--- title: Release management license: 'CC-BY-SA-4.0' --- ## Release cycle See [the release schedule](../../admin/release-schedule). ### Stable release support Bug fixes and security fixes are backported to the latest stable release. ### Long Term Support (LTS) The first quarter release of the year is LTS. Critical bug fixes and security fixes are backported to the latest LTS release. ### Experimental releases Experimental releases are published daily in [forgejo-experimental](https://codeberg.org/forgejo-experimental/) organization. They are built from the tip of the branch of each stable release. For instance: - `forgejo` is `X.Y-test` where `X.Y` is the major and minor number of the next stable release. - `v8.0/forgejo` is `8.0-test` - `v7.0/forgejo` is `7.0-test` ## Release numbering The Forgejo release numbers are compliant with [Semantic Versioning](https://semver.org/). They are followed by the Gitea release number with which they compatible. For instance: - Forgejo **v7.0.5+gitea-1.21.0** is compatible with Gitea **v1.21.0**. The release candidates are built of the stable branch and published with the **-test** suffix: - Forgejo **v7.0-test** - Forgejo **v8.0-test** - Forgejo **v8.1-test** - etc. ## Stable release process - Three weeks before the release date announce a feature freeze during which only bug fixes can be merged - Create a new issue based on the checklist of the previous release ([for instance v8.0.0](https://codeberg.org/forgejo/forgejo/issues/4153)) and follow the same steps ### Forgejo release building and testing When Forgejo is released, artefacts (packages, binaries, etc.) are first published by the CI/CD pipelines in the https://codeberg.org/forgejo-experimental organization, to be downloaded and verified to work. - Locally set the vX.Y.Z tag to the tip of the https://codeberg.org/forgejo/forgejo/vX.Y/forgejo branch - Push the vX.Y.Z tag to https://codeberg.org/forgejo-integration/forgejo It will trigger a [build workflow](https://codeberg.org/forgejo/forgejo/src/branch/forgejo/.forgejo/workflows/build-release.yml) that: - Builds binaries and uploaded them to https://codeberg.org/forgejo-integration/forgejo/releases - Builds container images and uploaded them to https://codeberg.org/forgejo-integration/-/packages/container/forgejo/versions If the build fails, the logs of the workflow can be found in https://codeberg.org/forgejo-integration/forgejo/actions for debugging. Once the build is successful, it must be copied to https://codeberg.org/forgejo-experimental. - Push the vX.Y.Z tag to https://codeberg.org/forgejo-experimental/forgejo It will trigger a [publish workflow](https://codeberg.org/forgejo/forgejo/src/branch/forgejo/.forgejo/workflows/publish-release.yml) that: - Copies the binaries from https://codeberg.org/forgejo-integration/forgejo/releases to https://codeberg.org/forgejo-experimental/forgejo/releases - Copies the container images from https://codeberg.org/forgejo-integration/-/packages/container/forgejo/versions to https://codeberg.org/forgejo-experimental/-/packages/container/forgejo/versions To verify the container images, the [end-to-end](https://code.forgejo.org/forgejo/end-to-end) integration tests can be used. Push a branch with [the location of the release under test](https://code.forgejo.org/forgejo/end-to-end/src/branch/main/.forgejo/workflows/actions.yml) to run a collection of test workflows. Reach out to packagers and users to manually verify the release works as expected. ## LTS toolchain upgrades The Forgejo toolchain relies on Go OCI images based on Alpine. Only the [last two Alpine versions are supported](https://github.com/docker-library/golang/commit/cf7a37dedf1fd5a25ca72075645368d1e3c30c4a) and will be EOL before the Forgejo LTS. In order to receive security updates the toolchain needs to be upgraded to a supported Alpine and Go version because it goes EOL. ## Automated experimental releases The Forgejo development and stable branches are [pushed daily to the forgejo-integration](https://codeberg.org/forgejo/forgejo/src/branch/forgejo/.forgejo/workflows/mirror.yml). It triggers the [release build workflow](https://codeberg.org/forgejo/forgejo/src/branch/forgejo/.forgejo/workflows/build-release.yml) which creates a new release for each updated branch, based on their latest commit: - the `forgejo` branch creates the `X.Y-test` release where `X.Y` is based on the most recent tag. For instance: - the tag `v8.0.0-dev` will create the `8.0-test` release - the tag `v8.1.0-dev` will create the `8.1-test` release - the `v*/forgejo` branches create `X.Y-test` releases where `X.Y` is based on their name. For instance: - the branch `v7.0/forgejo` will