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clfs-1.2 clfs-2.1 clfs-3.0.0-systemd clfs-3.0.0-sysvinit systemd sysvinit
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1<?xml version="1.0" encoding="ISO-8859-1"?>
2<!DOCTYPE sect1 PUBLIC "-//OASIS//DTD DocBook XML V4.5//EN"
3 "http://www.oasis-open.org/docbook/xml/4.5/docbookx.dtd" [
4 <!ENTITY % general-entities SYSTEM "../../general.ent">
5 %general-entities;
6]>
7
8<sect1 id="ch-scripts-udev">
9 <?dbhtml filename="udev.html"?>
10
11 <title>Device and Module Handling on a CLFS System</title>
12
13 <indexterm zone="ch-scripts-udev">
14 <primary sortas="a-Udev">Udev</primary>
15 <secondary>usage</secondary>
16 </indexterm>
17
18 <para>In <xref linkend="chapter-building-system"/>, we installed the Udev
19 package. Before we go into the details regarding how this works,
20 a brief history of previous methods of handling devices is in
21 order.</para>
22
23 <para>Linux systems in general traditionally use a static device creation
24 method, whereby a great many device nodes are created under <filename
25 class="directory">/dev</filename> (sometimes literally thousands of nodes),
26 regardless of whether the corresponding hardware devices actually exist. This
27 is typically done via a <command>MAKEDEV</command> script, which contains a
28 number of calls to the <command>mknod</command> program with the relevant
29 major and minor device numbers for every possible device that might exist in
30 the world.</para>
31
32 <para>Using the Udev method, only those devices which are detected by the
33 kernel get device nodes created for them. Because these device nodes will be
34 created each time the system boots, they will be stored on a <systemitem
35 class="filesystem">tmpfs</systemitem> file system (a virtual file system that
36 resides entirely in system memory). Device nodes do not require much space, so
37 the memory that is used is negligible.</para>
38
39 <sect2>
40 <title>History</title>
41
42 <para>In February 2000, a new filesystem called <systemitem
43 class="filesystem">devfs</systemitem> was merged into the 2.3.46 kernel
44 and was made available during the 2.4 series of stable kernels. Although
45 it was present in the kernel source itself, this method of creating devices
46 dynamically never received overwhelming support from the core kernel
47 developers.</para>
48
49 <para>The main problem with the approach adopted by <systemitem
50 class="filesystem">devfs</systemitem> was the way it handled device
51 detection, creation, and naming. The latter issue, that of device node
52 naming, was perhaps the most critical. It is generally accepted that if
53 device names are allowed to be configurable, then the device naming policy
54 should be up to a system administrator, not imposed on them by any
55 particular developer(s). The <systemitem
56 class="filesystem">devfs</systemitem> file system also suffers from race
57 conditions that are inherent in its design and cannot be fixed without a
58 substantial revision to the kernel. It has also been marked as deprecated
59 due to a lack of recent maintenance.</para>
60
61 <para>With the development of the unstable 2.5 kernel tree, later released
62 as the 2.6 series of stable kernels, a new virtual filesystem called
63 <systemitem class="filesystem">sysfs</systemitem> came to be. The job of
64 <systemitem class="filesystem">sysfs</systemitem> is to export a view of
65 the system's hardware configuration to userspace processes. With this
66 userspace-visible representation, the possibility of seeing a userspace
67 replacement for <systemitem class="filesystem">devfs</systemitem> became
68 much more realistic.</para>
69
70 </sect2>
71
72 <sect2>
73 <title>Udev Implementation</title>
74
75 <sect3>
76 <title>Sysfs</title>
77
78 <para>The <systemitem class="filesystem">sysfs</systemitem> filesystem was
79 mentioned briefly above. One may wonder how <systemitem
80 class="filesystem">sysfs</systemitem> knows about the devices present on
81 a system and what device numbers should be used for them. Drivers that
82 have been compiled into the kernel directly register their objects with
83 <systemitem class="filesystem">sysfs</systemitem> as they are detected by
84 the kernel. For drivers compiled as modules, this registration will happen
85 when the module is loaded. Once the <systemitem
86 class="filesystem">sysfs</systemitem> filesystem is mounted (on <filename
87 class="directory">/sys</filename>), data which the built-in drivers
88 registered with <systemitem class="filesystem">sysfs</systemitem> are
89 available to userspace processes and to <command>udevd</command> for device
90 node creation.</para>
91
92 </sect3>
93
94 <sect3>
95 <title>Udev Bootscript</title>
96
97 <para>The <command>S10udev</command> initscript takes care of creating
98 device nodes when Linux is booted. The script unsets the uevent handler
99 from the default of <command>/sbin/hotplug</command>. This is done
100 because the kernel no longer needs to call out to an external binary.
