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It is "IP address", not just "IP". Thanks jkt| for clearing that up :)

1 swift 1.18 <?xml version='1.0' encoding='UTF-8'?>
2     <!DOCTYPE sections SYSTEM "/dtd/book.dtd">
3    
4 swift 1.4 <!-- The content of this document is licensed under the CC-BY-SA license -->
5     <!-- See http://creativecommons.org/licenses/by-sa/1.0 -->
6    
7 swift 1.63 <!-- $Header: /var/cvsroot/gentoo/xml/htdocs/doc/en/handbook/hb-install-config.xml,v 1.62 2005/06/09 07:16:39 swift Exp $ -->
8 swift 1.8
9 swift 1.2 <sections>
10 swift 1.50
11 swift 1.63 <version>2.5</version>
12     <date>2005-06-11</date>
13 swift 1.50
14 swift 1.1 <section>
15     <title>Filesystem Information</title>
16 swift 1.3 <subsection>
17     <title>What is fstab?</title>
18 swift 1.1 <body>
19    
20     <p>
21 swift 1.3 Under Linux, all partitions used by the system must be listed in
22     <path>/etc/fstab</path>. This file contains the mountpoints of those partitions
23     (where they are seen in the file system structure), how they should be mounted
24 neysx 1.45 and with what special options (automatically or not, whether users can mount
25     them or not, etc.)
26 swift 1.1 </p>
27    
28     </body>
29 swift 1.3 </subsection>
30     <subsection>
31     <title>Creating /etc/fstab</title>
32     <body>
33    
34     <p>
35 swift 1.17 <path>/etc/fstab</path> uses a special syntax. Every line consists of six
36 swift 1.9 fields, separated by whitespace (space(s), tabs or a mixture). Each field has
37 swift 1.3 its own meaning:
38     </p>
39    
40     <ul>
41     <li>
42     The first field shows the <b>partition</b> described (the path to the device
43     file)
44     </li>
45     <li>
46     The second field shows the <b>mountpoint</b> at which the partition should be
47     mounted
48     </li>
49     <li>
50     The third field shows the <b>filesystem</b> used by the partition
51     </li>
52     <li>
53     The fourth field shows the <b>mountoptions</b> used by <c>mount</c> when it
54     wants to mount the partition. As every filesystem has its own mountoptions,
55 swift 1.49 you are encouraged to read the mount man page (<c>man mount</c>) for a full
56 swift 1.9 listing. Multiple mountoptions are comma-separated.
57 swift 1.3 </li>
58     <li>
59     The fifth field is used by <c>dump</c> to determine if the partition needs to
60     be <b>dump</b>ed or not. You can generally leave this as <c>0</c> (zero).
61     </li>
62     <li>
63 swift 1.17 The sixth field is used by <c>fsck</c> to determine the order in which
64     filesystems should be <b>check</b>ed if the system wasn't shut down properly.
65     The root filesystem should have <c>1</c> while the rest should have <c>2</c>
66 neysx 1.45 (or <c>0</c> if a filesystem check isn't necessary).
67 swift 1.3 </li>
68     </ul>
69    
70     <p>
71 swift 1.44 The default <path>/etc/fstab</path> file provided by Gentoo <e>is no valid fstab
72     file</e>, so start <c>nano</c> (or your favorite editor) to create your
73 swift 1.3 <path>/etc/fstab</path>:
74     </p>
75    
76     <pre caption="Opening /etc/fstab">
77     # <i>nano -w /etc/fstab</i>
78     </pre>
79    
80     <p>
81 swift 1.17 Let us take a look at how we write down the options for the <path>/boot</path>
82 swift 1.3 partition. This is just an example, so if your architecture doesn't require a
83 swift 1.32 <path>/boot</path> partition (such as <b>PPC</b>), don't copy it verbatim.
84 swift 1.3 </p>
85    
86     <p>
87     In our default x86 partitioning example <path>/boot</path> is the
88 swift 1.35 <path>/dev/hda1</path> partition, with <c>ext2</c> as filesystem.
89     It needs to be checked during boot, so we would write down:
90 swift 1.3 </p>
91    
92     <pre caption="An example /boot line for /etc/fstab">
93 swift 1.35 /dev/hda1 /boot ext2 defaults 1 2
94 swift 1.3 </pre>
95    
96     <p>
97 swift 1.35 Some users don't want their <path>/boot</path> partition to be mounted
98 swift 1.43 automatically to improve their system's security. Those people should
99     substitute <c>defaults</c> with <c>noauto</c>. This does mean that you need to
100     manually mount this partition every time you want to use it.
