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Move the 'this section is a placeholder for now and needs help by someone with domain knowledge' note one section upwards to the place where it belongs: the 'Decode failure messages' section. Signed-off-by: Thorsten Leemhuis <linux@leemhuis.info> Link: https://lore.kernel.org/r/d3894ba4a302beed661304cbcdc062c6dcfe3e58.1607489877.git.linux@leemhuis.info Signed-off-by: Jonathan Corbet <corbet@lwn.net>
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.. SPDX-License-Identifier: (GPL-2.0+ OR CC-BY-4.0)
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||
..
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If you want to distribute this text under CC-BY-4.0 only, please use 'The
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||
Linux kernel developers' for author attribution and link this as source:
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https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/plain/Documentation/admin-guide/reporting-issues.rst
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..
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||
Note: Only the content of this RST file as found in the Linux kernel sources
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is available under CC-BY-4.0, as versions of this text that were processed
|
||
(for example by the kernel's build system) might contain content taken from
|
||
files which use a more restrictive license.
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||
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.. important::
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This document is being prepared to replace
|
||
'Documentation/admin-guide/reporting-bugs.rst'. The main work is done and
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you are already free to follow its instructions when reporting issues to the
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Linux kernel developers. But keep in mind, below text still needs a few
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||
finishing touches and review. It was merged to the Linux kernel sources at
|
||
this stage to make this process easier and increase the text's visibility.
|
||
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||
Any improvements for the text or other feedback is thus very much welcome.
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||
Please send it to 'Thorsten Leemhuis <linux@leemhuis.info>' and 'Jonathan
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||
Corbet <corbet@lwn.net>', ideally with 'Linux kernel mailing list (LKML)
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<linux-kernel@vger.kernel.org>' and the 'Linux Kernel Documentation List
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<linux-doc@vger.kernel.org>' in CC.
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||
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Areas in the text that still need work or discussion contain a hint like this
|
||
which point out the remaining issues; all of them start with the word "FIXME"
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to make them easy to find.
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Reporting issues
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++++++++++++++++
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The short guide (aka TL;DR)
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===========================
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If you're facing multiple issues with the Linux kernel at once, report each
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separately to its developers. Try your best guess which kernel part might be
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||
causing the issue. Check the :ref:`MAINTAINERS <maintainers>` file for how its
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developers expect to be told about issues. Note, it's rarely
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`bugzilla.kernel.org <https://bugzilla.kernel.org/>`_, as in almost all cases
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||
the report needs to be sent by email!
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Check the destination thoroughly for existing reports; also search the LKML
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||
archives and the web. Join existing discussion if you find matches. If you
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||
don't find any, install `the latest Linux mainline kernel
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||
<https://kernel.org/>`_. Make sure it's vanilla, thus is not patched or using
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add-on kernel modules. Also ensure the kernel is running in a healthy
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||
environment and is not already tainted before the issue occurs.
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||
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||
If you can reproduce your issue with the mainline kernel, send a report to the
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destination you determined earlier. Make sure it includes all relevant
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||
information, which in case of a regression should mention the change that's
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causing it which can often can be found with a bisection. Also ensure the
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||
report reaches all people that need to know about it, for example the security
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||
team, the stable maintainers or the developers of the patch that causes a
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||
regression. Once the report is out, answer any questions that might be raised
|
||
and help where you can. That includes keeping the ball rolling: every time a
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||
new rc1 mainline kernel is released, check if the issue is still happening
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||
there and attach a status update to your initial report.
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||
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||
If you can not reproduce the issue with the mainline kernel, consider sticking
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||
with it; if you'd like to use an older version line and want to see it fixed
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||
there, first make sure it's still supported. Install its latest release as
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||
vanilla kernel. If you cannot reproduce the issue there, try to find the commit
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||
that fixed it in mainline or any discussion preceding it: those will often
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||
mention if backporting is planed or considered too complex. If backporting was
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||
not discussed, ask if it's in the cards. In case you don't find any commits or
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||
a preceding discussion, see the Linux-stable mailing list archives for existing
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||
reports, as it might be a regression specific to the version line. If it is,
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report it like you would report a problem in mainline (including the
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bisection).
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If you reached this point without a solution, ask for advice one the
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subsystem's mailing list.
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Step-by-step guide how to report issues to the kernel maintainers
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=================================================================
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The above TL;DR outlines roughly how to report issues to the Linux kernel
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developers. It might be all that's needed for people already familiar with
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reporting issues to Free/Libre & Open Source Software (FLOSS) projects. For
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everyone else there is this section. It is more detailed and uses a
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step-by-step approach. It still tries to be brief for readability and leaves
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out a lot of details; those are described below the step-by-step guide in a
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||
reference section, which explains each of the steps in more detail.
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||
|
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Note: this section covers a few more aspects than the TL;DR and does things in
|
||
a slightly different order. That's in your interest, to make sure you notice
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||
early if an issue that looks like a Linux kernel problem is actually caused by
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||
something else. These steps thus help to ensure the time you invest in this
|
||
process won't feel wasted in the end:
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||
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* Stop reading this document and report the problem to your vendor instead,
|
||
unless you are running the latest mainline kernel already or are willing to
|
||
install it. This kernel must not be modified or enhanced in any way, and
|
||
thus be considered 'vanilla'.
|
||
|
||
* See if the issue you are dealing with qualifies as regression, security
|
||
issue, or a really severe problem: those are 'issues of high priority' that
|
||
need special handling in some steps that are about to follow.
|
||
|
||
* Check if your kernel was 'tainted' when the issue occurred, as the event
|
||
that made the kernel set this flag might be causing the issue you face.
|
||
|
||
* Locate the driver or kernel subsystem that seems to be causing the issue.
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||
Find out how and where its developers expect reports. Note: most of the
|
||
time this won't be bugzilla.kernel.org, as issues typically need to be sent
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||
by mail to a maintainer and a public mailing list.
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||
|
||
* Search the archives of the bug tracker or mailing list in question
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||
thoroughly for reports that might match your issue. Also check if you find
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||
something with your favorite internet search engine or in the Linux Kernel
|
||
Mailing List (LKML) archives. If you find anything, join the discussion
|
||
instead of sending a new report.
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||
|
||
* Create a fresh backup and put system repair and restore tools at hand.
|
||
|
||
* Ensure your system does not enhance its kernels by building additional
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||
kernel modules on-the-fly, which solutions like DKMS might be doing locally
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||
without your knowledge.
|
||
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||
* Make sure it's not the kernel's surroundings that are causing the issue
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||
you face.
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||
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||
* Write down coarsely how to reproduce the issue. If you deal with multiple
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||
issues at once, create separate notes for each of them and make sure they
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||
work independently on a freshly booted system. That's needed, as each issue
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||
needs to get reported to the kernel developers separately, unless they are
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||
strongly entangled.
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||
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||
After these preparations you'll now enter the main part:
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* Install the latest Linux mainline kernel: that's where all issues get
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fixed first, because it's the version line the kernel developers mainly
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care about. Testing and reporting with the latest Linux stable kernel can
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||
be an acceptable alternative in some situations, for example during the
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||
merge window; but during that period you might want to suspend your efforts
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||
till its end anyway.
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||
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||
* Ensure the kernel you just installed does not 'taint' itself when
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||
running.
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||
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||
* Reproduce the issue with the kernel you just installed. If it doesn't show
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||
up there, head over to the instructions for issues only happening with
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stable and longterm kernels.
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||
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||
* Optimize your notes: try to find and write the most straightforward way to
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||
reproduce your issue. Make sure the end result has all the important
|
||
details, and at the same time is easy to read and understand for others
|
||
that hear about it for the first time. And if you learned something in this
|
||
process, consider searching again for existing reports about the issue.
|
||
|
||
* If the failure includes a stack dump, like an Oops does, consider decoding
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||
it to find the offending line of code.
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||
|
||
* If your problem is a regression, try to narrow down when the issue was
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||
introduced as much as possible.
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||
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||
* Start to compile the report by writing a detailed description about the
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issue. Always mention a few things: the latest kernel version you installed
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||
for reproducing, the Linux Distribution used, and your notes on how to
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reproduce the issue. Ideally, make the kernel's build configuration
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||
(.config) and the output from ``dmesg`` available somewhere on the net and
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link to it. Include or upload all other information that might be relevant,
|
||
like the output/screenshot of an Oops or the output from ``lspci``. Once
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||
you wrote this main part, insert a normal length paragraph on top of it
|
||
outlining the issue and the impact quickly. On top of this add one sentence
|
||
that briefly describes the problem and gets people to read on. Now give the
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||
thing a descriptive title or subject that yet again is shorter. Then you're
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||
ready to send or file the report like the MAINTAINERS file told you, unless
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you are dealing with one of those 'issues of high priority': they need
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||
special care which is explained in 'Special handling for high priority
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||
issues' below.
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||
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||
* Wait for reactions and keep the thing rolling until you can accept the
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||
outcome in one way or the other. Thus react publicly and in a timely manner
|
||
to any inquiries. Test proposed fixes. Do proactive testing: retest with at
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||
least every first release candidate (RC) of a new mainline version and
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||
report your results. Send friendly reminders if things stall. And try to
|
||
help yourself, if you don't get any help or if it's unsatisfying.
|
||
|
||
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Reporting issues only occurring in older kernel version lines
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-------------------------------------------------------------
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||
This section is for you, if you tried the latest mainline kernel as outlined
|
||
above, but failed to reproduce your issue there; at the same time you want to
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||
see the issue fixed in older version lines or a vendor kernel that's regularly
|
||
rebased on new stable or longterm releases. If that case follow these steps:
|
||
|
||
* Prepare yourself for the possibility that going through the next few steps
|
||
might not get the issue solved in older releases: the fix might be too big
|
||
or risky to get backported there.
|
||
|
||
* Check if the kernel developers still maintain the Linux kernel version
|
||
line you care about: go to the front page of kernel.org and make sure it
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||
mentions the latest release of the particular version line without an
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||
'[EOL]' tag.
|
||
|
||
* Check the archives of the Linux stable mailing list for existing reports.
|
||
|
||
* Install the latest release from the particular version line as a vanilla
|
||
kernel. Ensure this kernel is not tainted and still shows the problem, as
|
||
the issue might have already been fixed there.
