GIT Commit Good Practice
- 1 GIT Commit Good Practice
- 1.1 Executive Summary
- 1.2 Structural split of changes
- 1.3 Information in commit messages
The following document is based on experience doing code development, bug troubleshooting and code review across a number of projects using GIT, including libvirt, QEMU and OpenStack Nova. Examination of other open source projects such as the Kernel, CoreUtils, GNULIB and more suggested they all follow a fairly common practice. It is motivated by a desire to improve the quality of the Nova GIT history. Quality is a hard term to define in computing; one man's "Thing of Beauty" is another's man's "Evil Hack". We can, however, come up with some general guidelines for what to do, or conversely what not to do, when publishing GIT commits for merge with a project, in this case, OpenStack.
This topic can be split into two areas of concern
- The structured set/split of the code changes
- The information provided in the commit message
The points and examples that will be raised in this document ought to clearly demonstrate the value in splitting up changes into a sequence of individual commits, and the importance in writing good commit messages to go along with them. If these guidelines were widely applied it would result in a significant improvement in the quality of the OpenStack GIT history. Both a carrot & stick will be required to effect changes. This document intends to be the carrot by alerting people to the benefits, while anyone doing Gerrit code review can act as the stick ;-P
In other words, when reviewing a change in Gerrit, 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 which are mixing multiple logical changes and require the submitter to split them into separate commits. Ensure whitespace changes are not mixed in with functional changes. Ensure no-op code refactoring is done separately from functional changes. And so on.
It might be mentioned that Gerrit's handling of patch series is not entirely perfect. This is not a valid reason to avoid creating patch series. The tools being used should be subservient to developers needs, and since they are open source they can be fixed / improved. Software source code is "read mostly, write occassionally" and thus the most important criteria is to improve the long term maintainability by the large pool of developers in the community, and not to sacrifice too much for the sake of the single author who may never touch the code again.
And now the long detailed guidelines & examples of good & bad practice
Structural split of changes
The cardinal rule for creating good commits is to ensure there is only one "logical change" per commit. There are many reasons why this is an important rule:
- The smaller the amount of code being changed, the quicker & easier it is to review & identify potential flaws.
- If a change is found to be flawed later, it may be necessary to revert the broken commit. This is much easier to do if there are not other unrelated code changes entangled with the original commit.
- When troubleshooting problems using GIT's bisect capability, small well defined changes will aid in isolating exactly where the code problem was introduced.
- When browsing history using GIT annotate/blame, small well defined changes also aid in isolating exactly where & why a piece of code came from.
Things to avoid when creating commits
With that in mind, there are some commonly encountered examples of bad things to avoid
- Mixing whitespace changes with functional code changes.
The whitespace changes will obscure the important functional changes, making it harder for a reviewer to correctly determine whether the change is correct. Solution: Create 2 commits, one with the whitespace changes, one with the functional changes. Typically the whitespace change would be done first, but that need not be a hard rule.
- Mixing two unrelated functional changes.
Again the reviewer will find it harder to identify flaws if two unrelated changes are mixed together. If it becomes necessary to later revert a broken commit, the two unrelated changes will need to be untangled, with further risk of bug creation.
- Sending large new features in a single giant commit.
It may well be the case that the code for a new feature is only useful when all of it is present. This does not, however, imply that the entire feature should be provided in a single commit. New features often entail refactoring existing code. It is highly desirable that any refactoring is done in commits which are separate from those implementing the new feature. This helps reviewers and test suites validate that the refactoring has no unintentional functional changes. Even the newly written code can often be split up into multiple pieces that can be independently reviewed. For example, changes which add new internal APIs/classes, can be in self-contained commits. Again this leads to easier code review. It also allows other developers to cherry-pick small parts of the work, if the entire new feature is not immediately ready for merge. Addition of new public APIs or RPC interfaces should be done in commits separate from the actual internal implementation. This will encourage the author & reviewers to think about the generic API/RPC design, and not simply pick a design that is easier for their currently chosen internal implementation.
The basic rule to follow is
If a code change can be split into a sequence of patches/commits, then it should be split. Less is not more. More is more.