101 Instead <command>udevd</command> will listen on a netlink socket for
102 uevents that the kernel raises. Next, the bootscript copies any static
103 device nodes that exist in <filename
104 class="directory">/lib/udev/devices</filename> to <filename
105 class="directory">/dev</filename>. This is necessary because some devices,
106 directories, and symlinks are needed before the dynamic device handling
107 processes are available during the early stages of booting a system.
108 Creating static device nodes in <filename
109 class="directory">/lib/udev/devices</filename> also provides an easy
110 workaround for devices that are not supported by the dynamic device
111 handling infrastructure. The bootscript then starts the Udev daemon,
112 <command>udevd</command>, which will act on any uevents it receives.
113 Finally, the bootscript forces the kernel to replay uevents for any
114 devices that have already been registered and then waits for
115 <command>udevd</command> to handle them.</para>
116
117 </sect3>
118
119 <sect3>
120 <title>Device Node Creation</title>
121
122 <para>To obtain the right major and minor number for a device, Udev relies
123 on the information provided by <systemitem
124 class="filesystem">sysfs</systemitem> in <filename
125 class="directory">/sys</filename>. For example,
126 <filename>/sys/class/tty/vcs/dev</filename> contains the string
127 <quote>7:0</quote>. This string is used by <command>udevd</command>
128 to create a device node with major number <emphasis>7</emphasis> and minor
129 <emphasis>0</emphasis>. The names and permissions of the nodes created
130 under the <filename class="directory">/dev</filename> directory are
131 determined by rules specified in the files within the <filename
132 class="directory">/etc/udev/rules.d/</filename> directory. These are
133 numbered in a similar fashion to the CLFS-Bootscripts package. If
134 <command>udevd</command> can't find a rule for the device it is creating,
135 it will default permissions to <emphasis>660</emphasis> and ownership to
136 <emphasis>root:root</emphasis>. Documentation on the syntax of the Udev
137 rules configuration files is available in
138 <filename>/usr/share/doc/udev-&udev-version;/index.html</filename></para>
139
140 </sect3>
141
142 <sect3>
143 <title>Module Loading</title>
144
145 <para>Device drivers compiled as modules may have aliases built into them.
146 Aliases are visible in the output of the <command>modinfo</command>
147 program and are usually related to the bus-specific identifiers of devices
148 supported by a module. For example, the <emphasis>snd-fm801</emphasis>
149 driver supports PCI devices with vendor ID 0x1319 and device ID 0x0801,
150 and has an alias of <quote>pci:v00001319d00000801sv*sd*bc04sc01i*</quote>.
151 For most devices, the bus driver exports the alias of the driver that
152 would handle the device via <systemitem
153 class="filesystem">sysfs</systemitem>. E.g., the
154 <filename>/sys/bus/pci/devices/0000:00:0d.0/modalias</filename> file
155 might contain the string
156 <quote>pci:v00001319d00000801sv00001319sd00001319bc04sc01i00</quote>.
