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Linux/Documentation/process/2.Process.rst

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Diff markup

Differences between /Documentation/process/2.Process.rst (Version linux-6.12-rc7) and /Documentation/process/2.Process.rst (Version linux-5.18.19)


  1 .. _development_process:                            1 .. _development_process:
  2                                                     2 
  3 How the development process works                   3 How the development process works
  4 =================================                   4 =================================
  5                                                     5 
  6 Linux kernel development in the early 1990's w      6 Linux kernel development in the early 1990's was a pretty loose affair,
  7 with relatively small numbers of users and dev      7 with relatively small numbers of users and developers involved.  With a
  8 user base in the millions and with some 2,000       8 user base in the millions and with some 2,000 developers involved over the
  9 course of one year, the kernel has since had t      9 course of one year, the kernel has since had to evolve a number of
 10 processes to keep development happening smooth     10 processes to keep development happening smoothly.  A solid understanding of
 11 how the process works is required in order to      11 how the process works is required in order to be an effective part of it.
 12                                                    12 
 13 The big picture                                    13 The big picture
 14 ---------------                                    14 ---------------
 15                                                    15 
 16 The kernel developers use a loosely time-based     16 The kernel developers use a loosely time-based release process, with a new
 17 major kernel release happening every two or th     17 major kernel release happening every two or three months.  The recent
 18 release history looks like this:                   18 release history looks like this:
 19                                                    19 
 20         ======  =================                  20         ======  =================
 21         5.0     March 3, 2019                      21         5.0     March 3, 2019
 22         5.1     May 5, 2019                        22         5.1     May 5, 2019
 23         5.2     July 7, 2019                       23         5.2     July 7, 2019
 24         5.3     September 15, 2019                 24         5.3     September 15, 2019
 25         5.4     November 24, 2019                  25         5.4     November 24, 2019
 26         5.5     January 6, 2020                    26         5.5     January 6, 2020
 27         ======  =================                  27         ======  =================
 28                                                    28 
 29 Every 5.x release is a major kernel release wi     29 Every 5.x release is a major kernel release with new features, internal
 30 API changes, and more.  A typical release can      30 API changes, and more.  A typical release can contain about 13,000
 31 changesets with changes to several hundred tho     31 changesets with changes to several hundred thousand lines of code.  5.x is
 32 the leading edge of Linux kernel development;      32 the leading edge of Linux kernel development; the kernel uses a
 33 rolling development model which is continually     33 rolling development model which is continually integrating major changes.
 34                                                    34 
 35 A relatively straightforward discipline is fol     35 A relatively straightforward discipline is followed with regard to the
 36 merging of patches for each release.  At the b     36 merging of patches for each release.  At the beginning of each development
 37 cycle, the "merge window" is said to be open.      37 cycle, the "merge window" is said to be open.  At that time, code which is
 38 deemed to be sufficiently stable (and which is     38 deemed to be sufficiently stable (and which is accepted by the development
 39 community) is merged into the mainline kernel.     39 community) is merged into the mainline kernel.  The bulk of changes for a
 40 new development cycle (and all of the major ch     40 new development cycle (and all of the major changes) will be merged during
 41 this time, at a rate approaching 1,000 changes     41 this time, at a rate approaching 1,000 changes ("patches," or "changesets")
 42 per day.                                           42 per day.
 43                                                    43 
 44 (As an aside, it is worth noting that the chan     44 (As an aside, it is worth noting that the changes integrated during the
 45 merge window do not come out of thin air; they     45 merge window do not come out of thin air; they have been collected, tested,
 46 and staged ahead of time.  How that process wo     46 and staged ahead of time.  How that process works will be described in
 47 detail later on).                                  47 detail later on).
 48                                                    48 
 49 The merge window lasts for approximately two w     49 The merge window lasts for approximately two weeks.  At the end of this
 50 time, Linus Torvalds will declare that the win     50 time, Linus Torvalds will declare that the window is closed and release the
 51 first of the "rc" kernels.  For the kernel whi     51 first of the "rc" kernels.  For the kernel which is destined to be 5.6,
 52 for example, the release which happens at the      52 for example, the release which happens at the end of the merge window will
 53 be called 5.6-rc1.  The -rc1 release is the si     53 be called 5.6-rc1.  The -rc1 release is the signal that the time to
 54 merge new features has passed, and that the ti     54 merge new features has passed, and that the time to stabilize the next
 55 kernel has begun.                                  55 kernel has begun.
 56                                                    56 
 57 Over the next six to ten weeks, only patches w     57 Over the next six to ten weeks, only patches which fix problems should be
 58 submitted to the mainline.  On occasion a more     58 submitted to the mainline.  On occasion a more significant change will be
 59 allowed, but such occasions are rare; develope     59 allowed, but such occasions are rare; developers who try to merge new
 60 features outside of the merge window tend to g     60 features outside of the merge window tend to get an unfriendly reception.
