependencies, then you must ensure that you have installed the following software locally:
- JDK 17 or later
- Gradle 7.2 or later
To create a build then run the command:
$ gradle offline
Please note that the above command does not make use of gradlew
to avoid
downloading Gradle.
The extracted jlinked image will end up in the build
directory in the source
tree root.
It is also supported to cross-jlink jimages to GNU/Linux, macOS and/or Windows from any of the aforementioned operating systems. To build all applicable jimages (including the server-side tooling), run the following command from the source tree root:
sh gradlew images
Skara also has a very thin Makefile wrapper for contributors who prefer to build
using make
. To build the jlinked image for the CLI tools using make
, run:
make
There are multiple way to install the Skara CLI tools. The easiest way is to
just include skara.gitconfig
in your global Git configuration file. You can also
install the Skara tools on your $PATH
.
To install the Skara tools, include the skara.gitconfig
Git configuration
file in your user-level Git configuration file. On macOS or
GNU/Linux:
$ git config --global include.path "$PWD/skara.gitconfig"
On Windows:
> git config --global include.path "%CD%/skara.gitconfig"
To check that everything works as expected, run the command git skara help
.
The Skara tools can also be added to $PATH
on GNU/Linux and macOS and Git
will pick them up. You can either just extend $PATH
with the build/bin
directory or you can copy the tools to a location already on $PATH
. To extend
$PATH
with the build/bin
directory, run:
$ sh gradlew
$ export PATH="$PWD/build/bin:$PATH"
To copy the tools to a location already on $PATH
, run:
$ make
$ make install prefix=/path/to/install/location
When running make install
the default value of prefix
is $HOME/.local
.
If you want git help <skara tool>
(or the equivalent man git-<skara tool>
to work, you must also add the build/bin/man
directory to $MANPATH
.
For instance, run this from the Skara top directory to add this to your
.bashrc
file:
echo "export MANPATH=\$MANPATH":$PWD/build/bin/man >> ~/.bashrc
JUnit 5.8.2 or later is required to run the unit tests. To run the tests, execute following command from the source tree root:
$ sh gradlew test
If you prefer to use the Makefile wrapper you can also run:
$ make test
The tests expect Git version 2.19.3 or later and Mercurial 4.7.2 or later to be installed on your system.
This repository also contains a Dockerfile, test.dockerfile
, that allows
for running the tests in a reproducible way with the proper dependencies
configured. To run the tests in this way, run the following command from the
source tree root:
$ sh gradlew reproduce
If you prefer to use the Makefile wrapper you can also run:
$ make reproduce
There are no additional dependencies required for developing Skara if you can already build and test it (see above for instructions). The command-line tools and libraries supports all of GNU/Linux, macOS and Windows and can therefore be developed on any of those operating systems. The bots primarily support macOS and GNU/Linux and may require Windows Subsystem for Linux on Windows.
Please see the sections below for instructions on setting up a particular editor or IDE.
If you choose to use IntelliJ IDEA as your
IDE when working on Skara you can simply open the root folder and the project
should be automatically imported. You will need to configure a Platform SDK that
is JDK 17 or above. Either set this up manually, or build once from
the terminal, which will download a suitable JDK. Configure IntelliJ to use it
at File → Project Structure → Platform Settings → SDKs → + → Add JDK...
and
browse to the downloaded JDK found in <skara-folder>/.jdk/
. For example, on
macOS, select the
<skara-folder>/.jdk/openjdk-17_osx-x64_bin/jdk-17.jdk/Contents/Home
folder.
If you choose to use Vim as your editor when working on Skara then you
probably also want to utilize the Makefile wrapper. The Makefile wrapper enables
to you to run :make
and :make tests
in Vim.
Project Skara's wiki is available at https://wiki.openjdk.org/display/skara.
Issues are tracked in the JDK Bug System under project Skara at https://bugs.openjdk.org/projects/SKARA/.
We are more than happy to accept contributions to the Skara tooling, both via patches sent to the Skara mailing list and in the form of pull requests on GitHub.
See http://openjdk.org/census#skara for the current Skara Reviewers, Committers and Authors. See https://openjdk.org/projects/ for how to become an author, committer or reviewer in an OpenJDK project.
Development discussions take place on the project Skara mailing list
[email protected]
, see
https://mail.openjdk.org/mailman/listinfo/skara-dev for instructions
on how to subscribe of if you want to read the archives. You can also reach
many project Skara developers in the #openjdk
IRC channel on
OFTC, see https://openjdk.org/irc/ for details.
See the file LICENSE
for details.