101 swift 1.35 </p>
102    
103     <p>
104 swift 1.3 Now, to improve performance, most users would want to add the <c>noatime</c>
105 swift 1.27 option as mountoption, which results in a faster system since access times
106 swift 1.3 aren't registered (you don't need those generally anyway):
107     </p>
108    
109     <pre caption="An improved /boot line for /etc/fstab">
110 swift 1.43 /dev/hda1 /boot ext2 defaults,noatime 1 2
111 swift 1.3 </pre>
112    
113     <p>
114     If we continue with this, we would end up with the following three lines (for
115     <path>/boot</path>, <path>/</path> and the swap partition):
116     </p>
117    
118     <pre caption="Three /etc/fstab lines">
119 swift 1.43 /dev/hda1 /boot ext2 defaults,noatime 1 2
120 swift 1.3 /dev/hda2 none swap sw 0 0
121     /dev/hda3 / ext3 noatime 0 1
122     </pre>
123    
124     <p>
125     To finish up, you should add a rule for <path>/proc</path>, <c>tmpfs</c>
126 swift 1.7 (required) and for your CD-ROM drive (and of course, if you have other
127 swift 1.3 partitions or drives, for those too):
128     </p>
129    
130     <pre caption="A full /etc/fstab example">
131 swift 1.54 /dev/hda1 /boot ext2 defaults,noatime 1 2
132 vapier 1.47 /dev/hda2 none swap sw 0 0
133     /dev/hda3 / ext3 noatime 0 1
134 swift 1.3
135 vapier 1.47 none /proc proc defaults 0 0
136     none /dev/shm tmpfs nodev,nosuid,noexec 0 0
137 swift 1.3
138     /dev/cdroms/cdrom0 /mnt/cdrom auto noauto,user 0 0
139     </pre>
140    
141     <p>
142     <c>auto</c> makes <c>mount</c> guess for the filesystem (recommended for
143     removable media as they can be created with one of many filesystems) and
144     <c>user</c> makes it possible for non-root users to mount the CD.
145     </p>
146    
147     <p>
148     Now use the above example to create your <path>/etc/fstab</path>. If you are a
149 swift 1.32 <b>SPARC</b>-user, you should add the following line to your
150     <path>/etc/fstab</path>
151 swift 1.3 too:
152     </p>
153    
154     <pre caption="Adding openprom filesystem to /etc/fstab">
155 swift 1.5 none /proc/openprom openpromfs defaults 0 0
156     </pre>
157    
158     <p>
159 neysx 1.34 Double-check your <path>/etc/fstab</path>, save and quit to continue.
160 swift 1.3 </p>
161    
162     </body>
163     </subsection>
164 swift 1.2 </section>
165     <section>
166 swift 1.1 <title>Networking Information</title>
167 swift 1.3 <subsection>
168     <title>Hostname, Domainname etc.</title>
169     <body>
170    
171     <p>
172 swift 1.33 One of the choices the user has to make is name his/her PC. This seems to be
173     quite easy, but <e>lots</e> of users are having difficulties finding the
174     appropriate name for their Linux-pc. To speed things up, know that any name you
175     choose can be changed afterwards. For all we care, you can just call your system
176 swift 1.3 <c>tux</c> and domain <c>homenetwork</c>.
177     </p>
178    
179     <p>
180     We use these values in the next examples. First we set the hostname:
181     </p>
182    
183     <pre caption="Setting the hostname">
184     # <i>echo tux &gt; /etc/hostname</i>
185     </pre>
186    
187     <p>
188     Second we set the domainname:
189     </p>
190    
191     <pre caption="Setting the domainname">
192     # <i>echo homenetwork &gt; /etc/dnsdomainname</i>
193     </pre>
194    
195     <p>
196     If you have a NIS domain (if you don't know what that is, then you don't have
197     one), you need to define that one too:
198     </p>
199    
200     <pre caption="Setting the NIS domainname">
201     # <i>echo nis.homenetwork &gt; /etc/nisdomainname</i>
202 swift 1.12 </pre>
203    
204     <p>
205     Now add the <c>domainname</c> script to the default runlevel:
206     </p>
207    
208     <pre caption="Adding domainname to the default runlevel">
209     # <i>rc-update add domainname default</i>
210 swift 1.3 </pre>
211    
212     </body>
213     </subsection>
214     <subsection>
215     <title>Configuring your Network</title>
216     <body>
217    
218     <p>
219     Before you get that "Hey, we've had that already"-feeling, you should remember
220 swift 1.27 that the networking you set up in the beginning of the gentoo installation was
221 swift 1.3 just for the installation. Right now you are going to configure networking for
222     your Gentoo system permanently.