 61 As a general rule, if you miss the merge windo     61 As a general rule, if you miss the merge window for a given feature, the
 62 best thing to do is to wait for the next devel     62 best thing to do is to wait for the next development cycle.  (An occasional
 63 exception is made for drivers for previously-u     63 exception is made for drivers for previously-unsupported hardware; if they
 64 touch no in-tree code, they cannot cause regre     64 touch no in-tree code, they cannot cause regressions and should be safe to
 65 add at any time).                                  65 add at any time).
 66                                                    66 
 67 As fixes make their way into the mainline, the     67 As fixes make their way into the mainline, the patch rate will slow over
 68 time.  Linus releases new -rc kernels about on     68 time.  Linus releases new -rc kernels about once a week; a normal series
 69 will get up to somewhere between -rc6 and -rc9     69 will get up to somewhere between -rc6 and -rc9 before the kernel is
 70 considered to be sufficiently stable and the f     70 considered to be sufficiently stable and the final release is made.
 71 At that point the whole process starts over ag     71 At that point the whole process starts over again.
 72                                                    72 
 73 As an example, here is how the 5.4 development     73 As an example, here is how the 5.4 development cycle went (all dates in
 74 2019):                                             74 2019):
 75                                                    75 
 76         ==============  ======================     76         ==============  ===============================
 77         September 15    5.3 stable release         77         September 15    5.3 stable release
 78         September 30    5.4-rc1, merge window      78         September 30    5.4-rc1, merge window closes
 79         October 6       5.4-rc2                    79         October 6       5.4-rc2
 80         October 13      5.4-rc3                    80         October 13      5.4-rc3
 81         October 20      5.4-rc4                    81         October 20      5.4-rc4
 82         October 27      5.4-rc5                    82         October 27      5.4-rc5
 83         November 3      5.4-rc6                    83         November 3      5.4-rc6
 84         November 10     5.4-rc7                    84         November 10     5.4-rc7
 85         November 17     5.4-rc8                    85         November 17     5.4-rc8
 86         November 24     5.4 stable release         86         November 24     5.4 stable release
 87         ==============  ======================     87         ==============  ===============================
 88                                                    88 
 89 How do the developers decide when to close the     89 How do the developers decide when to close the development cycle and create
 90 the stable release?  The most significant metr     90 the stable release?  The most significant metric used is the list of
 91 regressions from previous releases.  No bugs a     91 regressions from previous releases.  No bugs are welcome, but those which
 92 break systems which worked in the past are con     92 break systems which worked in the past are considered to be especially
 93 serious.  For this reason, patches which cause     93 serious.  For this reason, patches which cause regressions are looked upon
 94 unfavorably and are quite likely to be reverte     94 unfavorably and are quite likely to be reverted during the stabilization
 95 period.                                            95 period.
 96                                                    96 
 97 The developers' goal is to fix all known regre     97 The developers' goal is to fix all known regressions before the stable
 98 release is made.  In the real world, this kind     98 release is made.  In the real world, this kind of perfection is hard to
 99 achieve; there are just too many variables in      99 achieve; there are just too many variables in a project of this size.
100 There comes a point where delaying the final r    100 There comes a point where delaying the final release just makes the problem
101 worse; the pile of changes waiting for the nex    101 worse; the pile of changes waiting for the next merge window will grow
102 larger, creating even more regressions the nex    102 larger, creating even more regressions the next time around.  So most 5.x
103 kernels go out with a handful of known regress    103 kernels go out with a handful of known regressions though, hopefully, none
104 of them are serious.                              104 of them are serious.
105                                                   105 
106 Once a stable release is made, its ongoing mai    106 Once a stable release is made, its ongoing maintenance is passed off to the
107 "stable team," currently Greg Kroah-Hartman. T    107 "stable team," currently Greg Kroah-Hartman. The stable team will release
108 occasional updates to the stable release using    108 occasional updates to the stable release using the 5.x.y numbering scheme.
109 To be considered for an update release, a patc    109 To be considered for an update release, a patch must (1) fix a significant
110 bug, and (2) already be merged into the mainli    110 bug, and (2) already be merged into the mainline for the next development
111 kernel. Kernels will typically receive stable     111 kernel. Kernels will typically receive stable updates for a little more
112 than one development cycle past their initial     112 than one development cycle past their initial release. So, for example, the
113 5.2 kernel's history looked like this (all dat    113 5.2 kernel's history looked like this (all dates in 2019):
114                                                   114 
115         ==============  ======================    115         ==============  ===============================
116         July 7          5.2 stable release        116         July 7          5.2 stable release
117         July 14         5.2.1                     117         July 14         5.2.1
118         July 21         5.2.2                     118         July 21         5.2.2
119         July 26         5.2.3                     119         July 26         5.2.3
120         July 28         5.2.4                     120         July 28         5.2.4
121         July 31         5.2.5                     121         July 31         5.2.5
122         ...             ...                       122         ...             ...
