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- Aug 7, 2006, 9:25:33 AM (18 years ago)
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- BOOK/bootscripts
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BOOK/bootscripts/arm-chapter.xml
re12b7c8 r9f304e0 24 24 <xi:include xmlns:xi="http://www.w3.org/2003/XInclude" href="common/hostname.xml"/> 25 25 <xi:include xmlns:xi="http://www.w3.org/2003/XInclude" href="common/hosts.xml"/> 26 <xi:include xmlns:xi="http://www.w3.org/2003/XInclude" href="common/symlinks.xml"/> 26 27 <xi:include xmlns:xi="http://www.w3.org/2003/XInclude" href="common/network.xml"/> 27 28 -
BOOK/bootscripts/common/network.xml
re12b7c8 r9f304e0 25 25 26 26 <sect2> 27 <title>Creating stable names for network interfaces</title> 28 29 <para>Instructions in this section are optional if you have only one 30 network card.</para> 31 32 <para>With Udev and modular network drivers, the network interface numbering 33 is not persistent across reboots by default, because the drivers are loaded 34 in parallel and, thus, in random order. For example, on a computer having 35 two network cards made by Intel and Realtek, the network card manufactured 36 by Intel may become <filename class="devicefile">eth0</filename> and the 37 Realtek card becomes <filename class="devicefile">eth1</filename>. In some 38 cases, after a reboot the cards get renumbered the other way around. To 39 avoid this, create Udev rules that assign stable names to network cards 40 based on their MAC addresses or bus positions.</para> 41 42 <para>If you are going to use MAC addresses to identify your network 43 cards, find the addresses with the following command:</para> 44 45 <screen role="nodump"><userinput>grep -H . /sys/class/net/*/address</userinput></screen> 46 47 <para>For each network card (but not for the loopback interface), 48 invent a descriptive name, such as <quote>realtek</quote>, and create 49 Udev rules similar to the following:</para> 50 51 <screen role="nodump"><userinput>cat > /etc/udev/rules.d/26-network.rules << EOF 52 <literal>ACTION=="add", SUBSYSTEM=="net", SYSFS{address}=="<replaceable>00:e0:4c:12:34:56</replaceable>", \ 53 NAME="<replaceable>realtek</replaceable>" 54 ACTION=="add", SUBSYSTEM=="net", SYSFS{address}=="<replaceable>00:a0:c9:78:9a:bc</replaceable>", \ 55 NAME="<replaceable>intel</replaceable>"</literal> 56 EOF</userinput></screen> 57 58 <!-- Yes, I know that VLANs are beyond BLFS. This is not the reason to get them 59 incorrect by default when every distro does this right. --> 60 61 <note> 62 <para>Although the examples in this book work properly, be aware 63 that Udev does not recognize the backslash for line continuation. 64 If modifying Udev rules with an editor, be sure to leave each rule 65 on one physical line.</para> 66 </note> 67 68 <para>If you are going to use the bus position as a key, create 69 Udev rules similar to the following:</para> 70 71 <screen role="nodump"><userinput>cat > /etc/udev/rules.d/26-network.rules << EOF 72 <literal>ACTION=="add", SUBSYSTEM=="net", BUS=="<replaceable>pci</replaceable>", ID=="<replaceable>0000:00:0c.0</replaceable>", \ 73 NAME="<replaceable>realtek</replaceable>" 74 ACTION=="add", SUBSYSTEM=="net", BUS=="<replaceable>pci</replaceable>", ID=="<replaceable>0000:00:0d.0</replaceable>", \ 75 NAME="<replaceable>intel</replaceable>"</literal> 76 EOF</userinput></screen> 77 78 <para>These rules will always rename the network cards to 79 <quote>realtek</quote> and <quote>intel</quote>, independently 80 of the original numbering provided by the kernel (i.e.: the original 81 <quote>eth0</quote> and <quote>eth1</quote> interfaces will no longer 82 exist, unless you put such <quote>descriptive</quote> names in the NAME 83 key). Use the descriptive names from the Udev rules instead 84 of <quote>eth0</quote> in the network interface configuration files 85 below.</para> 86 87 <para>Note that the rules above don't work for every setup. For example, 88 MAC-based rules break when bridges or VLANs are used, because bridges and 89 VLANs have the same MAC address as the network card. One wants to rename 90 only the network card interface, not the bridge or VLAN interface, but the 91 example rule matches both. If you use such virtual interfaces, you have two 92 potential solutions. One is to add the DRIVER=="?