1.. SPDX-License-Identifier: (GPL-2.0+ OR CC-BY-4.0)
2.. See the bottom of this file for additional redistribution information.
3
4Reporting issues
5++++++++++++++++
6
7
8The short guide (aka TL;DR)
9===========================
10
11Are you facing a regression with vanilla kernels from the same stable or
12longterm series? One still supported? Then search the `LKML
13<https://lore.kernel.org/lkml/>`_ and the `Linux stable mailing list
14<https://lore.kernel.org/stable/>`_ archives for matching reports to join. If
15you don't find any, install `the latest release from that series
16<https://kernel.org/>`_. If it still shows the issue, report it to the stable
17mailing list (stable@vger.kernel.org) and CC the regressions list
18(regressions@lists.linux.dev); ideally also CC the maintainer and the mailing
19list for the subsystem in question.
20
21In all other cases try your best guess which kernel part might be causing the
22issue. Check the :ref:`MAINTAINERS <maintainers>` file for how its developers
23expect to be told about problems, which most of the time will be by email with a
24mailing list in CC. Check the destination's archives for matching reports;
25search the `LKML <https://lore.kernel.org/lkml/>`_ and the web, too. If you
26don't find any to join, install `the latest mainline kernel
27<https://kernel.org/>`_. If the issue is present there, send a report.
28
29The issue was fixed there, but you would like to see it resolved in a still
30supported stable or longterm series as well? Then install its latest release.
31If it shows the problem, search for the change that fixed it in mainline and
32check if backporting is in the works or was discarded; if it's neither, ask
33those who handled the change for it.
34
35**General remarks**: When installing and testing a kernel as outlined above,
36ensure it's vanilla (IOW: not patched and not using add-on modules). Also make
37sure it's built and running in a healthy environment and not already tainted
38before the issue occurs.
39
40If you are facing multiple issues with the Linux kernel at once, report each
41separately. While writing your report, include all information relevant to the
42issue, like the kernel and the distro used. In case of a regression, CC the
43regressions mailing list (regressions@lists.linux.dev) to your report. Also try
44to pin-point the culprit with a bisection; if you succeed, include its
45commit-id and CC everyone in the sign-off-by chain.
46
47Once the report is out, answer any questions that come up and help where you
48can. That includes keeping the ball rolling by occasionally retesting with newer
49releases and sending a status update afterwards.
50
51Step-by-step guide how to report issues to the kernel maintainers
52=================================================================
53
54The above TL;DR outlines roughly how to report issues to the Linux kernel
55developers. It might be all that's needed for people already familiar with
56reporting issues to Free/Libre & Open Source Software (FLOSS) projects. For
57everyone else there is this section. It is more detailed and uses a
58step-by-step approach. It still tries to be brief for readability and leaves
59out a lot of details; those are described below the step-by-step guide in a
60reference section, which explains each of the steps in more detail.
61
62Note: this section covers a few more aspects than the TL;DR and does things in
63a slightly different order. That's in your interest, to make sure you notice
64early if an issue that looks like a Linux kernel problem is actually caused by
65something else. These steps thus help to ensure the time you invest in this
66process won't feel wasted in the end:
67
68 * Are you facing an issue with a Linux kernel a hardware or software vendor
69   provided? Then in almost all cases you are better off to stop reading this
70   document and reporting the issue to your vendor instead, unless you are
71   willing to install the latest Linux version yourself. Be aware the latter
72   will often be needed anyway to hunt down and fix issues.
73
74 * Perform a rough search for existing reports with your favorite internet
75   search engine; additionally, check the archives of the `Linux Kernel Mailing
76   List (LKML) <https://lore.kernel.org/lkml/>`_. If you find matching reports,
77   join the discussion instead of sending a new one.
78
79 * See if the issue you are dealing with qualifies as regression, security
80   issue, or a really severe problem: those are 'issues of high priority' that
81   need special handling in some steps that are about to follow.
82
83 * Make sure it's not the kernel's surroundings that are causing the issue
84   you face.
85
86 * Create a fresh backup and put system repair and restore tools at hand.
87
88 * Ensure your system does not enhance its kernels by building additional
89   kernel modules on-the-fly, which solutions like DKMS might be doing locally
90   without your knowledge.
91
92 * Check if your kernel was 'tainted' when the issue occurred, as the event
93   that made the kernel set this flag might be causing the issue you face.
94
95 * Write down coarsely how to reproduce the issue. If you deal with multiple
96   issues at once, create separate notes for each of them and make sure they
97   work independently on a freshly booted system. That's needed, as each issue
98   needs to get reported to the kernel developers separately, unless they are
99   strongly entangled.
100
101 * If you are facing a regression within a stable or longterm version line
102   (say something broke when updating from 5.10.4 to 5.10.5), scroll down to
103   'Dealing with regressions within a stable and longterm kernel line'.
104
105 * Locate the driver or kernel subsystem that seems to be causing the issue.
106   Find out how and where its developers expect reports. Note: most of the
107   time this won't be bugzilla.kernel.org, as issues typically need to be sent
108   by mail to a maintainer and a public mailing list.
109
110 * Search the archives of the bug tracker or mailing list in question
111   thoroughly for reports that might match your issue. If you find anything,
112   join the discussion instead of sending a new report.
113
114After these preparations you'll now enter the main part:
115
116 * Unless you are already running the latest 'mainline' Linux kernel, better
117   go and install it for the reporting process. Testing and reporting with
118   the latest 'stable' Linux can be an acceptable alternative in some
119   situations; during the merge window that actually might be even the best
120   approach, but in that development phase it can be an even better idea to
121   suspend your efforts for a few days anyway. Whatever version you choose,
122   ideally use a 'vanilla' build. Ignoring these advices will dramatically
123   increase the risk your report will be rejected or ignored.
124
125 * Ensure the kernel you just installed does not 'taint' itself when
126   running.
127
128 * Reproduce the issue with the kernel you just installed. If it doesn't show
129   up there, scroll down to the instructions for issues only happening with
130   stable and longterm kernels.
131
132 * Optimize your notes: try to find and write the most straightforward way to
133   reproduce your issue. Make sure the end result has all the important
134   details, and at the same time is easy to read and understand for others
135   that hear about it for the first time. And if you learned something in this
136   process, consider searching again for existing reports about the issue.
137
138 * If your failure involves a 'panic', 'Oops', 'warning', or 'BUG', consider
139   decoding the kernel log to find the line of code that triggered the error.
140
141 * If your problem is a regression, try to narrow down when the issue was
142   introduced as much as possible.
143
144 * Start to compile the report by writing a detailed description about the
145   issue. Always mention a few things: the latest kernel version you installed
146   for reproducing, the Linux Distribution used, and your notes on how to
147   reproduce the issue. Ideally, make the kernel's build configuration
148   (.config) and the output from ``dmesg`` available somewhere on the net and
149   link to it. Include or upload all other information that might be relevant,
150   like the output/screenshot of an Oops or the output from ``lspci``. Once
151   you wrote this main part, insert a normal length paragraph on top of it
152   outlining the issue and the impact quickly. On top of this add one sentence
153   that briefly describes the problem and gets people to read on. Now give the
154   thing a descriptive title or subject that yet again is shorter. Then you're
155   ready to send or file the report like the MAINTAINERS file told you, unless
156   you are dealing with one of those 'issues of high priority': they need
157   special care which is explained in 'Special handling for high priority
158   issues' below.
159
160 * Wait for reactions and keep the thing rolling until you can accept the
161   outcome in one way or the other. Thus react publicly and in a timely manner
162   to any inquiries. Test proposed fixes. Do proactive testing: retest with at
163   least every first release candidate (RC) of a new mainline version and
164   report your results. Send friendly reminders if things stall. And try to
165   help yourself, if you don't get any help or if it's unsatisfying.
166
167
168Reporting regressions within a stable and longterm kernel line
169--------------------------------------------------------------
170
171This subsection is for you, if you followed above process and got sent here at
172the point about regression within a stable or longterm kernel version line. You
173face one of those if something breaks when updating from 5.10.4 to 5.10.5 (a
174switch from 5.9.15 to 5.10.5 does not qualify). The developers want to fix such
175regressions as quickly as possible, hence there is a streamlined process to
176report them:
177
178 * Check if the kernel developers still maintain the Linux kernel version
179   line you care about: go to the  `front page of kernel.org
180   <https://kernel.org/>`_ and make sure it mentions
181   the latest release of the particular version line without an '[EOL]' tag.
182
183 * Check the archives of the `Linux stable mailing list
184   <https://lore.kernel.org/stable/>`_ for existing reports.
185
186 * Install the latest release from the particular version line as a vanilla
187   kernel. Ensure this kernel is not tainted and still shows the problem, as
188   the issue might have already been fixed there. If you first noticed the
189   problem with a vendor kernel, check a vanilla build of the last version
190   known to work performs fine as well.
191
192 * Send a short problem report to the Linux stable mailing list
193   (stable@vger.kernel.org) and CC the Linux regressions mailing list
194   (regressions@lists.linux.dev); if you suspect the cause in a particular
195   subsystem, CC its maintainer and its mailing list. Roughly describe the
196   issue and ideally explain how to reproduce it. Mention the first version
197   that shows the problem and the last version that's working fine. Then
198   wait for further instructions.
199
200The reference section below explains each of these steps in more detail.
201
202
203Reporting issues only occurring in older kernel version lines
204-------------------------------------------------------------
205
206This subsection is for you, if you tried the latest mainline kernel as outlined
207above, but failed to reproduce your issue there; at the same time you want to
208see the issue fixed in a still supported stable or longterm series or vendor
209kernels regularly rebased on those. If that the case, follow these steps:
210
211 * Prepare yourself for the possibility that going through the next few steps
212   might not get the issue solved in older releases: the fix might be too big
213   or risky to get backported there.
214
215 * Perform the first three steps in the section "Dealing with regressions
216   within a stable and longterm kernel line" above.
217
218 * Search the Linux kernel version control system for the change that fixed
219   the issue in mainline, as its commit message might tell you if the fix is
220   scheduled for backporting already. If you don't find anything that way,
221   search the appropriate mailing lists for posts that discuss such an issue
222   or peer-review possible fixes; then check the discussions if the fix was
223   deemed unsuitable for backporting. If backporting was not considered at
224   all, join the newest discussion, asking if it's in the cards.