123         October 11      5.2.21                    123         October 11      5.2.21
124         ==============  ======================    124         ==============  ===============================
125                                                   125 
126 5.2.21 was the final stable update of the 5.2     126 5.2.21 was the final stable update of the 5.2 release.
127                                                   127 
128 Some kernels are designated "long term" kernel    128 Some kernels are designated "long term" kernels; they will receive support
129 for a longer period.  Please refer to the foll !! 129 for a longer period.  As of this writing, the current long term kernels
130 long term kernel versions and their maintainer !! 130 and their maintainers are:
131                                                   131 
132         https://www.kernel.org/category/releas !! 132         ======  ================================        =======================
                                                   >> 133         3.16    Ben Hutchings                           (very long-term kernel)
                                                   >> 134         4.4     Greg Kroah-Hartman & Sasha Levin        (very long-term kernel)
                                                   >> 135         4.9     Greg Kroah-Hartman & Sasha Levin
                                                   >> 136         4.14    Greg Kroah-Hartman & Sasha Levin
                                                   >> 137         4.19    Greg Kroah-Hartman & Sasha Levin
                                                   >> 138         5.4     Greg Kroah-Hartman & Sasha Levin
                                                   >> 139         ======  ================================        =======================
133                                                   140 
134 The selection of a kernel for long-term suppor    141 The selection of a kernel for long-term support is purely a matter of a
135 maintainer having the need and the time to mai    142 maintainer having the need and the time to maintain that release.  There
136 are no known plans for long-term support for a    143 are no known plans for long-term support for any specific upcoming
137 release.                                          144 release.
138                                                   145 
139                                                   146 
140 The lifecycle of a patch                          147 The lifecycle of a patch
141 ------------------------                          148 ------------------------
142                                                   149 
143 Patches do not go directly from the developer'    150 Patches do not go directly from the developer's keyboard into the mainline
144 kernel.  There is, instead, a somewhat involve    151 kernel.  There is, instead, a somewhat involved (if somewhat informal)
145 process designed to ensure that each patch is     152 process designed to ensure that each patch is reviewed for quality and that
146 each patch implements a change which is desira    153 each patch implements a change which is desirable to have in the mainline.
147 This process can happen quickly for minor fixe    154 This process can happen quickly for minor fixes, or, in the case of large
148 and controversial changes, go on for years.  M    155 and controversial changes, go on for years.  Much developer frustration
149 comes from a lack of understanding of this pro    156 comes from a lack of understanding of this process or from attempts to
150 circumvent it.                                    157 circumvent it.
151                                                   158 
152 In the hopes of reducing that frustration, thi    159 In the hopes of reducing that frustration, this document will describe how
153 a patch gets into the kernel.  What follows be    160 a patch gets into the kernel.  What follows below is an introduction which
154 describes the process in a somewhat idealized     161 describes the process in a somewhat idealized way.  A much more detailed
155 treatment will come in later sections.            162 treatment will come in later sections.
156                                                   163 
157 The stages that a patch goes through are, gene    164 The stages that a patch goes through are, generally:
158                                                   165 
159  - Design.  This is where the real requirement    166  - Design.  This is where the real requirements for the patch - and the way
160    those requirements will be met - are laid o    167    those requirements will be met - are laid out.  Design work is often
161    done without involving the community, but i    168    done without involving the community, but it is better to do this work
162    in the open if at all possible; it can save    169    in the open if at all possible; it can save a lot of time redesigning
163    things later.                                  170    things later.
164                                                   171 
165  - Early review.  Patches are posted to the re    172  - Early review.  Patches are posted to the relevant mailing list, and
166    developers on that list reply with any comm    173    developers on that list reply with any comments they may have.  This
167    process should turn up any major problems w    174    process should turn up any major problems with a patch if all goes
168    well.                                          175    well.
169                                                   176 
170  - Wider review.  When the patch is getting cl    177  - Wider review.  When the patch is getting close to ready for mainline
171    inclusion, it should be accepted by a relev    178    inclusion, it should be accepted by a relevant subsystem maintainer -
172    though this acceptance is not a guarantee t    179    though this acceptance is not a guarantee that the patch will make it
173    all the way to the mainline.  The patch wil    180    all the way to the mainline.  The patch will show up in the maintainer's
174    subsystem tree and into the -next trees (de    181    subsystem tree and into the -next trees (described below).  When the
175    process works, this step leads to more exte    182    process works, this step leads to more extensive review of the patch and
176    the discovery of any problems resulting fro    183    the discovery of any problems resulting from the integration of this
177    patch with work being done by others.          184    patch with work being done by others.
178                                                   185 
179 -  Please note that most maintainers also have    186 -  Please note that most maintainers also have day jobs, so merging
180    your patch may not be their highest priorit    187    your patch may not be their highest priority.  If your patch is
181    getting feedback about changes that are nee    188    getting feedback about changes that are needed, you should either
182    make those changes or justify why they shou    189    make those changes or justify why they should not be made.  If your
183    patch has no review complaints but is not b    190    patch has no review complaints but is not being merged by its
184    appropriate subsystem or driver maintainer,    191    appropriate subsystem or driver maintainer, you should be persistent
185    in updating the patch to the current kernel    192    in updating the patch to the current kernel so that it applies cleanly
186    and keep sending it for review and merging.    193    and keep sending it for review and merging.
