diff options
author | Scott Rifenbark <scott.m.rifenbark@intel.com> | 2012-12-17 17:17:14 -0600 |
---|---|---|
committer | Richard Purdie <richard.purdie@linuxfoundation.org> | 2013-01-16 15:59:04 +0000 |
commit | 5cbeb840061fad16524e355c07c518defae62b6e (patch) | |
tree | dccbd0db15c5ebcf8e617149080f61f2e08fe5f6 /documentation/kernel-dev/kernel-dev-common.xml | |
parent | ea50862d40c6542d744408266aef157ce6ed5b63 (diff) | |
download | poky-5cbeb840061fad16524e355c07c518defae62b6e.tar.gz |
kernel-dev: Created file structure for new kernel-dev manual.
(From yocto-docs rev: 25be3ebb7713b875c4ec6e3723961b7dd860295d)
Signed-off-by: Scott Rifenbark <scott.m.rifenbark@intel.com>
Signed-off-by: Richard Purdie <richard.purdie@linuxfoundation.org>
Diffstat (limited to 'documentation/kernel-dev/kernel-dev-common.xml')
-rw-r--r-- | documentation/kernel-dev/kernel-dev-common.xml | 392 |
1 files changed, 392 insertions, 0 deletions
diff --git a/documentation/kernel-dev/kernel-dev-common.xml b/documentation/kernel-dev/kernel-dev-common.xml new file mode 100644 index 0000000000..1290994257 --- /dev/null +++ b/documentation/kernel-dev/kernel-dev-common.xml | |||
@@ -0,0 +1,392 @@ | |||
1 | <!DOCTYPE chapter PUBLIC "-//OASIS//DTD DocBook XML V4.2//EN" | ||
2 | "http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd" | ||
3 | [<!ENTITY % poky SYSTEM "../poky.ent"> %poky; ] > | ||
4 | |||
5 | <chapter id='kernel-concepts'> | ||
6 | |||
7 | <title>Yocto Project Kernel Concepts</title> | ||
8 | |||
9 | <section id='concepts-org'> | ||
10 | <title>Introduction</title> | ||
11 | <para> | ||
12 | This chapter provides conceptual information about the kernel: | ||
13 | <itemizedlist> | ||
14 | <listitem><para>Kernel Goals</para></listitem> | ||
15 | <listitem><para>Kernel Development and Maintenance Overview</para></listitem> | ||
16 | <listitem><para>Kernel Architecture</para></listitem> | ||
17 | <listitem><para>Kernel Tools</para></listitem> | ||
18 | </itemizedlist> | ||
19 | </para> | ||
20 | </section> | ||
21 | |||
22 | <section id='kernel-goals'> | ||
23 | <title>Kernel Goals</title> | ||
24 | <para> | ||
25 | The complexity of embedded kernel design has increased dramatically. | ||
26 | Whether it is managing multiple implementations of a particular feature or tuning and | ||
27 | optimizing board specific features, both flexibility and maintainability are key concerns. | ||
28 | The Linux kernels available through the Yocto Project are presented with the embedded | ||
29 | developer's needs in mind and have evolved to assist in these key concerns. | ||
30 | For example, prior methods such as applying hundreds of patches to an extracted | ||
31 | tarball have been replaced with proven techniques that allow easy inspection, | ||
32 | bisection and analysis of changes. | ||
33 | Application of these techniques also creates a platform for performing integration and | ||
34 | collaboration with the thousands of upstream development projects. | ||
35 | </para> | ||
36 | <para> | ||
37 | With all these considerations in mind, the Yocto Project's kernel and development team | ||
38 | strives to attain these goals: | ||
39 | <itemizedlist> | ||
40 | <listitem><para>Allow the end user to leverage community best practices to seamlessly | ||
41 | manage the development, build and debug cycles.</para></listitem> | ||
42 | <listitem><para>Create a platform for performing integration and collaboration with the | ||
43 | thousands of upstream development projects that exist.</para></listitem> | ||
44 | <listitem><para>Provide mechanisms that support many different work flows, front-ends and | ||
45 | management techniques.</para></listitem> | ||
46 | <listitem><para>Deliver the most up-to-date kernel possible while still ensuring that | ||
47 | the baseline kernel is the most stable official release.</para></listitem> | ||
48 | <listitem><para>Include major technological features as part of the Yocto Project's | ||
49 | upward revision strategy.</para></listitem> | ||