225
226 * One of the former steps should lead to a solution. If that doesn't work
227   out, ask the maintainers for the subsystem that seems to be causing the
228   issue for advice; CC the mailing list for the particular subsystem as well
229   as the stable mailing list.
230
231The reference section below explains each of these steps in more detail.
232
233
234Reference section: Reporting issues to the kernel maintainers
235=============================================================
236
237The detailed guides above outline all the major steps in brief fashion, which
238should be enough for most people. But sometimes there are situations where even
239experienced users might wonder how to actually do one of those steps. That's
240what this section is for, as it will provide a lot more details on each of the
241above steps. Consider this as reference documentation: it's possible to read it
242from top to bottom. But it's mainly meant to skim over and a place to look up
243details how to actually perform those steps.
244
245A few words of general advice before digging into the details:
246
247 * The Linux kernel developers are well aware this process is complicated and
248   demands more than other FLOSS projects. We'd love to make it simpler. But
249   that would require work in various places as well as some infrastructure,
250   which would need constant maintenance; nobody has stepped up to do that
251   work, so that's just how things are for now.
252
253 * A warranty or support contract with some vendor doesn't entitle you to
254   request fixes from developers in the upstream Linux kernel community: such
255   contracts are completely outside the scope of the Linux kernel, its
256   development community, and this document. That's why you can't demand
257   anything such a contract guarantees in this context, not even if the
258   developer handling the issue works for the vendor in question. If you want
259   to claim your rights, use the vendor's support channel instead. When doing
260   so, you might want to mention you'd like to see the issue fixed in the
261   upstream Linux kernel; motivate them by saying it's the only way to ensure
262   the fix in the end will get incorporated in all Linux distributions.
263
264 * If you never reported an issue to a FLOSS project before you should consider
265   reading `How to Report Bugs Effectively
266   <https://www.chiark.greenend.org.uk/~sgtatham/bugs.html>`_, `How To Ask
267   Questions The Smart Way
268   <http://www.catb.org/esr/faqs/smart-questions.html>`_, and `How to ask good
269   questions <https://jvns.ca/blog/good-questions/>`_.
270
271With that off the table, find below the details on how to properly report
272issues to the Linux kernel developers.
273
274
275Make sure you're using the upstream Linux kernel
276------------------------------------------------
277
278   *Are you facing an issue with a Linux kernel a hardware or software vendor
279   provided? Then in almost all cases you are better off to stop reading this
280   document and reporting the issue to your vendor instead, unless you are
281   willing to install the latest Linux version yourself. Be aware the latter
282   will often be needed anyway to hunt down and fix issues.*
283
284Like most programmers, Linux kernel developers don't like to spend time dealing
285with reports for issues that don't even happen with their current code. It's
286just a waste everybody's time, especially yours. Unfortunately such situations
287easily happen when it comes to the kernel and often leads to frustration on both
288sides. That's because almost all Linux-based kernels pre-installed on devices
289(Computers, Laptops, Smartphones, Routers, …) and most shipped by Linux
290distributors are quite distant from the official Linux kernel as distributed by
291kernel.org: these kernels from these vendors are often ancient from the point of
292Linux development or heavily modified, often both.
293
294Most of these vendor kernels are quite unsuitable for reporting issues to the
295Linux kernel developers: an issue you face with one of them might have been
296fixed by the Linux kernel developers months or years ago already; additionally,
297the modifications and enhancements by the vendor might be causing the issue you
298face, even if they look small or totally unrelated. That's why you should report
299issues with these kernels to the vendor. Its developers should look into the
300report and, in case it turns out to be an upstream issue, fix it directly
301upstream or forward the report there. In practice that often does not work out
302or might not what you want. You thus might want to consider circumventing the
303vendor by installing the very latest Linux kernel core yourself. If that's an
304option for you move ahead in this process, as a later step in this guide will
305explain how to do that once it rules out other potential causes for your issue.
306
307Note, the previous paragraph is starting with the word 'most', as sometimes
308developers in fact are willing to handle reports about issues occurring with
309vendor kernels. If they do in the end highly depends on the developers and the
310issue in question. Your chances are quite good if the distributor applied only
311small modifications to a kernel based on a recent Linux version; that for
312example often holds true for the mainline kernels shipped by Debian GNU/Linux
313Sid or Fedora Rawhide. Some developers will also accept reports about issues
314with kernels from distributions shipping the latest stable kernel, as long as
315its only slightly modified; that for example is often the case for Arch Linux,
316regular Fedora releases, and openSUSE Tumbleweed. But keep in mind, you better
317want to use a mainline Linux and avoid using a stable kernel for this
318process, as outlined in the section 'Install a fresh kernel for testing' in more
319detail.
320
321Obviously you are free to ignore all this advice and report problems with an old
322or heavily modified vendor kernel to the upstream Linux developers. But note,
323those often get rejected or ignored, so consider yourself warned. But it's still
324better than not reporting the issue at all: sometimes such reports directly or
325indirectly will help to get the issue fixed over time.
326
327
328Search for existing reports, first run
329--------------------------------------
330
331   *Perform a rough search for existing reports with your favorite internet
332   search engine; additionally, check the archives of the Linux Kernel Mailing
333   List (LKML). If you find matching reports, join the discussion instead of
334   sending a new one.*
335
336Reporting an issue that someone else already brought forward is often a waste of
337time for everyone involved, especially you as the reporter. So it's in your own
338interest to thoroughly check if somebody reported the issue already. At this
339step of the process it's okay to just perform a rough search: a later step will
340tell you to perform a more detailed search once you know where your issue needs
341to be reported to. Nevertheless, do not hurry with this step of the reporting
342process, it can save you time and trouble.
343
344Simply search the internet with your favorite search engine first. Afterwards,
345search the `Linux Kernel Mailing List (LKML) archives
346<https://lore.kernel.org/lkml/>`_.
347
348If you get flooded with results consider telling your search engine to limit
349search timeframe to the past month or year. And wherever you search, make sure
350to use good search terms; vary them a few times, too. While doing so try to
351look at the issue from the perspective of someone else: that will help you to
352come up with other words to use as search terms. Also make sure not to use too
353many search terms at once. Remember to search with and without information like
354the name of the kernel driver or the name of the affected hardware component.
355But its exact brand name (say 'ASUS Red Devil Radeon RX 5700 XT Gaming OC')
356often is not much helpful, as it is too specific. Instead try search terms like
357the model line (Radeon 5700 or Radeon 5000) and the code name of the main chip
358('Navi' or 'Navi10') with and without its manufacturer ('AMD').
359
360In case you find an existing report about your issue, join the discussion, as
361you might be able to provide valuable additional information. That can be
362important even when a fix is prepared or in its final stages already, as
363developers might look for people that can provide additional information or
364test a proposed fix. Jump to the section 'Duties after the report went out' for
365details on how to get properly involved.
366
367Note, searching `bugzilla.kernel.org <https://bugzilla.kernel.org/>`_ might also
368be a good idea, as that might provide valuable insights or turn up matching
369reports. If you find the latter, just keep in mind: most subsystems expect
370reports in different places, as described below in the section "Check where you
371need to report your issue". The developers that should take care of the issue
372thus might not even be aware of the bugzilla ticket. Hence, check the ticket if
373the issue already got reported as outlined in this document and if not consider
374doing so.
375
376
377Issue of high priority?
378-----------------------
379
380    *See if the issue you are dealing with qualifies as regression, security
381    issue, or a really severe problem: those are 'issues of high priority' that
382    need special handling in some steps that are about to follow.*
383
384Linus Torvalds and the leading Linux kernel developers want to see some issues
385fixed as soon as possible, hence there are 'issues of high priority' that get
386handled slightly differently in the reporting process. Three type of cases
387qualify: regressions, security issues, and really severe problems.
388
389You deal with a regression if some application or practical use case running
390fine with one Linux kernel works worse or not at all with a newer version
391compiled using a similar configuration. The document
392Documentation/admin-guide/reporting-regressions.rst explains this in more
393detail. It also provides a good deal of other information about regressions you
394might want to be aware of; it for example explains how to add your issue to the
395list of tracked regressions, to ensure it won't fall through the cracks.
396
397What qualifies as security issue is left to your judgment. Consider reading
398Documentation/admin-guide/security-bugs.rst before proceeding, as it
399provides additional details how to best handle security issues.
400
401An issue is a 'really severe problem' when something totally unacceptably bad
402happens. That's for example the case when a Linux kernel corrupts the data it's
403handling or damages hardware it's running on. You're also dealing with a severe
404issue when the kernel suddenly stops working with an error message ('kernel
405panic') or without any farewell note at all. Note: do not confuse a 'panic' (a
406fatal error where the kernel stop itself) with a 'Oops' (a recoverable error),
407as the kernel remains running after the latter.
408
409
410Ensure a healthy environment
411----------------------------
412
413    *Make sure it's not the kernel's surroundings that are causing the issue
414    you face.*
415
416Problems that look a lot like a kernel issue are sometimes caused by build or
417runtime environment. It's hard to rule out that problem completely, but you
418should minimize it:
419
420 * Use proven tools when building your kernel, as bugs in the compiler or the
421   binutils can cause the resulting kernel to misbehave.
422
423 * Ensure your computer components run within their design specifications;
424   that's especially important for the main processor, the main memory, and the
425   motherboard. Therefore, stop undervolting or overclocking when facing a
426   potential kernel issue.
427
428 * Try to make sure it's not faulty hardware that is causing your issue. Bad
429   main memory for example can result in a multitude of issues that will
430   manifest itself in problems looking like kernel issues.
431
432 * If you're dealing with a filesystem issue, you might want to check the file
433   system in question with ``fsck``, as it might be damaged in a way that leads
434   to unexpected kernel behavior.
435
436 * When dealing with a regression, make sure it's not something else that
437   changed in parallel to updating the kernel. The problem for example might be
438   caused by other software that was updated at the same time. It can also
439   happen that a hardware component coincidentally just broke when you rebooted
440   into a new kernel for the first time. Updating the systems BIOS or changing
441   something in the BIOS Setup can also lead to problems that on look a lot
442   like a kernel regression.
443
444
445Prepare for emergencies
446-----------------------
447
448    *Create a fresh backup and put system repair and restore tools at hand.*
449
450Reminder, you are dealing with computers, which sometimes do unexpected things,
451especially if you fiddle with crucial parts like the kernel of its operating
452system. That's what you are about to do in this process. Thus, make sure to
453create a fresh backup; also ensure you have all tools at hand to repair or
454reinstall the operating system as well as everything you need to restore the
455backup.
