Мы, участники Laminas, родились и живем в разных странах. У многих из нас есть друзья, родственники и коллеги как в России, так и в Украине. Некоторые из нас родились в России. Некоторые из нас живут в России. У некоторых бабушки и дедушки сражались с фашистами во Второй мировой войне. Здесь никто не поддерживает фашизм.
У одного из нас есть украинская родственница, которая спаслась из дома вместе с сыном. Поезд задержался из-за бомбежки на дороге впереди. У нас есть друзья, которые прячутся в бомбоубежищах. Мы с тревогой ждем весточки от них после воздушных налетов, которые беспорядочно наносят удары и попадают по больницам, школам, детским садам и домам. Мы не берем это из каких-либо СМИ. Мы наблюдаем это напрямую.
Вы доверяете нам достаточно, чтоб использовать наши программы, и мы просим вас довериться нам вновь. Мы нуждаемся в помощи. Выходите и протестуйте против этой бесполезной войны. Остановите кровопролитие. Скажите "Нет войне!"
We at Laminas come from all over the world. Many of us have friends, family and colleagues in both Russia and Ukraine. Some of us were born in Russia. Some of us currently live in Russia. Some have grandparents who fought Nazis in World War II. Nobody here supports fascism.
One team member has a Ukrainian relative who fled her home with her son. The train was delayed due to bombing on the road ahead. We have friends who are hiding in bomb shelters. We anxiously follow up on them after the air raids, which indiscriminately fire at hospitals, schools, kindergartens and houses. We're not taking this from any media. These are our actual experiences.
You trust us enough to use our software. We ask that you trust us to say the truth on this. We need your help. Go out and protest this unnecessary war. Stop the bloodshed. Say "stop the war!"
This project is a Github Action that allows maintainers of open-source projects that follow SemVer to automate the automation of releases.
To use this automation in your own repository, copy the examples/.github
workflows into your own project:
cd /tmp
git clone https://github.com/laminas/automatic-releases.git
cd /path/to/your/project
mkdir -p .github/workflows
# Copy selected flow that fits for your project
cp /tmp/automatic-releases/examples/.github/release-on-milestone-closed.yml .github/workflows
# ... or:
cp /tmp/automatic-releases/examples/.github/release-on-milestone-closed-triggering-release-event.yml .github/workflows
git add .github/workflows
git commit -m "Added release automation"
To get started you need to create a branch for the next release. e.g. if your next milestone will be
3.2.0
a 3.2.x
branch is required.
Then add following secrets to your project or organization:
Secret | Description |
---|---|
GIT_AUTHOR_NAME |
full name of the author of your releases: can be the name of a bot account. |
GIT_AUTHOR_EMAIL |
email address of the author of your releases: can be an email address of a bot account. |
SIGNING_SECRET_KEY |
a password-less private GPG key in ASCII format, to be used for signing your releases: please use a dedicated GPG subkey for this purpose. Unsigned releases are not supported, and won't be supported. See Setting up GPG keys below for help. |
ORGANIZATION_ADMIN_TOKEN |
You have to provide an ORGANIZATION_ADMIN_TOKEN (with a full repo scope), which is a github token with administrative rights over your organization (or regular user project, for non-organization projects), issued by a user that has administrative rights over your project (that's you, if it is your own non-organization repository). This is required for the laminas:automatic-releases:switch-default-branch-to-next-minor command, because changing default branch of a repository currently requires administrative token rights. You can generate a token from your personal access tokens page. |
The GITHUB_TOKEN
secret you see in the examples is automatically created for
you when you enable GitHub Actions. To learn more about how it works, read
"Authenticating with the GITHUB_TOKEN"
in the GitHub Docs.
Workflow permissions for the target repository must be set to Read and Write.
Additionally, you must check the box to "Allow GitHub Actions to create and approve pull requests" in Settings > Actions > General.
You can find the settings in: github.com/ORG-NAME/REPO-NAME/settings/actions
First open your master key for editing (use --list-keys
to find it):
gpg --edit-key "<YOUR MASTER KEY ID>"
Type addkey
and select a type that is for signing, you might be asked about bit size depending on your choice.
When deciding over key expire, avoid setting to never expire, as recommendation of key bits will change over time.
Type save
to persist the new subkey to your master key. Make a note of the Key ID as you will need it in the next step.
Next export the new sub key:
gpg --output private.key --armor --export-secret-subkeys "<SubKey ID>!"
This will be exported to the file private.key
.
The !
at the end is important as it limits the export to just the sub key
Delete the file once you are done and don't share it with anyone else
If your master key is password protected, you will need to remove the password from the subkey before you can add it into github settings. You can skip this if your master key is not password protected.
