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391 lines
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ReStructuredText
.. SPDX-License-Identifier: GPL-2.0
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KVM x86
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=======
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Foreword
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--------
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KVM strives to be a welcoming community; contributions from newcomers are
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valued and encouraged. Please do not be discouraged or intimidated by the
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length of this document and the many rules/guidelines it contains. Everyone
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makes mistakes, and everyone was a newbie at some point. So long as you make
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an honest effort to follow KVM x86's guidelines, are receptive to feedback,
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and learn from any mistakes you make, you will be welcomed with open arms, not
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torches and pitchforks.
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TL;DR
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-----
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Testing is mandatory. Be consistent with established styles and patterns.
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Trees
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-----
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KVM x86 is currently in a transition period from being part of the main KVM
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tree, to being "just another KVM arch". As such, KVM x86 is split across the
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main KVM tree, ``git.kernel.org/pub/scm/virt/kvm/kvm.git``, and a KVM x86
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specific tree, ``github.com/kvm-x86/linux.git``.
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Generally speaking, fixes for the current cycle are applied directly to the
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main KVM tree, while all development for the next cycle is routed through the
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KVM x86 tree. In the unlikely event that a fix for the current cycle is routed
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through the KVM x86 tree, it will be applied to the ``fixes`` branch before
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making its way to the main KVM tree.
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Note, this transition period is expected to last quite some time, i.e. will be
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the status quo for the foreseeable future.
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Branches
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~~~~~~~~
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The KVM x86 tree is organized into multiple topic branches. The purpose of
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using finer-grained topic branches is to make it easier to keep tabs on an area
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of development, and to limit the collateral damage of human errors and/or buggy
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commits, e.g. dropping the HEAD commit of a topic branch has no impact on other
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in-flight commits' SHA1 hashes, and having to reject a pull request due to bugs
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delays only that topic branch.
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All topic branches, except for ``next`` and ``fixes``, are rolled into ``next``
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via a Cthulhu merge on an as-needed basis, i.e. when a topic branch is updated.
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As a result, force pushes to ``next`` are common.
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Lifecycle
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~~~~~~~~~
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Fixes that target the current release, a.k.a. mainline, are typically applied
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directly to the main KVM tree, i.e. do not route through the KVM x86 tree.
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Changes that target the next release are routed through the KVM x86 tree. Pull
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requests (from KVM x86 to main KVM) are sent for each KVM x86 topic branch,
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typically the week before Linus' opening of the merge window, e.g. the week
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following rc7 for "normal" releases. If all goes well, the topic branches are
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rolled into the main KVM pull request sent during Linus' merge window.
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The KVM x86 tree doesn't have its own official merge window, but there's a soft
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close around rc5 for new features, and a soft close around rc6 for fixes (for
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the next release; see above for fixes that target the current release).
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Timeline
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~~~~~~~~
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Submissions are typically reviewed and applied in FIFO order, with some wiggle
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room for the size of a series, patches that are "cache hot", etc. Fixes,
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especially for the current release and or stable trees, get to jump the queue.
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Patches that will be taken through a non-KVM tree (most often through the tip
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tree) and/or have other acks/reviews also jump the queue to some extent.
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Note, the vast majority of review is done between rc1 and rc6, give or take.
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The period between rc6 and the next rc1 is used to catch up on other tasks,
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i.e. radio silence during this period isn't unusual.
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Pings to get a status update are welcome, but keep in mind the timing of the
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current release cycle and have realistic expectations. If you are pinging for
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acceptance, i.e. not just for feedback or an update, please do everything you
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can, within reason, to ensure that your patches are ready to be merged! Pings
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on series that break the build or fail tests lead to unhappy maintainers!
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Development
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-----------
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Base Tree/Branch
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~~~~~~~~~~~~~~~~
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Fixes that target the current release, a.k.a. mainline, should be based on
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``git://git.kernel.org/pub/scm/virt/kvm/kvm.git master``. Note, fixes do not
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automatically warrant inclusion in the current release. There is no singular
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rule, but typically only fixes for bugs that are urgent, critical, and/or were
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introduced in the current release should target the current release.
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Everything else should be based on ``kvm-x86/next``, i.e. there is no need to
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select a specific topic branch as the base. If there are conflicts and/or
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dependencies across topic branches, it is the maintainer's job to sort them
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out.