456
457
458Make sure your kernel doesn't get enhanced
459------------------------------------------
460
461    *Ensure your system does not enhance its kernels by building additional
462    kernel modules on-the-fly, which solutions like DKMS might be doing locally
463    without your knowledge.*
464
465The risk your issue report gets ignored or rejected dramatically increases if
466your kernel gets enhanced in any way. That's why you should remove or disable
467mechanisms like akmods and DKMS: those build add-on kernel modules
468automatically, for example when you install a new Linux kernel or boot it for
469the first time. Also remove any modules they might have installed. Then reboot
470before proceeding.
471
472Note, you might not be aware that your system is using one of these solutions:
473they often get set up silently when you install Nvidia's proprietary graphics
474driver, VirtualBox, or other software that requires a some support from a
475module not part of the Linux kernel. That why your might need to uninstall the
476packages with such software to get rid of any 3rd party kernel module.
477
478
479Check 'taint' flag
480------------------
481
482    *Check if your kernel was 'tainted' when the issue occurred, as the event
483    that made the kernel set this flag might be causing the issue you face.*
484
485The kernel marks itself with a 'taint' flag when something happens that might
486lead to follow-up errors that look totally unrelated. The issue you face might
487be such an error if your kernel is tainted. That's why it's in your interest to
488rule this out early before investing more time into this process. This is the
489only reason why this step is here, as this process later will tell you to
490install the latest mainline kernel; you will need to check the taint flag again
491then, as that's when it matters because it's the kernel the report will focus
492on.
493
494On a running system is easy to check if the kernel tainted itself: if ``cat
495/proc/sys/kernel/tainted`` returns '0' then the kernel is not tainted and
496everything is fine. Checking that file is impossible in some situations; that's
497why the kernel also mentions the taint status when it reports an internal
498problem (a 'kernel bug'), a recoverable error (a 'kernel Oops') or a
499non-recoverable error before halting operation (a 'kernel panic'). Look near
500the top of the error messages printed when one of these occurs and search for a
501line starting with 'CPU:'. It should end with 'Not tainted' if the kernel was
502not tainted when it noticed the problem; it was tainted if you see 'Tainted:'
503followed by a few spaces and some letters.
504
505If your kernel is tainted, study Documentation/admin-guide/tainted-kernels.rst
506to find out why. Try to eliminate the reason. Often it's caused by one these
507three things:
508
509 1. A recoverable error (a 'kernel Oops') occurred and the kernel tainted
510    itself, as the kernel knows it might misbehave in strange ways after that
511    point. In that case check your kernel or system log and look for a section
512    that starts with this::
513
514       Oops: 0000 [#1] SMP
515
516    That's the first Oops since boot-up, as the '#1' between the brackets shows.
517    Every Oops and any other problem that happens after that point might be a
518    follow-up problem to that first Oops, even if both look totally unrelated.
519    Rule this out by getting rid of the cause for the first Oops and reproducing
520    the issue afterwards. Sometimes simply restarting will be enough, sometimes
521    a change to the configuration followed by a reboot can eliminate the Oops.
522    But don't invest too much time into this at this point of the process, as
523    the cause for the Oops might already be fixed in the newer Linux kernel
524    version you are going to install later in this process.
525
526 2. Your system uses a software that installs its own kernel modules, for
527    example Nvidia's proprietary graphics driver or VirtualBox. The kernel
528    taints itself when it loads such module from external sources (even if
529    they are Open Source): they sometimes cause errors in unrelated kernel
530    areas and thus might be causing the issue you face. You therefore have to
531    prevent those modules from loading when you want to report an issue to the
532    Linux kernel developers. Most of the time the easiest way to do that is:
533    temporarily uninstall such software including any modules they might have
534    installed. Afterwards reboot.
535
536 3. The kernel also taints itself when it's loading a module that resides in
537    the staging tree of the Linux kernel source. That's a special area for
538    code (mostly drivers) that does not yet fulfill the normal Linux kernel
539    quality standards. When you report an issue with such a module it's
540    obviously okay if the kernel is tainted; just make sure the module in
541    question is the only reason for the taint. If the issue happens in an
542    unrelated area reboot and temporarily block the module from being loaded
543    by specifying ``foo.blacklist=1`` as kernel parameter (replace 'foo' with
544    the name of the module in question).
545
546
547Document how to reproduce issue
548-------------------------------
549
550    *Write down coarsely how to reproduce the issue. If you deal with multiple
551    issues at once, create separate notes for each of them and make sure they
552    work independently on a freshly booted system. That's needed, as each issue
553    needs to get reported to the kernel developers separately, unless they are
554    strongly entangled.*
555
556If you deal with multiple issues at once, you'll have to report each of them
557separately, as they might be handled by different developers. Describing
558various issues in one report also makes it quite difficult for others to tear
559it apart. Hence, only combine issues in one report if they are very strongly
560entangled.
561
562Additionally, during the reporting process you will have to test if the issue
563happens with other kernel versions. Therefore, it will make your work easier if
564you know exactly how to reproduce an issue quickly on a freshly booted system.
565
566Note: it's often fruitless to report issues that only happened once, as they
567might be caused by a bit flip due to cosmic radiation. That's why you should
568try to rule that out by reproducing the issue before going further. Feel free
569to ignore this advice if you are experienced enough to tell a one-time error
570due to faulty hardware apart from a kernel issue that rarely happens and thus
571is hard to reproduce.
572
573
574Regression in stable or longterm kernel?
575----------------------------------------
576
577    *If you are facing a regression within a stable or longterm version line
578    (say something broke when updating from 5.10.4 to 5.10.5), scroll down to
579    'Dealing with regressions within a stable and longterm kernel line'.*
580
581Regression within a stable and longterm kernel version line are something the
582Linux developers want to fix badly, as such issues are even more unwanted than
583regression in the main development branch, as they can quickly affect a lot of
584people. The developers thus want to learn about such issues as quickly as
585possible, hence there is a streamlined process to report them. Note,
586regressions with newer kernel version line (say something broke when switching
587from 5.9.15 to 5.10.5) do not qualify.
588
589
590Check where you need to report your issue
591-----------------------------------------
592
593    *Locate the driver or kernel subsystem that seems to be causing the issue.
594    Find out how and where its developers expect reports. Note: most of the
595    time this won't be bugzilla.kernel.org, as issues typically need to be sent
596    by mail to a maintainer and a public mailing list.*
597
598It's crucial to send your report to the right people, as the Linux kernel is a
599big project and most of its developers are only familiar with a small subset of
600it. Quite a few programmers for example only care for just one driver, for
601example one for a WiFi chip; its developer likely will only have small or no
602knowledge about the internals of remote or unrelated "subsystems", like the TCP
603stack, the PCIe/PCI subsystem, memory management or file systems.
604
605Problem is: the Linux kernel lacks a central bug tracker where you can simply
606file your issue and make it reach the developers that need to know about it.
607That's why you have to find the right place and way to report issues yourself.
608You can do that with the help of a script (see below), but it mainly targets
609kernel developers and experts. For everybody else the MAINTAINERS file is the
610better place.
611
612How to read the MAINTAINERS file
613~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
614To illustrate how to use the :ref:`MAINTAINERS <maintainers>` file, lets assume
615the WiFi in your Laptop suddenly misbehaves after updating the kernel. In that
616case it's likely an issue in the WiFi driver. Obviously it could also be some
617code it builds upon, but unless you suspect something like that stick to the
618driver. If it's really something else, the driver's developers will get the
619right people involved.
620
621Sadly, there is no way to check which code is driving a particular hardware
622component that is both universal and easy.
623
624In case of a problem with the WiFi driver you for example might want to look at
625the output of ``lspci -k``, as it lists devices on the PCI/PCIe bus and the
626kernel module driving it::
627
628       [user@something ~]$ lspci -k
629       [...]
630       3a:00.0 Network controller: Qualcomm Atheros QCA6174 802.11ac Wireless Network Adapter (rev 32)
631         Subsystem: Bigfoot Networks, Inc. Device 1535
632         Kernel driver in use: ath10k_pci
633         Kernel modules: ath10k_pci
634       [...]
635
636But this approach won't work if your WiFi chip is connected over USB or some
637other internal bus. In those cases you might want to check your WiFi manager or
638the output of ``ip link``. Look for the name of the problematic network
639interface, which might be something like 'wlp58s0'. This name can be used like
640this to find the module driving it::
641
642       [user@something ~]$ realpath --relative-to=/sys/module/ /sys/class/net/wlp58s0/device/driver/module
643       ath10k_pci
644
645In case tricks like these don't bring you any further, try to search the
646internet on how to narrow down the driver or subsystem in question. And if you
647are unsure which it is: just try your best guess, somebody will help you if you
648guessed poorly.
649
650Once you know the driver or subsystem, you want to search for it in the
651MAINTAINERS file. In the case of 'ath10k_pci' you won't find anything, as the
652name is too specific. Sometimes you will need to search on the net for help;
653but before doing so, try a somewhat shorted or modified name when searching the
654MAINTAINERS file, as then you might find something like this::
655
656       QUALCOMM ATHEROS ATH10K WIRELESS DRIVER
657       Mail:          A. Some Human <shuman@example.com>
658       Mailing list:  ath10k@lists.infradead.org
659       Status:        Supported
660       Web-page:      https://wireless.wiki.kernel.org/en/users/Drivers/ath10k
661       SCM:           git git://git.kernel.org/pub/scm/linux/kernel/git/kvalo/ath.git
662       Files:         drivers/net/wireless/ath/ath10k/
663
664Note: the line description will be abbreviations, if you read the plain
665MAINTAINERS file found in the root of the Linux source tree. 'Mail:' for
666example will be 'M:', 'Mailing list:' will be 'L', and 'Status:' will be 'S:'.
667A section near the top of the file explains these and other abbreviations.
668
669First look at the line 'Status'. Ideally it should be 'Supported' or
670'Maintained'. If it states 'Obsolete' then you are using some outdated approach
671that was replaced by a newer solution you need to switch to. Sometimes the code
672only has someone who provides 'Odd Fixes' when feeling motivated. And with
673'Orphan' you are totally out of luck, as nobody takes care of the code anymore.