187                                                   194 
188  - Merging into the mainline.  Eventually, a s    195  - Merging into the mainline.  Eventually, a successful patch will be
189    merged into the mainline repository managed    196    merged into the mainline repository managed by Linus Torvalds.  More
190    comments and/or problems may surface at thi    197    comments and/or problems may surface at this time; it is important that
191    the developer be responsive to these and fi    198    the developer be responsive to these and fix any issues which arise.
192                                                   199 
193  - Stable release.  The number of users potent    200  - Stable release.  The number of users potentially affected by the patch
194    is now large, so, once again, new problems     201    is now large, so, once again, new problems may arise.
195                                                   202 
196  - Long-term maintenance.  While it is certain    203  - Long-term maintenance.  While it is certainly possible for a developer
197    to forget about code after merging it, that    204    to forget about code after merging it, that sort of behavior tends to
198    leave a poor impression in the development     205    leave a poor impression in the development community.  Merging code
199    eliminates some of the maintenance burden,     206    eliminates some of the maintenance burden, in that others will fix
200    problems caused by API changes.  But the or    207    problems caused by API changes.  But the original developer should
201    continue to take responsibility for the cod    208    continue to take responsibility for the code if it is to remain useful
202    in the longer term.                            209    in the longer term.
203                                                   210 
204 One of the largest mistakes made by kernel dev    211 One of the largest mistakes made by kernel developers (or their employers)
205 is to try to cut the process down to a single     212 is to try to cut the process down to a single "merging into the mainline"
206 step.  This approach invariably leads to frust    213 step.  This approach invariably leads to frustration for everybody
207 involved.                                         214 involved.
208                                                   215 
209 How patches get into the Kernel                   216 How patches get into the Kernel
210 -------------------------------                   217 -------------------------------
211                                                   218 
212 There is exactly one person who can merge patc    219 There is exactly one person who can merge patches into the mainline kernel
213 repository: Linus Torvalds. But, for example,     220 repository: Linus Torvalds. But, for example, of the over 9,500 patches
214 which went into the 2.6.38 kernel, only 112 (a    221 which went into the 2.6.38 kernel, only 112 (around 1.3%) were directly
215 chosen by Linus himself. The kernel project ha    222 chosen by Linus himself. The kernel project has long since grown to a size
216 where no single developer could possibly inspe    223 where no single developer could possibly inspect and select every patch
217 unassisted. The way the kernel developers have    224 unassisted. The way the kernel developers have addressed this growth is
218 through the use of a lieutenant system built a    225 through the use of a lieutenant system built around a chain of trust.
219                                                   226 
220 The kernel code base is logically broken down     227 The kernel code base is logically broken down into a set of subsystems:
221 networking, specific architecture support, mem    228 networking, specific architecture support, memory management, video
222 devices, etc.  Most subsystems have a designat    229 devices, etc.  Most subsystems have a designated maintainer, a developer
223 who has overall responsibility for the code wi    230 who has overall responsibility for the code within that subsystem.  These
224 subsystem maintainers are the gatekeepers (in     231 subsystem maintainers are the gatekeepers (in a loose way) for the portion
225 of the kernel they manage; they are the ones w    232 of the kernel they manage; they are the ones who will (usually) accept a
226 patch for inclusion into the mainline kernel.     233 patch for inclusion into the mainline kernel.
227                                                   234 
228 Subsystem maintainers each manage their own ve    235 Subsystem maintainers each manage their own version of the kernel source
229 tree, usually (but certainly not always) using    236 tree, usually (but certainly not always) using the git source management
230 tool.  Tools like git (and related tools like     237 tool.  Tools like git (and related tools like quilt or mercurial) allow
231 maintainers to track a list of patches, includ    238 maintainers to track a list of patches, including authorship information
232 and other metadata.  At any given time, the ma    239 and other metadata.  At any given time, the maintainer can identify which
233 patches in his or her repository are not found    240 patches in his or her repository are not found in the mainline.
234                                                   241 
235 When the merge window opens, top-level maintai    242 When the merge window opens, top-level maintainers will ask Linus to "pull"
236 the patches they have selected for merging fro    243 the patches they have selected for merging from their repositories.  If
237 Linus agrees, the stream of patches will flow     244 Linus agrees, the stream of patches will flow up into his repository,
238 becoming part of the mainline kernel.  The amo    245 becoming part of the mainline kernel.  The amount of attention that Linus
239 pays to specific patches received in a pull op    246 pays to specific patches received in a pull operation varies.  It is clear
240 that, sometimes, he looks quite closely.  But,    247 that, sometimes, he looks quite closely.  But, as a general rule, Linus
241 trusts the subsystem maintainers to not send b    248 trusts the subsystem maintainers to not send bad patches upstream.