223     </p>
224    
225     <p>
226     All networking information is gathered in <path>/etc/conf.d/net</path>. It uses
227 swift 1.48 a straightforward yet not intuitive syntax if you don't know how to set up
228 swift 1.3 networking manually. But don't fear, we'll explain everything :)
229     </p>
230    
231     <p>
232     First open <path>/etc/conf.d/net</path> with your favorite editor (<c>nano</c>
233     is used in this example):
234     </p>
235    
236     <pre caption="Opening /etc/conf.d/net for editing">
237     # <i>nano -w /etc/conf.d/net</i>
238     </pre>
239    
240 swift 1.58 <p>
241     The first variable you'll find is called <c>config_eth0</c>. As you can probably
242     imagine, this variable configured the eth0 network interface. If the interface
243 swift 1.63 needs to automatically obtain an IP address through DHCP, you should set it
244     like so:
245 swift 1.58 </p>
246    
247     <pre caption="Automatically obtaining an IP for eth0">
248     config_eth0=( "dhcp" )
249     </pre>
250    
251     <p>
252     However, if you have to enter your own IP address, netmask and gateway, you need
253     to set both <c>config_eth0</c> and <c>routes_eth0</c>:
254     </p>
255    
256     <pre caption="Manually setting IP information for eth0">
257     config_eth0=( "192.168.0.2 netmask 255.255.255.0" )
258     routes_eth0=( "default gw 192.168.0.1" )
259     </pre>
260    
261     <p>
262     If you have several network interfaces repeat the above steps for
263     <c>config_eth1</c>, <c>config_eth2</c>, etc.
264     </p>
265    
266 swift 1.3 <p>
267     Now save the configuration and exit to continue.
268     </p>
269    
270     </body>
271     </subsection>
272     <subsection>
273     <title>Automatically Start Networking at Boot</title>
274 swift 1.1 <body>
275    
276     <p>
277 neysx 1.45 To have your network interfaces activated at boot, you need to add them to the
278 swift 1.3 default runlevel. If you have PCMCIA interfaces you should skip this action as
279     the PCMCIA interfaces are started by the PCMCIA init script.
280     </p>
281    
282     <pre caption="Adding net.eth0 to the default runlevel">
283     # <i>rc-update add net.eth0 default</i>
284     </pre>
285    
286     <p>
287     If you have several network interfaces, you need to create the appropriate
288     <path>net.eth1</path>, <path>net.eth2</path> etc. initscripts for those. You can
289     use <c>ln</c> to do this:
290 swift 1.1 </p>
291    
292 swift 1.3 <pre caption="Creating extra initscripts">
293     # <i>cd /etc/init.d</i>
294     # <i>ln -s net.eth0 net.eth1</i>
295     # <i>rc-update add net.eth1 default</i>
296     </pre>
297    
298 swift 1.1 </body>
299 swift 1.3 </subsection>
300     <subsection>
301     <title>Writing Down Network Information</title>
302     <body>
303    
304     <p>
305     You now need to inform Linux about your network. This is defined in
306     <path>/etc/hosts</path> and helps in resolving hostnames to IP addresses
307     for hosts that aren't resolved by your nameserver. For instance, if your
308     internal network consists of three PCs called <c>jenny</c> (192.168.0.5),
309 swift 1.14 <c>benny</c> (192.168.0.6) and <c>tux</c> (192.168.0.7 - this system) you would
310 swift 1.3 open <path>/etc/hosts</path> and fill in the values:
311     </p>
312    
313     <pre caption="Opening /etc/hosts">
314     # <i>nano -w /etc/hosts</i>
315     </pre>
316    
317     <pre caption="Filling in the networking information">
318 swift 1.14 127.0.0.1 localhost
319 swift 1.22 192.168.0.5 jenny.homenetwork jenny
320     192.168.0.6 benny.homenetwork benny
321     192.168.0.7 tux.homenetwork tux
322 swift 1.3 </pre>
323    
324     <p>
325     If your system is the only system (or the nameservers handle all name
326 swift 1.39 resolution) a single line is sufficient. For instance, if you want to call your
327 swift 1.53 system <c>tux</c>:
328 swift 1.3 </p>
329    
330     <pre caption="/etc/hosts for lonely or fully integrated PCs">
331 swift 1.53 127.0.0.1 localhost tux
332 swift 1.3 </pre>
333    
334     <p>
335     Save and exit the editor to continue.
336     </p>
337    
338     <p>
339     If you don't have PCMCIA, you can now continue with <uri
340 swift 1.20 link="#doc_chap3">System Information</uri>. PCMCIA-users should read the
341 swift 1.3 following topic on PCMCIA.
342     </p>
343    
344     </body>
345     </subsection>
346     <subsection>
347     <title>Optional: Get PCMCIA Working</title>
348     <body>
349    
350 swift 1.31 <note>
351     pcmcia-cs is only available for x86, amd64 and ppc platforms.