50 | <listitem><para>Present a kernel Git repository that, similar to the upstream | ||
51 | <filename>kernel.org</filename> tree, | ||
52 | has a clear and continuous history.</para></listitem> | ||
53 | <listitem><para>Deliver a key set of supported kernel types, where each type is tailored | ||
54 | to meet a specific use (e.g. networking, consumer, devices, and so forth).</para></listitem> | ||
55 | <listitem><para>Employ a Git branching strategy that, from a developer's point of view, | ||
56 | results in a linear path from the baseline <filename>kernel.org</filename>, | ||
57 | through a select group of features and | ||
58 | ends with their BSP-specific commits.</para></listitem> | ||
59 | </itemizedlist> | ||
60 | </para> | ||
61 | </section> | ||
62 | |||
63 | <section id='kernel-big-picture'> | ||
64 | <title>Yocto Project Kernel Development and Maintenance Overview</title> | ||
65 | <para> | ||
66 | Kernels available through the Yocto Project, like other kernels, are based off the Linux | ||
67 | kernel releases from <ulink url='http://www.kernel.org'></ulink>. | ||
68 | At the beginning of a major development cycle, the Yocto Project team | ||
69 | chooses its kernel based on factors such as release timing, the anticipated release | ||
70 | timing of final upstream <filename>kernel.org</filename> versions, and Yocto Project | ||
71 | feature requirements. | ||
72 | Typically, the kernel chosen is in the | ||
73 | final stages of development by the community. | ||
74 | In other words, the kernel is in the release | ||
75 | candidate or "rc" phase and not yet a final release. | ||
76 | But, by being in the final stages of external development, the team knows that the | ||
77 | <filename>kernel.org</filename> final release will clearly be within the early stages of | ||
78 | the Yocto Project development window. | ||
79 | </para> | ||
80 | <para> | ||
81 | This balance allows the team to deliver the most up-to-date kernel | ||
82 | possible, while still ensuring that the team has a stable official release for | ||
83 | the baseline Linux kernel version. | ||
84 | </para> | ||
85 | <para> | ||
86 | The ultimate source for kernels available through the Yocto Project are released kernels | ||
87 | from <filename>kernel.org</filename>. | ||
88 | In addition to a foundational kernel from <filename>kernel.org</filename>, the | ||
89 | kernels available contain a mix of important new mainline | ||
90 | developments, non-mainline developments (when there is no alternative), | ||
91 | Board Support Package (BSP) developments, | ||
92 | and custom features. | ||
93 | These additions result in a commercially released Yocto Project Linux kernel that caters | ||
94 | to specific embedded designer needs for targeted hardware. | ||
95 | </para> | ||
96 | <para> | ||
97 | Once a kernel is officially released, the Yocto Project team goes into | ||
98 | their next development cycle, or upward revision (uprev) cycle, while still | ||
99 | continuing maintenance on the released kernel. | ||
100 | It is important to note that the most sustainable and stable way | ||
101 | to include feature development upstream is through a kernel uprev process. | ||
102 | Back-porting hundreds of individual fixes and minor features from various | ||
103 | kernel versions is not sustainable and can easily compromise quality. | ||
104 | </para> | ||
105 | <para> | ||
106 | During the uprev cycle, the Yocto Project team uses an ongoing analysis of | ||
107 | kernel development, BSP support, and release timing to select the best | ||
108 | possible <filename>kernel.org</filename> version. | ||
109 | The team continually monitors community kernel | ||
110 | development to look for significant features of interest. | ||
111 | The team does consider back-porting large features if they have a significant advantage. | ||
112 | User or community demand can also trigger a back-port or creation of new | ||