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The only exception to using ``kvm-x86/next`` as the base is if a patch/series
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is a multi-arch series, i.e. has non-trivial modifications to common KVM code
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and/or has more than superficial changes to other architectures' code. Multi-
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arch patch/series should instead be based on a common, stable point in KVM's
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history, e.g. the release candidate upon which ``kvm-x86 next`` is based. If
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you're unsure whether a patch/series is truly multi-arch, err on the side of
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caution and treat it as multi-arch, i.e. use a common base.
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Coding Style
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~~~~~~~~~~~~
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When it comes to style, naming, patterns, etc., consistency is the number one
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priority in KVM x86. If all else fails, match what already exists.
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With a few caveats listed below, follow the tip tree maintainers' preferred
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:ref:`maintainer-tip-coding-style`, as patches/series often touch both KVM and
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non-KVM x86 files, i.e. draw the attention of KVM *and* tip tree maintainers.
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Using reverse fir tree, a.k.a. reverse Christmas tree or reverse XMAS tree, for
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variable declarations isn't strictly required, though it is still preferred.
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Except for a handful of special snowflakes, do not use kernel-doc comments for
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functions. The vast majority of "public" KVM functions aren't truly public as
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they are intended only for KVM-internal consumption (there are plans to
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privatize KVM's headers and exports to enforce this).
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Comments
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~~~~~~~~
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Write comments using imperative mood and avoid pronouns. Use comments to
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provide a high level overview of the code, and/or to explain why the code does
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what it does. Do not reiterate what the code literally does; let the code
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speak for itself. If the code itself is inscrutable, comments will not help.
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SDM and APM References
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~~~~~~~~~~~~~~~~~~~~~~
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Much of KVM's code base is directly tied to architectural behavior defined in
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Intel's Software Development Manual (SDM) and AMD's Architecture Programmer’s
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Manual (APM). Use of "Intel's SDM" and "AMD's APM", or even just "SDM" or
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"APM", without additional context is a-ok.
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Do not reference specific sections, tables, figures, etc. by number, especially
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not in comments. Instead, if necessary (see below), copy-paste the relevant
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snippet and reference sections/tables/figures by name. The layouts of the SDM
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and APM are constantly changing, and so the numbers/labels aren't stable.
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Generally speaking, do not explicitly reference or copy-paste from the SDM or
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APM in comments. With few exceptions, KVM *must* honor architectural behavior,
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therefore it's implied that KVM behavior is emulating SDM and/or APM behavior.
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Note, referencing the SDM/APM in changelogs to justify the change and provide
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context is perfectly ok and encouraged.
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Shortlog
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~~~~~~~~
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The preferred prefix format is ``KVM: <topic>:``, where ``<topic>`` is one of::
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- x86
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- x86/mmu
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- x86/pmu
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- x86/xen
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- selftests
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- SVM
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- nSVM
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- VMX
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- nVMX
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**DO NOT use x86/kvm!** ``x86/kvm`` is used exclusively for Linux-as-a-KVM-guest
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changes, i.e. for arch/x86/kernel/kvm.c. Do not use file names or complete file
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paths as the subject/shortlog prefix.
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Note, these don't align with the topics branches (the topic branches care much
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more about code conflicts).
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All names are case sensitive! ``KVM: x86:`` is good, ``kvm: vmx:`` is not.
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Capitalize the first word of the condensed patch description, but omit ending
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punctionation. E.g.::
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KVM: x86: Fix a null pointer dereference in function_xyz()
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not::
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kvm: x86: fix a null pointer dereference in function_xyz.
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If a patch touches multiple topics, traverse up the conceptual tree to find the
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first common parent (which is often simply ``x86``). When in doubt,
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``git log path/to/file`` should provide a reasonable hint.
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New topics do occasionally pop up, but please start an on-list discussion if
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you want to propose introducing a new topic, i.e. don't go rogue.
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See :ref:`the_canonical_patch_format` for more information, with one amendment:
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do not treat the 70-75 character limit as an absolute, hard limit. Instead,
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use 75 characters as a firm-but-not-hard limit, and use 80 characters as a hard
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limit. I.e. let the shortlog run a few characters over the standard limit if
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you have good reason to do so.
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Changelog
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~~~~~~~~~
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Most importantly, write changelogs using imperative mood and avoid pronouns.
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See :ref:`describe_changes` for more information, with one amendment: lead with
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a short blurb on the actual changes, and then follow up with the context and
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background. Note! This order directly conflicts with the tip tree's preferred
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approach! Please follow the tip tree's preferred style when sending patches
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that primarily target arch/x86 code that is _NOT_ KVM code.
