Commit Best Practices¶
Some pre-commit hooks are defined to do some linting checks and also to format all Python code automatically.
Those checks are also run in the CI pre-merge test suite to enforce code linting.
To enable pre-commit hook to run automatically when committing, install it as follows:
pip install pre-commit
You can skip this pre-commit hook on a specific commit
git commit --no-verify.
To run pre-commit manually, use tox:
tox -e pre-commit
It is also possible to run only a specific hook (e.g. for pylint
tox -e pre-commit pylint).
How to split a change into commits¶
Why do we need to split changes into commits¶
This has several advantages amongst which are:
small commits are easier to review (a large pull request correctly divided into commits is easier/faster to review than a medium-sized one with less thought-out division)
when looking for a regression (e.g. using
git bisect) it is easier to find the root cause
git blameway more useful
The golden rule to create good commits is to ensure that there is only one “logical” change per commit.
Use a dedicated commit when you want to make cosmetic changes to the code (linting, whitespaces, alignment, renaming, etc.).
Mixing cosmetics and functional changes is bad because the cosmetics (which tend to generate a lot of diff/noise) will obscure the important functional changes, making it harder to correctly determine whether the change is correct during the review.
Example (Pull request #1620):
one commit for the cosmetic changes: 766f572e462c6933c8168a629ed4f479bb68a803
one commit for the functional changes: 3367fabdefc0b35d34bf7cf2fb0d33ff81f9fd5a
Ideally, purely cosmetic changes which inflate the number of changes in a PR significantly, should go in a separate PR
When introducing new features, you often have to add new helpers or refactor existing code. In such case, instead of having single commit with everything inside, you can either:
How to write a commit message¶
Why do we need commit messages¶
After comments in the code, commit messages are the easiest way to find context
for every single line of code: running
git blame on a file will give you,
for each line, the identifier of the last commit that changed the line.
Unlike a comment in the code (which applies to a single line or file), a commit message applies to a logical change and thus can provide information on the design of the code and why the change was done. This makes commit messages a part of the code documentation and makes them helpful for other developers to understand your code.
Last but not least: commit messages can also be used for automating tasks such as issue management.
Note that it is important to have all the necessary information in the commit message, instead of having them (only) in the related issue, because:
the issue can contain troubleshooting/design discussion/investigation with a lot of back and forth, which makes hard to get the gist of it.
you need access to an external service to get the whole context, which goes against one of biggest advantage of the distributed SCM (having all the information you need offline, from your local copy of the repository).
migration from one tracking system to another will invalidate the references/links to the issues.
Anatomy of a good commit message¶
A commit is composed of a subject, a body and a footer. A blank line separates the subject from body and the body from the footer.
The body can be omitted for trivial commit. That being said, be very careful: a change might seem trivial when you write it but will seem totally awkward the day you will have to understand why you made it. If you think your patch is trivial and somebody tells you he does not understand your patch, then your patch is not trivial and it requires a detailed description.
The footer contains references for issue management (
etc.) or other relevant annotations (cherry-pick source, etc.).
Optional if your commit is not related to any issue (should be pretty rare).
A good commit message should start with a short summary of the change: the subject line.
This summary should be written using the imperative mood and carry as much information as possible while staying short, ideally under 50 characters (this is a goal, the hard limit is 72).
Subject topic and description shouldn’t start with a capital.
It is composed of:
a topic, usually the name of the affected component (
a slash and then the name of the sub-component (optional)
the description of the change
ci: use proxy-cache to reduce flakiness
build/package: factorize task_dep in DEBPackage
ui/volume: add banner when failed to create volume
If several components are affected:
split your commit (preferred)
pick only the most affected one
entirely omit the component (happen for truly global change, like renaming
licenseover the whole codebase)
As for “what is the topic?”, the following heuristic works quite well for
MetalK8s: take the name of the top-level directory (
etc.) except for
buildchain could also be
Having the topic in the summary line allows for faster peering over
output (you can know what the commit is about just by reading a few characters,
not need to check the entire commit message or the associated diff).