|
||
|
||
* Search the Linux kernel version control system for the change that fixed
|
||
the issue in mainline, as its commit message might tell you if the fix is
|
||
scheduled for backporting already. If you don't find anything that way,
|
||
search the appropriate mailing lists for posts that discuss such an issue
|
||
or peer-review possible fixes; then check the discussions if the fix was
|
||
deemed unsuitable for backporting. If backporting was not considered at
|
||
all, join the newest discussion, asking if it's in the cards.
|
||
|
||
* Check if you're dealing with a regression that was never present in
|
||
mainline by installing the first release of the version line you care
|
||
about. If the issue doesn't show up with it, you basically need to report
|
||
the issue with this version like you would report a problem with mainline
|
||
(see above). This ideally includes a bisection followed by a search for
|
||
existing reports on the net; with the help of the subject and the two
|
||
relevant commit-ids. If that doesn't turn up anything, write the report; CC
|
||
or forward the report to the stable maintainers, the stable mailing list,
|
||
and those who authored the change. Include the shortened commit-id if you
|
||
found the change that causes it.
|
||
|
||
* One of the former steps should lead to a solution. If that doesn't work
|
||
out, ask the maintainers for the subsystem that seems to be causing the
|
||
issue for advice; CC the mailing list for the particular subsystem as well
|
||
as the stable mailing list.
|
||
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||
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||
Reference section: Reporting issues to the kernel maintainers
|
||
=============================================================
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||
|
||
The detailed guides above outline all the major steps in brief fashion, which
|
||
should be enough for most people. But sometimes there are situations where even
|
||
experienced users might wonder how to actually do one of those steps. That's
|
||
what this section is for, as it will provide a lot more details on each of the
|
||
above steps. Consider this as reference documentation: it's possible to read it
|
||
from top to bottom. But it's mainly meant to skim over and a place to look up
|
||
details how to actually perform those steps.
|
||
|
||
A few words of general advice before digging into the details:
|
||
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||
* The Linux kernel developers are well aware this process is complicated and
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||
demands more than other FLOSS projects. We'd love to make it simpler. But
|
||
that would require work in various places as well as some infrastructure,
|
||
which would need constant maintenance; nobody has stepped up to do that
|
||
work, so that's just how things are for now.
|
||
|
||
* A warranty or support contract with some vendor doesn't entitle you to
|
||
request fixes from developers in the upstream Linux kernel community: such
|
||
contracts are completely outside the scope of the Linux kernel, its
|
||
development community, and this document. That's why you can't demand
|
||
anything such a contract guarantees in this context, not even if the
|
||
developer handling the issue works for the vendor in question. If you want
|
||
to claim your rights, use the vendor's support channel instead. When doing
|
||
so, you might want to mention you'd like to see the issue fixed in the
|
||
upstream Linux kernel; motivate them by saying it's the only way to ensure
|
||
the fix in the end will get incorporated in all Linux distributions.
|
||
|
||
* If you never reported an issue to a FLOSS project before you should consider
|
||
reading `How to Report Bugs Effectively
|
||
<https://www.chiark.greenend.org.uk/~sgtatham/bugs.html>`_, `How To Ask
|
||
Questions The Smart Way
|
||
<http://www.catb.org/esr/faqs/smart-questions.html>`_, and `How to ask good
|
||
questions <https://jvns.ca/blog/good-questions/>`_.
|
||
|
||
With that off the table, find below the details on how to properly report
|
||
issues to the Linux kernel developers.
|
||
|
||
|
||
Make sure you're using the upstream Linux kernel
|
||
------------------------------------------------
|
||
|
||
*Stop reading this document and report the problem to your vendor instead,
|
||
unless you are running the latest mainline kernel already or are willing to
|
||
install it. This kernel must not be modified or enhanced in any way, and
|
||
thus be considered 'vanilla'.*
|
||
|
||
Like most programmers, Linux kernel developers don't like to spend time dealing
|
||
with reports for issues that don't even happen with the source code they
|
||
maintain: it's just a waste everybody's time, yours included. That's why you
|
||
later will have to test your issue with the latest 'vanilla' kernel: a kernel
|
||
that was build using the Linux sources taken straight from `kernel.org
|
||
<https://kernel.org/>`_ and not modified or enhanced in any way.
|
||
|
||
Almost all kernels used in devices (Computers, Laptops, Smartphones, Routers,
|
||
…) and most kernels shipped by Linux distributors are ancient from the point of
|
||
kernel development and heavily modified. They thus do not qualify for reporting
|
||
an issue to the Linux kernel developers: the issue you face with such a kernel
|
||
might be fixed already or caused by the changes or additions, even if they look
|
||
small or totally unrelated. That's why issues with such kernels need to be
|
||
reported to the vendor that distributed it. Its developers should look into the
|
||
report and, in case it turns out to be an upstream issue, fix it directly
|
||
upstream or report it there. In practice that sometimes does not work out. If
|
||
that the case, you might want to circumvent the vendor by installing the latest
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||
mainline kernel yourself and reporting the issue as outlined in this document;
|
||
just make sure to use really fresh kernel (see below).
|
||
|
||
|
||
.. note::
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||
|
||
FIXME: Should we accept reports for issues with kernel images that are pretty
|
||
close to vanilla? But when are they close enough and how to put that line in
|
||
words? Maybe something like this?
|
||
|
||
*Note: Some Linux kernel developers accept reports from vendor kernels that
|
||
are known to be close to upstream. That for example is often the case for
|
||
the kernels that Debian GNU/Linux Sid or Fedora Rawhide ship, which are
|
||
normally following mainline closely and carry only a few patches. So a
|
||
report with one of these might be accepted by the developers that need to
|
||
handle it. But if they do, depends heavily on the individual developers and
|
||
the issue at hand. That's why installing a mainline vanilla kernel is the
|
||
safe bet.*
|
||
|
||
*Arch Linux, other Fedora releases, and openSUSE Tumbleweed often use quite
|
||
recent stable kernels that are pretty close to upstream, too. Some
|
||
developers accept bugs from them as well. But note that you normally should
|
||
avoid stable kernels for reporting issues and use a mainline kernel instead
|
||
(see below).*
|
||
|
||
Are there any other major Linux distributions that should be mentioned here?
|
||
|
||
|
||
Issue of high priority?
|
||
-----------------------
|
||
|
||
*See if the issue you are dealing with qualifies as regression, security
|
||
issue, or a really severe problem: those are 'issues of high priority' that
|
||
need special handling in some steps that are about to follow.*
|
||
|
||
Linus Torvalds and the leading Linux kernel developers want to see some issues
|
||
fixed as soon as possible, hence there are 'issues of high priority' that get
|
||
handled slightly differently in the reporting process. Three type of cases
|
||
qualify: regressions, security issues, and really severe problems.
|
||
|
||
You deal with a 'regression' if something that worked with an older version of
|
||
the Linux kernel does not work with a newer one or somehow works worse with it.
|
||
It thus is a regression when a WiFi driver that did a fine job with Linux 5.7
|
||
somehow misbehaves with 5.8 or doesn't work at all. It's also a regression if
|
||
an application shows erratic behavior with a newer kernel, which might happen
|
||
due to incompatible changes in the interface between the kernel and the
|
||
userland (like procfs and sysfs). Significantly reduced performance or
|
||
increased power consumption also qualify as regression. But keep in mind: the
|
||
new kernel needs to be built with a configuration that is similar to the one
|
||
from the old kernel (see below how to achieve that). That's because the kernel
|
||
developers sometimes can not avoid incompatibilities when implementing new
|
||
features; but to avoid regressions such features have to be enabled explicitly
|
||
during build time configuration.
|
||
|
||
What qualifies as security issue is left to your judgment. Consider reading
|
||
'Documentation/admin-guide/security-bugs.rst' before proceeding, as it
|
||
provides additional details how to best handle security issues.
|
||
|
||
An issue is a 'really severe problem' when something totally unacceptably bad
|
||
happens. That's for example the case when a Linux kernel corrupts the data it's
|
||
handling or damages hardware it's running on. You're also dealing with a severe
|
||
issue when the kernel suddenly stops working with an error message ('kernel
|
||
panic') or without any farewell note at all. Note: do not confuse a 'panic' (a
|
||
fatal error where the kernel stop itself) with a 'Oops' (a recoverable error),
|
||
as the kernel remains running after the latter.
|
||
|
||
|
||
Check 'taint' flag
|
||
------------------
|
||
|
||
*Check if your kernel was 'tainted' when the issue occurred, as the event
|
||
that made the kernel set this flag might be causing the issue you face.*
|
||
|
||
The kernel marks itself with a 'taint' flag when something happens that might
|
||
lead to follow-up errors that look totally unrelated. The issue you face might
|
||
be such an error if your kernel is tainted. That's why it's in your interest to
|
||
rule this out early before investing more time into this process. This is the
|
||
only reason why this step is here, as this process later will tell you to
|
||
install the latest mainline kernel; you will need to check the taint flag again
|
||
then, as that's when it matters because it's the kernel the report will focus
|
||
on.
|
||
|
||
On a running system is easy to check if the kernel tainted itself: if ``cat
|
||
/proc/sys/kernel/tainted`` returns '0' then the kernel is not tainted and
|
||
everything is fine. Checking that file is impossible in some situations; that's
|
||
why the kernel also mentions the taint status when it reports an internal
|
||
problem (a 'kernel bug'), a recoverable error (a 'kernel Oops') or a
|
||
non-recoverable error before halting operation (a 'kernel panic'). Look near
|
||
the top of the error messages printed when one of these occurs and search for a
|
||
line starting with 'CPU:'. It should end with 'Not tainted' if the kernel was
|
||
not tainted when it noticed the problem; it was tainted if you see 'Tainted:'
|
||
followed by a few spaces and some letters.
|
||
|
||
If your kernel is tainted, study 'Documentation/admin-guide/tainted-kernels.rst'
|
||
to find out why. Try to eliminate the reason. Often it's caused by one these
|
||
three things:
|
||
|
||
1. A recoverable error (a 'kernel Oops') occurred and the kernel tainted
|
||
itself, as the kernel knows it might misbehave in strange ways after that
|
||
point. In that case check your kernel or system log and look for a section
|
||
that starts with this::
|
||
|
||
Oops: 0000 [#1] SMP
|
||
|
||
That's the first Oops since boot-up, as the '#1' between the brackets shows.
|
||
Every Oops and any other problem that happens after that point might be a
|
||
follow-up problem to that first Oops, even if both look totally unrelated.
|
||
Rule this out by getting rid of the cause for the first Oops and reproducing
|
||
the issue afterwards. Sometimes simply restarting will be enough, sometimes
|
||
a change to the configuration followed by a reboot can eliminate the Oops.