113 | functionality in the Yocto Project baseline kernel during the uprev cycle. | ||
114 | </para> | ||
115 | <para> | ||
116 | Generally speaking, every new kernel both adds features and introduces new bugs. | ||
117 | These consequences are the basic properties of upstream kernel development and are | ||
118 | managed by the Yocto Project team's kernel strategy. | ||
119 | It is the Yocto Project team's policy to not back-port minor features to the released kernel. | ||
120 | They only consider back-porting significant technological jumps - and, that is done | ||
121 | after a complete gap analysis. | ||
122 | The reason for this policy is that back-porting any small to medium sized change | ||
123 | from an evolving kernel can easily create mismatches, incompatibilities and very | ||
124 | subtle errors. | ||
125 | </para> | ||
126 | <para> | ||
127 | These policies result in both a stable and a cutting | ||
128 | edge kernel that mixes forward ports of existing features and significant and critical | ||
129 | new functionality. | ||
130 | Forward porting functionality in the kernels available through the Yocto Project kernel | ||
131 | can be thought of as a "micro uprev." | ||
132 | The many “micro uprevs” produce a kernel version with a mix of | ||
133 | important new mainline, non-mainline, BSP developments and feature integrations. | ||
134 | This kernel gives insight into new features and allows focused | ||
135 | amounts of testing to be done on the kernel, which prevents | ||
136 | surprises when selecting the next major uprev. | ||
137 | The quality of these cutting edge kernels is evolving and the kernels are used in leading edge | ||
138 | feature and BSP development. | ||
139 | </para> | ||
140 | </section> | ||
141 | |||
142 | <section id='kernel-architecture'> | ||
143 | <title>Kernel Architecture</title> | ||
144 | <para> | ||
145 | This section describes the architecture of the kernels available through the | ||
146 | Yocto Project and provides information | ||
147 | on the mechanisms used to achieve that architecture. | ||
148 | </para> | ||
149 | |||
150 | <section id='architecture-overview'> | ||
151 | <title>Overview</title> | ||
152 | <para> | ||
153 | As mentioned earlier, a key goal of the Yocto Project is to present the | ||
154 | developer with | ||
155 | a kernel that has a clear and continuous history that is visible to the user. | ||
156 | The architecture and mechanisms used achieve that goal in a manner similar to the | ||
157 | upstream <filename>kernel.org</filename>. | ||
158 | </para> | ||
159 | <para> | ||
160 | You can think of a Yocto Project kernel as consisting of a baseline Linux kernel with | ||
161 | added features logically structured on top of the baseline. | ||
162 | The features are tagged and organized by way of a branching strategy implemented by the | ||
163 | source code manager (SCM) Git. | ||
164 | For information on Git as applied to the Yocto Project, see the | ||
165 | "<ulink url='&YOCTO_DOCS_DEV_URL;#git'>Git</ulink>" section in the | ||
166 | Yocto Project Development Manual. | ||
167 | </para> | ||
168 | <para> | ||
169 | The result is that the user has the ability to see the added features and | ||
170 | the commits that make up those features. | ||
171 | In addition to being able to see added features, the user can also view the history of what | ||
172 | made up the baseline kernel. | ||
173 | </para> | ||
174 | <para> | ||
175 | The following illustration shows the conceptual Yocto Project kernel. | ||
176 | </para> | ||
177 | <para> | ||
178 | <imagedata fileref="figures/kernel-architecture-overview.png" width="6in" depth="7in" align="center" scale="100" /> | ||
179 | </para> | ||
180 | <para> | ||
181 | In the illustration, the "Kernel.org Branch Point" | ||
182 | marks the specific spot (or release) from | ||
183 | which the Yocto Project kernel is created. | ||
184 | From this point "up" in the tree, features and differences are organized and tagged. | ||
185 | </para> | ||