*" key after 93 SUBSYSTEM=="net" in MAC-based rules which will stop matching the virtual 94 interfaces. This is known to fail with some older Ethernet cards because 95 they don't have the DRIVER variable in the uevent and thus the rule does 96 not match with such cards. Another solution is to switch to rules that use 97 the bus position as a key.</para> 98 99 <para>The second known non-working case is with wireless cards using the 100 MadWifi or HostAP drivers, because they create at least two interfaces with 101 the same MAC address and bus position. For example, the Madwifi driver 102 creates both an athX and a wifiX interface where X is a digit. To 103 differentiate these interfaces, add an appropriate KERNEL parameter such as 104 KERNEL=="ath*" after SUBSYSTEM=="net".</para> 105 106 <para>There may be other cases where the rules above don't work. Currently, 107 bugs on this topic are still being reported to Linux distributions, and no 108 solution that covers every case is available.</para> 109 110 </sect2> 111 112 <sect2> 27 113 <title>Creating Network Interface Configuration Files</title> 28 114 … … 33 119 configured, such as <filename>ifconfig.xyz</filename>, where 34 120 <quote>xyz</quote> is a network interface name. Inside this directory 35 would be files defining the attributes to this interface, such as its 36 IPaddress(es), subnet masks, and so forth.</para>121 would be files defining the attributes to this interface, such as its IP 122 address(es), subnet masks, and so forth.</para> 37 123 38 124 <para>The following command creates a sample <filename>ipv4</filename> 39 file for the < filename class="devicefile">eth0</filename> device:</para>40 41 <screen><userinput>cd ${CLFS}/etc/sysconfig/network-devices &&42 mkdir ifconfig.eth0 &&125 file for the <emphasis>eth0</emphasis> device:</para> 126 127 <screen><userinput>cd /etc/sysconfig/network-devices && 128 mkdir -v ifconfig.eth0 && 43 129 cat > ifconfig.eth0/ipv4 << "EOF" 44 130 <literal>ONBOOT=yes … … 50 136 EOF</userinput></screen> 51 137 52 <para>The values of these variables must be changed in every file to 53 match the proper setup. If the <envar>ONBOOT</envar> variable is54 set to <quote>yes</quote> the network script will bring up the55 Network Interface Card (NIC) during booting of the system. If set56 to anything but <quote>yes</quote> the NIC will be ignored by the57 network script and notbrought up.</para>138 <para>The values of these variables must be changed in every file to match 139 the proper setup. If the <envar>ONBOOT</envar> variable is set to 140 <quote>yes</quote> the network script will bring up the Network Interface 141 Card (NIC) during booting of the system. If set to anything but 142 <quote>yes</quote> the NIC will be ignored by the network script and not 143 be brought up.</para> 58 144 59 145 <para>The <envar>SERVICE</envar> variable defines the method used for … … 61 147 assignment format, and creating additional files in the <filename 62 148 class="directory">/etc/sysconfig/network-devices/services</filename> 63 directory allows other IP assignment methods. This is commonly used 64 for Dynamic Host Configuration Protocol (DHCP), which is addressed in65 theBLFS book.</para>149 directory allows other IP assignment methods. This is commonly used for 150 Dynamic Host Configuration Protocol (DHCP), which is addressed in the 151 BLFS book.</para> 66 152 67 153 <para>The <envar>GATEWAY</envar> variable should contain the default … … 69 155 variable entirely.</para> 70 156 71 <para>The <envar>PREFIX</envar> variable needs to contain the number 72 of bits used in the subnet. Each octet in an IP address is 8 bits. 73 If the subnet's netmask is 255.255.255.0, then it is using the first 74 three octets (24 bits) to specify the network number. If the netmask 75 is 255.255.255.240, it would be using the first 28 bits. Prefixes 76 longer than 24 bits are commonly used by DSL and cable-based Internet 77 Service Providers (ISPs). In this example (PREFIX=24), the netmask is 78 255.255.255.0. Adjust the <envar>PREFIX</envar> variable according to 79 your specific subnet.