Examples of bad practice
Now for some illustrations from Nova history. NB, although commit hashes are quoted for reference, author names are removed, since no single person needs to be blamed/picked on. Almost everybody is guilty of violating these good practice rules at some time or another. In addition the people who reviewed & approved these commits are just as guilty as the person who wrote/submitted them ;-P
commit ae878fc8b9761d099a4145617e4a48cbeb390623 Author: [removed] Date: Fri Jun 1 01:44:02 2012 +0000 Refactor libvirt create calls * minimizes duplicated code for create * makes wait_for_destroy happen on shutdown instead of undefine * allows for destruction of an instance while leaving the domain * uses reset for hard reboot instead of create/destroy * makes resume_host_state use new methods instead of hard_reboot * makes rescue/unrescue not use hard reboot to recreate domain Change-Id: I2072f93ad6c889d534b04009671147af653048e7
There are at least two independent changes made in this commit.
- The switch to use the new "reset" API for the "hard_reboot" method
- The adjustment to internal driver methods to not use "hard_reboot"
What is the problem with this
- First there is no compelling reason why these changes needed to be made at the same time. A first commit could have included the changes to stop calling "hard_reboot" in various places. A second commit could have re-written the "hard_reboot" impl.
- Second, as the switch to using the libvirt 'reset' method was buried in the large code refactoring, reviewers missed the fact that this was introducing a dependancy on a newer libvirt API version. This commit was identified as the culprit reasonably quickly, but a trivial revert is not possible, due to the wide variety of unrelated changes included.
commit e0540dfed1c1276106105aea8d5765356961ef3d Author: [removed] Date: Wed May 16 15:17:53 2012 +0400 blueprint lvm-disk-images Add ability to use LVM volumes for VM disks. Implements LVM disks support for libvirt driver. VM disks will be stored on LVM volumes in volume group specified by `libvirt_images_volume_group` option. Another option `libvirt_local_images_type` specify which storage type will be used. Supported values are `raw`, `lvm`, `qcow2`, `default`. If `libvirt_local_images_type` = `default`, usual logic with `use_cow_images` flag is used. Boolean option `libvirt_sparse_logical_volumes` controls which type of logical volumes will be created (sparsed with virtualsize or usual logical volumes with full space allocation). Default value for this option is `False`. Commit introduce three classes: `Raw`, `Qcow2` and `Lvm`. They contain image creation logic, that was stored in `LibvirtConnection._cache_image` and `libvirt_info` methods, that produce right `LibvirtGuestConfigDisk` configurations for libvirt. `Backend` class choose which image type to use. Change-Id: I0d01cb7d2fd67de2565b8d45d34f7846ad4112c2
This is introducing one major new feature, so on the surface it seems reasonable to use a single commit, but looking at the patch, it clearly has entangled a significant amount of code refactoring with the new LVM feature code. This makes it hard to identify likely regressions in support for QCow2/Raw images. This should have been split into at least four separate commits
- Replace the 'use_cow_images' config FLAG with the new FLAG 'libvirt_local_images_type', with back-compat code for support of legacy 'use_cow_images' FLAG
- Creation of internal "Image" class and subclasses for Raw & QCow2 image type impls
- Refactor libvirt driver to replace raw/qcow2 image management code, with calls to the new "Image" class APIs
- Introduce the new "LVM" Image class implementation
Examples of good practice
commit 3114a97ba188895daff4a3d337b2c73855d4632d Author: [removed] Date: Mon Jun 11 17:16:10 2012 +0100 Update default policies for KVM guest PIT & RTC timers commit 573ada525b8a7384398a8d7d5f094f343555df56 Author: [removed] Date: Tue May 1 17:09:32 2012 +0100 Add support for configuring libvirt VM clock and timers
Together these two changes provide support for configuring the KVM guest timers. The introduction of the new APIs for creating libvirt XML configuration have been clearly separated from the change to the KVM guest creation policy, which uses the new APIs.