186 | <para> | ||
187 | The "Yocto Project Baseline Kernel" contains functionality that is common to every kernel | ||
188 | type and BSP that is organized further up the tree. | ||
189 | Placing these common features in the | ||
190 | tree this way means features don't have to be duplicated along individual branches of the | ||
191 | structure. | ||
192 | </para> | ||
193 | <para> | ||
194 | From the Yocto Project Baseline Kernel, branch points represent specific functionality | ||
195 | for individual BSPs as well as real-time kernels. | ||
196 | The illustration represents this through three BSP-specific branches and a real-time | ||
197 | kernel branch. | ||
198 | Each branch represents some unique functionality for the BSP or a real-time kernel. | ||
199 | </para> | ||
200 | <para> | ||
201 | In this example structure, the real-time kernel branch has common features for all | ||
202 | real-time kernels and contains | ||
203 | more branches for individual BSP-specific real-time kernels. | ||
204 | The illustration shows three branches as an example. | ||
205 | Each branch points the way to specific, unique features for a respective real-time | ||
206 | kernel as they apply to a given BSP. | ||
207 | </para> | ||
208 | <para> | ||
209 | The resulting tree structure presents a clear path of markers (or branches) to the | ||
210 | developer that, for all practical purposes, is the kernel needed for any given set | ||
211 | of requirements. | ||
212 | </para> | ||
213 | </section> | ||
214 | |||
215 | <section id='branching-and-workflow'> | ||
216 | <title>Branching Strategy and Workflow</title> | ||
217 | <para> | ||
218 | The Yocto Project team creates kernel branches at points where functionality is | ||
219 | no longer shared and thus, needs to be isolated. | ||
220 | For example, board-specific incompatibilities would require different functionality | ||
221 | and would require a branch to separate the features. | ||
222 | Likewise, for specific kernel features, the same branching strategy is used. | ||
223 | </para> | ||
224 | <para> | ||
225 | This branching strategy results in a tree that has features organized to be specific | ||
226 | for particular functionality, single kernel types, or a subset of kernel types. | ||
227 | This strategy also results in not having to store the same feature twice | ||
228 | internally in the tree. | ||
229 | Rather, the kernel team stores the unique differences required to apply the | ||
230 | feature onto the kernel type in question. | ||
231 | <note> | ||
232 | The Yocto Project team strives to place features in the tree such that they can be | ||
233 | shared by all boards and kernel types where possible. | ||
234 | However, during development cycles or when large features are merged, | ||
235 | the team cannot always follow this practice. | ||
236 | In those cases, the team uses isolated branches to merge features. | ||
237 | </note> | ||
238 | </para> | ||
239 | <para> | ||
240 | BSP-specific code additions are handled in a similar manner to kernel-specific additions. | ||
241 | Some BSPs only make sense given certain kernel types. | ||
242 | So, for these types, the team creates branches off the end of that kernel type for all | ||
243 | of the BSPs that are supported on that kernel type. | ||
244 | From the perspective of the tools that create the BSP branch, the BSP is really no | ||
245 | different than a feature. | ||
246 | Consequently, the same branching strategy applies to BSPs as it does to features. | ||
247 | So again, rather than store the BSP twice, the team only stores the unique | ||
248 | differences for the BSP across the supported multiple kernels. | ||
249 | </para> | ||
250 | <para> | ||
251 | While this strategy can result in a tree with a significant number of branches, it is | ||
252 | important to realize that from the developer's point of view, there is a linear | ||
253 | path that travels from the baseline <filename>kernel.org</filename>, through a select | ||