It also helps the review process: if you have a big pull request affecting
front-end and back-end, front-end people can only review commits starting with
ui (not need to read over the whole diff, or to open each commit one by one
in Github to see which ones are interesting).
The body should answer the following questions:
Why did you make this change? (is this for a new feature, a bugfix - then, why was it buggy? -, some cleanup, some optimization, etc.). It is really important to describe the intent/motivation behind the changes.
What change did you make? Document what the original problem was and how it is being fixed (can be omitted for short obvious patches).
Why did you make the change in that way and not in another (mention alternate solutions considered but discarded, if any)?
When writing your message you must consider that your reader does not know anything about the code you have patched.
You should also describe any limitations of the current code. This will avoid reviewer pointing them out, and also inform future people looking at the code which tradeoffs were made at the time.
Lines must be wrapped at 72 characters.
Bad commit message¶
Quick fix for service port issue: what was the issue? It is a quick fix, why not a proper fix? What are the limitations?
fix glitchs: as expressive and useful as ~fix stuff~
Bump Create React App to v3 and add optional-chaining: Why? What are the benefits?
Add skopeo & m2crypto to packages list: Why do we need them?
Split certificates bootstrap between CA and clients: Why do we need this split? What is the issue we are trying to solve here?
Note that none of these commits contain a reference to an issue (which could have been used as an (invalid) excuse for the lack of information): you really have no more context/explanation than what is shown here.
Good commit message¶
Add gzip to nginx conf
This will decrease the size of the file the client need to download
In the current version we have ~7x improvement.
From 3.17Mb to 0.470Mb send to the client
Some things to note about this commit message:
Reason behind the changes are explained: we want to decrease the size of the downloaded resources.
Results/effects are demonstrated: measurements are given.
Use safer invocation of shell commands
Running commands with the "host" fixture provided by testinfra was done
without concern for quoting of arguments, and might be vulnerable to
injections / escaping issues.
Using a log-like formatting, i.e. `host.run('my-cmd %s %d', arg1, arg2)`
fixes the issue (note we cannot use a list of strings as with
Some things to note about this commit message:
Reasons behind the changes are explained: potential security issue.
Solution is described: we use log-like formatting.
Non-obvious parts are clarified: cannot use a list of string (as expected) because it is not supported.
build: fix concurrent build on MacOS
When trying to use the parallel execution feature of `doit` on Mac, we
observe that the worker processes are killed by the OS and only the
main one survives.
The issues seems related to the fact that:
- by default `doit` uses `fork` (through `multiprocessing`) to spawn its
- since macOS 10.13 (High Sierra), Apple added a new security measure
that kill processes that are using a dangerous mix of threads and
As a consequence, now instead of working most of the time (and failing
in a hard way to debug), the processes are directly killed.
There are three ways to solve this problems:
1. set the environment variable `OBJC_DISABLE_INITIALIZE_FORK_SAFETY=YES.`
2. don't use `fork`
3. fix the code that uses a dangerous mix of thread and forks
(1) is not good as it doesn't fix the underlying issue: it only disable
the security and we're back to "works most of the time, sometimes does
(2) is easy to do because we can tell to `doit` to uses only threads
instead of forks.
(3) is probably the best, but requires more troubleshooting/time/
In conclusion, this commit implements (2) until (3) is done (if ever) by
detecting macOS and forcing the use of threads in that case.
Some things to note about this commit message:
Observed problem is described: parallel builds crash on macOS.
Root cause is analyzed: OS security measure + thread/fork mix.
Several solution are proposed: disable the security, workaround the problem or fix the root cause.
Selection of a solution is explained: we go for the workaround because it is easy and faster.
Extra-references are given: links in the footer gives more in-depth explanations/context.
When reviewing a change, do not simply look at the correctness of the code: review the commit message itself and request improvements to its content. Look out for commits that can be divided, ensure that cosmetic changes are not mixed with functional changes, etc.
The goal here is to improve the long term maintainability, by a wide variety of developers who may only have the Git history to get some context so it is important to have a useful Git history.