242                                                   249 
243 Subsystem maintainers, in turn, can pull patch    250 Subsystem maintainers, in turn, can pull patches from other maintainers.
244 For example, the networking tree is built from    251 For example, the networking tree is built from patches which accumulated
245 first in trees dedicated to network device dri    252 first in trees dedicated to network device drivers, wireless networking,
246 etc.  This chain of repositories can be arbitr    253 etc.  This chain of repositories can be arbitrarily long, though it rarely
247 exceeds two or three links.  Since each mainta    254 exceeds two or three links.  Since each maintainer in the chain trusts
248 those managing lower-level trees, this process    255 those managing lower-level trees, this process is known as the "chain of
249 trust."                                           256 trust."
250                                                   257 
251 Clearly, in a system like this, getting patche    258 Clearly, in a system like this, getting patches into the kernel depends on
252 finding the right maintainer.  Sending patches    259 finding the right maintainer.  Sending patches directly to Linus is not
253 normally the right way to go.                     260 normally the right way to go.
254                                                   261 
255                                                   262 
256 Next trees                                        263 Next trees
257 ----------                                        264 ----------
258                                                   265 
259 The chain of subsystem trees guides the flow o    266 The chain of subsystem trees guides the flow of patches into the kernel,
260 but it also raises an interesting question: wh    267 but it also raises an interesting question: what if somebody wants to look
261 at all of the patches which are being prepared    268 at all of the patches which are being prepared for the next merge window?
262 Developers will be interested in what other ch    269 Developers will be interested in what other changes are pending to see
263 whether there are any conflicts to worry about    270 whether there are any conflicts to worry about; a patch which changes a
264 core kernel function prototype, for example, w    271 core kernel function prototype, for example, will conflict with any other
265 patches which use the older form of that funct    272 patches which use the older form of that function.  Reviewers and testers
266 want access to the changes in their integrated    273 want access to the changes in their integrated form before all of those
267 changes land in the mainline kernel.  One coul    274 changes land in the mainline kernel.  One could pull changes from all of
268 the interesting subsystem trees, but that woul    275 the interesting subsystem trees, but that would be a big and error-prone
269 job.                                              276 job.
270                                                   277 
271 The answer comes in the form of -next trees, w    278 The answer comes in the form of -next trees, where subsystem trees are
272 collected for testing and review.  The older o    279 collected for testing and review.  The older of these trees, maintained by
273 Andrew Morton, is called "-mm" (for memory man    280 Andrew Morton, is called "-mm" (for memory management, which is how it got
274 started).  The -mm tree integrates patches fro    281 started).  The -mm tree integrates patches from a long list of subsystem
275 trees; it also has some patches aimed at helpi    282 trees; it also has some patches aimed at helping with debugging.
276                                                   283 
277 Beyond that, -mm contains a significant collec    284 Beyond that, -mm contains a significant collection of patches which have
278 been selected by Andrew directly.  These patch    285 been selected by Andrew directly.  These patches may have been posted on a
279 mailing list, or they may apply to a part of t    286 mailing list, or they may apply to a part of the kernel for which there is
280 no designated subsystem tree.  As a result, -m    287 no designated subsystem tree.  As a result, -mm operates as a sort of
281 subsystem tree of last resort; if there is no     288 subsystem tree of last resort; if there is no other obvious path for a
282 patch into the mainline, it is likely to end u    289 patch into the mainline, it is likely to end up in -mm.  Miscellaneous
283 patches which accumulate in -mm will eventuall    290 patches which accumulate in -mm will eventually either be forwarded on to
284 an appropriate subsystem tree or be sent direc    291 an appropriate subsystem tree or be sent directly to Linus.  In a typical
285 development cycle, approximately 5-10% of the     292 development cycle, approximately 5-10% of the patches going into the
286 mainline get there via -mm.                       293 mainline get there via -mm.
287                                                   294 
288 The current -mm patch is available in the "mmo    295 The current -mm patch is available in the "mmotm" (-mm of the moment)
289 directory at:                                     296 directory at:
290                                                   297 
291         https://www.ozlabs.org/~akpm/mmotm/       298         https://www.ozlabs.org/~akpm/mmotm/
292                                                   299 
293 Use of the MMOTM tree is likely to be a frustr    300 Use of the MMOTM tree is likely to be a frustrating experience, though;
294 there is a definite chance that it will not ev    301 there is a definite chance that it will not even compile.
295                                                   302 
296 The primary tree for next-cycle patch merging     303 The primary tree for next-cycle patch merging is linux-next, maintained by
297 Stephen Rothwell.  The linux-next tree is, by     304 Stephen Rothwell.  The linux-next tree is, by design, a snapshot of what
298 the mainline is expected to look like after th    305 the mainline is expected to look like after the next merge window closes.