254 | group of features and ends with their BSP-specific commits. | ||
255 | In other words, the divisions of the kernel are transparent and are not relevant | ||
256 | to the developer on a day-to-day basis. | ||
257 | From the developer's perspective, this path is the "master" branch. | ||
258 | The developer does not need to be aware of the existence of any other branches at all. | ||
259 | Of course, there is value in the existence of these branches | ||
260 | in the tree, should a person decide to explore them. | ||
261 | For example, a comparison between two BSPs at either the commit level or at the line-by-line | ||
262 | code <filename>diff</filename> level is now a trivial operation. | ||
263 | </para> | ||
264 | <para> | ||
265 | Working with the kernel as a structured tree follows recognized community best practices. | ||
266 | In particular, the kernel as shipped with the product, should be | ||
267 | considered an "upstream source" and viewed as a series of | ||
268 | historical and documented modifications (commits). | ||
269 | These modifications represent the development and stabilization done | ||
270 | by the Yocto Project kernel development team. | ||
271 | </para> | ||
272 | <para> | ||
273 | Because commits only change at significant release points in the product life cycle, | ||
274 | developers can work on a branch created | ||
275 | from the last relevant commit in the shipped Yocto Project kernel. | ||
276 | As mentioned previously, the structure is transparent to the developer | ||
277 | because the kernel tree is left in this state after cloning and building the kernel. | ||
278 | </para> | ||
279 | </section> | ||
280 | |||
281 | <section id='source-code-manager-git'> | ||
282 | <title>Source Code Manager - Git</title> | ||
283 | <para> | ||
284 | The Source Code Manager (SCM) is Git. | ||
285 | This SCM is the obvious mechanism for meeting the previously mentioned goals. | ||
286 | Not only is it the SCM for <filename>kernel.org</filename> but, | ||
287 | Git continues to grow in popularity and supports many different work flows, | ||
288 | front-ends and management techniques. | ||
289 | </para> | ||
290 | <para> | ||
291 | You can find documentation on Git at <ulink url='http://git-scm.com/documentation'></ulink>. | ||
292 | You can also get an introduction to Git as it applies to the Yocto Project in the | ||
293 | "<ulink url='&YOCTO_DOCS_DEV_URL;#git'>Git</ulink>" | ||
294 | section in the Yocto Project Development Manual. | ||
295 | These referenced sections overview Git and describe a minimal set of | ||
296 | commands that allows you to be functional using Git. | ||
297 | <note> | ||
298 | You can use as much, or as little, of what Git has to offer to accomplish what | ||
299 | you need for your project. | ||
300 | You do not have to be a "Git Master" in order to use it with the Yocto Project. | ||
301 | </note> | ||
302 | </para> | ||
303 | </section> | ||
304 | </section> | ||
305 | |||
306 | <section id='kernel-configuration'> | ||
307 | <title>Kernel Configuration</title> | ||
308 | <para> | ||
309 | Kernel configuration, along with kernel features, defines how a kernel | ||
310 | image is built for the Yocto Project. | ||
311 | Through configuration settings, you can customize a Yocto Project kernel to be | ||
312 | specific to particular hardware. | ||
313 | For example, you can specify sound support or networking support. | ||
314 | This section describes basic concepts behind Kernel configuration within the | ||
315 | Yocto Project and references you to other areas for specific configuration | ||
316 | applications. | ||
317 | </para> | ||
318 | |||
319 | <para> | ||
320 | Conceptually, configuration of a Yocto Project kernel occurs similarly to that needed for any | ||
321 | Linux kernel. | ||
322 | The build process for a Yocto Project kernel uses a <filename>.config</filename> file, which | ||
323 | is created through the Linux Kernel Configuration (LKC) tool. | ||