674That only leaves these options: arrange yourself to live with the issue, fix it
675yourself, or find a programmer somewhere willing to fix it.
676
677After checking the status, look for a line starting with 'bugs:': it will tell
678you where to find a subsystem specific bug tracker to file your issue. The
679example above does not have such a line. That is the case for most sections, as
680Linux kernel development is completely driven by mail. Very few subsystems use
681a bug tracker, and only some of those rely on bugzilla.kernel.org.
682
683In this and many other cases you thus have to look for lines starting with
684'Mail:' instead. Those mention the name and the email addresses for the
685maintainers of the particular code. Also look for a line starting with 'Mailing
686list:', which tells you the public mailing list where the code is developed.
687Your report later needs to go by mail to those addresses. Additionally, for all
688issue reports sent by email, make sure to add the Linux Kernel Mailing List
689(LKML) <linux-kernel@vger.kernel.org> to CC. Don't omit either of the mailing
690lists when sending your issue report by mail later! Maintainers are busy people
691and might leave some work for other developers on the subsystem specific list;
692and LKML is important to have one place where all issue reports can be found.
693
694
695Finding the maintainers with the help of a script
696~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
697
698For people that have the Linux sources at hand there is a second option to find
699the proper place to report: the script 'scripts/get_maintainer.pl' which tries
700to find all people to contact. It queries the MAINTAINERS file and needs to be
701called with a path to the source code in question. For drivers compiled as
702module if often can be found with a command like this::
703
704       $ modinfo ath10k_pci | grep filename | sed 's!/lib/modules/.*/kernel/!!; s!filename:!!; s!\.ko\(\|\.xz\)!!'
705       drivers/net/wireless/ath/ath10k/ath10k_pci.ko
706
707Pass parts of this to the script::
708
709       $ ./scripts/get_maintainer.pl -f drivers/net/wireless/ath/ath10k*
710       Some Human <shuman@example.com> (supporter:QUALCOMM ATHEROS ATH10K WIRELESS DRIVER)
711       Another S. Human <asomehuman@example.com> (maintainer:NETWORKING DRIVERS)
712       ath10k@lists.infradead.org (open list:QUALCOMM ATHEROS ATH10K WIRELESS DRIVER)
713       linux-wireless@vger.kernel.org (open list:NETWORKING DRIVERS (WIRELESS))
714       netdev@vger.kernel.org (open list:NETWORKING DRIVERS)
715       linux-kernel@vger.kernel.org (open list)
716
717Don't sent your report to all of them. Send it to the maintainers, which the
718script calls "supporter:"; additionally CC the most specific mailing list for
719the code as well as the Linux Kernel Mailing List (LKML). In this case you thus
720would need to send the report to 'Some Human <shuman@example.com>' with
721'ath10k@lists.infradead.org' and 'linux-kernel@vger.kernel.org' in CC.
722
723Note: in case you cloned the Linux sources with git you might want to call
724``get_maintainer.pl`` a second time with ``--git``. The script then will look
725at the commit history to find which people recently worked on the code in
726question, as they might be able to help. But use these results with care, as it
727can easily send you in a wrong direction. That for example happens quickly in
728areas rarely changed (like old or unmaintained drivers): sometimes such code is
729modified during tree-wide cleanups by developers that do not care about the
730particular driver at all.
731
732
733Search for existing reports, second run
734---------------------------------------
735
736    *Search the archives of the bug tracker or mailing list in question
737    thoroughly for reports that might match your issue. If you find anything,
738    join the discussion instead of sending a new report.*
739
740As mentioned earlier already: reporting an issue that someone else already
741brought forward is often a waste of time for everyone involved, especially you
742as the reporter. That's why you should search for existing report again, now
743that you know where they need to be reported to. If it's mailing list, you will
744often find its archives on `lore.kernel.org <https://lore.kernel.org/>`_.
745
746But some list are hosted in different places. That for example is the case for
747the ath10k WiFi driver used as example in the previous step. But you'll often
748find the archives for these lists easily on the net. Searching for 'archive
749ath10k@lists.infradead.org' for example will lead you to the `Info page for the
750ath10k mailing list <https://lists.infradead.org/mailman/listinfo/ath10k>`_,
751which at the top links to its
752`list archives <https://lists.infradead.org/pipermail/ath10k/>`_. Sadly this and
753quite a few other lists miss a way to search the archives. In those cases use a
754regular internet search engine and add something like
755'site:lists.infradead.org/pipermail/ath10k/' to your search terms, which limits
756the results to the archives at that URL.
757
758It's also wise to check the internet, LKML and maybe bugzilla.kernel.org again
759at this point. If your report needs to be filed in a bug tracker, you may want
760to check the mailing list archives for the subsystem as well, as someone might
761have reported it only there.
762
763For details how to search and what to do if you find matching reports see
764"Search for existing reports, first run" above.
765
766Do not hurry with this step of the reporting process: spending 30 to 60 minutes
767or even more time can save you and others quite a lot of time and trouble.
768
769
770Install a fresh kernel for testing
771----------------------------------
772
773    *Unless you are already running the latest 'mainline' Linux kernel, better
774    go and install it for the reporting process. Testing and reporting with
775    the latest 'stable' Linux can be an acceptable alternative in some
776    situations; during the merge window that actually might be even the best
777    approach, but in that development phase it can be an even better idea to
778    suspend your efforts for a few days anyway. Whatever version you choose,
779    ideally use a 'vanilla' built. Ignoring these advices will dramatically
780    increase the risk your report will be rejected or ignored.*
781
782As mentioned in the detailed explanation for the first step already: Like most
783programmers, Linux kernel developers don't like to spend time dealing with
784reports for issues that don't even happen with the current code. It's just a
785waste everybody's time, especially yours. That's why it's in everybody's
786interest that you confirm the issue still exists with the latest upstream code
787before reporting it. You are free to ignore this advice, but as outlined
788earlier: doing so dramatically increases the risk that your issue report might
789get rejected or simply ignored.
790
791In the scope of the kernel "latest upstream" normally means:
792
793 * Install a mainline kernel; the latest stable kernel can be an option, but
794   most of the time is better avoided. Longterm kernels (sometimes called 'LTS
795   kernels') are unsuitable at this point of the process. The next subsection
796   explains all of this in more detail.
797
798 * The over next subsection describes way to obtain and install such a kernel.
799   It also outlines that using a pre-compiled kernel are fine, but better are
800   vanilla, which means: it was built using Linux sources taken straight `from
801   kernel.org <https://kernel.org/>`_ and not modified or enhanced in any way.
802
803Choosing the right version for testing
804~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
805
806Head over to `kernel.org <https://kernel.org/>`_ to find out which version you
807want to use for testing. Ignore the big yellow button that says 'Latest release'
808and look a little lower at the table. At its top you'll see a line starting with
809mainline, which most of the time will point to a pre-release with a version
810number like '5.8-rc2'. If that's the case, you'll want to use this mainline
811kernel for testing, as that where all fixes have to be applied first. Do not let
812that 'rc' scare you, these 'development kernels' are pretty reliable — and you
813made a backup, as you were instructed above, didn't you?
814
815In about two out of every nine to ten weeks, mainline might point you to a
816proper release with a version number like '5.7'. If that happens, consider
817suspending the reporting process until the first pre-release of the next
818version (5.8-rc1) shows up on kernel.org. That's because the Linux development
819cycle then is in its two-week long 'merge window'. The bulk of the changes and
820all intrusive ones get merged for the next release during this time. It's a bit
821more risky to use mainline during this period. Kernel developers are also often
822quite busy then and might have no spare time to deal with issue reports. It's
823also quite possible that one of the many changes applied during the merge
824window fixes the issue you face; that's why you soon would have to retest with
825a newer kernel version anyway, as outlined below in the section 'Duties after
826the report went out'.
827
828That's why it might make sense to wait till the merge window is over. But don't
829to that if you're dealing with something that shouldn't wait. In that case
830consider obtaining the latest mainline kernel via git (see below) or use the
831latest stable version offered on kernel.org. Using that is also acceptable in
832case mainline for some reason does currently not work for you. An in general:
833using it for reproducing the issue is also better than not reporting it issue
834at all.
835
836Better avoid using the latest stable kernel outside merge windows, as all fixes
837must be applied to mainline first. That's why checking the latest mainline
838kernel is so important: any issue you want to see fixed in older version lines
839needs to be fixed in mainline first before it can get backported, which can
840take a few days or weeks. Another reason: the fix you hope for might be too
841hard or risky for backporting; reporting the issue again hence is unlikely to
842change anything.
843
844These aspects are also why longterm kernels (sometimes called "LTS kernels")
845are unsuitable for this part of the reporting process: they are to distant from
846the current code. Hence go and test mainline first and follow the process
847further: if the issue doesn't occur with mainline it will guide you how to get
848it fixed in older version lines, if that's in the cards for the fix in question.
849
850How to obtain a fresh Linux kernel
851~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
852
853**Using a pre-compiled kernel**: This is often the quickest, easiest, and safest
854way for testing — especially is you are unfamiliar with the Linux kernel. The
855problem: most of those shipped by distributors or add-on repositories are build
856from modified Linux sources. They are thus not vanilla and therefore often
857unsuitable for testing and issue reporting: the changes might cause the issue
858you face or influence it somehow.
859
860But you are in luck if you are using a popular Linux distribution: for quite a
861few of them you'll find repositories on the net that contain packages with the
862latest mainline or stable Linux built as vanilla kernel. It's totally okay to
863use these, just make sure from the repository's description they are vanilla or
864at least close to it. Additionally ensure the packages contain the latest
865versions as offered on kernel.org. The packages are likely unsuitable if they
866are older than a week, as new mainline and stable kernels typically get released
867at least once a week.
868
869Please note that you might need to build your own kernel manually later: that's
870sometimes needed for debugging or testing fixes, as described later in this
871document. Also be aware that pre-compiled kernels might lack debug symbols that
872are needed to decode messages the kernel prints when a panic, Oops, warning, or
873BUG occurs; if you plan to decode those, you might be better off compiling a
874kernel yourself (see the end of this subsection and the section titled 'Decode
875failure messages' for details).
876
877**Using git**: Developers and experienced Linux users familiar with git are
878often best served by obtaining the latest Linux kernel sources straight from the
879`official development repository on kernel.org
880<https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/>`_.