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Stating what a patch does before diving into details is preferred by KVM x86
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for several reasons. First and foremost, what code is actually being changed
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is arguably the most important information, and so that info should be easy to
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find. Changelogs that bury the "what's actually changing" in a one-liner after
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3+ paragraphs of background make it very hard to find that information.
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For initial review, one could argue the "what's broken" is more important, but
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for skimming logs and git archaeology, the gory details matter less and less.
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E.g. when doing a series of "git blame", the details of each change along the
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way are useless, the details only matter for the culprit. Providing the "what
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changed" makes it easy to quickly determine whether or not a commit might be of
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interest.
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Another benefit of stating "what's changing" first is that it's almost always
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possible to state "what's changing" in a single sentence. Conversely, all but
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the most simple bugs require multiple sentences or paragraphs to fully describe
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the problem. If both the "what's changing" and "what's the bug" are super
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short then the order doesn't matter. But if one is shorter (almost always the
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"what's changing), then covering the shorter one first is advantageous because
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it's less of an inconvenience for readers/reviewers that have a strict ordering
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preference. E.g. having to skip one sentence to get to the context is less
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painful than having to skip three paragraphs to get to "what's changing".
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Fixes
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~~~~~
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If a change fixes a KVM/kernel bug, add a Fixes: tag even if the change doesn't
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need to be backported to stable kernels, and even if the change fixes a bug in
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an older release.
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Conversely, if a fix does need to be backported, explicitly tag the patch with
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"Cc: stable@vger.kernel" (though the email itself doesn't need to Cc: stable);
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KVM x86 opts out of backporting Fixes: by default. Some auto-selected patches
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do get backported, but require explicit maintainer approval (search MANUALSEL).
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Function References
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~~~~~~~~~~~~~~~~~~~
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When a function is mentioned in a comment, changelog, or shortlog (or anywhere
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for that matter), use the format ``function_name()``. The parentheses provide
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context and disambiguate the reference.
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Testing
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-------
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At a bare minimum, *all* patches in a series must build cleanly for KVM_INTEL=m
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KVM_AMD=m, and KVM_WERROR=y. Building every possible combination of Kconfigs
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isn't feasible, but the more the merrier. KVM_SMM, KVM_XEN, PROVE_LOCKING, and
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X86_64 are particularly interesting knobs to turn.
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Running KVM selftests and KVM-unit-tests is also mandatory (and stating the
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obvious, the tests need to pass). The only exception is for changes that have
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negligible probability of affecting runtime behavior, e.g. patches that only
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modify comments. When possible and relevant, testing on both Intel and AMD is
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strongly preferred. Booting an actual VM is encouraged, but not mandatory.
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For changes that touch KVM's shadow paging code, running with TDP (EPT/NPT)
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disabled is mandatory. For changes that affect common KVM MMU code, running
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with TDP disabled is strongly encouraged. For all other changes, if the code
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being modified depends on and/or interacts with a module param, testing with
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the relevant settings is mandatory.
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Note, KVM selftests and KVM-unit-tests do have known failures. If you suspect
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a failure is not due to your changes, verify that the *exact same* failure
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occurs with and without your changes.
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Changes that touch reStructured Text documentation, i.e. .rst files, must build
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htmldocs cleanly, i.e. with no new warnings or errors.
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If you can't fully test a change, e.g. due to lack of hardware, clearly state
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what level of testing you were able to do, e.g. in the cover letter.
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New Features
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~~~~~~~~~~~~
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With one exception, new features *must* come with test coverage. KVM specific
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tests aren't strictly required, e.g. if coverage is provided by running a
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sufficiently enabled guest VM, or by running a related kernel selftest in a VM,
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but dedicated KVM tests are preferred in all cases. Negative testcases in
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particular are mandatory for enabling of new hardware features as error and
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exception flows are rarely exercised simply by running a VM.
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The only exception to this rule is if KVM is simply advertising support for a
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feature via KVM_GET_SUPPORTED_CPUID, i.e. for instructions/features that KVM
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can't prevent a guest from using and for which there is no true enabling.
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Note, "new features" does not just mean "new hardware features"! New features
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that can't be well validated using existing KVM selftests and/or KVM-unit-tests
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must come with tests.
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Posting new feature development without tests to get early feedback is more
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than welcome, but such submissions should be tagged RFC, and the cover letter
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should clearly state what type of feedback is requested/expected. Do not abuse
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the RFC process; RFCs will typically not receive in-depth review.