commit 62bea64940cf629829e2945255cc34903f310115 Author: [removed] Date: Fri Jun 1 14:49:42 2012 -0400 Add a comment to rpc.queue_get_for(). Change-Id: Ifa7d648e9b33ad2416236dc6966527c257baaf88 commit cf2b87347cd801112f89552a78efabb92a63bac6 Author: [removed] Date: Wed May 30 14:57:03 2012 -0400 Add shared_storage_test methods to compute rpcapi. ...snip... Add get_instance_disk_info to the compute rpcapi. ...snip... Add remove_volume_connection to the compute rpcapi. ...snip... Add compare_cpu to the compute rpcapi. ...snip... Add get_console_topic() to the compute rpcapi. ...snip... Add refresh_provider_fw_rules() to compute rpcapi. ...many more commits...
This sequence of commits refactored the entire RPC API layer inside nova to allow pluggable messaging implementations. With such a major change in a core piece of functionality, splitting up the work into a large sequence of commits was key to be able to do meaningful code review, and track / identify possible regressions at each step of the process.
Information in commit messages
As important as the content of the change, is the content of the commit message describing it. When writing a commit message there are some important things to remember
- Do not assume the reviewer understands what the original problem was.
When reading bug reports, after a number of back & forth comments, it is often as clear as mud, what the root cause problem is. The commit message should have a clear statement as to what the original problem is. The bug is merely interesting historical background on /how/ the problem was identified. It should be possible to review a proposed patch for correctness without needing to read the bug ticket.
- Do not assume the reviewer has access to external web services/site.
In 6 months time when someone is on a train/plane/coach/beach/pub troubleshooting a problem & browsing GIT history, there is no guarantee they will have access to the online bug tracker, or online blueprint documents. The great step forward with distributed SCM is that you no longer need to be "online" to have access to all information about the code repository. The commit message should be totally self-contained, to maintain that benefit.
- Do not assume the code is self-evident/self-documenting.
What is self-evident to one person, might be clear as mud to another person. Always document what the original problem was and how it is being fixed, for any change except the most obvious typos, or whitespace only commits.
- Describe why a change is being made.
A common mistake is to just document how the code has been written, without describing /why/ the developer chose to do it that way. By all means describe the overall code structure, particularly for large changes, but more importantly describe the intent/motivation behind the changes.
- Read the commit message to see if it hints at improved code structure.
Often when describing a large commit message, it becomes obvious that a commit should have in fact been split into 2 or more parts. Don't be afraid to go back and rebase the change to split it up into separate commits.
- Ensure sufficient information to decide whether to review.
When Gerrit sends out email alerts for new patch submissions there is minimal information included, principally the commit message and the list of files changes. Given the high volume of patches, it is not reasonable to expect all reviewers to examine the patches in detail. The commit message must thus contain sufficient information to alert the potential reviewers to the fact that this is a patch they need to look at.
- The first commit line is the most important.
In GIT commits the first line of the commit message has special significance. It is used as email subject line, git annotate messages, gitk viewer annotations, merge commit messages and many more places where space is at a premium. As well as summarizing the change itself, it should take care to detail what part of the code is affected. eg if it affects the libvirt driver, mention 'libvirt' somewhere in the first line.
- Describe any limitations of the current code.
If the code being changed still has future scope for improvements, or any known limitations then mention these in the commit message. This demonstrates to the reviewer that the broader picture has been considered and what tradeoffs have been done in terms of short term goals vs. long term wishes.
- Do not include patch set-specific comments.
In other words, if you rebase your change please don't add "Patch set 2: rebased" to your commit message. That isn't going to be relevant once your change has merged. Please do make a note of that in Gerrit as a comment on your change, however. It helps reviewers know what changed between patch sets. This also applies to comments such as "Added unit tests", "Fixed localization problems", or any other such patch set to patch set changes that don't affect the overall intent of your commit.
The main rule to follow is:
The commit message must contain all the information required to fully understand & review the patch for correctness. Less is not more. More is more.
Including external references
The commit message is primarily targeted towards human interpretation, but there is always some metadata provided for machine use. In the case of OpenStack this includes at least the 'Change-id', but also optional "bug" ID references, "blueprint" name references, a DocImpact flag, and a SecurityImpact flag.