</para> 157 <para>The <envar>PREFIX</envar> variable needs to contain the number of 158 bits used in the subnet. Each octet in an IP address is 8 bits. If the 159 subnet's netmask is 255.255.255.0, then it is using the first three octets 160 (24 bits) to specify the network number. If the netmask is 255.255.255.240, 161 it would be using the first 28 bits. Prefixes longer than 24 bits are 162 commonly used by DSL and cable-based Internet Service Providers (ISPs). 163 In this example (PREFIX=24), the netmask is 255.255.255.0. Adjust the 164 <envar>PREFIX</envar> variable according to your specific subnet.</para> 80 165 81 166 </sect2> … … 89 174 90 175 <para>If the system is going to be connected to the Internet, it will 91 need some means of Domain Name Service (DNS) name resolution to resolve 92 Internet domain names to IP addresses, and vice versa. This is best 93 achieved by placing the IP address of the DNS server, available from 94 the ISP or network administrator, into <filename>/etc/resolv.conf</filename>. 95 Create the file by running the following:</para> 96 97 <screen><userinput>cat > ${CLFS}/etc/resolv.conf << "EOF" 176 need some means of Domain Name Service (DNS) name resolution to 177 resolve Internet domain names to IP addresses, and vice versa. This is 178 best achieved by placing the IP address of the DNS server, available 179 from the ISP or network administrator, into 180 <filename>/etc/resolv.conf</filename>. Create the file by running the 181 following:</para> 182 183 <screen><userinput>cat > /etc/resolv.conf << "EOF" 98 184 <literal># Begin /etc/resolv.conf 99 185 -
BOOK/bootscripts/common/setclock.xml
re12b7c8 r9f304e0 39 39 is <emphasis>not</emphasis> set to UTC time.</para> 40 40 41 <para os="d">Create a new file <filename> /etc/sysconfig/clock</filename> by running41 <para os="d">Create a new file <filename>${CLFS}/etc/sysconfig/clock</filename> by running 42 42 the following:</para> 43 43 -
BOOK/bootscripts/common/udev.xml
re12b7c8 r9f304e0 9 9 <?dbhtml filename="udev.html"?> 10 10 11 <title>Device and Module Handling on a nCLFS System</title>11 <title>Device and Module Handling on a CLFS System</title> 12 12 13 13 <indexterm zone="ch-scripts-udev"> 14 14 <primary sortas="a-Udev">Udev</primary> 15 <secondary>usage</secondary></indexterm> 15 <secondary>usage</secondary> 16 </indexterm> 16 17 17 18 <para>In <xref linkend="chapter-building-system"/>, we installed the Udev 18 package. Before we go into the details regarding how this works, a brief 19 history of previous methods of handling devices is in order.</para> 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> 20 22 21 23 <para>Linux systems in general traditionally use a static device creation 22 24 method, whereby a great many device nodes are created under <filename 23 25 class="directory">/dev</filename> (sometimes literally thousands of nodes), 24 regardless of whether the corresponding hardware devices actually exist. 25 This is typically done via a <command>MAKEDEV</command> script, which 26 contains a number of calls to the <command>mknod</command> program with 27 the relevant major and minor device numbers for every possible device that 28 might exist in the world. Using the Udev method, only those devices which 29 are detected by the kernel get device nodes created for them. Because 30 these device nodes will be created each time the system boots, they will 31 be stored on a <systemitem class="filesystem">tmpfs</systemitem> (a virtual 32 file system that resides entirely in system memory). Device nodes do not 33 require much space, so the memory that is used is negligible.</para> 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> 34 38 35 39 <sect2> … … 39 43 class="filesystem">devfs</systemitem> was merged into the 2.3.46 kernel 40 44 and was made available during the 2.4 series of stable kernels. Although 41 it was present in the kernel source itself, this method of creating 42 d evices dynamically never received overwhelming support from the core43 kerneldevelopers.