324 | You can directly set various configurations in the | ||
325 | <filename>.config</filename> file by using the <filename>menuconfig</filename> | ||
326 | tool as built by BitBake. | ||
327 | You can also define configurations in the file by using configuration fragments. | ||
328 | <note> | ||
329 | It is not recommended that you edit the <filename>.config</filename> file directly. | ||
330 | </note> | ||
331 | Here are some brief descriptions of the ways you can affect the | ||
332 | <filename>.config</filename> file: | ||
333 | <itemizedlist> | ||
334 | <listitem><para><emphasis>The <filename>menuconfig</filename> Tool:</emphasis> | ||
335 | One of many front-ends that allows you to define kernel configurations. | ||
336 | Some others are <filename>make config</filename>, | ||
337 | <filename>make nconfig</filename>, and <filename>make gconfig</filename>. | ||
338 | In the Yocto Project environment, you must use BitBake to build the | ||
339 | <filename>menuconfig</filename> tool before you can use it to define | ||
340 | configurations: | ||
341 | <literallayout class='monospaced'> | ||
342 | $ bitbake linux-yocto -c menuconfig | ||
343 | </literallayout> | ||
344 | After the tool is built, you can interact with it normally. | ||
345 | You can see how <filename>menuconfig</filename> is used to change a simple | ||
346 | kernel configuration in the | ||
347 | "<ulink url='&YOCTO_DOCS_DEV_URL;#configuring-the-kernel'>Configuring the Kernel</ulink>" | ||
348 | section of the Yocto Project Development Manual. | ||
349 | For general information on <filename>menuconfig</filename>, see | ||
350 | <ulink url='http://en.wikipedia.org/wiki/Menuconfig'></ulink>. | ||
351 | </para></listitem> | ||
352 | <listitem><para><emphasis>Configuration Fragments:</emphasis> A file with a | ||
353 | list of kernel options just as they would appear syntactically in the | ||
354 | <filename>.config</filename> file. | ||
355 | Configuration fragments are typically logical groupings and are assembled | ||
356 | by the OpenEmbedded build system to produce input used by the LKC | ||
357 | that ultimately generates the <filename>.config</filename> file.</para> | ||
358 | <para>The | ||
359 | <filename><ulink url='&YOCTO_DOCS_REF_URL;#var-KERNEL_FEATURES'>KERNEL_FEATURES</ulink></filename> | ||
360 | variable can be used to list configuration fragments. | ||
361 | For further discussion on applying configuration fragments, see the | ||
362 | "<ulink url='&YOCTO_DOCS_BSP_URL;#bsp-filelayout-kernel'>Linux Kernel Configuration</ulink>" | ||
363 | section in the Yocto Project Board Support Package (BSP) Guide. | ||
364 | </para></listitem> | ||
365 | </itemizedlist> | ||
366 | </para> | ||
367 | </section> | ||
368 | |||
369 | <section id='kernel-tools'> | ||
370 | <title>Kernel Tools</title> | ||
371 | <para> | ||
372 | Since most standard workflows involve moving forward with an existing tree by | ||
373 | continuing to add and alter the underlying baseline, the tools that manage | ||
374 | the Yocto Project's kernel construction are largely hidden from the developer to | ||
375 | present a simplified view of the kernel for ease of use. | ||
376 | </para> | ||
377 | <para> | ||
378 | Fundamentally, the kernel tools that manage and construct the | ||
379 | Yocto Project kernel accomplish the following: | ||
380 | <itemizedlist> | ||
381 | <listitem><para>Group patches into named, reusable features.</para></listitem> | ||
382 | <listitem><para>Allow top-down control of included features.</para></listitem> | ||
383 | <listitem><para>Bind kernel configurations to kernel patches and features.</para></listitem> | ||
384 | <listitem><para>Present a seamless Git repository that blends Yocto Project value | ||
385 | with the <filename>kernel.org</filename> history and development.</para></listitem> | ||
386 | </itemizedlist> | ||
387 | </para> | ||
388 | </section> | ||
389 | </chapter> | ||
390 | <!-- | ||
391 | vim: expandtab tw=80 ts=4 | ||
392 | --> | ||