To remove the password from the subkey, create an ephemeral gpg home directory:
install -d -m 700 gpg-tmp
Ensure that it works with gpg:
gpg --homedir gpg-tmp --list-keys
Import your subkey:
gpg --homedir gpg-tmp --import private.key
Enter edit mode:
gpg --homedir gpg-tmp --edit-key <SubKey ID>
Type passwd
, entering your current password and then set the password to "" to remove it.
The command may give error error changing passphrase: No secret key
when setting empty password.
You should ignore it as the password was really removed.
Type save
to exit edit mode and re-export your subkey:
gpg --homedir gpg-tmp --output private.key --armor --export-secret-subkeys "<SubKey ID>!"
Finally, remove the ephemeral directory:
rm -rf gpg-tmp
You will now need to export your master public key with the new subkey public key to the file public.key
:
gpg --output public.key --armor --export <YOUR MASTER KEY ID>
Then republish it to anywhere that you currently publish your public keys.
To generate a new GPG key use the following command:
gpg2 --full-generate-key
Pick option 4, then type 4096
for key size, select your desired expiry.
Fill out the user information and leave the password blank.
Once generated it will output something like gpg: key <Key ID> marked as ultimately trusted
. Take a note of this Key Id to use in the next step.
Now output the key to the file private.key
in the correct format to put into the environment variable required for setup:
gpg --output private.key --armor --export-secret-key <Key ID>
Delete the file once you are done and don't share it with anyone else
Optionally, you can export the corresponding public key to the file public.key
:
gpg --output public.key --armor --export <Key ID>
You can publish this key on your project webpage to allow users to verify your signed releases. You could sign this new key with your personal key and the keys of other project maintainers to establish its provenance.
Assuming your project has Github Actions enabled, each time you close a milestone, this action will perform all following steps (or stop with an error):
- determine if all issues and pull requests associated with this milestone are closed
- determine if the milestone is named with the SemVer
x.y.z
format - create a changelog by looking at the milestone description and associated issues and pull requests
- select branch
x.y.z
for the release (e.g.1.1.x
for a1.1.0
release) - create a tag named
x.y.z
on the selected branch, with the generated changelog - publish a release named
x.y.z
, with the generated tag and changelog - create (if applicable), a pull request from the selected branch to the next release branch
- create (if necessary) a "next minor" release branch
x.y+1.z
- switch default repository branch to newest release branch
Please read the feature/
specification for more detailed scenarios on how the tool is supposed
to operate.
In this model we operate with release branches (e.g. 1.0.x
, 1.1.x
, 1.2.x
).
This provides a lot of flexibility whilst keeping a single workflow.
The current default release branch should be used. The default branch is always automatically changed after a new release is created.
An example is Mezzio that has 3.2.x
as the current default release branch for simple features and
deprecation notices and 4.0.x
for the next major release.
Bug fixes should be applied on the version which introduced the issue and then synchronized all way to the current default release branch via merge-ups.
When releasing a new version x.y.z
, a new branch will be created x.y+1.z
and will be set as the next
default release branch. If a hotfix x.y.z+1
is released, a merge-up branch is automatically created.
To keep branches synchronized merge-ups are used.
That consists in getting the changes of a specific released branch merged all the way up to the current default branch. This ensures that all release branches are up-to-date and will never present a bug which has already been fixed. Merge-up branches are automatically created but needs to be merged manually into the targeted branch.
Let's say we've released the versions 1.0.0
and 1.1.0
.
New features are being developed on 1.2.x
.
After a couple weeks, a bug was found on version 1.0.0
.
The fix for that bug should be done based on the branch 1.0.x
and, once merged, the branches should be updated
in this way:
- Create a PR for the automatically created branch
1.0.x-merge-up-into-1.1.x_*
, using1.1.x
as destination. - Merge the new PR into
1.1.x
. - Create a PR for the automatically created branch
1.1.x-merge-up-into-1.2.x_*
, using1.2.x
as destination. - Merge the new PR into
1.2.x
.
- Update your local repository (
git fetch origin
) - Checkout to merge-up branch (
git checkout 1.1.x-merge-up-into-1.2.x_*
) - Sync merge-up branch (
git merge --no-ff origin/1.2.x
) - Solve conflicts (using
git mergetool
or through an IDE) - Resume merge (
git merge --continue
) - Push (
git push
)
If needed you can create a merge-up branch manually: git checkout 1.0.x && git checkout -b 1.0.x-merge-up-into-1.1.x
Because the tokens generated by GitHub Actions are considered OAuth tokens, they are incapable of triggering further workflow events (see this document for an explanation).
As such, if you want to trigger a release event when automatic-releases runs,
you will need to modify your .github/workflows/release-on-milestone-closed.yml
file to assign the ORGANIZATION_ADMIN_TOKEN
as the value of the
GITHUB_TOKEN
environment variable for the Release
step:
- name: "Release"
uses: "./"
with:
command-name: "laminas:automatic-releases:release"
env:
"GITHUB_TOKEN": ${{ secrets.ORGANIZATION_ADMIN_TOKEN }}