299 Linux-next trees are announced on the linux-ke    306 Linux-next trees are announced on the linux-kernel and linux-next mailing
300 lists when they are assembled; they can be dow    307 lists when they are assembled; they can be downloaded from:
301                                                   308 
302         https://www.kernel.org/pub/linux/kerne    309         https://www.kernel.org/pub/linux/kernel/next/
303                                                   310 
304 Linux-next has become an integral part of the     311 Linux-next has become an integral part of the kernel development process;
305 all patches merged during a given merge window    312 all patches merged during a given merge window should really have found
306 their way into linux-next some time before the    313 their way into linux-next some time before the merge window opens.
307                                                   314 
308                                                   315 
309 Staging trees                                     316 Staging trees
310 -------------                                     317 -------------
311                                                   318 
312 The kernel source tree contains the drivers/st    319 The kernel source tree contains the drivers/staging/ directory, where
313 many sub-directories for drivers or filesystem    320 many sub-directories for drivers or filesystems that are on their way to
314 being added to the kernel tree live.  They rem    321 being added to the kernel tree live.  They remain in drivers/staging while
315 they still need more work; once complete, they    322 they still need more work; once complete, they can be moved into the
316 kernel proper.  This is a way to keep track of    323 kernel proper.  This is a way to keep track of drivers that aren't
317 up to Linux kernel coding or quality standards    324 up to Linux kernel coding or quality standards, but people may want to use
318 them and track development.                       325 them and track development.
319                                                   326 
320 Greg Kroah-Hartman currently maintains the sta    327 Greg Kroah-Hartman currently maintains the staging tree.  Drivers that
321 still need work are sent to him, with each dri    328 still need work are sent to him, with each driver having its own
322 subdirectory in drivers/staging/.  Along with     329 subdirectory in drivers/staging/.  Along with the driver source files, a
323 TODO file should be present in the directory a    330 TODO file should be present in the directory as well.  The TODO file lists
324 the pending work that the driver needs for acc    331 the pending work that the driver needs for acceptance into the kernel
325 proper, as well as a list of people that shoul    332 proper, as well as a list of people that should be Cc'd for any patches to
326 the driver.  Current rules require that driver    333 the driver.  Current rules require that drivers contributed to staging
327 must, at a minimum, compile properly.             334 must, at a minimum, compile properly.
328                                                   335 
329 Staging can be a relatively easy way to get ne    336 Staging can be a relatively easy way to get new drivers into the mainline
330 where, with luck, they will come to the attent    337 where, with luck, they will come to the attention of other developers and
331 improve quickly.  Entry into staging is not th    338 improve quickly.  Entry into staging is not the end of the story, though;
332 code in staging which is not seeing regular pr    339 code in staging which is not seeing regular progress will eventually be
333 removed.  Distributors also tend to be relativ    340 removed.  Distributors also tend to be relatively reluctant to enable
334 staging drivers.  So staging is, at best, a st    341 staging drivers.  So staging is, at best, a stop on the way toward becoming
335 a proper mainline driver.                         342 a proper mainline driver.
336                                                   343 
337                                                   344 
338 Tools                                             345 Tools
339 -----                                             346 -----
340                                                   347 
341 As can be seen from the above text, the kernel    348 As can be seen from the above text, the kernel development process depends
342 heavily on the ability to herd collections of     349 heavily on the ability to herd collections of patches in various
343 directions.  The whole thing would not work an    350 directions.  The whole thing would not work anywhere near as well as it
344 does without suitably powerful tools.  Tutoria    351 does without suitably powerful tools.  Tutorials on how to use these tools
345 are well beyond the scope of this document, bu    352 are well beyond the scope of this document, but there is space for a few
346 pointers.                                         353 pointers.
347                                                   354 
348 By far the dominant source code management sys    355 By far the dominant source code management system used by the kernel
349 community is git.  Git is one of a number of d    356 community is git.  Git is one of a number of distributed version control
350 systems being developed in the free software c    357 systems being developed in the free software community.  It is well tuned
351 for kernel development, in that it performs qu    358 for kernel development, in that it performs quite well when dealing with
352 large repositories and large numbers of patche    359 large repositories and large numbers of patches.  It also has a reputation
353 for being difficult to learn and use, though i    360 for being difficult to learn and use, though it has gotten better over
354 time.  Some sort of familiarity with git is al    361 time.  Some sort of familiarity with git is almost a requirement for kernel
355 developers; even if they do not use it for the    362 developers; even if they do not use it for their own work, they'll need git
356 to keep up with what other developers (and the    363 to keep up with what other developers (and the mainline) are doing.
357                                                   364 
358 Git is now packaged by almost all Linux distri    365 Git is now packaged by almost all Linux distributions.  There is a home
359 page at:                                          366 page at:
360                                                   367 
361         https://git-scm.com/                      368         https://git-scm.com/
362                                                   369 
363 That page has pointers to documentation and tu    370 That page has pointers to documentation and tutorials.
364                                                   371 
365 Among the kernel developers who do not use git    372 Among the kernel developers who do not use git, the most popular choice is
366 almost certainly Mercurial:                       373 almost certainly Mercurial:
367                                                   374 
368         https://www.selenic.com/mercurial/        375         https://www.selenic.com/mercurial/
369                                                   376 
370 Mercurial shares many features with git, but i    377 Mercurial shares many features with git, but it provides an interface which
371 many find easier to use.                          378 many find easier to use.