- The 'Change-id' line is a unique hash describing the change, which is generated by a GIT commit hook. This should not be changed when rebasing a commit following review feedback, since it is used by Gerrit, to track versions of a patch.
- The 'bug' line can reference a bug in a few ways. Gerrit creates a link to the bug when viewing the patch on review.openstack.org so that reviewers can quickly access the bug on Launchpad.
- Closes-Bug: #1234567 -- use 'Closes-Bug' if the commit is intended to fully fix and close the bug being referenced.
- Partial-Bug: #1234567 -- use 'Partial-Bug' if the commit is only a partial fix and more work is needed.
- Related-Bug: #1234567 -- use 'Related-Bug' if the commit is merely related to the referenced bug.
- The 'blueprint' line should give the name of a Launchpad blueprint, if the commit is intended to implement a feature. Gerrit creates a link to the blueprint when viewing the patch on review.openstack.org so that reviewers can quickly access the blueprint on Launchpad.
- The DocImpact line contains the string DocImpact, and a comment about why the change impacts documentation. Use it to indicate that documentation is either contained in the patch or the change causes documentation to be needed to understand the change. Include as much information as possible. When this flag is included in a commit message, Gerrit creates a bug for the openstack-manuals project to triage and track, or move to the openstack-api-site as needed.
- The SecurityImpact line simply contains the string SecurityImpact. It is used to indicate that a change has security implications and should be reviewed by the OpenStack Security Group.
- The UpgradeImpact line contains the string UpgradeImpact and a comment about why the change impacts upgrades. It is used to indicate that a change has upgrade implications for those doing continuous deployment or N to N+1 upgrades. Also consider updating the 'Upgrade Notes' section in the release notes for the affected project.
All machine targeted metadata is of secondary consequence to humans and thus it should all be grouped together at the end of the commit message.
Note: Although it is common practice across many open source projects using GIT to include a "Signed-off-by" tag (generated by 'git commit -s'), this is not required for OpenStack. Prior to gaining the ability to submit code to Gerrit, OpenStack requires that all contributors sign the CLA, which serves an equivalent purpose.
We encourage the use of Co-Authored-By: name <email@example.com> in commit messages to indicate people who worked on a particular patch. It's a convention for recognizing multiple authors, and our projects would encourage the stats tools to observe it when collecting statistics.
Summary of GIT commit message structure
- Provide a brief description of the change in the first line.
- Insert a single blank line after the first line.
- Provide a detailed description of the change in the following lines, breaking paragraphs where needed.
- The first line should be limited to 50 characters and should not end with a period (commit messages over 72 characters will be rejected by the gate).
- Subsequent lines should be wrapped at 72 characters.
- Put the 'Change-id', 'Closes-Bug #NNNNN' and 'blueprint NNNNNNNNNNN' lines at the very end.
Switch libvirt get_cpu_info method over to use config APIs The get_cpu_info method in the libvirt driver currently uses XPath queries to extract information from the capabilities XML document. Switch this over to use the new config class LibvirtConfigCaps. Also provide a test case to validate the data being returned. Closes-Bug: #1003373 Implements: blueprint libvirt-xml-cpu-model Change-Id: I4946a16d27f712ae2adf8441ce78e6c0bb0bb657
Some examples of bad practice
Now for some illustrations from Nova history, again with authors names removed since no one person is to blame for these.
commit 468e64d019f51d364afb30b0eed2ad09483e0b98 Author: [removed] Date: Mon Jun 18 16:07:37 2012 -0400 Fix missing import in compute/utils.py Fixes bug 1014829
Problem: this does not mention what imports where missing and why they were needed. This info was actually in the bug tracker, and should have been copied into the commit message, so that it would provide a self-contained description. e.g.:
Add missing import of 'exception' in compute/utils.py nova/compute/utils.py makes a reference to exception.NotFound, however exception has not been imported.