|
||
But don't invest too much time into this at this point of the process, as
|
||
the cause for the Oops might already be fixed in the newer Linux kernel
|
||
version you are going to install later in this process.
|
||
|
||
2. Your system uses a software that installs its own kernel modules, for
|
||
example Nvidia's proprietary graphics driver or VirtualBox. The kernel
|
||
taints itself when it loads such module from external sources (even if
|
||
they are Open Source): they sometimes cause errors in unrelated kernel
|
||
areas and thus might be causing the issue you face. You therefore have to
|
||
prevent those modules from loading when you want to report an issue to the
|
||
Linux kernel developers. Most of the time the easiest way to do that is:
|
||
temporarily uninstall such software including any modules they might have
|
||
installed. Afterwards reboot.
|
||
|
||
3. The kernel also taints itself when it's loading a module that resides in
|
||
the staging tree of the Linux kernel source. That's a special area for
|
||
code (mostly drivers) that does not yet fulfill the normal Linux kernel
|
||
quality standards. When you report an issue with such a module it's
|
||
obviously okay if the kernel is tainted; just make sure the module in
|
||
question is the only reason for the taint. If the issue happens in an
|
||
unrelated area reboot and temporarily block the module from being loaded
|
||
by specifying ``foo.blacklist=1`` as kernel parameter (replace 'foo' with
|
||
the name of the module in question).
|
||
|
||
|
||
Locate kernel area that causes the issue
|
||
----------------------------------------
|
||
|
||
*Locate the driver or kernel subsystem that seems to be causing the issue.
|
||
Find out how and where its developers expect reports. Note: most of the
|
||
time this won't be bugzilla.kernel.org, as issues typically need to be sent
|
||
by mail to a maintainer and a public mailing list.*
|
||
|
||
It's crucial to send your report to the right people, as the Linux kernel is a
|
||
big project and most of its developers are only familiar with a small subset of
|
||
it. Quite a few programmers for example only care for just one driver, for
|
||
example one for a WiFi chip; its developer likely will only have small or no
|
||
knowledge about the internals of remote or unrelated "subsystems", like the TCP
|
||
stack, the PCIe/PCI subsystem, memory management or file systems.
|
||
|
||
Problem is: the Linux kernel lacks a central bug tracker where you can simply
|
||
file your issue and make it reach the developers that need to know about it.
|
||
That's why you have to find the right place and way to report issues yourself.
|
||
You can do that with the help of a script (see below), but it mainly targets
|
||
kernel developers and experts. For everybody else the MAINTAINERS file is the
|
||
better place.
|
||
|
||
How to read the MAINTAINERS file
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
To illustrate how to use the :ref:`MAINTAINERS <maintainers>` file, lets assume
|
||
the WiFi in your Laptop suddenly misbehaves after updating the kernel. In that
|
||
case it's likely an issue in the WiFi driver. Obviously it could also be some
|
||
code it builds upon, but unless you suspect something like that stick to the
|
||
driver. If it's really something else, the driver's developers will get the
|
||
right people involved.
|
||
|
||
Sadly, there is no way to check which code is driving a particular hardware
|
||
component that is both universal and easy.
|
||
|
||
In case of a problem with the WiFi driver you for example might want to look at
|
||
the output of ``lspci -k``, as it lists devices on the PCI/PCIe bus and the
|
||
kernel module driving it::
|
||
|
||
[user@something ~]$ lspci -k
|
||
[...]
|
||
3a:00.0 Network controller: Qualcomm Atheros QCA6174 802.11ac Wireless Network Adapter (rev 32)
|
||
Subsystem: Bigfoot Networks, Inc. Device 1535
|
||
Kernel driver in use: ath10k_pci
|
||
Kernel modules: ath10k_pci
|
||
[...]
|
||
|
||
But this approach won't work if your WiFi chip is connected over USB or some
|
||
other internal bus. In those cases you might want to check your WiFi manager or
|
||
the output of ``ip link``. Look for the name of the problematic network
|
||
interface, which might be something like 'wlp58s0'. This name can be used like
|
||
this to find the module driving it::
|
||
|
||
[user@something ~]$ realpath --relative-to=/sys/module/ /sys/class/net/wlp58s0/device/driver/module
|
||
ath10k_pci
|
||
|
||
In case tricks like these don't bring you any further, try to search the
|
||
internet on how to narrow down the driver or subsystem in question. And if you
|
||
are unsure which it is: just try your best guess, somebody will help you if you
|
||
guessed poorly.
|
||
|
||
Once you know the driver or subsystem, you want to search for it in the
|
||
MAINTAINERS file. In the case of 'ath10k_pci' you won't find anything, as the
|
||
name is too specific. Sometimes you will need to search on the net for help;
|
||
but before doing so, try a somewhat shorted or modified name when searching the
|
||
MAINTAINERS file, as then you might find something like this::
|
||
|
||
QUALCOMM ATHEROS ATH10K WIRELESS DRIVER
|
||
Mail: A. Some Human <shuman@example.com>
|
||
Mailing list: ath10k@lists.infradead.org
|
||
Status: Supported
|
||
Web-page: https://wireless.wiki.kernel.org/en/users/Drivers/ath10k
|
||
SCM: git git://git.kernel.org/pub/scm/linux/kernel/git/kvalo/ath.git
|
||
Files: drivers/net/wireless/ath/ath10k/
|
||
|
||
Note: the line description will be abbreviations, if you read the plain
|
||
MAINTAINERS file found in the root of the Linux source tree. 'Mail:' for
|
||
example will be 'M:', 'Mailing list:' will be 'L', and 'Status:' will be 'S:'.
|
||
A section near the top of the file explains these and other abbreviations.
|
||
|
||
First look at the line 'Status'. Ideally it should be 'Supported' or
|
||
'Maintained'. If it states 'Obsolete' then you are using some outdated approach
|
||
that was replaced by a newer solution you need to switch to. Sometimes the code
|
||
only has someone who provides 'Odd Fixes' when feeling motivated. And with
|
||
'Orphan' you are totally out of luck, as nobody takes care of the code anymore.
|
||
That only leaves these options: arrange yourself to live with the issue, fix it
|
||
yourself, or find a programmer somewhere willing to fix it.
|
||
|
||
After checking the status, look for a line starting with 'bugs:': it will tell
|
||
you where to find a subsystem specific bug tracker to file your issue. The
|
||
example above does not have such a line. That is the case for most sections, as
|
||
Linux kernel development is completely driven by mail. Very few subsystems use
|
||
a bug tracker, and only some of those rely on bugzilla.kernel.org.
|
||
|
||
|
||
.. note::
|
||
|
||
FIXME: The old text took a totally different approach to bugzilla.kernel.org,
|
||
as it mentions it as the place to file issue for people that don't known how
|
||
to contact the appropriate people. The new one mentions it rarely; and when
|
||
it does like here, it warns users that it's often the wrong place to go.
|
||
|
||
This approach was chosen as the main author of this document noticed quite a
|
||
few users (or even a lot?) get no reply to the bugs they file in bugzilla.
|
||
That's kind of expected, as quite a few (many? most?) of the maintainers
|
||
don't even get notified when reports for their subsystem get filed there. And
|
||
not getting a single reply to report is something that is just annoying for
|
||
users and might make them angry. Improving bugzilla.k.o would be an option,
|
||
but on the kernel and maintainers summit 2017 it was agreed on to first go
|
||
this route (sorry it took so long): it's easier to achieve and less
|
||
controversial, as putting additional burden on already overworked maintainers
|
||
is unlikely to get well received.
|
||
|
||
|
||
In this and many other cases you thus have to look for lines starting with
|
||
'Mail:' instead. Those mention the name and the email addresses for the
|
||
maintainers of the particular code. Also look for a line starting with 'Mailing
|
||
list:', which tells you the public mailing list where the code is developed.
|
||
Your report later needs to go by mail to those addresses. Additionally, for all
|
||
issue reports sent by email, make sure to add the Linux Kernel Mailing List
|
||
(LKML) <linux-kernel@vger.kernel.org> to CC. Don't omit either of the mailing
|
||
lists when sending your issue report by mail later! Maintainers are busy people
|
||
and might leave some work for other developers on the subsystem specific list;
|
||
and LKML is important to have one place where all issue reports can be found.
|
||
|
||
|
||
.. note::
|
||
|
||
FIXME: Above section tells users to always CC LKML. These days it's a kind of
|
||
"catch-all" list anyway, which nearly nobody seems to follow closely. So it
|
||
seems appropriate to go "all in" and make people send their reports here,
|
||
too, as everything (reports, fixes, ...) then can be found in one place (at
|
||
least for all reports sent by mail and all subsystems that CC LKML).
|
||
|
||
Related: Should we create mailing list like 'linux-issues@vger.kernel.org'
|
||
and tell users above to always CC it when reporting issues? Then there would
|
||
be one central place reporters could search for existing reports (at least
|
||
for issues reported by mail) without getting regular LKML traffic mixed into
|
||
the results.
|
||
|
||
|
||
Finding the maintainers with the help of a script
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
For people that have the Linux sources at hand there is a second option to find
|
||
the proper place to report: the script 'scripts/get_maintainer.pl' which tries
|
||
to find all people to contact. It queries the MAINTAINERS file and needs to be
|
||
called with a path to the source code in question. For drivers compiled as
|
||
module if often can be found with a command like this::
|
||
|
||
$ modinfo ath10k_pci | grep filename | sed 's!/lib/modules/.*/kernel/!!; s!filename:!!; s!\.ko\(\|\.xz\)!!'
|
||
drivers/net/wireless/ath/ath10k/ath10k_pci.ko
|
||
|
||
Pass parts of this to the script::
|
||
|
||
$ ./scripts/get_maintainer.pl -f drivers/net/wireless/ath/ath10k*
|
||
Some Human <shuman@example.com> (supporter:QUALCOMM ATHEROS ATH10K WIRELESS DRIVER)
|
||
Another S. Human <asomehuman@example.com> (maintainer:NETWORKING DRIVERS)
|
||
ath10k@lists.infradead.org (open list:QUALCOMM ATHEROS ATH10K WIRELESS DRIVER)
|
||
linux-wireless@vger.kernel.org (open list:NETWORKING DRIVERS (WIRELESS))
|
||
netdev@vger.kernel.org (open list:NETWORKING DRIVERS)
|
||
linux-kernel@vger.kernel.org (open list)
|
||
|
||
Don't sent your report to all of them. Send it to the maintainers, which the
|
||
script calls "supporter:"; additionally CC the most specific mailing list for
|
||
the code as well as the Linux Kernel Mailing List (LKML). In this case you thus
|
||
would need to send the report to 'Some Human <shuman@example.com>' with
|
||
'ath10k@lists.infradead.org' and 'linux-kernel@vger.kernel.org' in CC.