372                                                   379 
373 The other tool worth knowing about is Quilt:      380 The other tool worth knowing about is Quilt:
374                                                   381 
375         https://savannah.nongnu.org/projects/q    382         https://savannah.nongnu.org/projects/quilt/
376                                                   383 
377 Quilt is a patch management system, rather tha    384 Quilt is a patch management system, rather than a source code management
378 system.  It does not track history over time;     385 system.  It does not track history over time; it is, instead, oriented
379 toward tracking a specific set of changes agai    386 toward tracking a specific set of changes against an evolving code base.
380 Some major subsystem maintainers use quilt to     387 Some major subsystem maintainers use quilt to manage patches intended to go
381 upstream.  For the management of certain kinds    388 upstream.  For the management of certain kinds of trees (-mm, for example),
382 quilt is the best tool for the job.               389 quilt is the best tool for the job.
383                                                   390 
384                                                   391 
385 Mailing lists                                     392 Mailing lists
386 -------------                                     393 -------------
387                                                   394 
388 A great deal of Linux kernel development work     395 A great deal of Linux kernel development work is done by way of mailing
389 lists.  It is hard to be a fully-functioning m    396 lists.  It is hard to be a fully-functioning member of the community
390 without joining at least one list somewhere.      397 without joining at least one list somewhere.  But Linux mailing lists also
391 represent a potential hazard to developers, wh    398 represent a potential hazard to developers, who risk getting buried under a
392 load of electronic mail, running afoul of the     399 load of electronic mail, running afoul of the conventions used on the Linux
393 lists, or both.                                   400 lists, or both.
394                                                   401 
395 Most kernel mailing lists are hosted at kernel !! 402 Most kernel mailing lists are run on vger.kernel.org; the master list can
396 be found at:                                      403 be found at:
397                                                   404 
398         https://subspace.kernel.org            !! 405         http://vger.kernel.org/vger-lists.html
399                                                   406 
400 There are lists hosted elsewhere; please check !! 407 There are lists hosted elsewhere, though; a number of them are at
401 the list relevant for any particular subsystem !! 408 redhat.com/mailman/listinfo.
402                                                   409 
403 The core mailing list for kernel development i    410 The core mailing list for kernel development is, of course, linux-kernel.
404 This list is an intimidating place to be; volu    411 This list is an intimidating place to be; volume can reach 500 messages per
405 day, the amount of noise is high, the conversa    412 day, the amount of noise is high, the conversation can be severely
406 technical, and participants are not always con    413 technical, and participants are not always concerned with showing a high
407 degree of politeness.  But there is no other p    414 degree of politeness.  But there is no other place where the kernel
408 development community comes together as a whol    415 development community comes together as a whole; developers who avoid this
409 list will miss important information.             416 list will miss important information.
410                                                   417 
411 There are a few hints which can help with linu    418 There are a few hints which can help with linux-kernel survival:
412                                                   419 
413 - Have the list delivered to a separate folder    420 - Have the list delivered to a separate folder, rather than your main
414   mailbox.  One must be able to ignore the str    421   mailbox.  One must be able to ignore the stream for sustained periods of
415   time.                                           422   time.
416                                                   423 
417 - Do not try to follow every conversation - no    424 - Do not try to follow every conversation - nobody else does.  It is
418   important to filter on both the topic of int    425   important to filter on both the topic of interest (though note that
419   long-running conversations can drift away fr    426   long-running conversations can drift away from the original subject
420   without changing the email subject line) and    427   without changing the email subject line) and the people who are
421   participating.                                  428   participating.
422                                                   429 
423 - Do not feed the trolls.  If somebody is tryi    430 - Do not feed the trolls.  If somebody is trying to stir up an angry
424   response, ignore them.                          431   response, ignore them.
425                                                   432 
426 - When responding to linux-kernel email (or th    433 - When responding to linux-kernel email (or that on other lists) preserve
427   the Cc: header for all involved.  In the abs    434   the Cc: header for all involved.  In the absence of a strong reason (such
428   as an explicit request), you should never re    435   as an explicit request), you should never remove recipients.  Always make
429   sure that the person you are responding to i    436   sure that the person you are responding to is in the Cc: list.  This
430   convention also makes it unnecessary to expl    437   convention also makes it unnecessary to explicitly ask to be copied on
431   replies to your postings.                       438   replies to your postings.
432                                                   439 
433 - Search the list archives (and the net as a w    440 - Search the list archives (and the net as a whole) before asking
434   questions.  Some developers can get impatien    441   questions.  Some developers can get impatient with people who clearly
435   have not done their homework.                   442   have not done their homework.
