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Submitting changes
Making patches
-
Fork the Nixpkgs repository on GitHub.
-
Create a branch for your future fix.
-
You can make branch from a commit of your local
nixos-version
. That will help you to avoid additional local compilations. Because you will receive packages from binary cache. For example$ nixos-version --hash 0998212 $ git checkout 0998212 $ git checkout -b 'fix/pkg-name-update'
-
Please avoid working directly on the
master
branch.
-
-
Make commits of logical units.
-
If you removed pkgs or made some major NixOS changes, write about it in the release notes for the next stable release. For example
nixos/doc/manual/release-notes/rl-2003.xml
. -
Check for unnecessary whitespace with
git diff --check
before committing. -
Format the commit in a following way:
(pkg-name | nixos/<module>): (from -> to | init at version | refactor | etc) Additional information.
- Examples:
nginx: init at 2.0.1
firefox: 54.0.1 -> 55.0
nixos/hydra: add bazBaz option
nixos/nginx: refactor config generation
- Examples:
-
Test your changes. If you work with
-
nixpkgs:
- update pkg
nix-env -iA pkg-attribute-name -f <path to your local nixpkgs folder>
- add pkg
- Make sure it’s in
pkgs/top-level/all-packages.nix
nix-env -iA pkg-attribute-name -f <path to your local nixpkgs folder>
- Make sure it’s in
- If you don’t want to install pkg in you profile.
nix-build -A pkg-attribute-name <path to your local nixpkgs folder>
and check results in the folderresult
. It will appear in the same directory where you didnix-build
.
- If you installed your package with
nix-env
, you can runnix-env -e pkg-name
wherepkg-name
is as reported bynix-env -q
to uninstall it from your system.
- update pkg
-
NixOS and its modules:
- You can add new module to your NixOS configuration file (usually it’s
/etc/nixos/configuration.nix
). And dosudo nixos-rebuild test -I nixpkgs=<path to your local nixpkgs folder> --fast
.
- You can add new module to your NixOS configuration file (usually it’s
-
-
If you have commits
pkg-name: oh, forgot to insert whitespace
: squash commits in this case. Usegit rebase -i
. -
Rebase your branch against current
master
.
Submitting changes
- Push your changes to your fork of nixpkgs.
- Create the pull request
- Follow the contribution guidelines.
Submitting security fixes
Security fixes are submitted in the same way as other changes and thus the same guidelines apply.
-
If a new version fixing the vulnerability has been released, update the package;
-
If the security fix comes in the form of a patch and a CVE is available, then add the patch to the Nixpkgs tree, and apply it to the package. The name of the patch should be the CVE identifier, so e.g.
CVE-2019-13636.patch
; If a patch is fetched the name needs to be set as well, e.g.:(fetchpatch { name = "CVE-2019-11068.patch"; url = "https://gitlab.gnome.org/GNOME/libxslt/commit/e03553605b45c88f0b4b2980adfbbb8f6fca2fd6.patch"; hash = "sha256-SEKe/8HcW0UBHCfPTTOnpRlzmV2nQPPeL6HOMxBZd14="; })
If a security fix applies to both master and a stable release then, similar to regular changes, they are preferably delivered via master first and cherry-picked to the release branch.
Critical security fixes may by-pass the staging branches and be delivered directly to release branches such as master
and release-*
.
Deprecating/removing packages
There is currently no policy when to remove a package.
Before removing a package, one should try to find a new maintainer or fix smaller issues first.
Steps to remove a package from Nixpkgs
We use jbidwatcher as an example for a discontinued project here.
-
Have Nixpkgs checked out locally and up to date.
-
Create a new branch for your change, e.g.
git checkout -b jbidwatcher
-
Remove the actual package including its directory, e.g.
git rm -rf pkgs/applications/misc/jbidwatcher
-
Remove the package from the list of all packages (
pkgs/top-level/all-packages.nix
). -
Add an alias for the package name in
pkgs/top-level/aliases.nix
(There is alsopkgs/applications/editors/vim/plugins/aliases.nix
. Package sets typically do not have aliases, so we can't add them there.)For example in this case:
jbidwatcher = throw "jbidwatcher was discontinued in march 2021"; # added 2021-03-15
The throw message should explain in short why the package was removed for users that still have it installed.
-
Test if the changes introduced any issues by running
nix-env -qaP -f . --show-trace
. It should show the list of packages without errors. -
Commit the changes. Explain again why the package was removed. If it was declared discontinued upstream, add a link to the source.