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Bug Fixes
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~~~~~~~~~
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Except for "obvious" found-by-inspection bugs, fixes must be accompanied by a
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reproducer for the bug being fixed. In many cases the reproducer is implicit,
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e.g. for build errors and test failures, but it should still be clear to
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readers what is broken and how to verify the fix. Some leeway is given for
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bugs that are found via non-public workloads/tests, but providing regression
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tests for such bugs is strongly preferred.
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In general, regression tests are preferred for any bug that is not trivial to
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hit. E.g. even if the bug was originally found by a fuzzer such as syzkaller,
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a targeted regression test may be warranted if the bug requires hitting a
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one-in-a-million type race condition.
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Note, KVM bugs are rarely urgent *and* non-trivial to reproduce. Ask yourself
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if a bug is really truly the end of the world before posting a fix without a
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reproducer.
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Posting
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-------
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Links
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~~~~~
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Do not explicitly reference bug reports, prior versions of a patch/series, etc.
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via ``In-Reply-To:`` headers. Using ``In-Reply-To:`` becomes an unholy mess
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for large series and/or when the version count gets high, and ``In-Reply-To:``
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is useless for anyone that doesn't have the original message, e.g. if someone
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wasn't Cc'd on the bug report or if the list of recipients changes between
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versions.
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To link to a bug report, previous version, or anything of interest, use lore
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links. For referencing previous version(s), generally speaking do not include
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a Link: in the changelog as there is no need to record the history in git, i.e.
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put the link in the cover letter or in the section git ignores. Do provide a
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formal Link: for bug reports and/or discussions that led to the patch. The
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context of why a change was made is highly valuable for future readers.
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Git Base
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~~~~~~~~
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If you are using git version 2.9.0 or later (Googlers, this is all of you!),
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use ``git format-patch`` with the ``--base`` flag to automatically include the
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base tree information in the generated patches.
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Note, ``--base=auto`` works as expected if and only if a branch's upstream is
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set to the base topic branch, e.g. it will do the wrong thing if your upstream
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is set to your personal repository for backup purposes. An alternative "auto"
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solution is to derive the names of your development branches based on their
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KVM x86 topic, and feed that into ``--base``. E.g. ``x86/pmu/my_branch_name``,
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and then write a small wrapper to extract ``pmu`` from the current branch name
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to yield ``--base=x/pmu``, where ``x`` is whatever name your repository uses to
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track the KVM x86 remote.
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Co-Posting Tests
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~~~~~~~~~~~~~~~~
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KVM selftests that are associated with KVM changes, e.g. regression tests for
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bug fixes, should be posted along with the KVM changes as a single series. The
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standard kernel rules for bisection apply, i.e. KVM changes that result in test
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failures should be ordered after the selftests updates, and vice versa, new
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tests that fail due to KVM bugs should be ordered after the KVM fixes.
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KVM-unit-tests should *always* be posted separately. Tools, e.g. b4 am, don't
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know that KVM-unit-tests is a separate repository and get confused when patches
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in a series apply on different trees. To tie KVM-unit-tests patches back to
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KVM patches, first post the KVM changes and then provide a lore Link: to the
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KVM patch/series in the KVM-unit-tests patch(es).
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Notifications
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-------------
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When a patch/series is officially accepted, a notification email will be sent
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in reply to the original posting (cover letter for multi-patch series). The
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notification will include the tree and topic branch, along with the SHA1s of
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the commits of applied patches.
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If a subset of patches is applied, this will be clearly stated in the
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notification. Unless stated otherwise, it's implied that any patches in the
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series that were not accepted need more work and should be submitted in a new
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version.
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If for some reason a patch is dropped after officially being accepted, a reply
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will be sent to the notification email explaining why the patch was dropped, as
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well as the next steps.
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SHA1 Stability
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~~~~~~~~~~~~~~
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SHA1s are not 100% guaranteed to be stable until they land in Linus' tree! A
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SHA1 is *usually* stable once a notification has been sent, but things happen.
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In most cases, an update to the notification email be provided if an applied
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patch's SHA1 changes. However, in some scenarios, e.g. if all KVM x86 branches
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need to be rebased, individual notifications will not be given.
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Vulnerabilities
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---------------
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Bugs that can be exploited by the guest to attack the host (kernel or
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userspace), or that can be exploited by a nested VM to *its* host (L2 attacking
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L1), are of particular interest to KVM. Please follow the protocol for
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:ref:`securitybugs` if you suspect a bug can lead to an escape, data leak, etc.
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