|
||
|
||
Note: in case you cloned the Linux sources with git you might want to call
|
||
``get_maintainer.pl`` a second time with ``--git``. The script then will look
|
||
at the commit history to find which people recently worked on the code in
|
||
question, as they might be able to help. But use these results with care, as it
|
||
can easily send you in a wrong direction. That for example happens quickly in
|
||
areas rarely changed (like old or unmaintained drivers): sometimes such code is
|
||
modified during tree-wide cleanups by developers that do not care about the
|
||
particular driver at all.
|
||
|
||
|
||
Search for existing reports
|
||
---------------------------
|
||
|
||
*Search the archives of the bug tracker or mailing list in question
|
||
thoroughly for reports that might match your issue. Also check if you find
|
||
something with your favorite internet search engine or in the Linux Kernel
|
||
Mailing List (LKML) archives. If you find anything, join the discussion
|
||
instead of sending a new report.*
|
||
|
||
Reporting an issue that someone else already brought forward is often a waste
|
||
of time for everyone involved, especially you as the reporter. So it's in your
|
||
own interest to thoroughly check if somebody reported the issue already. Thus
|
||
do not hurry with this step of the reporting process. Spending 30 to 60 minutes
|
||
or even more time can save you and others quite a lot of time and trouble.
|
||
|
||
The best place to search is the bug tracker or the mailing list where your
|
||
report needs to be filed. You'll find quite a few of those lists on
|
||
`lore.kernel.org <https://lore.kernel.org/>`_, but some are hosted in
|
||
different places. That for example is the case for the ath10k WiFi driver used
|
||
as example in the previous step. But you'll often find the archives for these
|
||
lists easily on the net. Searching for 'archive ath10k@lists.infradead.org' for
|
||
example will quickly lead you to the `Info page for the ath10k mailing list
|
||
<https://lists.infradead.org/mailman/listinfo/ath10k>`_, which at the top links
|
||
to its `list archives <https://lists.infradead.org/pipermail/ath10k/>`_.
|
||
|
||
Sadly this and quite a few other lists miss a way to search the archives. In
|
||
those cases use a regular internet search engine and add something like
|
||
'site:lists.infradead.org/pipermail/ath10k/' to your search terms, which limits
|
||
the results to the archives at that URL.
|
||
|
||
Additionally, search the internet and the `Linux Kernel Mailing List (LKML)
|
||
archives <https://lore.kernel.org/lkml/>`_, as maybe the real culprit might be
|
||
in some other subsystem. Searching in `bugzilla.kernel.org
|
||
<https://bugzilla.kernel.org/>`_ might also be a good idea, but if you find
|
||
anything there keep in mind: most subsystems expect reports in different
|
||
places, hence those you find there might have not even reached the people
|
||
responsible for the subsystem in question. Nevertheless, the data there might
|
||
provide valuable insights.
|
||
|
||
If you get flooded with results consider telling your search engine to limit
|
||
search timeframe to the past month or year. And wherever you search, make sure
|
||
to use good search terms; vary them a few times, too. While doing so try to
|
||
look at the issue from the perspective of someone else: that will help you to
|
||
come up with other words to use as search terms. Also make sure not to use too
|
||
many search terms at once. Remember to search with and without information like
|
||
the name of the kernel driver or the name of the affected hardware component.
|
||
But its exact brand name (say 'ASUS Red Devil Radeon RX 5700 XT Gaming OC')
|
||
often is not much helpful, as it is too specific. Instead try search terms like
|
||
the model line (Radeon 5700 or Radeon 5000) and the code name of the main chip
|
||
('Navi' or 'Navi10') with and without its manufacturer ('AMD').
|
||
|
||
In case you find an existing report about your issue, join the discussion, as
|
||
you might be able to provide valuable additional information. That can be
|
||
important even when a fix is prepared or in its final stages already, as
|
||
developers might look for people that can provide additional information or
|
||
test a proposed fix. Jump to the section 'Duties after the report went out' for
|
||
details on how to get properly involved.
|
||
|
||
|
||
Prepare for emergencies
|
||
-----------------------
|
||
|
||
*Create a fresh backup and put system repair and restore tools at hand.*
|
||
|
||
Reminder, you are dealing with computers, which sometimes do unexpected things,
|
||
especially if you fiddle with crucial parts like the kernel of its operating
|
||
system. That's what you are about to do in this process. Thus, make sure to
|
||
create a fresh backup; also ensure you have all tools at hand to repair or
|
||
reinstall the operating system as well as everything you need to restore the
|
||
backup.
|
||
|
||
|
||
Make sure your kernel doesn't get enhanced
|
||
------------------------------------------
|
||
|
||
*Ensure your system does not enhance its kernels by building additional
|
||
kernel modules on-the-fly, which solutions like DKMS might be doing locally
|
||
without your knowledge.*
|
||
|
||
Your kernel must be 'vanilla' when reporting an issue, but stops being pure as
|
||
soon as it loads a kernel module not built from the sources used to compile the
|
||
kernel image itself. That's why you need to ensure your Linux kernel stays
|
||
vanilla by removing or disabling mechanisms like akmods and DKMS: those might
|
||
build additional kernel modules automatically, for example when your boot into
|
||
a newly installed Linux kernel the first time. Reboot after removing them and
|
||
any modules they installed.
|
||
|
||
Note, you might not be aware that your system is using one of these solutions:
|
||
they often get set up silently when you install Nvidia's proprietary graphics
|
||
driver, VirtualBox, or other software that requires a some support from a
|
||
module not part of the Linux kernel. That why your might need to uninstall the
|
||
packages with such software to get rid of any 3rd party kernel module.
|
||
|
||
|
||
Ensure a healthy environment
|
||
----------------------------
|
||
|
||
*Make sure it's not the kernel's surroundings that are causing the issue
|
||
you face.*
|
||
|
||
Problems that look a lot like a kernel issue are sometimes caused by build or
|
||
runtime environment. It's hard to rule out that problem completely, but you
|
||
should minimize it:
|
||
|
||
* Use proven tools when building your kernel, as bugs in the compiler or the
|
||
binutils can cause the resulting kernel to misbehave.
|
||
|
||
* Ensure your computer components run within their design specifications;
|
||
that's especially important for the main processor, the main memory, and the
|
||
motherboard. Therefore, stop undervolting or overclocking when facing a
|
||
potential kernel issue.
|
||
|
||
* Try to make sure it's not faulty hardware that is causing your issue. Bad
|
||
main memory for example can result in a multitude of issues that will
|
||
manifest itself in problems looking like kernel issues.
|
||
|
||
* If you're dealing with a filesystem issue, you might want to check the file
|
||
system in question with ``fsck``, as it might be damaged in a way that leads
|
||
to unexpected kernel behavior.
|
||
|
||
* When dealing with a regression, make sure it's not something else that
|
||
changed in parallel to updating the kernel. The problem for example might be
|
||
caused by other software that was updated at the same time. It can also
|
||
happen that a hardware component coincidentally just broke when you rebooted
|
||
into a new kernel for the first time. Updating the systems BIOS or changing
|
||
something in the BIOS Setup can also lead to problems that on look a lot
|
||
like a kernel regression.
|
||
|
||
|
||
Document how to reproduce issue
|
||
-------------------------------
|
||
|
||
*Write down coarsely how to reproduce the issue. If you deal with multiple
|
||
issues at once, create separate notes for each of them and make sure they
|
||
work independently on a freshly booted system. That's needed, as each issue
|
||
needs to get reported to the kernel developers separately, unless they are
|
||
strongly entangled.*
|
||
|
||
If you deal with multiple issues at once, you'll have to report each of them
|
||
separately, as they might be handled by different developers. Describing
|
||
various issues in one report also makes it quite difficult for others to tear
|
||
it apart. Hence, only combine issues in one report if they are very strongly
|
||
entangled.
|
||
|
||
Additionally, during the reporting process you will have to test if the issue
|
||
happens with other kernel versions. Therefore, it will make your work easier if
|
||
you know exactly how to reproduce an issue quickly on a freshly booted system.
|
||
|
||
Note: it's often fruitless to report issues that only happened once, as they
|
||
might be caused by a bit flip due to cosmic radiation. That's why you should
|
||
try to rule that out by reproducing the issue before going further. Feel free
|
||
to ignore this advice if you are experienced enough to tell a one-time error
|
||
due to faulty hardware apart from a kernel issue that rarely happens and thus
|
||
is hard to reproduce.
|
||
|
||
|
||
Install a fresh kernel for testing
|
||
----------------------------------
|
||
|
||
*Install the latest Linux mainline kernel: that's where all issues get
|
||
fixed first, because it's the version line the kernel developers mainly
|
||
care about. Testing and reporting with the latest Linux stable kernel can
|
||
be an acceptable alternative in some situations, for example during the
|
||
merge window; but during that period you might want to suspend your efforts
|
||
till its end anyway.*
|
||
|
||
Reporting an issue to the Linux kernel developers they fixed weeks or months
|
||
ago is annoying for them and wasting their and your time. That's why it's in
|
||
everybody's interest to check if the issue occurs with the latest codebase
|
||
before reporting it.
|
||
|
||
In the scope of the Linux kernel the term 'latest' means: a kernel version
|
||
recently created from the main line of development, as this 'mainline' tree is
|
||
where developers first apply fixes; only after that are they are allowed to get
|
||
backported to older, still supported version lines called 'stable' and
|
||
'longterm' kernels. That's why you should check a recent mainline kernel, even
|
||
if you deal with an issue you only want to see fixed in an older version line.
|
||
Another reason: some fixes are only applied to mainline or recent version
|
||
lines, as it's too hard or risky to backport them to older versions. If that
|
||
the case, reporting the issue again is unlikely to change anything.