commit 2020fba6731634319a0d541168fbf45138825357 Author: [removed] Date: Fri Jun 15 11:12:45 2012 -0600 Present correct ec2id format for volumes and snaps Fixes bug 1013765 * Add template argument to ec2utils.id_to_ec2_id() calls Change-Id: I5e574f8e60d091ef8862ad814e2c8ab993daa366
Problem: this does not mention what the current (broken) format is, nor what the new fixed format is. Again this info was available in the bug tracker and should have been included in the commit message. Furthermore, this bug was fixing a regression caused by an earlier change, but there is no mention of what the earlier change was. e.g.:
Present correct ec2id format for volumes and snaps During the volume uuid migration, done by changeset XXXXXXX, ec2 id formats for volumes and snapshots was dropped and is now using the default instance format (i-xxxxx). These need to be changed back to vol-xxx and snap-xxxx. Adds a template argument to ec2utils.id_to_ec2_id() calls Fixes bug 1013765
commit f28731c1941e57b776b519783b0337e52e1484ab Author: [removed] Date: Wed Jun 13 10:11:04 2012 -0400 Add libvirt min version check. Fixes LP Bug #1012689. Change-Id: I91c0b7c41804b2b25026cbe672b9210c305dc29b
Problem: This commit message is merely documenting what was done, and not why it was done. It should have mentioned what earlier changeset introduced the new min libvirt version. It should also have mentioned what behaviour is when the check fails. e.g.:
Add libvirt version check, min 0.9.7 The commit XXXXXXXX introduced use of the 'reset' API which is only available in libvirt 0.9.7 or newer. Add a check performed at startup of the compute server against the libvirt connection version. If the version check fails the compute service will shutdown. Fixes LP Bug #1012689. Change-Id: I91c0b7c41804b2b25026cbe672b9210c305dc29b
Examples of good practice
commit 3114a97ba188895daff4a3d337b2c73855d4632d Author: [removed] Date: Mon Jun 11 17:16:10 2012 +0100 Update default policies for KVM guest PIT & RTC timers The default policies for the KVM guest PIT and RTC timers are not very good at maintaining reliable time in guest operating systems. In particular Windows 7 guests will often crash with the default KVM timer policies, and old Linux guests will have very bad time drift Set the PIT such that missed ticks are injected at the normal rate, ie they are delayed Set the RTC such that missed ticks are injected at a higher rate to "catch up" This corresponds to the following libvirt XML <clock offset='utc'> <timer name='pit' tickpolicy='delay'/> <timer name='rtc' tickpolicy='catchup'/> </clock> And the following KVM options -no-kvm-pit-reinjection -rtc base=utc,driftfix=slew This should provide a default configuration that works acceptably for most OS types. In the future this will likely need to be made configurable per-guest OS type. Closes-Bug: #1011848 Change-Id: Iafb0e2192b5f3c05b6395ffdfa14f86a98ce3d1f
Some things to note about this example commit message
- It describes what the original problem is (bad KVM defaults)
- It describes the functional change being made (the new PIT/RTC policies)
- It describes what the result of the change is (new the XML/QEMU args)
- It describes scope for future improvement (the possible per-OS type config)
- It uses the Closes-Bug notation
commit 31336b35b4604f70150d0073d77dbf63b9bf7598 Author: [removed] Date: Wed Jun 6 22:45:25 2012 -0400 Add CPU arch filter scheduler support In a mixed environment of running different CPU architecutres, one would not want to run an ARM instance on a X86_64 host and vice versa. This scheduler filter option will prevent instances running on a host that it is not intended for. The libvirt driver queries the guest capabilities of the host and stores the guest arches in the permitted_instances_types list in the cpu_info dict of the host. The Xen equivalent will be done later in another commit. The arch filter will compare the instance arch against the permitted_instances_types of a host and filter out invalid hosts. Also adds ARM as a valid arch to the filter. The ArchFilter is not turned on by default. Change-Id: I17bd103f00c25d6006a421252c9c8dcfd2d2c49b
Some things to note about this example commit message
- It describes what the problem scenario is (mixed arch deployments)
- It describes the intent of the fix (make the schedular filter on arch)
- It describes the rough architecture of the fix (how libvirt returns arch)
- It notes the limitations of the fix (work needed on Xen)