881Those are likely a bit ahead of the latest mainline pre-release. Don't worry
882about it: they are as reliable as a proper pre-release, unless the kernel's
883development cycle is currently in the middle of a merge window. But even then
884they are quite reliable.
885
886**Conventional**: People unfamiliar with git are often best served by
887downloading the sources as tarball from `kernel.org <https://kernel.org/>`_.
888
889How to actually build a kernel is not described here, as many websites explain
890the necessary steps already. If you are new to it, consider following one of
891those how-to's that suggest to use ``make localmodconfig``, as that tries to
892pick up the configuration of your current kernel and then tries to adjust it
893somewhat for your system. That does not make the resulting kernel any better,
894but quicker to compile.
895
896Note: If you are dealing with a panic, Oops, warning, or BUG from the kernel,
897please try to enable CONFIG_KALLSYMS when configuring your kernel.
898Additionally, enable CONFIG_DEBUG_KERNEL and CONFIG_DEBUG_INFO, too; the
899latter is the relevant one of those two, but can only be reached if you enable
900the former. Be aware CONFIG_DEBUG_INFO increases the storage space required to
901build a kernel by quite a bit. But that's worth it, as these options will allow
902you later to pinpoint the exact line of code that triggers your issue. The
903section 'Decode failure messages' below explains this in more detail.
904
905But keep in mind: Always keep a record of the issue encountered in case it is
906hard to reproduce. Sending an undecoded report is better than not reporting
907the issue at all.
908
909
910Check 'taint' flag
911------------------
912
913    *Ensure the kernel you just installed does not 'taint' itself when
914    running.*
915
916As outlined above in more detail already: the kernel sets a 'taint' flag when
917something happens that can lead to follow-up errors that look totally
918unrelated. That's why you need to check if the kernel you just installed does
919not set this flag. And if it does, you in almost all the cases needs to
920eliminate the reason for it before you reporting issues that occur with it. See
921the section above for details how to do that.
922
923
924Reproduce issue with the fresh kernel
925-------------------------------------
926
927    *Reproduce the issue with the kernel you just installed. If it doesn't show
928    up there, scroll down to the instructions for issues only happening with
929    stable and longterm kernels.*
930
931Check if the issue occurs with the fresh Linux kernel version you just
932installed. If it was fixed there already, consider sticking with this version
933line and abandoning your plan to report the issue. But keep in mind that other
934users might still be plagued by it, as long as it's not fixed in either stable
935and longterm version from kernel.org (and thus vendor kernels derived from
936those). If you prefer to use one of those or just want to help their users,
937head over to the section "Details about reporting issues only occurring in
938older kernel version lines" below.
939
940
941Optimize description to reproduce issue
942---------------------------------------
943
944    *Optimize your notes: try to find and write the most straightforward way to
945    reproduce your issue. Make sure the end result has all the important
946    details, and at the same time is easy to read and understand for others
947    that hear about it for the first time. And if you learned something in this
948    process, consider searching again for existing reports about the issue.*
949
950An unnecessarily complex report will make it hard for others to understand your
951report. Thus try to find a reproducer that's straight forward to describe and
952thus easy to understand in written form. Include all important details, but at
953the same time try to keep it as short as possible.
954
955In this in the previous steps you likely have learned a thing or two about the
956issue you face. Use this knowledge and search again for existing reports
957instead you can join.
958
959
960Decode failure messages
961-----------------------
962
963    *If your failure involves a 'panic', 'Oops', 'warning', or 'BUG', consider
964    decoding the kernel log to find the line of code that triggered the error.*
965
966When the kernel detects an internal problem, it will log some information about
967the executed code. This makes it possible to pinpoint the exact line in the
968source code that triggered the issue and shows how it was called. But that only
969works if you enabled CONFIG_DEBUG_INFO and CONFIG_KALLSYMS when configuring
970your kernel. If you did so, consider to decode the information from the
971kernel's log. That will make it a lot easier to understand what lead to the
972'panic', 'Oops', 'warning', or 'BUG', which increases the chances that someone
973can provide a fix.
974
975Decoding can be done with a script you find in the Linux source tree. If you
976are running a kernel you compiled yourself earlier, call it like this::
977
978       [user@something ~]$ sudo dmesg | ./linux-5.10.5/scripts/decode_stacktrace.sh ./linux-5.10.5/vmlinux
979
980If you are running a packaged vanilla kernel, you will likely have to install
981the corresponding packages with debug symbols. Then call the script (which you
982might need to get from the Linux sources if your distro does not package it)
983like this::
984
985       [user@something ~]$ sudo dmesg | ./linux-5.10.5/scripts/decode_stacktrace.sh \
986        /usr/lib/debug/lib/modules/5.10.10-4.1.x86_64/vmlinux /usr/src/kernels/5.10.10-4.1.x86_64/
987
988The script will work on log lines like the following, which show the address of
989the code the kernel was executing when the error occurred::
990
991       [   68.387301] RIP: 0010:test_module_init+0x5/0xffa [test_module]
992
993Once decoded, these lines will look like this::
994
995       [   68.387301] RIP: 0010:test_module_init (/home/username/linux-5.10.5/test-module/test-module.c:16) test_module
996
997In this case the executed code was built from the file
998'~/linux-5.10.5/test-module/test-module.c' and the error occurred by the
999instructions found in line '16'.
1000
1001The script will similarly decode the addresses mentioned in the section
1002starting with 'Call trace', which show the path to the function where the
1003problem occurred. Additionally, the script will show the assembler output for
1004the code section the kernel was executing.
1005
1006Note, if you can't get this to work, simply skip this step and mention the
1007reason for it in the report. If you're lucky, it might not be needed. And if it
1008is, someone might help you to get things going. Also be aware this is just one
1009of several ways to decode kernel stack traces. Sometimes different steps will
1010be required to retrieve the relevant details. Don't worry about that, if that's
1011needed in your case, developers will tell you what to do.
1012
1013
1014Special care for regressions
1015----------------------------
1016
1017    *If your problem is a regression, try to narrow down when the issue was
1018    introduced as much as possible.*
1019
1020Linux lead developer Linus Torvalds insists that the Linux kernel never
1021worsens, that's why he deems regressions as unacceptable and wants to see them
1022fixed quickly. That's why changes that introduced a regression are often
1023promptly reverted if the issue they cause can't get solved quickly any other
1024way. Reporting a regression is thus a bit like playing a kind of trump card to
1025get something quickly fixed. But for that to happen the change that's causing
1026the regression needs to be known. Normally it's up to the reporter to track
1027down the culprit, as maintainers often won't have the time or setup at hand to
1028reproduce it themselves.
1029
1030To find the change there is a process called 'bisection' which the document
1031Documentation/admin-guide/bug-bisect.rst describes in detail. That process
1032will often require you to build about ten to twenty kernel images, trying to
1033reproduce the issue with each of them before building the next. Yes, that takes
1034some time, but don't worry, it works a lot quicker than most people assume.
1035Thanks to a 'binary search' this will lead you to the one commit in the source
1036code management system that's causing the regression. Once you find it, search
1037the net for the subject of the change, its commit id and the shortened commit id
1038(the first 12 characters of the commit id). This will lead you to existing
1039reports about it, if there are any.
1040
1041Note, a bisection needs a bit of know-how, which not everyone has, and quite a
1042bit of effort, which not everyone is willing to invest. Nevertheless, it's
1043highly recommended performing a bisection yourself. If you really can't or
1044don't want to go down that route at least find out which mainline kernel
1045introduced the regression. If something for example breaks when switching from
10465.5.15 to 5.8.4, then try at least all the mainline releases in that area (5.6,
10475.7 and 5.8) to check when it first showed up. Unless you're trying to find a
1048regression in a stable or longterm kernel, avoid testing versions which number
1049has three sections (5.6.12, 5.7.8), as that makes the outcome hard to
1050interpret, which might render your testing useless. Once you found the major
1051version which introduced the regression, feel free to move on in the reporting
1052process. But keep in mind: it depends on the issue at hand if the developers
1053will be able to help without knowing the culprit. Sometimes they might
1054recognize from the report want went wrong and can fix it; other times they will
1055be unable to help unless you perform a bisection.
1056
1057When dealing with regressions make sure the issue you face is really caused by
1058the kernel and not by something else, as outlined above already.
1059
1060In the whole process keep in mind: an issue only qualifies as regression if the
1061older and the newer kernel got built with a similar configuration. This can be
1062achieved by using ``make olddefconfig``, as explained in more detail by
1063Documentation/admin-guide/reporting-regressions.rst; that document also
1064provides a good deal of other information about regressions you might want to be
1065aware of.
1066
1067
1068Write and send the report
1069-------------------------
1070
1071    *Start to compile the report by writing a detailed description about the
1072    issue. Always mention a few things: the latest kernel version you installed
1073    for reproducing, the Linux Distribution used, and your notes on how to
1074    reproduce the issue. Ideally, make the kernel's build configuration
1075    (.config) and the output from ``dmesg`` available somewhere on the net and
1076    link to it. Include or upload all other information that might be relevant,
1077    like the output/screenshot of an Oops or the output from ``lspci``. Once
1078    you wrote this main part, insert a normal length paragraph on top of it
1079    outlining the issue and the impact quickly. On top of this add one sentence
1080    that briefly describes the problem and gets people to read on. Now give the
1081    thing a descriptive title or subject that yet again is shorter. Then you're
1082    ready to send or file the report like the MAINTAINERS file told you, unless
1083    you are dealing with one of those 'issues of high priority': they need
1084    special care which is explained in 'Special handling for high priority
1085    issues' below.*
1086
1087Now that you have prepared everything it's time to write your report. How to do
1088that is partly explained by the three documents linked to in the preface above.
1089That's why this text will only mention a few of the essentials as well as
1090things specific to the Linux kernel.
1091
1092There is one thing that fits both categories: the most crucial parts of your
1093report are the title/subject, the first sentence, and the first paragraph.
1094Developers often get quite a lot of mail. They thus often just take a few
1095seconds to skim a mail before deciding to move on or look closer. Thus: the
1096better the top section of your report, the higher are the chances that someone
1097will look into it and help you. And that is why you should ignore them for now
1098and write the detailed report first. ;-)
1099
1100Things each report should mention
1101~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1102
1103Describe in detail how your issue happens with the fresh vanilla kernel you
1104installed. Try to include the step-by-step instructions you wrote and optimized
1105earlier that outline how you and ideally others can reproduce the issue; in
1106those rare cases where that's impossible try to describe what you did to
1107trigger it.