</para>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> 44 48 45 49 <para>The main problem with the approach adopted by <systemitem 46 class="filesystem">devfs</systemitem> was the way it handled 47 de vice detection, creation, and naming. The latter issue, that of48 device node naming, was perhaps the most critical. It is generally49 accepted that if device names are allowed to be configurable, then50 the device naming policy should be up to a system administrator, not51 imposed on them by anyparticular developer(s). The <systemitem50 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 52 56 class="filesystem">devfs</systemitem> file system also suffers from race 53 conditions that are inherent in its design and cannot be fixed 54 without a substantial revision to the kernel. It has also been marked55 as deprecateddue to a lack of recent maintenance.</para>56 57 <para>With the development of the unstable 2.5 kernel tree, later 58 released as the 2.6 series of stable kernels, a new virtual filesystem59 called <systemitem class="filesystem">sysfs</systemitem> came to be. The60 job of <systemitem class="filesystem">sysfs</systemitem> is to export a61 view of the system's hardware configuration to userspace processes. With62 this userspace-visible representation, the possibility of seeing a63 userspace replacement for <systemitem class="filesystem">devfs</systemitem>64 becamemuch more realistic.</para>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> 65 69 66 70 </sect2> … … 69 73 <title>Udev Implementation</title> 70 74 71 <para>The <systemitem class="filesystem">sysfs</systemitem> filesystem 72 was mentioned briefly above. One may wonder how <systemitem 73 class="filesystem">sysfs</systemitem> knows about the devices present 74 on a system and what device numbers should be used for them. Drivers 75 that have been compiled into the kernel directly register their objects 76 with <systemitem class="filesystem">sysfs</systemitem> as they are 77 detected by the kernel. For drivers compiled as modules, this 78 registration will happen when the module is loaded. Once the 79 <systemitem class="filesystem">sysfs</systemitem> filesystem is mounted 80 (on <filename class="directory">/sys</filename>), data which the built-in 81 drivers registered with <systemitem class="filesystem">sysfs</systemitem> 82 are available to userspace processes and to <command>udev</command> for 83 device node creation.</para> 84 85 <para>The <command>S10udev</command> initscript takes care of creating 86 these device nodes when Linux is booted. This script starts by registering 87 <command>/sbin/udevsend</command> as a hotplug event handler. Hotplug 88 events (discussed below) are not usually generated during this stage, 89 but <command>udev</command> is registered just in case they do occur. 90 The <command>udevstart</command> program then walks through the 91 <systemitem class="filesystem">/sys</systemitem> filesystem and creates 92 devices under <filename class="directory">/dev</filename> that match the 93 descriptions. For example, <filename>/sys/class/tty/vcs/dev</filename> 94 contains the string <quote>7:0</quote> This string is used by 95 <command>udevstart</command> to create <filename>/dev/vcs</filename> 96 with major number <emphasis>7</emphasis> and minor <emphasis>0</emphasis>. 97 The names and permissions of the nodes created under the <filename 98 class="directory">/dev</filename> directory are configured according to 99 the rules specified in the files within the <filename 100 class="directory">/etc/udev/rules.d/</filename> directory. These are 101 numbered in a similar fashion to the CLFS-Bootscripts package. If 102 <command>udev</command> can't find a rule for the device it is creating, 103 it will default permissions to <emphasis>660</emphasis> and ownership to 104 <emphasis>root:root</emphasis>.</para> 105 106 <para>Once the above stage is complete, all devices that were already 107 present and have compiled-in drivers will be available for use. This 108 leads us to the devices that have modular drivers.</para> 109 110 <para>Earlier, we mentioned the concept of a <quote>hotplug event 111 handler.