|
||
|
||
Longterm kernels (sometimes called "LTS kernels") are therefore unsuitable for
|
||
testing; they simply are too distant from current development. Even the latest
|
||
Linux 'stable' kernel is a significant bit behind and thus better avoided. At
|
||
least most of the time, as sometimes a stable kernel can the best choice; but
|
||
in those situations you might want to wait a few days anyway:
|
||
|
||
Choosing between mainline, stable and waiting
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
Head over to `kernel.org <https://kernel.org/>`_ to decide which version to
|
||
use. Ignore the big yellow button that says 'Latest release' and look a little
|
||
lower for a table. At its top you'll see a line starting with 'mainline', which
|
||
most of the time will point to a pre-release with a version number like
|
||
'5.8-rc2'. If that's the case, you'll want to use this mainline kernel for
|
||
testing. Do not let that 'rc' scare you, these 'development kernels' are pretty
|
||
reliable — and you made a backup, as you were instructed above, didn't you?
|
||
|
||
In about two out of every nine to ten weeks, 'mainline' might point you to a
|
||
proper release with a version number like '5.7'. If that happens, consider
|
||
suspending the reporting process until the first pre-release of the next
|
||
version (5.8-rc1) shows up on kernel.org. That's because the Linux development
|
||
cycle then is in its two-week long 'merge window'. The bulk of the changes and
|
||
all intrusive ones get merged for the next release during this time. It's a bit
|
||
more risky to use mainline during this period. Kernel developers are also often
|
||
quite busy then and might have no spare time to deal with issue reports. It's
|
||
also quite possible that one of the many changes applied during the merge
|
||
window fixes the issue you face; that's why you soon would have to retest with
|
||
a newer kernel version anyway, as outlined below in the section 'Duties after
|
||
the report went out'.
|
||
|
||
That's why it might make sense to wait till the merge window is over. But don't
|
||
to that if you're dealing with something that shouldn't wait. In that case
|
||
consider obtaining the latest mainline kernel via git (see below) or use the
|
||
latest stable version offered on kernel.org. Using that is also acceptable in
|
||
case mainline for some reason does currently not work for you. An in general:
|
||
using it for reproducing the issue is also better than not reporting it issue
|
||
at all.
|
||
|
||
How to obtain a fresh Linux kernel
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
You can use pre-built or self-compiled kernel for testing; if you choose the
|
||
latter approach, you can either obtain the source code using git or download it
|
||
as tar archive.
|
||
|
||
Using a pre-compiled kernel for testing is often the quickest, easiest, and
|
||
safest way – especially is you are unfamiliar with the Linux kernel. But it
|
||
needs to be a vanilla kernel, which can be hard to come buy. You are in luck if
|
||
you are using a popular Linux distribution: for quite a few of them you'll find
|
||
repositories on the net that contain packages with the latest mainline or
|
||
stable kernels in vanilla fashion. It's totally okay to use these, just make
|
||
sure from the repository's documentation they are really vanilla. And ensure
|
||
the packages contain the latest versions as offered on kernel.org; they are
|
||
likely unsuitable if the package is older than a week, as new mainline and
|
||
stable kernels typically get released at least once a week. And be aware that
|
||
you might need to get build your own kernel later anyway when it comes to
|
||
helping test fixes, as described later in this document.
|
||
|
||
Developers and experienced Linux users familiar with git are often best served
|
||
by obtaining the latest Linux kernel sources straight from the `official
|
||
development repository on kernel.org
|
||
<https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/>`_.
|
||
Those are likely a bit ahead of the latest mainline pre-release. Don't worry
|
||
about it: they are as reliable as a proper pre-release, unless the kernel's
|
||
development cycle is currently in the middle of a merge window. But even then
|
||
they are quite reliable.
|
||
|
||
People unfamiliar with git are often best served by downloading the sources as
|
||
tarball from `kernel.org <https://kernel.org/>`_.
|
||
|
||
How to actually build a kernel isnot described here, as many websites explain
|
||
the necessary steps already. If you are new to it, consider following one of
|
||
those how-to's that suggest to use ``make localmodconfig``, as that tries to
|
||
pick up the configuration of your current kernel and then tries to adjust it
|
||
somewhat for your system. That does not make the resulting kernel any better,
|
||
but quicker to compile.
|
||
|
||
|
||
Check 'taint' flag
|
||
------------------
|
||
|
||
*Ensure the kernel you just installed does not 'taint' itself when
|
||
running.*
|
||
|
||
As outlined above in more detail already: the kernel sets a 'taint' flag when
|
||
something happens that can lead to follow-up errors that look totally
|
||
unrelated. That's why you need to check if the kernel you just installed does
|
||
not set this flag. And if it does, you in almost all the cases needs to
|
||
eliminate the reason for it before you reporting issues that occur with it. See
|
||
the section above for details how to do that.
|
||
|
||
|
||
Reproduce issue with the fresh kernel
|
||
-------------------------------------
|
||
|
||
*Reproduce the issue with the kernel you just installed. If it doesn't show
|
||
up there, head over to the instructions for issues only happening with
|
||
stable and longterm kernels.*
|
||
|
||
Check if the issue occurs with the fresh Linux kernel version you just
|
||
installed. If it was fixed there already, consider sticking with this version
|
||
line and abandoning your plan to report the issue. But keep in mind that other
|
||
users might still be plagued by it, as long as it's not fixed in either stable
|
||
and longterm version from kernel.org (and thus vendor kernels derived from
|
||
those). If you prefer to use one of those or just want to help their users,
|
||
head over to the section "Details about reporting issues only occurring in
|
||
older kernel version lines" below.
|
||
|
||
|
||
Optimize description to reproduce issue
|
||
---------------------------------------
|
||
|
||
*Optimize your notes: try to find and write the most straightforward way to
|
||
reproduce your issue. Make sure the end result has all the important
|
||
details, and at the same time is easy to read and understand for others
|
||
that hear about it for the first time. And if you learned something in this
|
||
process, consider searching again for existing reports about the issue.*
|
||
|
||
An unnecessarily complex report will make it hard for others to understand your
|
||
report. Thus try to find a reproducer that's straight forward to describe and
|
||
thus easy to understand in written form. Include all important details, but at
|
||
the same time try to keep it as short as possible.
|
||
|
||
In this in the previous steps you likely have learned a thing or two about the
|
||
issue you face. Use this knowledge and search again for existing reports
|
||
instead you can join.
|
||
|
||
|
||
Decode failure messages
|
||
-----------------------
|
||
|
||
.. note::
|
||
|
||
FIXME: The text in this section is a placeholder for now and quite similar to
|
||
the old text found in 'Documentation/admin-guide/reporting-bugs.rst'
|
||
currently. It and the document it references are known to be outdated and
|
||
thus need to be revisited. Thus consider this note a request for help: if you
|
||
are familiar with this topic, please write a few lines that would fit here.
|
||
Alternatively, simply outline the current situation roughly to the main
|
||
authors of this document (see intro), as they might be able to write
|
||
something then.
|
||
|
||
This section in the end should answer questions like "when is this actually
|
||
needed", "what .config options to ideally set earlier to make this step easy
|
||
or unnecessary?" (likely CONFIG_UNWINDER_ORC when it's available, otherwise
|
||
CONFIG_UNWINDER_FRAME_POINTER; but is there anything else needed?).
|
||
|
||
..
|
||
|
||
*If the failure includes a stack dump, like an Oops does, consider decoding
|
||
it to find the offending line of code.*
|
||
|
||
When the kernel detects an error, it will print a stack dump that allows to
|
||
identify the exact line of code where the issue happens. But that information
|
||
sometimes needs to get decoded to be readable, which is explained in
|
||
admin-guide/bug-hunting.rst.
|
||
|
||
|
||
Special care for regressions
|
||
----------------------------
|
||
|
||
*If your problem is a regression, try to narrow down when the issue was
|
||
introduced as much as possible.*
|
||
|
||
Linux lead developer Linus Torvalds insists that the Linux kernel never
|
||
worsens, that's why he deems regressions as unacceptable and wants to see them
|
||
fixed quickly. That's why changes that introduced a regression are often
|
||
promptly reverted if the issue they cause can't get solved quickly any other
|
||
way. Reporting a regression is thus a bit like playing a kind of trump card to
|
||
get something quickly fixed. But for that to happen the change that's causing
|
||
the regression needs to be known. Normally it's up to the reporter to track
|
||
down the culprit, as maintainers often won't have the time or setup at hand to
|
||
reproduce it themselves.
|
||
|
||
To find the change there is a process called 'bisection' which the document
|
||
'Documentation/admin-guide/bug-bisect.rst' describes in detail. That process
|
||
will often require you to build about ten to twenty kernel images, trying to
|
||
reproduce the issue with each of them before building the next. Yes, that takes
|
||
some time, but don't worry, it works a lot quicker than most people assume.
|
||
Thanks to a 'binary search' this will lead you to the one commit in the source
|
||
code management system that's causing the regression. Once you find it, search
|
||
the net for the subject of the change, its commit id and the shortened commit id
|
||
(the first 12 characters of the commit id). This will lead you to existing
|
||
reports about it, if there are any.
|
||
|
||
Note, a bisection needs a bit of know-how, which not everyone has, and quite a
|
||
bit of effort, which not everyone is willing to invest. Nevertheless, it's
|
||
highly recommended performing a bisection yourself. If you really can't or
|
||
don't want to go down that route at least find out which mainline kernel
|
||
introduced the regression. If something for example breaks when switching from
|
||
5.5.15 to 5.8.4, then try at least all the mainline releases in that area (5.6,
|
||
5.7 and 5.8) to check when it first showed up. Unless you're trying to find a
|
||
regression in a stable or longterm kernel, avoid testing versions which number
|
||
has three sections (5.6.12, 5.7.8), as that makes the outcome hard to
|
||
interpret, which might render your testing useless. Once you found the major
|
||
version which introduced the regression, feel free to move on in the reporting
|
||
process. But keep in mind: it depends on the issue at hand if the developers
|
||
will be able to help without knowing the culprit. Sometimes they might
|
||
recognize from the report want went wrong and can fix it; other times they will
|
||
be unable to help unless you perform a bisection.
|
||
|
||
When dealing with regressions make sure the issue you face is really caused by
|
||
the kernel and not by something else, as outlined above already.
|
||
|
||
In the whole process keep in mind: an issue only qualifies as regression if the
|
||
older and the newer kernel got built with a similar configuration. The best way
|
||
to archive this: copy the configuration file (``.config``) from the old working
|
||
kernel freshly to each newer kernel version you try. Afterwards run ``make
|
||
oldnoconfig`` to adjust it for the needs of the new version without enabling
|
||
any new feature, as those are allowed to cause regressions.