157 The default rules provided by Udev will cause <command>udevd</command>
158 to call out to <command>/sbin/modprobe</command> with the contents of the
159 <envar>MODALIAS</envar> uevent environment variable (that should be the
160 same as the contents of the <filename>modalias</filename> file in sysfs),
161 thus loading all modules whose aliases match this string after wildcard
162 expansion.</para>
163
164 <para>In this example, this means that, in addition to
165 <emphasis>snd-fm801</emphasis>, the obsolete (and unwanted)
166 <emphasis>forte</emphasis> driver will be loaded if it is
167 available. See below for ways in which the loading of unwanted drivers can
168 be prevented.</para>
169
170 <para>The kernel itself is also able to load modules for network
171 protocols, filesystems and NLS support on demand.</para>
172
173 </sect3>
174
175 <sect3>
176 <title>Handling Hotpluggable/Dynamic Devices</title>
177
178 <para>When you plug in a device, such as a Universal Serial Bus (USB) MP3
179 player, the kernel recognizes that the device is now connected and
180 generates a uevent. This uevent is then handled by
181 <command>udevd</command> as described above.</para>
182
183 </sect3>
184
185 </sect2>
186
187 <sect2>
188 <title>Problems with Loading Modules and Creating Devices</title>
189
190 <para>There are a few possible problems when it comes to automatically
191 creating device nodes.</para>
192
193 <sect3>
194 <title>A kernel module is not loaded automatically</title>
195
196 <para>Udev will only load a module if it has a bus-specific alias and the
197 bus driver properly exports the necessary aliases to <systemitem
198 class="filesystem">sysfs</systemitem>. In other cases, one should
199 arrange module loading by other means. With Linux-&linux-version;, Udev is
200 known to load properly-written drivers for INPUT, IDE, PCI, USB, SCSI,
201 SERIO and FireWire devices.</para>
202
203 <para>To determine if the device driver you require has the necessary
204 support for Udev, run <command>modinfo</command> with the module name as
205 the argument. Now try locating the device directory under
206 <filename class="directory">/sys/bus</filename> and check whether there is
207 a <filename>modalias</filename> file there.</para>
208
209 <para>If the <filename>modalias</filename> file exists in <systemitem
210 class="filesystem">sysfs</systemitem>, the driver supports the device and
211 can talk to it directly, but doesn't have the alias, it is a bug in the
212 driver. Load the driver without the help from Udev and expect the issue
213 to be fixed later.</para>
214
215 <para>If there is no <filename>modalias</filename> file in the relevant
216 directory under <filename class="directory">/sys/bus</filename>, this
217 means that the kernel developers have not yet added modalias support to
218 this bus type. With Linux-&linux-version;, this is the case with ISA
219 busses. Expect this issue to be fixed in later kernel versions.</para>
220
221 <para>Udev is not intended to load <quote>wrapper</quote> drivers such as
222 <emphasis>snd-pcm-oss</emphasis> and non-hardware drivers such as
223 <emphasis>loop</emphasis> at all.</para>
224
225 </sect3>
226
227 <sect3>
228 <title>A kernel module is not loaded automatically, and Udev is not
229 intended to load it</title>
230
231 <para>If the <quote>wrapper</quote> module only enhances the functionality
232 provided by some other module (e.g., <emphasis>snd-pcm-oss</emphasis>
233 enhances the functionality of <emphasis>snd-pcm</emphasis> by making the
234 sound cards available to OSS applications), configure
235 <command>modprobe</command> to load the wrapper after Udev loads the
236 wrapped module. To do this, add an <quote>install</quote> line in
237 <filename>/etc/modprobe.conf</filename>. For example:</para>
238
239<screen role="nodump"><literal>install snd-pcm /sbin/modprobe -i snd-pcm ; \
240 /sbin/modprobe snd-pcm-oss ; true</literal></screen>
241
242 <para>If the module in question is not a wrapper and is useful by itself,
243 configure the <command>S05modules</command> bootscript to load this
244 module on system boot. To do this, add the module name to the
245 <filename>/etc/sysconfig/modules</filename> file on a separate line.