1108
1109Also include all the relevant information others might need to understand the
1110issue and its environment. What's actually needed depends a lot on the issue,
1111but there are some things you should include always:
1112
1113 * the output from ``cat /proc/version``, which contains the Linux kernel
1114   version number and the compiler it was built with.
1115
1116 * the Linux distribution the machine is running (``hostnamectl | grep
1117   "Operating System"``)
1118
1119 * the architecture of the CPU and the operating system (``uname -mi``)
1120
1121 * if you are dealing with a regression and performed a bisection, mention the
1122   subject and the commit-id of the change that is causing it.
1123
1124In a lot of cases it's also wise to make two more things available to those
1125that read your report:
1126
1127 * the configuration used for building your Linux kernel (the '.config' file)
1128
1129 * the kernel's messages that you get from ``dmesg`` written to a file. Make
1130   sure that it starts with a line like 'Linux version 5.8-1
1131   (foobar@example.com) (gcc (GCC) 10.2.1, GNU ld version 2.34) #1 SMP Mon Aug
1132   3 14:54:37 UTC 2020' If it's missing, then important messages from the first
1133   boot phase already got discarded. In this case instead consider using
1134   ``journalctl -b 0 -k``; alternatively you can also reboot, reproduce the
1135   issue and call ``dmesg`` right afterwards.
1136
1137These two files are big, that's why it's a bad idea to put them directly into
1138your report. If you are filing the issue in a bug tracker then attach them to
1139the ticket. If you report the issue by mail do not attach them, as that makes
1140the mail too large; instead do one of these things:
1141
1142 * Upload the files somewhere public (your website, a public file paste
1143   service, a ticket created just for this purpose on `bugzilla.kernel.org
1144   <https://bugzilla.kernel.org/>`_, ...) and include a link to them in your
1145   report. Ideally use something where the files stay available for years, as
1146   they could be useful to someone many years from now; this for example can
1147   happen if five or ten years from now a developer works on some code that was
1148   changed just to fix your issue.
1149
1150 * Put the files aside and mention you will send them later in individual
1151   replies to your own mail. Just remember to actually do that once the report
1152   went out. ;-)
1153
1154Things that might be wise to provide
1155~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1156
1157Depending on the issue you might need to add more background data. Here are a
1158few suggestions what often is good to provide:
1159
1160 * If you are dealing with a 'warning', an 'OOPS' or a 'panic' from the kernel,
1161   include it. If you can't copy'n'paste it, try to capture a netconsole trace
1162   or at least take a picture of the screen.
1163
1164 * If the issue might be related to your computer hardware, mention what kind
1165   of system you use. If you for example have problems with your graphics card,
1166   mention its manufacturer, the card's model, and what chip is uses. If it's a
1167   laptop mention its name, but try to make sure it's meaningful. 'Dell XPS 13'
1168   for example is not, because it might be the one from 2012; that one looks
1169   not that different from the one sold today, but apart from that the two have
1170   nothing in common. Hence, in such cases add the exact model number, which
1171   for example are '9380' or '7390' for XPS 13 models introduced during 2019.
1172   Names like 'Lenovo Thinkpad T590' are also somewhat ambiguous: there are
1173   variants of this laptop with and without a dedicated graphics chip, so try
1174   to find the exact model name or specify the main components.
1175
1176 * Mention the relevant software in use. If you have problems with loading
1177   modules, you want to mention the versions of kmod, systemd, and udev in use.
1178   If one of the DRM drivers misbehaves, you want to state the versions of
1179   libdrm and Mesa; also specify your Wayland compositor or the X-Server and
1180   its driver. If you have a filesystem issue, mention the version of
1181   corresponding filesystem utilities (e2fsprogs, btrfs-progs, xfsprogs, ...).
1182
1183 * Gather additional information from the kernel that might be of interest. The
1184   output from ``lspci -nn`` will for example help others to identify what
1185   hardware you use. If you have a problem with hardware you even might want to
1186   make the output from ``sudo lspci -vvv`` available, as that provides
1187   insights how the components were configured. For some issues it might be
1188   good to include the contents of files like ``/proc/cpuinfo``,
1189   ``/proc/ioports``, ``/proc/iomem``, ``/proc/modules``, or
1190   ``/proc/scsi/scsi``. Some subsystem also offer tools to collect relevant
1191   information. One such tool is ``alsa-info.sh`` `which the audio/sound
1192   subsystem developers provide <https://www.alsa-project.org/wiki/AlsaInfo>`_.
1193
1194Those examples should give your some ideas of what data might be wise to
1195attach, but you have to think yourself what will be helpful for others to know.
1196Don't worry too much about forgetting something, as developers will ask for
1197additional details they need. But making everything important available from
1198the start increases the chance someone will take a closer look.
1199
1200
1201The important part: the head of your report
1202~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1203
1204Now that you have the detailed part of the report prepared let's get to the
1205most important section: the first few sentences. Thus go to the top, add
1206something like 'The detailed description:' before the part you just wrote and
1207insert two newlines at the top. Now write one normal length paragraph that
1208describes the issue roughly. Leave out all boring details and focus on the
1209crucial parts readers need to know to understand what this is all about; if you
1210think this bug affects a lot of users, mention this to get people interested.
1211
1212Once you did that insert two more lines at the top and write a one sentence
1213summary that explains quickly what the report is about. After that you have to
1214get even more abstract and write an even shorter subject/title for the report.
1215
1216Now that you have written this part take some time to optimize it, as it is the
1217most important parts of your report: a lot of people will only read this before
1218they decide if reading the rest is time well spent.
1219
1220Now send or file the report like the :ref:`MAINTAINERS <maintainers>` file told
1221you, unless it's one of those 'issues of high priority' outlined earlier: in
1222that case please read the next subsection first before sending the report on
1223its way.
1224
1225Special handling for high priority issues
1226~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1227
1228Reports for high priority issues need special handling.
1229
1230**Severe issues**: make sure the subject or ticket title as well as the first
1231paragraph makes the severeness obvious.
1232
1233**Regressions**: make the report's subject start with '[REGRESSION]'.
1234
1235In case you performed a successful bisection, use the title of the change that
1236introduced the regression as the second part of your subject. Make the report
1237also mention the commit id of the culprit. In case of an unsuccessful bisection,
1238make your report mention the latest tested version that's working fine (say 5.7)
1239and the oldest where the issue occurs (say 5.8-rc1).
1240
1241When sending the report by mail, CC the Linux regressions mailing list
1242(regressions@lists.linux.dev). In case the report needs to be filed to some web
1243tracker, proceed to do so. Once filed, forward the report by mail to the
1244regressions list; CC the maintainer and the mailing list for the subsystem in
1245question. Make sure to inline the forwarded report, hence do not attach it.
1246Also add a short note at the top where you mention the URL to the ticket.
1247
1248When mailing or forwarding the report, in case of a successful bisection add the
1249author of the culprit to the recipients; also CC everyone in the signed-off-by
1250chain, which you find at the end of its commit message.
1251
1252**Security issues**: for these issues your will have to evaluate if a
1253short-term risk to other users would arise if details were publicly disclosed.
1254If that's not the case simply proceed with reporting the issue as described.
1255For issues that bear such a risk you will need to adjust the reporting process
1256slightly:
1257
1258 * If the MAINTAINERS file instructed you to report the issue by mail, do not
1259   CC any public mailing lists.
1260
1261 * If you were supposed to file the issue in a bug tracker make sure to mark
1262   the ticket as 'private' or 'security issue'. If the bug tracker does not
1263   offer a way to keep reports private, forget about it and send your report as
1264   a private mail to the maintainers instead.
1265
1266In both cases make sure to also mail your report to the addresses the
1267MAINTAINERS file lists in the section 'security contact'. Ideally directly CC
1268them when sending the report by mail. If you filed it in a bug tracker, forward
1269the report's text to these addresses; but on top of it put a small note where
1270you mention that you filed it with a link to the ticket.
1271
1272See Documentation/admin-guide/security-bugs.rst for more information.
1273
1274
1275Duties after the report went out
1276--------------------------------
1277
1278    *Wait for reactions and keep the thing rolling until you can accept the
1279    outcome in one way or the other. Thus react publicly and in a timely manner
1280    to any inquiries. Test proposed fixes. Do proactive testing: retest with at
1281    least every first release candidate (RC) of a new mainline version and
1282    report your results. Send friendly reminders if things stall. And try to
1283    help yourself, if you don't get any help or if it's unsatisfying.*
1284
1285If your report was good and you are really lucky then one of the developers
1286might immediately spot what's causing the issue; they then might write a patch
1287to fix it, test it, and send it straight for integration in mainline while
1288tagging it for later backport to stable and longterm kernels that need it. Then
1289all you need to do is reply with a 'Thank you very much' and switch to a version
1290with the fix once it gets released.
1291
1292But this ideal scenario rarely happens. That's why the job is only starting
1293once you got the report out. What you'll have to do depends on the situations,
1294but often it will be the things listed below. But before digging into the
1295details, here are a few important things you need to keep in mind for this part
1296of the process.
1297
1298
1299General advice for further interactions
1300~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1301
1302**Always reply in public**: When you filed the issue in a bug tracker, always
1303reply there and do not contact any of the developers privately about it. For
1304mailed reports always use the 'Reply-all' function when replying to any mails
1305you receive. That includes mails with any additional data you might want to add
1306to your report: go to your mail applications 'Sent' folder and use 'reply-all'
1307on your mail with the report. This approach will make sure the public mailing
1308list(s) and everyone else that gets involved over time stays in the loop; it
1309also keeps the mail thread intact, which among others is really important for
1310mailing lists to group all related mails together.
1311
1312There are just two situations where a comment in a bug tracker or a 'Reply-all'
1313is unsuitable:
1314
1315 * Someone tells you to send something privately.
1316
1317 * You were told to send something, but noticed it contains sensitive
1318   information that needs to be kept private. In that case it's okay to send it
1319   in private to the developer that asked for it. But note in the ticket or a
1320   mail that you did that, so everyone else knows you honored the request.