</quote> When a new device connection is detected by the kernel, 112 the kernel will generate a hotplug event and look at the file 113 <filename>/proc/sys/kernel/hotplug</filename> to determine the userspace 114 program that handles the device's connection. The <command>udev</command> 115 bootscript registered <command>udevsend</command> as this handler. When 116 these hotplug events are generated, the kernel will tell 117 <command>udev</command> to check the <filename 118 class="directory">/sys</filename> filesystem for the information 119 pertaining to this new device and create the <filename 120 class="directory">/dev</filename> entry for it.</para> 121 122 <para>This brings us to one problem that exists with 123 <command>udev</command>, and likewise with <systemitem 124 class="filesystem">devfs</systemitem> before it. It is commonly 125 referred to as the <quote>chicken and egg</quote> problem. Most 126 Linux distributions handle loading modules via entries in 127 <filename>/etc/modules.conf</filename>. Access to a device node causes 128 the appropriate kernel module to load. With <command>udev</command>, 129 this method will not work because the device node does not exist until 130 the module is loaded. To solve this, the <command>S05modules</command> 131 bootscript was added to the CLFS-Bootscripts package, along with the 132 <filename>/etc/sysconfig/modules</filename> file. By adding module 133 names to the <filename>modules</filename> file, these modules will be 134 loaded when the computer starts up. This allows <command>udev</command> 135 to detect the devices and create the appropriate device nodes.</para> 136 137 <para>Note that on slower machines or for drivers that create a lot 138 of device nodes, the process of creating devices may take a few 139 seconds to complete. This means that some device nodes may not be 140 immediately accessible.</para> 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 are 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 rules that CLFS installs will cause <command>udevd</command> to call 158 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> 141 184 142 185 </sect2> 143 186 144 187 <sect2> 145 <title>Handling Hotpluggable/Dynamic Devices</title> 146 147 <para>When you plug in a device, such as a Universal Serial Bus (USB) 148 MP3 player, the kernel recognizes that the device is now connected and 149 generates a hotplug event. If the driver is already loaded (either 150 because it was compiled into the kernel or because it was loaded via 151 the <command>S05modules</command> bootscript), <command>udev</command> 152 will be called upon to create the relevant device node(s) according to 153 the <systemitem class="filesystem">sysfs</systemitem> data available in 154 <filename class="directory">/sys</filename>.</para> 155 156 <para>If the driver for the just plugged in device is available as a 157 module but currently unloaded, the Hotplug package will load the 158 appropriate module and make this device available by creating the 159 device node(s) for it.</para> 160 161 </sect2> 162 163 <sect2> 164 <title>Problems with Creating Devices</title> 165 166 <para>There are a few known problems when it comes to automatically 167 creating device nodes:</para> 168 169 <para>1) A kernel driver may not export its data to <systemitem 170 class="filesystem">sysfs</systemitem>.</para> 171 172 <para>This is most common with third party drivers from outside the 173 kernel tree. Udev will be unable to automatically create device nodes 174 for such drivers. Use the <filename>/etc/sysconfig/createfiles</filename> 175 configuration file to manually create the devices. Consult the 176 <filename>devices.txt</filename> file inside the kernel documentation 177 or the documentation for that driver to find the proper major/minor 178 numbers.</para> 179 180 <para>2) A non-hardware device is required. This is most common with 181 the Advanced Linux Sound Architecture (ALSA) project's Open Sound 182 System (OSS) compatibility module. These types of devices can be 183 handled in one of two ways:</para> 184 185 <itemizedlist> 186 <listitem> 187 <para>Adding the module names to 188 <filename>/etc/sysconfig/modules</filename></para> 189 </listitem> 190 <listitem> 191 <para>Using an <quote>install</quote> line in 192 <filename>/etc/modprobe.conf</filename>. This tells the 193 <command>modprobe</command> command <quote>when loading this 194 module, also load this other module, at the same time.