|
||
|
||
|
||
Write and send the report
|
||
-------------------------
|
||
|
||
*Start to compile the report by writing a detailed description about the
|
||
issue. Always mention a few things: the latest kernel version you installed
|
||
for reproducing, the Linux Distribution used, and your notes on how to
|
||
reproduce the issue. Ideally, make the kernel's build configuration
|
||
(.config) and the output from ``dmesg`` available somewhere on the net and
|
||
link to it. Include or upload all other information that might be relevant,
|
||
like the output/screenshot of an Oops or the output from ``lspci``. Once
|
||
you wrote this main part, insert a normal length paragraph on top of it
|
||
outlining the issue and the impact quickly. On top of this add one sentence
|
||
that briefly describes the problem and gets people to read on. Now give the
|
||
thing a descriptive title or subject that yet again is shorter. Then you're
|
||
ready to send or file the report like the MAINTAINERS file told you, unless
|
||
you are dealing with one of those 'issues of high priority': they need
|
||
special care which is explained in 'Special handling for high priority
|
||
issues' below.*
|
||
|
||
Now that you have prepared everything it's time to write your report. How to do
|
||
that is partly explained by the three documents linked to in the preface above.
|
||
That's why this text will only mention a few of the essentials as well as
|
||
things specific to the Linux kernel.
|
||
|
||
There is one thing that fits both categories: the most crucial parts of your
|
||
report are the title/subject, the first sentence, and the first paragraph.
|
||
Developers often get quite a lot of mail. They thus often just take a few
|
||
seconds to skim a mail before deciding to move on or look closer. Thus: the
|
||
better the top section of your report, the higher are the chances that someone
|
||
will look into it and help you. And that is why you should ignore them for now
|
||
and write the detailed report first. ;-)
|
||
|
||
Things each report should mention
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
Describe in detail how your issue happens with the fresh vanilla kernel you
|
||
installed. Try to include the step-by-step instructions you wrote and optimized
|
||
earlier that outline how you and ideally others can reproduce the issue; in
|
||
those rare cases where that's impossible try to describe what you did to
|
||
trigger it.
|
||
|
||
Also include all the relevant information others might need to understand the
|
||
issue and its environment. What's actually needed depends a lot on the issue,
|
||
but there are some things you should include always:
|
||
|
||
* the output from ``cat /proc/version``, which contains the Linux kernel
|
||
version number and the compiler it was built with.
|
||
|
||
* the Linux distribution the machine is running (``hostnamectl | grep
|
||
"Operating System"``)
|
||
|
||
* the architecture of the CPU and the operating system (``uname -mi``)
|
||
|
||
* if you are dealing with a regression and performed a bisection, mention the
|
||
subject and the commit-id of the change that is causing it.
|
||
|
||
In a lot of cases it's also wise to make two more things available to those
|
||
that read your report:
|
||
|
||
* the configuration used for building your Linux kernel (the '.config' file)
|
||
|
||
* the kernel's messages that you get from ``dmesg`` written to a file. Make
|
||
sure that it starts with a line like 'Linux version 5.8-1
|
||
(foobar@example.com) (gcc (GCC) 10.2.1, GNU ld version 2.34) #1 SMP Mon Aug
|
||
3 14:54:37 UTC 2020' If it's missing, then important messages from the first
|
||
boot phase already got discarded. In this case instead consider using
|
||
``journalctl -b 0 -k``; alternatively you can also reboot, reproduce the
|
||
issue and call ``dmesg`` right afterwards.
|
||
|
||
These two files are big, that's why it's a bad idea to put them directly into
|
||
your report. If you are filing the issue in a bug tracker then attach them to
|
||
the ticket. If you report the issue by mail do not attach them, as that makes
|
||
the mail too large; instead do one of these things:
|
||
|
||
* Upload the files somewhere public (your website, a public file paste
|
||
service, a ticket created just for this purpose on `bugzilla.kernel.org
|
||
<https://bugzilla.kernel.org/>`_, ...) and include a link to them in your
|
||
report. Ideally use something where the files stay available for years, as
|
||
they could be useful to someone many years from now; this for example can
|
||
happen if five or ten years from now a developer works on some code that was
|
||
changed just to fix your issue.
|
||
|
||
* Put the files aside and mention you will send them later in individual
|
||
replies to your own mail. Just remember to actually do that once the report
|
||
went out. ;-)
|
||
|
||
Things that might be wise to provide
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
Depending on the issue you might need to add more background data. Here are a
|
||
few suggestions what often is good to provide:
|
||
|
||
* If you are dealing with a 'warning', an 'OOPS' or a 'panic' from the kernel,
|
||
include it. If you can't copy'n'paste it, try to capture a netconsole trace
|
||
or at least take a picture of the screen.
|
||
|
||
* If the issue might be related to your computer hardware, mention what kind
|
||
of system you use. If you for example have problems with your graphics card,
|
||
mention its manufacturer, the card's model, and what chip is uses. If it's a
|
||
laptop mention its name, but try to make sure it's meaningful. 'Dell XPS 13'
|
||
for example is not, because it might be the one from 2012; that one looks
|
||
not that different from the one sold today, but apart from that the two have
|
||
nothing in common. Hence, in such cases add the exact model number, which
|
||
for example are '9380' or '7390' for XPS 13 models introduced during 2019.
|
||
Names like 'Lenovo Thinkpad T590' are also somewhat ambiguous: there are
|
||
variants of this laptop with and without a dedicated graphics chip, so try
|
||
to find the exact model name or specify the main components.
|
||
|
||
* Mention the relevant software in use. If you have problems with loading
|
||
modules, you want to mention the versions of kmod, systemd, and udev in use.
|
||
If one of the DRM drivers misbehaves, you want to state the versions of
|
||
libdrm and Mesa; also specify your Wayland compositor or the X-Server and
|
||
its driver. If you have a filesystem issue, mention the version of
|
||
corresponding filesystem utilities (e2fsprogs, btrfs-progs, xfsprogs, ...).
|
||
|
||
* Gather additional information from the kernel that might be of interest. The
|
||
output from ``lspci -nn`` will for example help others to identify what
|
||
hardware you use. If you have a problem with hardware you even might want to
|
||
make the output from ``sudo lspci -vvv`` available, as that provides
|
||
insights how the components were configured. For some issues it might be
|
||
good to include the contents of files like ``/proc/cpuinfo``,
|
||
``/proc/ioports``, ``/proc/iomem``, ``/proc/modules``, or
|
||
``/proc/scsi/scsi``. Some subsystem also offer tools to collect relevant
|
||
information. One such tool is ``alsa-info.sh`` `which the audio/sound
|
||
subsystem developers provide <https://www.alsa-project.org/wiki/AlsaInfo>`_.
|
||
|
||
Those examples should give your some ideas of what data might be wise to
|
||
attach, but you have to think yourself what will be helpful for others to know.
|
||
Don't worry too much about forgetting something, as developers will ask for
|
||
additional details they need. But making everything important available from
|
||
the start increases the chance someone will take a closer look.
|
||
|
||
|
||
The important part: the head of your report
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
Now that you have the detailed part of the report prepared let's get to the
|
||
most important section: the first few sentences. Thus go to the top, add
|
||
something like 'The detailed description:' before the part you just wrote and
|
||
insert two newlines at the top. Now write one normal length paragraph that
|
||
describes the issue roughly. Leave out all boring details and focus on the
|
||
crucial parts readers need to know to understand what this is all about; if you
|
||
think this bug affects a lot of users, mention this to get people interested.
|
||
|
||
Once you did that insert two more lines at the top and write a one sentence
|
||
summary that explains quickly what the report is about. After that you have to
|
||
get even more abstract and write an even shorter subject/title for the report.
|
||
|
||
Now that you have written this part take some time to optimize it, as it is the
|
||
most important parts of your report: a lot of people will only read this before
|
||
they decide if reading the rest is time well spent.
|
||
|
||
Now send or file the report like the :ref:`MAINTAINERS <maintainers>` file told
|
||
you, unless it's one of those 'issues of high priority' outlined earlier: in
|
||
that case please read the next subsection first before sending the report on
|
||
its way.
|
||
|
||
Special handling for high priority issues
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
Reports for high priority issues need special handling.
|
||
|
||
**Severe bugs**: make sure the subject or ticket title as well as the first
|
||
paragraph makes the severeness obvious.
|
||
|
||
**Regressions**: If the issue is a regression add [REGRESSION] to the mail's
|
||
subject or the title in the bug-tracker. If you did not perform a bisection
|
||
mention at least the latest mainline version you tested that worked fine (say
|
||
5.7) and the oldest where the issue occurs (say 5.8). If you did a successful
|
||
bisection mention the commit id and subject of the change that causes the
|
||
regression. Also make sure to add the author of that change to your report; if
|
||
you need to file your bug in a bug-tracker forward the report to him in a
|
||
private mail and mention where your filed it.
|
||
|
||
**Security issues**: for these issues your will have to evaluate if a
|
||
short-term risk to other users would arise if details were publicly disclosed.
|
||
If that's not the case simply proceed with reporting the issue as described.
|
||
For issues that bear such a risk you will need to adjust the reporting process
|
||
slightly:
|
||
|
||
* If the MAINTAINERS file instructed you to report the issue by mail, do not
|
||
CC any public mailing lists.
|
||
|
||
* If you were supposed to file the issue in a bug tracker make sure to mark
|
||
the ticket as 'private' or 'security issue'. If the bug tracker does not
|
||
offer a way to keep reports private, forget about it and send your report as
|
||
a private mail to the maintainers instead.
|
||
|
||
In both cases make sure to also mail your report to the addresses the
|
||
MAINTAINERS file lists in the section 'security contact'. Ideally directly CC
|
||
them when sending the report by mail. If you filed it in a bug tracker, forward
|
||
the report's text to these addresses; but on top of it put a small note where
|
||
you mention that you filed it with a link to the ticket.
|
||
|
||
See 'Documentation/admin-guide/security-bugs.rst' for more information.
|
||
|
||
|
||
Duties after the report went out
|
||
--------------------------------
|
||
|
||
*Wait for reactions and keep the thing rolling until you can accept the
|
||
outcome in one way or the other. Thus react publicly and in a timely manner
|
||
to any inquiries. Test proposed fixes. Do proactive testing: retest with at
|
||
least every first release candidate (RC) of a new mainline version and
|
||
report your results. Send friendly reminders if things stall. And try to
|
||
help yourself, if you don't get any help or if it's unsatisfying.*
|
||
|
||
If your report was good and you are really lucky then one of the developers
|
||
might immediately spot what's causing the issue; they then might write a patch
|
||
to fix it, test it, and send it straight for integration in mainline while
|
||
tagging it for later backport to stable and longterm kernels that need it. Then
|
||
all you need to do is reply with a 'Thank you very much' and switch to a version
|
||
with the fix once it gets released.