436                                                   443 
437 - Use interleaved ("inline") replies, which ma !! 444 - Avoid top-posting (the practice of putting your answer above the quoted
438   read. (i.e. avoid top-posting -- the practic !! 445   text you are responding to).  It makes your response harder to read and
439   the quoted text you are responding to.) For  !! 446   makes a poor impression.
440   :ref:`Documentation/process/submitting-patch << 
441                                                   447 
442 - Ask on the correct mailing list.  Linux-kern    448 - Ask on the correct mailing list.  Linux-kernel may be the general meeting
443   point, but it is not the best place to find     449   point, but it is not the best place to find developers from all
444   subsystems.                                     450   subsystems.
445                                                   451 
446 The last point - finding the correct mailing l    452 The last point - finding the correct mailing list - is a common place for
447 beginning developers to go wrong.  Somebody wh    453 beginning developers to go wrong.  Somebody who asks a networking-related
448 question on linux-kernel will almost certainly    454 question on linux-kernel will almost certainly receive a polite suggestion
449 to ask on the netdev list instead, as that is     455 to ask on the netdev list instead, as that is the list frequented by most
450 networking developers.  Other lists exist for     456 networking developers.  Other lists exist for the SCSI, video4linux, IDE,
451 filesystem, etc. subsystems.  The best place t    457 filesystem, etc. subsystems.  The best place to look for mailing lists is
452 in the MAINTAINERS file packaged with the kern    458 in the MAINTAINERS file packaged with the kernel source.
453                                                   459 
454                                                   460 
455 Getting started with Kernel development           461 Getting started with Kernel development
456 ---------------------------------------           462 ---------------------------------------
457                                                   463 
458 Questions about how to get started with the ke    464 Questions about how to get started with the kernel development process are
459 common - from both individuals and companies.     465 common - from both individuals and companies.  Equally common are missteps
460 which make the beginning of the relationship h    466 which make the beginning of the relationship harder than it has to be.
461                                                   467 
462 Companies often look to hire well-known develo    468 Companies often look to hire well-known developers to get a development
463 group started.  This can, in fact, be an effec    469 group started.  This can, in fact, be an effective technique.  But it also
464 tends to be expensive and does not do much to     470 tends to be expensive and does not do much to grow the pool of experienced
465 kernel developers.  It is possible to bring in    471 kernel developers.  It is possible to bring in-house developers up to speed
466 on Linux kernel development, given the investm    472 on Linux kernel development, given the investment of a bit of time.  Taking
467 this time can endow an employer with a group o    473 this time can endow an employer with a group of developers who understand
468 the kernel and the company both, and who can h    474 the kernel and the company both, and who can help to train others as well.
469 Over the medium term, this is often the more p    475 Over the medium term, this is often the more profitable approach.
470                                                   476 
471 Individual developers are often, understandabl    477 Individual developers are often, understandably, at a loss for a place to
472 start.  Beginning with a large project can be     478 start.  Beginning with a large project can be intimidating; one often wants
473 to test the waters with something smaller firs    479 to test the waters with something smaller first.  This is the point where
474 some developers jump into the creation of patc    480 some developers jump into the creation of patches fixing spelling errors or
475 minor coding style issues.  Unfortunately, suc    481 minor coding style issues.  Unfortunately, such patches create a level of
476 noise which is distracting for the development    482 noise which is distracting for the development community as a whole, so,
477 increasingly, they are looked down upon.  New     483 increasingly, they are looked down upon.  New developers wishing to
478 introduce themselves to the community will not    484 introduce themselves to the community will not get the sort of reception
479 they wish for by these means.                     485 they wish for by these means.
480                                                   486 
481 Andrew Morton gives this advice for aspiring k    487 Andrew Morton gives this advice for aspiring kernel developers
482                                                   488 
483 ::                                                489 ::
484                                                   490 
485         The #1 project for all kernel beginner    491         The #1 project for all kernel beginners should surely be "make sure
486         that the kernel runs perfectly at all     492         that the kernel runs perfectly at all times on all machines which
487         you can lay your hands on".  Usually t    493         you can lay your hands on".  Usually the way to do this is to work
488         with others on getting things fixed up    494         with others on getting things fixed up (this can require
489         persistence!) but that's fine - it's a    495         persistence!) but that's fine - it's a part of kernel development.
490                                                   496 
491 (https://lwn.net/Articles/283982/).               497 (https://lwn.net/Articles/283982/).
492                                                   498 
493 In the absence of obvious problems to fix, dev    499 In the absence of obvious problems to fix, developers are advised to look
494 at the current lists of regressions and open b    500 at the current lists of regressions and open bugs in general.  There is
495 never any shortage of issues in need of fixing    501 never any shortage of issues in need of fixing; by addressing these issues,
496 developers will gain experience with the proce    502 developers will gain experience with the process while, at the same time,
497 building respect with the rest of the developm    503 building respect with the rest of the development community.
                                                      

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