</quote> 195 For example:</para> 196 197 <screen><userinput>install snd-pcm modprobe -i snd-pcm ; modprobe \ 198 snd-pcm-oss ; true</userinput></screen> 199 200 <para>This will cause the system to load both the 201 <emphasis>snd-pcm</emphasis> and <emphasis>snd-pcm-oss</emphasis> 202 modules when any request is made to load the driver 203 <emphasis>snd-pcm</emphasis>.</para> 204 </listitem> 205 </itemizedlist> 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.</para> 271 272 </sect3> 273 274 <sect3> 275 <title>Udev rule works unreliably</title> 276 277 <para>This may be another manifestation of the previous problem. If not, 278 and your rule uses <systemitem class="filesystem">sysfs</systemitem> 279 attributes, it may be a kernel timing issue, to be fixed in later kernels. 280 For now, you can work around it by creating a rule that waits for the used 281 <systemitem class="filesystem">sysfs</systemitem> attribute and appending 282 it to the <filename>/etc/udev/rules.d/10-wait_for_sysfs.rules</filename> 283 file. Please notify the CLFS Development list if you do so and it 284 helps.</para> 285 286 </sect3> 287 288 <sect3> 289 <title>Udev does not create a device</title> 290 291 <para>Further text assumes that the driver is built statically into the 292 kernel or already loaded as a module, and that you have already checked 293 that Udev doesn't create a misnamed device.</para> 294 295 <para>Udev has no information needed to create a device node if a kernel 296 driver does not export its data to <systemitem 297 class="filesystem">sysfs</systemitem>. 298 This is most common with third party drivers from outside the kernel 299 tree. Create a static device node in 300 <filename>/lib/udev/devices</filename> with the appropriate major/minor 301 numbers (see the file <filename>devices.txt</filename> inside the kernel 302 documentation or the documentation provided by the third party driver 303 vendor). The static device node will be copied to 304 <filename class="directory">/dev</filename> by the 305 <command>S10udev</command> bootscript.</para> 306 307 </sect3> 308 309 <sect3> 310 <title>Device naming order changes randomly after rebooting</title> 311 312 <para>This is due to the fact that Udev, by design, handles uevents and 313 loads modules in parallel, and thus in an unpredictable order. This will 314 never be <quote>fixed</quote>. You should not rely upon the kernel device 315 names being stable. Instead, create your own rules that make symlinks with 316 stable names based on some stable attributes of the device, such as a 317 serial number or the output of various *_id utilities installed by Udev. 318 See <xref linkend="ch-scripts-symlinks"/> and 319 <xref linkend="ch-scripts-network"/> for examples.</para> 320 321 </sect3> 206 322 207 323 </sect2> … … 214 330 215 331 <itemizedlist> 332 216 333 <listitem> 217 334 <para remap="verbatim">A Userspace Implementation of <systemitem class="filesystem">devfs</systemitem> 218 335 <ulink url="http://www.kroah.com/linux/talks/ols_2003_udev_paper/Reprint-Kroah-Hartman-OLS2003.pdf"/></para> 219 336 </listitem> 337 220 338 <listitem> 221 339 <para remap="verbatim">udev FAQ 222 340 <ulink url="http://www.kernel.org/pub/linux/utils/kernel/hotplug/udev-FAQ"/></para> 223 341 </listitem> 342 224 343 <listitem> 225 <para remap="verbatim">The Linux Kernel Driver Model226 <ulink url="http:// public.planetmirror.com/pub/lca/2003/proceedings/papers/Patrick_Mochel/Patrick_Mochel.pdf"/></para>344 <para remap="verbatim">The <systemitem class="filesystem">sysfs</systemitem> Filesystem 345 <ulink url="http://www.kernel.org/pub/linux/kernel/people/mochel/doc/papers/ols-2005/mochel.pdf"/></para> 227 346 </listitem> 347 228 348 </itemizedlist> 229 349 -
BOOK/bootscripts/x86-chapter.xml
re12b7c8 r9f304e0 24 24 <xi:include xmlns:xi="http://www.w3.org/2003/XInclude" href="common/hostname.xml"/> 25 25 <xi:include xmlns:xi="http://www.w3.org/2003/XInclude" href="common/hosts.xml"/> 26 <xi:include xmlns:xi="http://www.w3.org/2003/XInclude" href="common/symlinks.xml"/> 26 27 <xi:include xmlns:xi="http://www.w3.org/2003/XInclude" href="common/network.xml"/> 27 28
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