352     </note>
353    
354 swift 1.3 <p>
355 swift 1.46 PCMCIA-users should first install the <c>pcmcia-cs</c> package. This also
356     includes users who will be working with a 2.6 kernel (even though they won't be
357     using the PCMCIA drivers from this package). The <c>USE="-X"</c> is necessary
358     to avoid installing xorg-x11 at this moment:
359 swift 1.3 </p>
360    
361     <pre caption="Installing pcmcia-cs">
362 swift 1.30 # <i>USE="-X" emerge pcmcia-cs</i>
363 swift 1.3 </pre>
364    
365     <p>
366 swift 1.19 When <c>pcmcia-cs</c> is installed, add <c>pcmcia</c> to the <e>default</e>
367 swift 1.3 runlevel:
368     </p>
369    
370 swift 1.19 <pre caption="Adding pcmcia to the default runlevel">
371     # <i>rc-update add pcmcia default</i>
372 swift 1.3 </pre>
373    
374     </body>
375     </subsection>
376 swift 1.2 </section>
377     <section>
378 swift 1.1 <title>System Information</title>
379 swift 1.41 <subsection>
380     <title>Root Password</title>
381     <body>
382    
383     <p>
384     First we set the root password by typing:
385     </p>
386    
387     <pre caption="Setting the root password">
388     # <i>passwd</i>
389     </pre>
390    
391     <p>
392     If you want root to be able to log on through the serial console, add
393     <c>tts/0</c> to <path>/etc/securetty</path>:
394     </p>
395    
396     <pre caption="Adding tts/0 to /etc/securetty">
397     # <i>echo "tts/0" &gt;&gt; /etc/securetty</i>
398     </pre>
399    
400     </body>
401     </subsection>
402     <subsection>
403     <title>System Information</title>
404 swift 1.1 <body>
405    
406     <p>
407 swift 1.3 Gentoo uses <path>/etc/rc.conf</path> for general, system-wide configuration.
408     Open up <path>/etc/rc.conf</path> and enjoy all the comments in that file :)
409     </p>
410    
411     <pre caption="Opening /etc/rc.conf">
412     # <i>nano -w /etc/rc.conf</i>
413     </pre>
414    
415     <p>
416     As you can see, this file is well commented to help you set up the necessary
417 swift 1.16 configuration variables. Take special care with the <c>KEYMAP</c> setting: if
418     you select the wrong <c>KEYMAP</c> you will get weird results when typing on
419     your keyboard.
420     </p>
421    
422     <note>
423 swift 1.32 Users of USB-based <b>SPARC</b> systems and <b>SPARC</b> clones might need to
424     select an i386 keymap (such as "us") instead of "sunkeymap".
425 swift 1.16 </note>
426    
427     <p>
428 swift 1.32 <b>PPC</b> uses x86 keymaps on most systems. Users who want to be able to use
429     ADB keymaps on boot have to enable ADB keycode sendings in their kernel and have
430     to set a mac/ppc keymap in <path>rc.conf</path>.
431 swift 1.29 </p>
432    
433     <p>
434 swift 1.61 If your hardware clock is not using UTC, you need to add <c>CLOCK="local"</c> to
435     the file. Otherwise you will notice some clock skew.
436     </p>
437    
438     <p>
439 swift 1.59 When you're finished configuring <path>/etc/rc.conf</path>, save and exit.
440     </p>
441    
442     <p>
443     If you are not installing Gentoo on an IBM POWER5 or JS20 system, continue with
444     <uri link="?part=1&amp;chap=9">Installing Necessary System Tools</uri>.
445     </p>
446    
447     </body>
448     </subsection>
449     <subsection>
450     <title>Configuring the Console</title>
451     <body>
452    
453     <note>
454     The following section applies to the IBM POWER5 and JS20 hardware platforms.
455     </note>
456    
457     <p>
458 neysx 1.60 If you are running Gentoo in an LPAR or on a JS20 blade, you must uncomment
459 swift 1.59 the hvc line in /etc/inittab for the virtual console to spawn a login prompt.
460     </p>
461    
462     <pre caption="Enabling hvc support in /etc/inittab">
463     hvc:12345:respawn:/sbin/agetty -nl /bin/bashlogin 9600 hvc0 vt220
464     </pre>
465    
466     <p>
467     You may now continue with <uri link="?part=1&amp;chap=9">Installing Necessary
468     System Tools</uri>.
469 swift 1.1 </p>
470    
471     </body>
472 swift 1.41 </subsection>
473 swift 1.1 </section>
474 swift 1.2 </sections>

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