$ git add pkgs/applications/misc/jbidwatcher/default.nix pkgs/top-level/all-packages.nix pkgs/top-level/aliases.nix $ git commit
Example commit message:
jbidwatcher: remove project was discontinued in march 2021. the program does not work anymore because ebay changed the login. https://web.archive.org/web/20210315205723/http://www.jbidwatcher.com/
-
Push changes to your GitHub fork with
git push
-
Create a pull request against Nixpkgs. Mention the package maintainer.
This is how the pull request looks like in this case: https://github.com/NixOS/nixpkgs/pull/116470
Pull Request Template
The pull request template helps determine what steps have been made for a contribution so far, and will help guide maintainers on the status of a change. The motivation section of the PR should include any extra details the title does not address and link any existing issues related to the pull request.
When a PR is created, it will be pre-populated with some checkboxes detailed below:
Tested using sandboxing
When sandbox builds are enabled, Nix will setup an isolated environment for each build process. It is used to remove further hidden dependencies set by the build environment to improve reproducibility. This includes access to the network during the build outside of fetch*
functions and files outside the Nix store. Depending on the operating system access to other resources are blocked as well (ex. inter process communication is isolated on Linux); see sandbox in Nix manual for details.
Sandboxing is not enabled by default in Nix due to a small performance hit on each build. In pull requests for nixpkgs people are asked to test builds with sandboxing enabled (see Tested using sandboxing
in the pull request template) because inhttps://nixos.org/hydra/ sandboxing is also used.
Depending if you use NixOS or other platforms you can use one of the following methods to enable sandboxing before building the package:
-
Globally enable sandboxing on NixOS: add the following to
configuration.nix
nix.useSandbox = true;
-
Globally enable sandboxing on non-NixOS platforms: add the following to:
/etc/nix/nix.conf
sandbox = true
Built on platform(s)
Many Nix packages are designed to run on multiple platforms. As such, it’s important to let the maintainer know which platforms your changes have been tested on. It’s not always practical to test a change on all platforms, and is not required for a pull request to be merged. Only check the systems you tested the build on in this section.
Tested via one or more NixOS test(s) if existing and applicable for the change (look inside nixos/tests)
Packages with automated tests are much more likely to be merged in a timely fashion because it doesn’t require as much manual testing by the maintainer to verify the functionality of the package. If there are existing tests for the package, they should be run to verify your changes do not break the tests. Tests can only be run on Linux. For more details on writing and running tests, see the section in the NixOS manual.
Tested compilation of all pkgs that depend on this change using nixpkgs-review
If you are updating a package’s version, you can use nixpkgs-review
to make sure all packages that depend on the updated package still compile correctly. The nixpkgs-review
utility can look for and build all dependencies either based on uncommitted changes with the wip
option or specifying a GitHub pull request number.
Review changes from pull request number 12345:
nix-shell -p nixpkgs-review --run "nixpkgs-review pr 12345"
Alternatively, with flakes (and analogously for the other commands below):
nix run nixpkgs#nixpkgs-review -- pr 12345
Review uncommitted changes:
nix-shell -p nixpkgs-review --run "nixpkgs-review wip"
Review changes from last commit:
nix-shell -p nixpkgs-review --run "nixpkgs-review rev HEAD"
Tested execution of all binary files (usually in ./result/bin/
)
It’s important to test any executables generated by a build when you change or create a package in nixpkgs. This can be done by looking in ./result/bin
and running any files in there, or at a minimum, the main executable for the package. For example, if you make a change to texlive, you probably would only check the binaries associated with the change you made rather than testing all of them.
Meets Nixpkgs contribution standards
The last checkbox is fits CONTRIBUTING.md. The contributing document has detailed information on standards the Nix community has for commit messages, reviews, licensing of contributions you make to the project, etc... Everyone should read and understand the standards the community has for contributing before submitting a pull request.
Hotfixing pull requests
- Make the appropriate changes in you branch.
- Don’t create additional commits, do
git rebase -i
git push --force
to your branch.
Commit policy
- Commits must be sufficiently tested before being merged, both for the master and staging branches.
- Hydra builds for master and staging should not be used as testing platform, it’s a build farm for changes that have been already tested.
- When changing the bootloader installation process, extra care must be taken. Grub installations cannot be rolled back, hence changes may break people’s installations forever. For any non-trivial change to the bootloader please file a PR asking for review, especially from @edolstra.
Branches
The nixpkgs
repository has three major branches:
master
staging
staging-next
The most important distinction between them is that staging
(colored red in the diagram below) can receive commits which cause
a mass-rebuild (for example, anything that changes the drvPath
of
stdenv
). The other two branches staging-next
and master
(colored green in the diagram below) can not receive commits which
cause a mass-rebuild.
Arcs between the branches show possible merges into these branches, either from other branches or from independently submitted PRs. The colors of these edges likewise show whether or not they could trigger a mass rebuild (red) or must not trigger a mass rebuild (green).