246 This works for wrapper modules too, but is suboptimal in that case.</para>
247
248 </sect3>
249
250 <sect3>
251 <title>Udev loads some unwanted module</title>
252
253 <para>Either don't build the module, or blacklist it in
254 <filename>/etc/modprobe.conf</filename> file as done with the
255 <emphasis>forte</emphasis> module in the example below:</para>
256
257<screen role="nodump"><literal>blacklist forte</literal></screen>
258
259 <para>Blacklisted modules can still be loaded manually with the
260 explicit <command>modprobe</command> command.</para>
261
262 </sect3>
263
264 <sect3>
265 <title>Udev creates a device incorrectly, or makes a wrong symlink</title>
266
267 <para>This usually happens if a rule unexpectedly matches a device. For
268 example, a poorly-writen rule can match both a SCSI disk (as desired)
269 and the corresponding SCSI generic device (incorrectly) by vendor.
270 Find the offending rule and make it more specific, with the help of
271 <command>udevadm info</command>.</para>
272
273 </sect3>
274
275 <sect3>
276 <title>Udev rule works unreliably</title>
277
278 <para>This may be another manifestation of the previous problem. If not,
279 and your rule uses <systemitem class="filesystem">sysfs</systemitem>
280 attributes, it may be a kernel timing issue, to be fixed in later kernels.
281 For now, you can work around it by creating a rule that waits for the used
282 <systemitem class="filesystem">sysfs</systemitem> attribute and appending
283 it to the <filename>/etc/udev/rules.d/10-wait_for_sysfs.rules</filename>
284 file. Please notify the CLFS Development list if you do so and it
285 helps.</para>
286
287 </sect3>
288
289 <sect3>
290 <title>Udev does not create a device</title>
291
292 <para>Further text assumes that the driver is built statically into the
293 kernel or already loaded as a module, and that you have already checked
294 that Udev doesn't create a misnamed device.</para>
295
296 <para>Udev has no information needed to create a device node if a kernel
297 driver does not export its data to <systemitem
298 class="filesystem">sysfs</systemitem>.
299 This is most common with third party drivers from outside the kernel
300 tree. Create a static device node in
301 <filename>/lib/udev/devices</filename> with the appropriate major/minor
302 numbers (see the file <filename>devices.txt</filename> inside the kernel
303 documentation or the documentation provided by the third party driver
304 vendor). The static device node will be copied to
305 <filename class="directory">/dev</filename> by the
306 <command>S10udev</command> bootscript.</para>
307
308 </sect3>
309
310 <sect3>
311 <title>Device naming order changes randomly after rebooting</title>
312
313 <para>This is due to the fact that Udev, by design, handles uevents and
314 loads modules in parallel, and thus in an unpredictable order. This will
315 never be <quote>fixed</quote>. You should not rely upon the kernel device
316 names being stable. Instead, create your own rules that make symlinks with
317 stable names based on some stable attributes of the device, such as a
318 serial number or the output of various *_id utilities installed by Udev.
319 See <xref linkend="ch-scripts-symlinks"/> and
320 <xref linkend="ch-scripts-network"/> for examples.</para>
321
322 </sect3>
323
324 </sect2>
325
326 <sect2>
327 <title>Useful Reading</title>
328
329 <para>Additional helpful documentation is available at the following
330 sites:</para>
331
332 <itemizedlist>
333
334 <listitem>
335 <para remap="verbatim">A Userspace Implementation of <systemitem class="filesystem">devfs</systemitem>
336 <ulink url="http://www.kroah.com/linux/talks/ols_2003_udev_paper/Reprint-Kroah-Hartman-OLS2003.pdf"/></para>
337 </listitem>
338
339 <listitem>
340 <para remap="verbatim">The <systemitem class="filesystem">sysfs</systemitem> Filesystem
341 <ulink url="http://www.kernel.org/pub/linux/kernel/people/mochel/doc/papers/ols-2005/mochel.pdf"/></para>
342 </listitem>
343
344 </itemizedlist>
345
346 </sect2>
347
348</sect1>
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