create the `7.0-test` release - the branch `v7.1/forgejo` will create the `7.1-test` release ## Forgejo release mirror The https://code.forgejo.org/forgejo/forgejo repository is a read-only mirror [updated daily](https://code.forgejo.org/forgejo/forgejo/src/branch/main/.forgejo/workflows) with the release assets and the branches from https://codeberg.org/forgejo/forgejo. ## Forgejo runner publication - Push the vX.Y.Z tag to https://code.forgejo.org/forgejo/runner The release is built on https://code.forgejo.org/forgejo-integration/runner, which is a mirror of https://code.forgejo.org/forgejo/runner. The release is published on https://forgejo.octopuce.forgejo.org/forgejo/runner, which is a mirror of https://code.forgejo.org/forgejo-integration/runner. It has no public IP and its role is to copy and sign release artifacts. - Binaries are downloaded from https://code.forgejo.org/forgejo-integration/runner, signed and copied to https://code.forgejo.org/forgejo/runner. - Container images are copied from https://code.forgejo.org/forgejo-integration to https://code.forgejo.org/forgejo If publishing the release needs debug, it can be done manually: - https://forgejo.octopuce.forgejo.org/forgejo-release/runner-debug has the same secrets as https://forgejo.octopuce.forgejo.org/forgejo-release/runner - Make the changes, commit them, tag the commit with vX.Y.Z and force push the tag to https://forgejo.octopuce.forgejo.org/forgejo-release/runner-debug. Note that it does not matter that the tag is not on a commit that matches the release because this action only cares about the tag: it does not build any content itself, it copies it from one organization to another. However it matters that it matches a SHA that is found in the destination repository of the release otherwise it won't be able to set the tag (setting a tag on a non-existing sha does not work). - Watch the action run at https://forgejo.octopuce.forgejo.org/forgejo-release/runner-debug/actions - To skip one of the publish phases (binaries or container images), delete it and commit in the repository before pushing the tag - Reflect the changes in a PR at https://code.forgejo.org/forgejo/runner to make sure they are not lost It can also be done from the CLI with `forgejo-runner exec` and providing the secrets from the command line. ## Release signing keys management A GPG master key with no expiration date is created and shared with members of the Owners team via encrypted email. A subkey with a one year expiration date is created and stored in the secrets repository (`openpgp/20??-release-team.gpg`), to be used by the release pipeline. The public master key is stored in the secrets repository and published where relevant (keys.openpgp.org for instance). ### Securing the release token and cryptographic keys For both the Forgejo runner and Forgejo itself, copying and signing the release artifacts (container images and binaries) happen on a Forgejo instance [not publicly accessible](../infrastructure/#octopuce) to safeguard the token that has write access to the Forgejo repository as well as the cryptographic key used to sign the releases. ### Master key creation - gpg --expert --full-generate-key - key type: ECC and ECC option with Curve 25519 as curve - no expiration - id: Forgejo Releases - gpg --export-secret-keys --armor EB114F5E6C0DC2BCDD183550A4B61A2DC5923710 and send via encrypted email to Owners - gpg --export --armor EB114F5E6C0DC2BCDD183550A4B61A2DC5923710 > release-team.gpg.pub - gpg --keyserver keys.openpgp.org --send-keys EB114F5E6C0DC2BCDD183550A4B61A2DC5923710 - commit to the secrets repository ### Subkey creation and renewal - gpg --expert --edit-key EB114F5E6C0DC2BCDD183550A4B61A2DC5923710 - addkey - key type: ECC (signature only) - elliptic curve Curve 25519 - key validity: 18 months - update https://codeberg.org/forgejo/forgejo/issues/58 to schedule the renewal 12 months later - gpg --export --armor EB114F5E6C0DC2BCDD183550A4B61A2DC5923710 > openpgp/release-team.gpg.pub - commit to the secrets repository - gpg --keyserver keys.openpgp.org --send-keys EB114F5E6C0DC2BCDD183550A4B61A2DC5923710 #### Local sanity check From the root of the secrets directory, assuming the master key for EB114F5E6C0DC2BCDD183550A4B61A2DC5923710 is already imported in the keyring. There are a lot of contradictory information regarding the management of subkeys, with zillions ways of doing something that looks like it could work but creates situations that are close to impossible to figure out. Experimenting with the CLI, reading the gpg man page and using common sense is the best way to understand how it works. Reading the documentation or discussions on the net is highly confusing because it is loaded with 20 years of history, most of which is no longer relevant. Here are a few notions that help understand how it works: - `gpg --export-secret-subkeys --armor B3B1F60AC577F2A2!