Hydra runs automatic builds for the green branches.
Notice that the automatic merges are all green arrows. This is by
design. Any merge which might cause a mass rebuild on a branch
which has automatic builds (staging-next
, master
) will be a
manual merge to make sure it is good use of compute power.
Nixpkgs has two branches so that there is one branch (staging
)
which accepts mass-rebuilding commits, and one fast-rebuilding
branch which accepts independent PRs (master
). The staging-next
branch allows the Hydra operators to batch groups of commits to
staging
to be built. By keeping the staging-next
branch
separate from staging
, this batching does not block
developers from merging changes into staging
.
digraph {
master [color="green" fontcolor=green]
"staging-next" [color="green" fontcolor=green]
staging [color="red" fontcolor=red]
"small changes" [fontcolor=green shape=none]
"small changes" -> master [color=green]
"mass-rebuilds and other large changes" [fontcolor=red shape=none]
"mass-rebuilds and other large changes" -> staging [color=red]
"critical security fixes" [fontcolor=green shape=none]
"critical security fixes" -> master [color=green]
"staging fixes which do not cause staging to mass-rebuild" [fontcolor=green shape=none]
"staging fixes which do not cause staging to mass-rebuild" -> "staging-next" [color=green]
"staging-next" -> master [color="red"] [label="manual merge"] [fontcolor="red"]
"staging" -> "staging-next" [color="red"] [label="manual merge"] [fontcolor="red"]
master -> "staging-next" [color="green"] [label="automatic merge (GitHub Action)"] [fontcolor="green"]
"staging-next" -> staging [color="green"] [label="automatic merge (GitHub Action)"] [fontcolor="green"]
}
This GitHub Action brings changes from master
to staging-next
and from staging-next
to staging
every 6 hours; these are the green arrows in the diagram above. The red arrows in the diagram above are done manually and much less frequently. You can get an idea of how often these merges occur by looking at the git history.
Master branch
The master
branch is the main development branch. It should only see non-breaking commits that do not cause mass rebuilds.
Staging branch
The staging
branch is a development branch where mass-rebuilds go. Mass rebuilds are commits that cause rebuilds for many packages, like more than 500 (or perhaps, if it's 'light' packages, 1000). It should only see non-breaking mass-rebuild commits. That means it is not to be used for testing, and changes must have been well tested already. If the branch is already in a broken state, please refrain from adding extra new breakages.
During the process of a releasing a new NixOS version, this branch or the release-critical packages can be restricted to non-breaking changes.
Staging-next branch
The staging-next
branch is for stabilizing mass-rebuilds submitted to the staging
branch prior to merging them into master
. Mass-rebuilds must go via the staging
branch. It must only see non-breaking commits that are fixing issues blocking it from being merged into the master
branch.
If the branch is already in a broken state, please refrain from adding extra new breakages. Stabilize it for a few days and then merge into master.
During the process of a releasing a new NixOS version, this branch or the release-critical packages can be restricted to non-breaking changes.
Stable release branches
The same staging workflow applies to stable release branches, but the main branch is called release-*
instead of master
.
Example branch names: release-21.11
, staging-21.11
, staging-next-21.11
.
Most changes added to the stable release branches are cherry-picked (“backported”) from the master
and staging branches.
Automatically backporting a Pull Request
Assign label backport <branch>
(e.g. backport release-21.11
) to the PR and a backport PR is automatically created after the PR is merged.
Manually backporting changes
Cherry-pick changes via git cherry-pick -x <original commit>
so that the original commit id is included in the commit message.
Add a reason for the backport when it is not obvious from the original commit message. You can do this by cherry picking with git cherry-pick -xe <original commit>
, which allows editing the commit message. This is not needed for minor version updates that include security and bug fixes but don't add new features or when the commit fixes an otherwise broken package.
Here is an example of a cherry-picked commit message with good reason description:
zfs: Keep trying root import until it works
Works around #11003.
(cherry picked from commit 98b213a11041af39b39473906b595290e2a4e2f9)
Reason: several people cannot boot with ZFS on NVMe
Other examples of reasons are:
- Previously the build would fail due to, e.g.,
getaddrinfo
not being defined - The previous download links were all broken
- Crash when starting on some X11 systems
Acceptable backport criteria
The stable branch does have some changes which cannot be backported. Most notable are breaking changes. The desire is to have stable users be uninterrupted when updating packages.
However, many changes are able to be backported, including:
- New Packages / Modules
- Security / Patch updates
- Version updates which include new functionality (but no breaking changes)
- Services which require a client to be up-to-date regardless. (E.g.
spotify
,steam
, ordiscord
) - Security critical applications (E.g.
firefox
)