1321
1322**Do research before asking for clarifications or help**: In this part of the
1323process someone might tell you to do something that requires a skill you might
1324not have mastered yet. For example, you might be asked to use some test tools
1325you never have heard of yet; or you might be asked to apply a patch to the
1326Linux kernel sources to test if it helps. In some cases it will be fine sending
1327a reply asking for instructions how to do that. But before going that route try
1328to find the answer own your own by searching the internet; alternatively
1329consider asking in other places for advice. For example ask a friend or post
1330about it to a chatroom or forum you normally hang out.
1331
1332**Be patient**: If you are really lucky you might get a reply to your report
1333within a few hours. But most of the time it will take longer, as maintainers
1334are scattered around the globe and thus might be in a different time zone – one
1335where they already enjoy their night away from keyboard.
1336
1337In general, kernel developers will take one to five business days to respond to
1338reports. Sometimes it will take longer, as they might be busy with the merge
1339windows, other work, visiting developer conferences, or simply enjoying a long
1340summer holiday.
1341
1342The 'issues of high priority' (see above for an explanation) are an exception
1343here: maintainers should address them as soon as possible; that's why you
1344should wait a week at maximum (or just two days if it's something urgent)
1345before sending a friendly reminder.
1346
1347Sometimes the maintainer might not be responding in a timely manner; other
1348times there might be disagreements, for example if an issue qualifies as
1349regression or not. In such cases raise your concerns on the mailing list and
1350ask others for public or private replies how to move on. If that fails, it
1351might be appropriate to get a higher authority involved. In case of a WiFi
1352driver that would be the wireless maintainers; if there are no higher level
1353maintainers or all else fails, it might be one of those rare situations where
1354it's okay to get Linus Torvalds involved.
1355
1356**Proactive testing**: Every time the first pre-release (the 'rc1') of a new
1357mainline kernel version gets released, go and check if the issue is fixed there
1358or if anything of importance changed. Mention the outcome in the ticket or in a
1359mail you sent as reply to your report (make sure it has all those in the CC
1360that up to that point participated in the discussion). This will show your
1361commitment and that you are willing to help. It also tells developers if the
1362issue persists and makes sure they do not forget about it. A few other
1363occasional retests (for example with rc3, rc5 and the final) are also a good
1364idea, but only report your results if something relevant changed or if you are
1365writing something anyway.
1366
1367With all these general things off the table let's get into the details of how
1368to help to get issues resolved once they were reported.
1369
1370Inquires and testing request
1371~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1372
1373Here are your duties in case you got replies to your report:
1374
1375**Check who you deal with**: Most of the time it will be the maintainer or a
1376developer of the particular code area that will respond to your report. But as
1377issues are normally reported in public it could be anyone that's replying —
1378including people that want to help, but in the end might guide you totally off
1379track with their questions or requests. That rarely happens, but it's one of
1380many reasons why it's wise to quickly run an internet search to see who you're
1381interacting with. By doing this you also get aware if your report was heard by
1382the right people, as a reminder to the maintainer (see below) might be in order
1383later if discussion fades out without leading to a satisfying solution for the
1384issue.
1385
1386**Inquiries for data**: Often you will be asked to test something or provide
1387additional details. Try to provide the requested information soon, as you have
1388the attention of someone that might help and risk losing it the longer you
1389wait; that outcome is even likely if you do not provide the information within
1390a few business days.
1391
1392**Requests for testing**: When you are asked to test a diagnostic patch or a
1393possible fix, try to test it in timely manner, too. But do it properly and make
1394sure to not rush it: mixing things up can happen easily and can lead to a lot
1395of confusion for everyone involved. A common mistake for example is thinking a
1396proposed patch with a fix was applied, but in fact wasn't. Things like that
1397happen even to experienced testers occasionally, but they most of the time will
1398notice when the kernel with the fix behaves just as one without it.
1399
1400What to do when nothing of substance happens
1401~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1402
1403Some reports will not get any reaction from the responsible Linux kernel
1404developers; or a discussion around the issue evolved, but faded out with
1405nothing of substance coming out of it.
1406
1407In these cases wait two (better: three) weeks before sending a friendly
1408reminder: maybe the maintainer was just away from keyboard for a while when
1409your report arrived or had something more important to take care of. When
1410writing the reminder, kindly ask if anything else from your side is needed to
1411get the ball running somehow. If the report got out by mail, do that in the
1412first lines of a mail that is a reply to your initial mail (see above) which
1413includes a full quote of the original report below: that's on of those few
1414situations where such a 'TOFU' (Text Over, Fullquote Under) is the right
1415approach, as then all the recipients will have the details at hand immediately
1416in the proper order.
1417
1418After the reminder wait three more weeks for replies. If you still don't get a
1419proper reaction, you first should reconsider your approach. Did you maybe try
1420to reach out to the wrong people? Was the report maybe offensive or so
1421confusing that people decided to completely stay away from it? The best way to
1422rule out such factors: show the report to one or two people familiar with FLOSS
1423issue reporting and ask for their opinion. Also ask them for their advice how
1424to move forward. That might mean: prepare a better report and make those people
1425review it before you send it out. Such an approach is totally fine; just
1426mention that this is the second and improved report on the issue and include a
1427link to the first report.
1428
1429If the report was proper you can send a second reminder; in it ask for advice
1430why the report did not get any replies. A good moment for this second reminder
1431mail is shortly after the first pre-release (the 'rc1') of a new Linux kernel
1432version got published, as you should retest and provide a status update at that
1433point anyway (see above).
1434
1435If the second reminder again results in no reaction within a week, try to
1436contact a higher-level maintainer asking for advice: even busy maintainers by
1437then should at least have sent some kind of acknowledgment.
1438
1439Remember to prepare yourself for a disappointment: maintainers ideally should
1440react somehow to every issue report, but they are only obliged to fix those
1441'issues of high priority' outlined earlier. So don't be too devastating if you
1442get a reply along the lines of 'thanks for the report, I have more important
1443issues to deal with currently and won't have time to look into this for the
1444foreseeable future'.
1445
1446It's also possible that after some discussion in the bug tracker or on a list
1447nothing happens anymore and reminders don't help to motivate anyone to work out
1448a fix. Such situations can be devastating, but is within the cards when it
1449comes to Linux kernel development. This and several other reasons for not
1450getting help are explained in 'Why some issues won't get any reaction or remain
1451unfixed after being reported' near the end of this document.
1452
1453Don't get devastated if you don't find any help or if the issue in the end does
1454not get solved: the Linux kernel is FLOSS and thus you can still help yourself.
1455You for example could try to find others that are affected and team up with
1456them to get the issue resolved. Such a team could prepare a fresh report
1457together that mentions how many you are and why this is something that in your
1458option should get fixed. Maybe together you can also narrow down the root cause
1459or the change that introduced a regression, which often makes developing a fix
1460easier. And with a bit of luck there might be someone in the team that knows a
1461bit about programming and might be able to write a fix.
1462
1463
1464Reference for "Reporting regressions within a stable and longterm kernel line"
1465------------------------------------------------------------------------------
1466
1467This subsection provides details for the steps you need to perform if you face
1468a regression within a stable and longterm kernel line.
1469
1470Make sure the particular version line still gets support
1471~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1472
1473    *Check if the kernel developers still maintain the Linux kernel version
1474    line you care about: go to the front page of kernel.org and make sure it
1475    mentions the latest release of the particular version line without an
1476    '[EOL]' tag.*
1477
1478Most kernel version lines only get supported for about three months, as
1479maintaining them longer is quite a lot of work. Hence, only one per year is
1480chosen and gets supported for at least two years (often six). That's why you
1481need to check if the kernel developers still support the version line you care
1482for.
1483
1484Note, if kernel.org lists two stable version lines on the front page, you
1485should consider switching to the newer one and forget about the older one:
1486support for it is likely to be abandoned soon. Then it will get a "end-of-life"
1487(EOL) stamp. Version lines that reached that point still get mentioned on the
1488kernel.org front page for a week or two, but are unsuitable for testing and
1489reporting.
1490
1491Search stable mailing list
1492~~~~~~~~~~~~~~~~~~~~~~~~~~
1493
1494    *Check the archives of the Linux stable mailing list for existing reports.*
1495
1496Maybe the issue you face is already known and was fixed or is about to. Hence,
1497`search the archives of the Linux stable mailing list
1498<https://lore.kernel.org/stable/>`_ for reports about an issue like yours. If
1499you find any matches, consider joining the discussion, unless the fix is
1500already finished and scheduled to get applied soon.
1501
1502Reproduce issue with the newest release
1503~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1504
1505    *Install the latest release from the particular version line as a vanilla
1506    kernel. Ensure this kernel is not tainted and still shows the problem, as
1507    the issue might have already been fixed there. If you first noticed the
1508    problem with a vendor kernel, check a vanilla build of the last version
1509    known to work performs fine as well.*
1510
1511Before investing any more time in this process you want to check if the issue
1512was already fixed in the latest release of version line you're interested in.
1513This kernel needs to be vanilla and shouldn't be tainted before the issue
1514happens, as detailed outlined already above in the section "Install a fresh
1515kernel for testing".
1516
1517Did you first notice the regression with a vendor kernel? Then changes the
1518vendor applied might be interfering. You need to rule that out by performing
1519a recheck. Say something broke when you updated from 5.10.4-vendor.42 to
15205.10.5-vendor.43. Then after testing the latest 5.10 release as outlined in
1521the previous paragraph check if a vanilla build of Linux 5.10.4 works fine as
1522well. If things are broken there, the issue does not qualify as upstream
1523regression and you need switch back to the main step-by-step guide to report
1524the issue.
1525
1526Report the regression
1527~~~~~~~~~~~~~~~~~~~~~
1528
1529    *Send a short problem report to the Linux stable mailing list
1530    (stable@vger.kernel.org) and CC the Linux regressions mailing list
1531    (regressions@lists.linux.dev); if you suspect the cause in a particular
1532    subsystem, CC its maintainer and its mailing list. Roughly describe the
1533    issue and ideally explain how to reproduce it. Mention the first version
1534    that shows the problem and the last version that's working fine. Then
1535    wait for further instructions.*
1536
1537When reporting a regression that happens within a stable or longterm kernel
1538line (say when updating from 5.10.4 to 5.10.5) a brief report is enough for
1539the start to get the issue reported quickly. Hence a rough description to the
1540stable and regressions mailing list is all it takes; but in case you suspect
1541the cause in a particular subsystem, CC its maintainers and its mailing list
1542as well, because that will speed things up.