|
||
|
||
But this ideal scenario rarely happens. That's why the job is only starting
|
||
once you got the report out. What you'll have to do depends on the situations,
|
||
but often it will be the things listed below. But before digging into the
|
||
details, here are a few important things you need to keep in mind for this part
|
||
of the process.
|
||
|
||
|
||
General advice for further interactions
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
**Always reply in public**: When you filed the issue in a bug tracker, always
|
||
reply there and do not contact any of the developers privately about it. For
|
||
mailed reports always use the 'Reply-all' function when replying to any mails
|
||
you receive. That includes mails with any additional data you might want to add
|
||
to your report: go to your mail applications 'Sent' folder and use 'reply-all'
|
||
on your mail with the report. This approach will make sure the public mailing
|
||
list(s) and everyone else that gets involved over time stays in the loop; it
|
||
also keeps the mail thread intact, which among others is really important for
|
||
mailing lists to group all related mails together.
|
||
|
||
There are just two situations where a comment in a bug tracker or a 'Reply-all'
|
||
is unsuitable:
|
||
|
||
* Someone tells you to send something privately.
|
||
|
||
* You were told to send something, but noticed it contains sensitive
|
||
information that needs to be kept private. In that case it's okay to send it
|
||
in private to the developer that asked for it. But note in the ticket or a
|
||
mail that you did that, so everyone else knows you honored the request.
|
||
|
||
**Do research before asking for clarifications or help**: In this part of the
|
||
process someone might tell you to do something that requires a skill you might
|
||
not have mastered yet. For example, you might be asked to use some test tools
|
||
you never have heard of yet; or you might be asked to apply a patch to the
|
||
Linux kernel sources to test if it helps. In some cases it will be fine sending
|
||
a reply asking for instructions how to do that. But before going that route try
|
||
to find the answer own your own by searching the internet; alternatively
|
||
consider asking in other places for advice. For example ask a fried or post
|
||
about it to a chatroom or forum you normally hang out.
|
||
|
||
**Be patient**: If you are really lucky you might get a reply to your report
|
||
within a few hours. But most of the time it will take longer, as maintainers
|
||
are scattered around the globe and thus might be in a different time zone – one
|
||
where they already enjoy their night away from keyboard.
|
||
|
||
In general, kernel developers will take one to five business days to respond to
|
||
reports. Sometimes it will take longer, as they might be busy with the merge
|
||
windows, other work, visiting developer conferences, or simply enjoying a long
|
||
summer holiday.
|
||
|
||
The 'issues of high priority' (see above for an explanation) are an exception
|
||
here: maintainers should address them as soon as possible; that's why you
|
||
should wait a week at maximum (or just two days if it's something urgent)
|
||
before sending a friendly reminder.
|
||
|
||
Sometimes the maintainer might not be responding in a timely manner; other
|
||
times there might be disagreements, for example if an issue qualifies as
|
||
regression or not. In such cases raise your concerns on the mailing list and
|
||
ask others for public or private replies how to move on. If that fails, it
|
||
might be appropriate to get a higher authority involved. In case of a WiFi
|
||
driver that would be the wireless maintainers; if there are no higher level
|
||
maintainers or all else fails, it might be one of those rare situations where
|
||
it's okay to get Linus Torvalds involved.
|
||
|
||
**Proactive testing**: Every time the first pre-release (the 'rc1') of a new
|
||
mainline kernel version gets released, go and check if the issue is fixed there
|
||
or if anything of importance changed. Mention the outcome in the ticket or in a
|
||
mail you sent as reply to your report (make sure it has all those in the CC
|
||
that up to that point participated in the discussion). This will show your
|
||
commitment and that you are willing to help. It also tells developers if the
|
||
issue persists and makes sure they do not forget about it. A few other
|
||
occasional retests (for example with rc3, rc5 and the final) are also a good
|
||
idea, but only report your results if something relevant changed or if you are
|
||
writing something anyway.
|
||
|
||
With all these general things off the table let's get into the details of how
|
||
to help to get issues resolved once they were reported.
|
||
|
||
Inquires and testing request
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
Here are your duties in case you got replies to your report:
|
||
|
||
**Check who you deal with**: Most of the time it will be the maintainer or a
|
||
developer of the particular code area that will respond to your report. But as
|
||
issues are normally reported in public it could be anyone that's replying —
|
||
including people that want to help, but in the end might guide you totally off
|
||
track with their questions or requests. That rarely happens, but it's one of
|
||
many reasons why it's wise to quickly run an internet search to see who you're
|
||
interacting with. By doing this you also get aware if your report was heard by
|
||
the right people, as a reminder to the maintainer (see below) might be in order
|
||
later if discussion fades out without leading to a satisfying solution for the
|
||
issue.
|
||
|
||
**Inquiries for data**: Often you will be asked to test something or provide
|
||
additional details. Try to provide the requested information soon, as you have
|
||
the attention of someone that might help and risk losing it the longer you
|
||
wait; that outcome is even likely if you do not provide the information within
|
||
a few business days.
|
||
|
||
**Requests for testing**: When you are asked to test a diagnostic patch or a
|
||
possible fix, try to test it in timely manner, too. But do it properly and make
|
||
sure to not rush it: mixing things up can happen easily and can lead to a lot
|
||
of confusion for everyone involved. A common mistake for example is thinking a
|
||
proposed patch with a fix was applied, but in fact wasn't. Things like that
|
||
happen even to experienced testers occasionally, but they most of the time will
|
||
notice when the kernel with the fix behaves just as one without it.
|
||
|
||
What to do when nothing of substance happens
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
Some reports will not get any reaction from the responsible Linux kernel
|
||
developers; or a discussion around the issue evolved, but faded out with
|
||
nothing of substance coming out of it.
|
||
|
||
In these cases wait two (better: three) weeks before sending a friendly
|
||
reminder: maybe the maintainer was just away from keyboard for a while when
|
||
your report arrived or had something more important to take care of. When
|
||
writing the reminder, kindly ask if anything else from your side is needed to
|
||
get the ball running somehow. If the report got out by mail, do that in the
|
||
first lines of a mail that is a reply to your initial mail (see above) which
|
||
includes a full quote of the original report below: that's on of those few
|
||
situations where such a 'TOFU' (Text Over, Fullquote Under) is the right
|
||
approach, as then all the recipients will have the details at hand immediately
|
||
in the proper order.
|
||
|
||
After the reminder wait three more weeks for replies. If you still don't get a
|
||
proper reaction, you first should reconsider your approach. Did you maybe try
|
||
to reach out to the wrong people? Was the report maybe offensive or so
|
||
confusing that people decided to completely stay away from it? The best way to
|
||
rule out such factors: show the report to one or two people familiar with FLOSS
|
||
issue reporting and ask for their opinion. Also ask them for their advice how
|
||
to move forward. That might mean: prepare a better report and make those people
|
||
review it before you send it out. Such an approach is totally fine; just
|
||
mention that this is the second and improved report on the issue and include a
|
||
link to the first report.
|
||
|
||
If the report was proper you can send a second reminder; in it ask for advice
|
||
why the report did not get any replies. A good moment for this second reminder
|
||
mail is shortly after the first pre-release (the 'rc1') of a new Linux kernel
|
||
version got published, as you should retest and provide a status update at that
|
||
point anyway (see above).
|
||
|
||
If the second reminder again results in no reaction within a week, try to
|
||
contact a higher-level maintainer asking for advice: even busy maintainers by
|
||
then should at least have sent some kind of acknowledgment.
|
||
|
||
Remember to prepare yourself for a disappointment: maintainers ideally should
|
||
react somehow to every issue report, but they are only obliged to fix those
|
||
'issues of high priority' outlined earlier. So don't be too devastating if you
|
||
get a reply along the lines of 'thanks for the report, I have more important
|
||
issues to deal with currently and won't have time to look into this for the
|
||
foreseeable future'.
|
||
|
||
It's also possible that after some discussion in the bug tracker or on a list
|
||
nothing happens anymore and reminders don't help to motivate anyone to work out
|
||
a fix. Such situations can be devastating, but is within the cards when it
|
||
comes to Linux kernel development. This and several other reasons for not
|
||
getting help are explained in 'Why some issues won't get any reaction or remain
|
||
unfixed after being reported' near the end of this document.
|
||
|
||
Don't get devastated if you don't find any help or if the issue in the end does
|
||
not get solved: the Linux kernel is FLOSS and thus you can still help yourself.
|
||
You for example could try to find others that are affected and team up with
|
||
them to get the issue resolved. Such a team could prepare a fresh report
|
||
together that mentions how many you are and why this is something that in your
|
||
option should get fixed. Maybe together you can also narrow down the root cause
|
||
or the change that introduced a regression, which often makes developing a fix
|
||
easier. And with a bit of luck there might be someone in the team that knows a
|
||
bit about programming and might be able to write a fix.
|
||
|
||
|
||
Details about reporting issues only occurring in older kernel version lines
|
||
---------------------------------------------------------------------------
|
||
|
||
This subsection provides details for steps you need to take if you could not
|
||
reproduce your issue with a mainline kernel, but want to see it fixed in older
|
||
version lines (aka stable and longterm kernels).
|
||
|
||
Some fixes are too complex
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
*Prepare yourself for the possibility that going through the next few steps
|
||
might not get the issue solved in older releases: the fix might be too big
|
||
or risky to get backported there.*
|
||
|
||
Even small and seemingly obvious code-changes sometimes introduce new and
|
||
totally unexpected problems. The maintainers of the stable and longterm kernels
|
||
are very aware of that and thus only apply changes to these kernels that are
|
||
within rules outlined in 'Documentation/process/stable-kernel-rules.rst'.
|
||
|
||
Complex or risky changes for example do not qualify and thus only get applied
|
||
to mainline. Other fixes are easy to get backported to the newest stable and
|
||
longterm kernels, but too risky to integrate into older ones. So be aware the
|
||
fix you are hoping for might be one of those that won't be backported to the
|
||
version line your care about. In that case you'll have no other choice then to
|
||
live with the issue or switch to a newer Linux version, unless you want to
|
||
patch the fix into your kernels yourself.
