source: bootable/x86_64-64/lilo.xml@ ef0b1e4

clfs-1.0.0-rc1
Last change on this file since ef0b1e4 was b71fa50, checked in by Chris Staub <chris@…>, 19 years ago

Changed many 'LFS' references to 'CLFS'

  • Property mode set to 100644
File size: 5.6 KB
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[3f01f60]1<?xml version="1.0" encoding="ISO-8859-1"?>
2<!DOCTYPE sect1 PUBLIC "-//OASIS//DTD DocBook XML V4.4//EN"
3 "http://www.oasis-open.org/docbook/xml/4.4/docbookx.dtd" [
4 <!ENTITY % general-entities SYSTEM "../../general.ent">
5 %general-entities;
6]>
7
8<sect1 id="ch-bootable-lilo">
9 <?dbhtml filename="lilo.html"?>
10
[b71fa50]11 <title>Making the CLFS System Bootable</title>
[3f01f60]12
13 <indexterm zone="ch-bootable-lilo">
14 <primary sortas="a-Lilo">Lilo</primary>
15 <secondary>configuring</secondary>
16 </indexterm>
17
[b71fa50]18 <para os="a">Your shiny new CLFS system is almost complete. One of the
[3f01f60]19 last things to do is to ensure that the system can be properly
20 booted. The instructions below apply only to computers using lilo,
21 which in the context of this book means x86_64 Pure64 systems.
22 Information on <quote>boot loading</quote> for other architectures
23 should be available in the usual resource-specific locations for
24 those architectures.</para>
25
26 <xi:include xmlns:xi="http://www.w3.org/2003/XInclude"
27 href="../x86/grub.xml"
28 xpointer="xpointer(//*[@os='b'])"/>
29
30 <para os="c">If you have multiple systems on your machine using a
31 different bootloader such as Grub, you may prefer to use that
32 instead - consult the appropriate documentation. The rest of
33 this section assumes you are going to use Lilo.</para>
34
35 <para os="d">Earlier, we compiled and installed the Lilo boot loader
36 software in preparation for this step. The procedure involves
37 writing a boot image to a specific location on the hard drive.
38 We highly recommend using mkrescue to create a Lilo boot CD
39 (using e.g. dvdrecord from dvdrtools) as a backup (this requires
40 loopback block device support in the kernel).</para>
41
42 <para os="e">Normally, you interact with lilo by using the cursor
43 and <literal>enter</literal> keys to select from the available
44 option(s), but sometimes it is necessary to add other boot
45 options, such as e.g. 'init=/bin/bash' to debug boot failures.
46 The more your keyboard layout differs from the US qwerty layout,
47 the harder it becomes to type boot options unless lilo knows
48 about your keyboard layout. So, we will create a key table for
49 Lilo (.ktl) file - at one point in the documentation these are
50 referred to as .klt files, which may be a typo, but has been
51 followed by some distros. The name, and location, are not
52 important but it is conventional to put these in /boot with
53 the name representing the key layout. For a British keyboard
54 layout, the following command will achieve this:</para>
55
56<screen os="f" role="nodump"><userinput>keytab-lilo.pl uk >/boot/uk.ktl</userinput></screen>
57
58 <para os="g">The argument to the command is the name of the keymap,
59 or if necessary you can specify the full path to the keymap. Use
60 whatever is appropriate for your keyboard.</para>
61
62 <para os="h">When the x86 LFS book used to include Lilo, it
63 advised against running it from chroot in case the MBR became
64 corrupted. Provided you have /proc mounted and have device special
65 files for the disks, it seems to be safe to run recent versions of
66 Lilo in chroot, although it is always possible that an updated
67 bootloader, or defective configuration file, may render the system
68 unbootable.</para>
69
70 <para os="i">The next step is to create /etc/lilo.conf</para>
71
72<screen os="j" role="nodump"><userinput>cat &gt; /etc/lilo.conf &lt;&lt; "EOF"
73<literal># Begin /etc/lilo.conf
74# lilo.conf
75#
76# global options
77boot=/dev/&lt;bootdisk&gt;
78keytable=/boot/&lt;keytable&gt;
79lba32
80map=/boot/map
81prompt
82
83# set the name of the default image to boot
84default=lfs
85
86# define an image
87image=/boot/lfskernel
88 label=lfs
89 root=/dev/&lt;partition&gt;
90 read-only
91# optionally add parameters to pass, e.g.
92# append="video=radeonfb:1024x768-16@70"
93
94# repeat for any other kernel images
95
96# optionally, add legacy operating systems
97# see man lilo.conf for examples
98EOF</literal></userinput></screen>
99
100
101 <para os="k">Replace &lt;bootdisk&gt; with the name of the disk (or
102 partition) on which the boot sector is to be written, e.g. sda.
103 Replace &lt;keytable&gt; with the name of the keytable file you
104 created, and &lt;partition&gt; with the name of the root partition
105 for the new system.
106 </para>
107
108 <warning os="l">
109 <para>The following command will overwrite the current boot loader.
110 Do not run the command if this is not desired.</para>
111 </warning>
112
113 <para os="m">Run Lilo:</para>
114
115<screen os="n" role="nodump"><userinput>/sbin/lilo -v</userinput></screen>
116
117 <note os='o'>
118 <para>People who have been used to GRUB need to be aware that
119 lilo works differently - in particular, you cannot edit the
120 available choices as you can in the grub shell, and lilo records
121 the block addresses of the kernels into the boot blocks each time
122 /sbin/lilo is run. This means that when you compile a new kernel,
123 you have to add it to /etc/lilo.conf and rerun /sbin/lilo. It
124 also means that if you recompile an existing kernel and save it
125 to the same name you still have to rerun /sbin/lilo in case it now
126 occupies different blocks on the filesystem.</para>
127 </note>
128
129 <para os="p">If you are running multiple systems on this box and
130 using lilo, it is a good idea to ensure that each system is running
131 the same version of lilo, otherwise an old version may not be able
132 to overwrite the bootloader from a newer version. You will also
133 need to ensure that the copies of /etc/lilo.conf on each system are
134 kept synchronised.</para>
135
136</sect1>
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