1543
1544And note, it helps developers a great deal if you can specify the exact version
1545that introduced the problem. Hence if possible within a reasonable time frame,
1546try to find that version using vanilla kernels. Lets assume something broke when
1547your distributor released a update from Linux kernel 5.10.5 to 5.10.8. Then as
1548instructed above go and check the latest kernel from that version line, say
15495.10.9. If it shows the problem, try a vanilla 5.10.5 to ensure that no patches
1550the distributor applied interfere. If the issue doesn't manifest itself there,
1551try 5.10.7 and then (depending on the outcome) 5.10.8 or 5.10.6 to find the
1552first version where things broke. Mention it in the report and state that 5.10.9
1553is still broken.
1554
1555What the previous paragraph outlines is basically a rough manual 'bisection'.
1556Once your report is out your might get asked to do a proper one, as it allows to
1557pinpoint the exact change that causes the issue (which then can easily get
1558reverted to fix the issue quickly). Hence consider to do a proper bisection
1559right away if time permits. See the section 'Special care for regressions' and
1560the document Documentation/admin-guide/bug-bisect.rst for details how to
1561perform one. In case of a successful bisection add the author of the culprit to
1562the recipients; also CC everyone in the signed-off-by chain, which you find at
1563the end of its commit message.
1564
1565
1566Reference for "Reporting issues only occurring in older kernel version lines"
1567-----------------------------------------------------------------------------
1568
1569This section provides details for the steps you need to take if you could not
1570reproduce your issue with a mainline kernel, but want to see it fixed in older
1571version lines (aka stable and longterm kernels).
1572
1573Some fixes are too complex
1574~~~~~~~~~~~~~~~~~~~~~~~~~~
1575
1576    *Prepare yourself for the possibility that going through the next few steps
1577    might not get the issue solved in older releases: the fix might be too big
1578    or risky to get backported there.*
1579
1580Even small and seemingly obvious code-changes sometimes introduce new and
1581totally unexpected problems. The maintainers of the stable and longterm kernels
1582are very aware of that and thus only apply changes to these kernels that are
1583within rules outlined in Documentation/process/stable-kernel-rules.rst.
1584
1585Complex or risky changes for example do not qualify and thus only get applied
1586to mainline. Other fixes are easy to get backported to the newest stable and
1587longterm kernels, but too risky to integrate into older ones. So be aware the
1588fix you are hoping for might be one of those that won't be backported to the
1589version line your care about. In that case you'll have no other choice then to
1590live with the issue or switch to a newer Linux version, unless you want to
1591patch the fix into your kernels yourself.
1592
1593Common preparations
1594~~~~~~~~~~~~~~~~~~~
1595
1596    *Perform the first three steps in the section "Reporting issues only
1597    occurring in older kernel version lines" above.*
1598
1599You need to carry out a few steps already described in another section of this
1600guide. Those steps will let you:
1601
1602 * Check if the kernel developers still maintain the Linux kernel version line
1603   you care about.
1604
1605 * Search the Linux stable mailing list for exiting reports.
1606
1607 * Check with the latest release.
1608
1609
1610Check code history and search for existing discussions
1611~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1612
1613    *Search the Linux kernel version control system for the change that fixed
1614    the issue in mainline, as its commit message might tell you if the fix is
1615    scheduled for backporting already. If you don't find anything that way,
1616    search the appropriate mailing lists for posts that discuss such an issue
1617    or peer-review possible fixes; then check the discussions if the fix was
1618    deemed unsuitable for backporting. If backporting was not considered at
1619    all, join the newest discussion, asking if it's in the cards.*
1620
1621In a lot of cases the issue you deal with will have happened with mainline, but
1622got fixed there. The commit that fixed it would need to get backported as well
1623to get the issue solved. That's why you want to search for it or any
1624discussions abound it.
1625
1626 * First try to find the fix in the Git repository that holds the Linux kernel
1627   sources. You can do this with the web interfaces `on kernel.org
1628   <https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/>`_
1629   or its mirror `on GitHub <https://github.com/torvalds/linux>`_; if you have
1630   a local clone you alternatively can search on the command line with ``git
1631   log --grep=<pattern>``.
1632
1633   If you find the fix, look if the commit message near the end contains a
1634   'stable tag' that looks like this:
1635
1636          Cc: <stable@vger.kernel.org> # 5.4+
1637
1638   If that's case the developer marked the fix safe for backporting to version
1639   line 5.4 and later. Most of the time it's getting applied there within two
1640   weeks, but sometimes it takes a bit longer.
1641
1642 * If the commit doesn't tell you anything or if you can't find the fix, look
1643   again for discussions about the issue. Search the net with your favorite
1644   internet search engine as well as the archives for the `Linux kernel
1645   developers mailing list <https://lore.kernel.org/lkml/>`_. Also read the
1646   section `Locate kernel area that causes the issue` above and follow the
1647   instructions to find the subsystem in question: its bug tracker or mailing
1648   list archive might have the answer you are looking for.
1649
1650 * If you see a proposed fix, search for it in the version control system as
1651   outlined above, as the commit might tell you if a backport can be expected.
1652
1653   * Check the discussions for any indicators the fix might be too risky to get
1654     backported to the version line you care about. If that's the case you have
1655     to live with the issue or switch to the kernel version line where the fix
1656     got applied.
1657
1658   * If the fix doesn't contain a stable tag and backporting was not discussed,
1659     join the discussion: mention the version where you face the issue and that
1660     you would like to see it fixed, if suitable.
1661
1662
1663Ask for advice
1664~~~~~~~~~~~~~~
1665
1666    *One of the former steps should lead to a solution. If that doesn't work
1667    out, ask the maintainers for the subsystem that seems to be causing the
1668    issue for advice; CC the mailing list for the particular subsystem as well
1669    as the stable mailing list.*
1670
1671If the previous three steps didn't get you closer to a solution there is only
1672one option left: ask for advice. Do that in a mail you sent to the maintainers
1673for the subsystem where the issue seems to have its roots; CC the mailing list
1674for the subsystem as well as the stable mailing list (stable@vger.kernel.org).
1675
1676
1677Why some issues won't get any reaction or remain unfixed after being reported
1678=============================================================================
1679
1680When reporting a problem to the Linux developers, be aware only 'issues of high
1681priority' (regressions, security issues, severe problems) are definitely going
1682to get resolved. The maintainers or if all else fails Linus Torvalds himself
1683will make sure of that. They and the other kernel developers will fix a lot of
1684other issues as well. But be aware that sometimes they can't or won't help; and
1685sometimes there isn't even anyone to send a report to.
1686
1687This is best explained with kernel developers that contribute to the Linux
1688kernel in their spare time. Quite a few of the drivers in the kernel were
1689written by such programmers, often because they simply wanted to make their
1690hardware usable on their favorite operating system.
1691
1692These programmers most of the time will happily fix problems other people
1693report. But nobody can force them to do, as they are contributing voluntarily.
1694
1695Then there are situations where such developers really want to fix an issue,
1696but can't: sometimes they lack hardware programming documentation to do so.
1697This often happens when the publicly available docs are superficial or the
1698driver was written with the help of reverse engineering.
1699
1700Sooner or later spare time developers will also stop caring for the driver.
1701Maybe their test hardware broke, got replaced by something more fancy, or is so
1702old that it's something you don't find much outside of computer museums
1703anymore. Sometimes developer stops caring for their code and Linux at all, as
1704something different in their life became way more important. In some cases
1705nobody is willing to take over the job as maintainer – and nobody can be forced
1706to, as contributing to the Linux kernel is done on a voluntary basis. Abandoned
1707drivers nevertheless remain in the kernel: they are still useful for people and
1708removing would be a regression.
1709
1710The situation is not that different with developers that are paid for their
1711work on the Linux kernel. Those contribute most changes these days. But their
1712employers sooner or later also stop caring for their code or make its
1713programmer focus on other things. Hardware vendors for example earn their money
1714mainly by selling new hardware; quite a few of them hence are not investing
1715much time and energy in maintaining a Linux kernel driver for something they
1716stopped selling years ago. Enterprise Linux distributors often care for a
1717longer time period, but in new versions often leave support for old and rare
1718hardware aside to limit the scope. Often spare time contributors take over once
1719a company orphans some code, but as mentioned above: sooner or later they will
1720leave the code behind, too.
1721
1722Priorities are another reason why some issues are not fixed, as maintainers
1723quite often are forced to set those, as time to work on Linux is limited.
1724That's true for spare time or the time employers grant their developers to
1725spend on maintenance work on the upstream kernel. Sometimes maintainers also
1726get overwhelmed with reports, even if a driver is working nearly perfectly. To
1727not get completely stuck, the programmer thus might have no other choice than
1728to prioritize issue reports and reject some of them.
1729
1730But don't worry too much about all of this, a lot of drivers have active
1731maintainers who are quite interested in fixing as many issues as possible.
1732
1733
1734Closing words
1735=============
1736
1737Compared with other Free/Libre & Open Source Software it's hard to report
1738issues to the Linux kernel developers: the length and complexity of this
1739document and the implications between the lines illustrate that. But that's how
1740it is for now. The main author of this text hopes documenting the state of the
1741art will lay some groundwork to improve the situation over time.
1742
1743
1744..
1745   end-of-content
1746..
1747   This document is maintained by Thorsten Leemhuis <linux@leemhuis.info>. If
1748   you spot a typo or small mistake, feel free to let him know directly and
1749   he'll fix it. You are free to do the same in a mostly informal way if you
1750   want to contribute changes to the text, but for copyright reasons please CC
1751   linux-doc@vger.kernel.org and "sign-off" your contribution as
1752   Documentation/process/submitting-patches.rst outlines in the section "Sign
1753   your work - the Developer's Certificate of Origin".
1754..
1755   This text is available under GPL-2.0+ or CC-BY-4.0, as stated at the top
1756   of the file. If you want to distribute this text under CC-BY-4.0 only,
1757   please use "The Linux kernel developers" for author attribution and link
1758   this as source:
1759   https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/plain/Documentation/admin-guide/reporting-issues.rst
1760..
1761   Note: Only the content of this RST file as found in the Linux kernel sources
1762   is available under CC-BY-4.0, as versions of this text that were processed
1763   (for example by the kernel's build system) might contain content taken from
1764   files which use a more restrictive license.
1765