|
||
|
||
Make sure the particular version line still gets support
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
*Check if the kernel developers still maintain the Linux kernel version
|
||
line you care about: go to the front page of kernel.org and make sure it
|
||
mentions the latest release of the particular version line without an
|
||
'[EOL]' tag.*
|
||
|
||
Most kernel version lines only get supported for about three months, as
|
||
maintaining them longer is quite a lot of work. Hence, only one per year is
|
||
chosen and gets supported for at least two years (often six). That's why you
|
||
need to check if the kernel developers still support the version line you care
|
||
for.
|
||
|
||
Note, if kernel.org lists two 'stable' version lines on the front page, you
|
||
should consider switching to the newer one and forget about the older one:
|
||
support for it is likely to be abandoned soon. Then it will get a "end-of-life"
|
||
(EOL) stamp. Version lines that reached that point still get mentioned on the
|
||
kernel.org front page for a week or two, but are unsuitable for testing and
|
||
reporting.
|
||
|
||
Search stable mailing list
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
*Check the archives of the Linux stable mailing list for existing reports.*
|
||
|
||
Maybe the issue you face is already known and was fixed or is about to. Hence,
|
||
`search the archives of the Linux stable mailing list
|
||
<https://lore.kernel.org/stable/>`_ for reports about an issue like yours. If
|
||
you find any matches, consider joining the discussion, unless the fix is
|
||
already finished and scheduled to get applied soon.
|
||
|
||
Reproduce issue with the newest release
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
*Install the latest release from the particular version line as a vanilla
|
||
kernel. Ensure this kernel is not tainted and still shows the problem, as
|
||
the issue might have already been fixed there.*
|
||
|
||
Before investing any more time in this process you want to check if the issue
|
||
was already fixed in the latest release of version line you're interested in.
|
||
This kernel needs to be vanilla and shouldn't be tainted before the issue
|
||
happens, as detailed outlined already above in the process of testing mainline.
|
||
|
||
Check code history and search for existing discussions
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
*Search the Linux kernel version control system for the change that fixed
|
||
the issue in mainline, as its commit message might tell you if the fix is
|
||
scheduled for backporting already. If you don't find anything that way,
|
||
search the appropriate mailing lists for posts that discuss such an issue
|
||
or peer-review possible fixes; then check the discussions if the fix was
|
||
deemed unsuitable for backporting. If backporting was not considered at
|
||
all, join the newest discussion, asking if it's in the cards.*
|
||
|
||
In a lot of cases the issue you deal with will have happened with mainline, but
|
||
got fixed there. The commit that fixed it would need to get backported as well
|
||
to get the issue solved. That's why you want to search for it or any
|
||
discussions abound it.
|
||
|
||
* First try to find the fix in the Git repository that holds the Linux kernel
|
||
sources. You can do this with the web interfaces `on kernel.org
|
||
<https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/>`_
|
||
or its mirror `on GitHub <https://github.com/torvalds/linux>`_; if you have
|
||
a local clone you alternatively can search on the command line with ``git
|
||
log --grep=<pattern>``.
|
||
|
||
If you find the fix, look if the commit message near the end contains a
|
||
'stable tag' that looks like this:
|
||
|
||
Cc: <stable@vger.kernel.org> # 5.4+
|
||
|
||
If that's case the developer marked the fix safe for backporting to version
|
||
line 5.4 and later. Most of the time it's getting applied there within two
|
||
weeks, but sometimes it takes a bit longer.
|
||
|
||
* If the commit doesn't tell you anything or if you can't find the fix, look
|
||
again for discussions about the issue. Search the net with your favorite
|
||
internet search engine as well as the archives for the `Linux kernel
|
||
developers mailing list <https://lore.kernel.org/lkml/>`_. Also read the
|
||
section `Locate kernel area that causes the issue` above and follow the
|
||
instructions to find the subsystem in question: its bug tracker or mailing
|
||
list archive might have the answer you are looking for.
|
||
|
||
* If you see a proposed fix, search for it in the version control system as
|
||
outlined above, as the commit might tell you if a backport can be expected.
|
||
|
||
* Check the discussions for any indicators the fix might be too risky to get
|
||
backported to the version line you care about. If that's the case you have
|
||
to live with the issue or switch to the kernel version line where the fix
|
||
got applied.
|
||
|
||
* If the fix doesn't contain a stable tag and backporting was not discussed,
|
||
join the discussion: mention the version where you face the issue and that
|
||
you would like to see it fixed, if suitable.
|
||
|
||
Check if it's a regression specific to stable or longterm kernels
|
||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
||
*Check if you're dealing with a regression that was never present in
|
||
mainline by installing the first release of the version line you care
|
||
about. If the issue doesn't show up with it, you basically need to report
|
||
the issue with this version like you would report a problem with mainline
|
||
(see above). This ideally includes a bisection followed by a search for
|
||
existing reports on the net; with the help of the subject and the two
|
||
relevant commit-ids. If that doesn't turn up anything, write the report; CC
|
||
or forward the report to the stable maintainers, the stable mailing list,
|
||
and those who authored the change. Include the shortened commit-id if you
|
||
found the change that causes it.*
|
||
|
||
Sometimes you won't find anything in the previous step: the issue you face
|
||
might have never occurred in mainline, as it is caused by some change that is
|
||
incomplete or not correctly applied. To check this, install the first release
|
||
from version line you care about, e.g., if you care about 5.4.x, install 5.4.
|
||
|
||
If the issue doesn't show itself there, it's a regression specific to the
|
||
particular version line. In that case you need to report it like an issue
|
||
happening in mainline, like the last few steps in the main section in the above
|
||
outline.
|
||
|
||
One of them suggests doing a bisection, which you are strongly advised to do in
|
||
this case. After finding the culprit, search the net for existing reports
|
||
again: not only search for the exact subject and the commit-id (proper and
|
||
shortened to twelve characters) of the change, but also for the commit-id
|
||
(proper and shortened) mentioned as 'Upstream commit' in the commit message.
|
||
|
||
Write the report; just keep a few specialties in mind: CC or forward the report
|
||
to the stable maintainers, the stable mailing list, which the :ref:`MAINTAINERS
|
||
<maintainers>` file mentions in the section "STABLE BRANCH". If you performed a
|
||
successful bisection, CC the author of the change and include its subject and
|
||
the shortened commit-id.
|
||
|
||
Ask for advice
|
||
~~~~~~~~~~~~~~
|
||
|
||
*One of the former steps should lead to a solution. If that doesn't work
|
||
out, ask the maintainers for the subsystem that seems to be causing the
|
||
issue for advice; CC the mailing list for the particular subsystem as well
|
||
as the stable mailing list.*
|
||
|
||
If the previous three steps didn't get you closer to a solution there is only
|
||
one option left: ask for advice. Do that in a mail you sent to the maintainers
|
||
for the subsystem where the issue seems to have its roots; CC the mailing list
|
||
for the subsystem as well as the stable mailing list the :ref:`MAINTAINERS
|
||
<maintainers>` file mention in the section "STABLE BRANCH".
|
||
|
||
|
||
Why some issues won't get any reaction or remain unfixed after being reported
|
||
=============================================================================
|
||
|
||
When reporting a problem to the Linux developers, be aware only 'issues of high
|
||
priority' (regressions, security issues, severe problems) are definitely going
|
||
to get resolved. The maintainers or if all else fails Linus Torvalds himself
|
||
will make sure of that. They and the other kernel developers will fix a lot of
|
||
other issues as well. But be aware that sometimes they can't or won't help; and
|
||
sometimes there isn't even anyone to send a report to.
|
||
|
||
This is best explained with kernel developers that contribute to the Linux
|
||
kernel in their spare time. Quite a few of the drivers in the kernel were
|
||
written by such programmers, often because they simply wanted to make their
|
||
hardware usable on their favorite operating system.
|
||
|
||
These programmers most of the time will happily fix problems other people
|
||
report. But nobody can force them to do, as they are contributing voluntarily.
|
||
|
||
Then there are situations where such developers really want to fix an issue,
|
||
but can't: sometimes they lack hardware programming documentation to do so.
|
||
This often happens when the publicly available docs are superficial or the
|
||
driver was written with the help of reverse engineering.
|
||
|
||
Sooner or later spare time developers will also stop caring for the driver.
|
||
Maybe their test hardware broke, got replaced by something more fancy, or is so
|
||
old that it's something you don't find much outside of computer museums
|
||
anymore. Sometimes developer stops caring for their code and Linux at all, as
|
||
something different in their life became way more important. In some cases
|
||
nobody is willing to take over the job as maintainer – and nobody can be forced
|
||
to, as contributing to the Linux kernel is done on a voluntary basis. Abandoned
|
||
drivers nevertheless remain in the kernel: they are still useful for people and
|
||
removing would be a regression.
|
||
|
||
The situation is not that different with developers that are paid for their
|
||
work on the Linux kernel. Those contribute most changes these days. But their
|
||
employers sooner or later also stop caring for their code or make its
|
||
programmer focus on other things. Hardware vendors for example earn their money
|
||
mainly by selling new hardware; quite a few of them hence are not investing
|
||
much time and energy in maintaining a Linux kernel driver for something they
|
||
stopped selling years ago. Enterprise Linux distributors often care for a
|
||
longer time period, but in new versions often leave support for old and rare
|
||
hardware aside to limit the scope. Often spare time contributors take over once
|
||
a company orphans some code, but as mentioned above: sooner or later they will
|
||
leave the code behind, too.
|
||
|
||
Priorities are another reason why some issues are not fixed, as maintainers
|
||
quite often are forced to set those, as time to work on Linux is limited.
|
||
That's true for spare time or the time employers grant their developers to
|
||
spend on maintenance work on the upstream kernel. Sometimes maintainers also
|
||
get overwhelmed with reports, even if a driver is working nearly perfectly. To
|
||
not get completely stuck, the programmer thus might have no other choice than
|
||
to prioritize issue reports and reject some of them.
|
||
|
||
But don't worry too much about all of this, a lot of drivers have active
|
||
maintainers who are quite interested in fixing as many issues as possible.
|
||
|
||
|
||
Closing words
|
||
=============
|
||
|
||
Compared with other Free/Libre & Open Source Software it's hard to report
|
||
issues to the Linux kernel developers: the length and complexity of this
|
||
document and the implications between the lines illustrate that. But that's how
|
||
it is for now. The main author of this text hopes documenting the state of the
|
||
art will lay some groundwork to improve the situation over time.
|