` exports the secret key for the subkey B3B1F60AC577F2A2, the exclamation mark meaning "nothing else". - a `keygrip` is something that each private key has and that can be displayed with `gpg --with-keygrip --list-key`. It matters because each private key is associated with exactly one file in the `private-keys-v1.d` directory which is named after this keygrip. It is the best way to verify an unrelated private key was not accidentally included in the export of the subkey. - when a subkey is created, the public key for the master key must be published again because it includes the public key of this new subkey. - all the instructions that are published to instruct people to verify the signature of a release use the fingerprint of the master key. It will work although the release really is signed by the subkey and not the master key. This is the main benefit of using subkeys as it hides the rotation of the subkeys and does not require updating instructions everywhere every year. - whenever gpg starts working with a new directory, it will launch a gpg-agent daemon that will persist. If this directory is removed manually or modified it will confuse the daemon and the gpg command will misbehave in ways that can be very difficult to understand. When experimenting create a new directory but do not modify the files manually, even though some instructions on the net recommend doing so, for instance to remove a private key. ```sh NEWKEY=???? # # brand new GNUPGHOME, situation similar to the release pipeline # export GNUPGHOME=/tmp/tmpgpg1 ; mkdir $GNUPGHOME ; chmod 700 $GNUPGHOME gpg --import openpgp/$(date +%Y --date='next year')-release-team.gpg find $GNUPGHOME/private-keys-v1.d # only has **one** file named after the keygrip # sign something echo bar > /tmp/foo gpg --detach-sig --output /tmp/foo.asc --default-key $NEWKEY --sign /tmp/foo # # brand new GNUPGHOME: situation similar to someone verifying the release signature is good # export GNUPGHOME=/tmp/tmpgpg1 ; mkdir $GNUPGHOME ; chmod 700 $GNUPGHOME gpg --import release-team.gpg.pub gpg --verify /tmp/foo.asc /tmp/foo ``` #### 2024 - `gpg --export-secret-subkeys --armor B3B1F60AC577F2A2! > openpgp/2024-release-team.gpg` - commit to the secrets repository ## Users, organizations and repositories ### Shared user: forgejo-cascading-pr The [forgejo-cascading-pr](https://codeberg.org/forgejo-cascading-pr) user opens pull requests on behalf of other repositories by way of the [cascading-pr action](https://code.forgejo.org/actions/cascading-pr/). It is a regular user, not part of any team. It is only used for that purpose for security reasons. ### Dedicated user: forgejo-backport-action The [forgejo-backport-action](https://codeberg.org/forgejo-backport-action) user opens backport pull requests on the forgejo repository. It is a member of the mergers team. The associated email is mailto:forgejo-backport-action@forgejo.org. ### Shared user: release-team The [release-team](https://codeberg.org/release-team) user publishes and signs all releases. The associated email is mailto:release@forgejo.org. The public GPG key used to sign the releases is [EB114F5E6C0DC2BCDD183550A4B61A2DC5923710](https://codeberg.org/release-team.gpg) `Forgejo Releases ` ### Shared user: forgejo-experimental-ci The [forgejo-experimental-ci](https://codeberg.org/forgejo-experimental-ci) user is dedicated to provide the application tokens used by the CI to build releases and publish them to https://codeberg.org/forgejo-experimental. It does not (and must not) have permission to publish releases at https://codeberg.org/forgejo. ### Dedicated user: forgejo-renovate-action The [forgejo-renovate-action](https://codeberg.org/forgejo-renovate-action) user opens renovate pull requests on the forgejo repository. It is a member of the mergers team. The associated email is mailto:forgejo-renovate-action@forgejo.org. ### Integration and experimental organization The https://codeberg.org/forgejo-integration organization is dedicated to integration testing. Its purpose is to ensure all artefacts can effectively be published and retrieved by the CI/CD pipelines. The https://codeberg.org/forgejo-experimental organization is dedicated to publishing experimental Forgejo releases. They are copied from the https://codeberg.org/forgejo-integration organization. The `forgejo-experimental-ci` user as well as all Forgejo contributors working on the CI/CD pipeline should be owners of both organizations.