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+.. SPDX-License-Identifier: GPL-2.0
+
+====================
+Rebasing and merging
+====================
+
+Maintaining a subsystem, as a general rule, requires a familiarity with the
+Git source-code management system. Git is a powerful tool with a lot of
+features; as is often the case with such tools, there are right and wrong
+ways to use those features. This document looks in particular at the use
+of rebasing and merging. Maintainers often get in trouble when they use
+those tools incorrectly, but avoiding problems is not actually all that
+hard.
+
+One thing to be aware of in general is that, unlike many other projects,
+the kernel community is not scared by seeing merge commits in its
+development history. Indeed, given the scale of the project, avoiding
+merges would be nearly impossible. Some problems encountered by
+maintainers result from a desire to avoid merges, while others come from
+merging a little too often.
+
+Rebasing
+========
+
+"Rebasing" is the process of changing the history of a series of commits
+within a repository. There are two different types of operations that are
+referred to as rebasing since both are done with the ``git rebase``
+command, but there are significant differences between them:
+
+ - Changing the parent (starting) commit upon which a series of patches is
+ built. For example, a rebase operation could take a patch set built on
+ the previous kernel release and base it, instead, on the current
+ release. We'll call this operation "reparenting" in the discussion
+ below.
+
+ - Changing the history of a set of patches by fixing (or deleting) broken
+ commits, adding patches, adding tags to commit changelogs, or changing
+ the order in which commits are applied. In the following text, this
+ type of operation will be referred to as "history modification"
+
+The term "rebasing" will be used to refer to both of the above operations.
+Used properly, rebasing can yield a cleaner and clearer development
+history; used improperly, it can obscure that history and introduce bugs.
+
+There are a few rules of thumb that can help developers to avoid the worst
+perils of rebasing:
+
+ - History that has been exposed to the world beyond your private system
+ should usually not be changed. Others may have pulled a copy of your
+ tree and built on it; modifying your tree will create pain for them. If
+ work is in need of rebasing, that is usually a sign that it is not yet
+ ready to be committed to a public repository.
+
+ That said, there are always exceptions. Some trees (linux-next being
+ a significant example) are frequently rebased by their nature, and
+ developers know not to base work on them. Developers will sometimes
+ expose an unstable branch for others to test with or for automated
+ testing services. If you do expose a branch that may be unstable in
+ this way, be sure that prospective users know not to base work on it.
+
+ - Do not rebase a branch that contains history created by others. If you
+ have pulled changes from another developer's repository, you are now a
+ custodian of their history. You should not change it. With few
+ exceptions, for example, a broken commit in a tree like this should be
+ explicitly reverted rather than disappeared via history modification.
+
+ - Do not reparent a tree without a good reason to do so. Just being on a
+ newer base or avoiding a merge with an upstream repository is not
+ generally a good reason.
+
+ - If you must reparent a repository, do not pick some random kernel commit
+ as the new base. The kernel is often in a relatively unstable state
+ between release points; basing development on one of those points
+ increases the chances of running into surprising bugs. When a patch
+ series must move to a new base, pick a stable point (such as one of
+ the -rc releases) to move to.
+
+ - Realize that reparenting a patch series (or making significant history
+ modifications) changes the environment in which it was developed and,
+ likely, invalidates much of the testing that was done. A reparented
+ patch series should, as a general rule, be treated like new code and
+ retested from the beginning.
+
+A frequent cause of merge-window trouble is when Linus is presented with a
+patch series that has clearly been reparented, often to a random commit,
+shortly before the pull request was sent. The chances of such a series
+having been adequately tested are relatively low - as are the chances of
+the pull request being acted upon.
+
+If, instead, rebasing is limited to private trees, commits are based on a
+well-known starting point, and they are well tested, the potential for
+trouble is low.
+
+Merging
+=======
+
+Merging is a common operation in the kernel development process; the 5.1
+development cycle included 1,126 merge commits - nearly 9% of the total.
+Kernel work is accumulated in over 100 different subsystem trees, each of
+which may contain multiple topic branches; each branch is usually developed
+independently of the others. So naturally, at least one merge will be
+required before any given branch finds its way into an upstream repository.
+
+Many projects require that branches in pull requests be based on the
+current trunk so that no merge commits appear in the history. The kernel
+is not such a project; any rebasing of branches to avoid merges will, most
+likely, lead to trouble.
+
+Subsystem maintainers find themselves having to do two types of merges:
+from lower-level subsystem trees and from others, either sibling trees or
+the mainline. The best practices to follow differ in those two situations.
+
+Merging from lower-level trees
+------------------------------
+
+Larger subsystems tend to have multiple levels of maintainers, with the
+lower-level maintainers sending pull requests to the higher levels. Acting
+on such a pull request will almost certainly generate a merge commit; that
+is as it should be. In fact, subsystem maintainers may want to use
+the --no-ff flag to force the addition of a merge commit in the rare cases
+where one would not normally be created so that the reasons for the merge
+can be recorded. The changelog for the merge should, for any kind of
+merge, say *why* the merge is being done. For a lower-level tree, "why" is
+usually a summary of the changes that will come with that pull.
+
+Maintainers at all levels should be using signed tags on their pull
+requests, and upstream maintainers should verify the tags when pulling
+branches. Failure to do so threatens the security of the development
+process as a whole.
+
+As per the rules outlined above, once you have merged somebody else's
+history into your tree, you cannot rebase that branch, even if you
+otherwise would be able to.
+
+Merging from sibling or upstream trees
+--------------------------------------
+
+While merges from downstream are common and unremarkable, merges from other
+trees tend to be a red flag when it comes time to push a branch upstream.
+Such merges need to be carefully thought about and well justified, or
+there's a good chance that a subsequent pull request will be rejected.
+
+It is natural to want to merge the master branch into a repository; this
+type of merge is often called a "back merge". Back merges can help to make
+sure that there are no conflicts with parallel development and generally
+gives a warm, fuzzy feeling of being up-to-date. But this temptation
+should be avoided almost all of the time.
+
+Why is that? Back merges will muddy the development history of your own
+branch. They will significantly increase your chances of encountering bugs
+from elsewhere in the community and make it hard to ensure that the work
+you are managing is stable and ready for upstream. Frequent merges can
+also obscure problems with the development process in your tree; they can
+hide interactions with other trees that should not be happening (often) in
+a well-managed branch.
+
+That said, back merges are occasionally required; when that happens, be
+sure to document *why* it was required in the commit message. As always,
+merge to a well-known stable point, rather than to some random commit.
+Even then, you should not back merge a tree above your immediate upstream
+tree; if a higher-level back merge is really required, the upstream tree
+should do it first.
+
+One of the most frequent causes of merge-related trouble is when a
+maintainer merges with the upstream in order to resolve merge conflicts
+before sending a pull request. Again, this temptation is easy enough to
+understand, but it should absolutely be avoided. This is especially true
+for the final pull request: Linus is adamant that he would much rather see
+merge conflicts than unnecessary back merges. Seeing the conflicts lets
+him know where potential problem areas are. He does a lot of merges (382
+in the 5.1 development cycle) and has gotten quite good at conflict
+resolution - often better than the developers involved.
+
+So what should a maintainer do when there is a conflict between their
+subsystem branch and the mainline? The most important step is to warn
+Linus in the pull request that the conflict will happen; if nothing else,
+that demonstrates an awareness of how your branch fits into the whole. For
+especially difficult conflicts, create and push a *separate* branch to show
+how you would resolve things. Mention that branch in your pull request,
+but the pull request itself should be for the unmerged branch.
+
+Even in the absence of known conflicts, doing a test merge before sending a
+pull request is a good idea. It may alert you to problems that you somehow
+didn't see from linux-next and helps to understand exactly what you are
+asking upstream to do.
+
+Another reason for doing merges of upstream or another subsystem tree is to
+resolve dependencies. These dependency issues do happen at times, and
+sometimes a cross-merge with another tree is the best way to resolve them;
+as always, in such situations, the merge commit should explain why the
+merge has been done. Take a moment to do it right; people will read those
+changelogs.
+
+Often, though, dependency issues indicate that a change of approach is
+needed. Merging another subsystem tree to resolve a dependency risks
+bringing in other bugs and should almost never be done. If that subsystem
+tree fails to be pulled upstream, whatever problems it had will block the
+merging of your tree as well. Preferable alternatives include agreeing
+with the maintainer to carry both sets of changes in one of the trees or
+creating a topic branch dedicated to the prerequisite commits that can be
+merged into both trees. If the dependency is related to major
+infrastructural changes, the right solution might be to hold the dependent
+commits for one development cycle so that those changes have time to
+stabilize in the mainline.
+
+Finally
+=======
+
+It is relatively common to merge with the mainline toward the beginning of
+the development cycle in order to pick up changes and fixes done elsewhere
+in the tree. As always, such a merge should pick a well-known release
+point rather than some random spot. If your upstream-bound branch has
+emptied entirely into the mainline during the merge window, you can pull it
+forward with a command like::
+
+ git merge v5.2-rc1^0
+
+The "^0" will cause Git to do a fast-forward merge (which should be
+possible in this situation), thus avoiding the addition of a spurious merge
+commit.
+
+The guidelines laid out above are just that: guidelines. There will always
+be situations that call out for a different solution, and these guidelines
+should not prevent developers from doing the right thing when the need
+arises. But one should always think about whether the need has truly
+arisen and be prepared to explain why something abnormal needs to be done.