en/handbook/hb-install-config.xml

<?xml version='1.0' encoding='UTF-8'?>
<!DOCTYPE sections SYSTEM "/dtd/book.dtd">

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<!-- See http://creativecommons.org/licenses/by-sa/2.5 -->

<!-- $Header: /var/cvsroot/gentoo/xml/htdocs/doc/en/handbook/hb-install-config.xml,v 1.70 2005/08/09 09:43:58 swift Exp $ -->

<sections>

<version>2.12</version>
<date>2005-08-13</date>

<section>
<title>Filesystem Information</title>
<subsection>
<title>What is fstab?</title>
<body>

<p>
Under Linux, all partitions used by the system must be listed in
<path>/etc/fstab</path>. This file contains the mountpoints of those partitions
(where they are seen in the file system structure), how they should be mounted
and with what special options (automatically or not, whether users can mount
them or not, etc.)
</p>

</body>
</subsection>
<subsection>
<title>Creating /etc/fstab</title>
<body>

<p>
<path>/etc/fstab</path> uses a special syntax. Every line consists of six
fields, separated by whitespace (space(s), tabs or a mixture). Each field has
its own meaning:
</p>

<ul>
<li>
  The first field shows the <b>partition</b> described (the path to the device
  file)
</li>
<li>
  The second field shows the <b>mountpoint</b> at which the partition should be
  mounted
</li>
<li>
  The third field shows the <b>filesystem</b> used by the partition
</li>
<li>
  The fourth field shows the <b>mountoptions</b> used by <c>mount</c> when it
  wants to mount the partition. As every filesystem has its own mountoptions,
  you are encouraged to read the mount man page (<c>man mount</c>) for a full
  listing. Multiple mountoptions are comma-separated.
</li>
<li>
  The fifth field is used by <c>dump</c> to determine if the partition needs to
  be <b>dump</b>ed or not. You can generally leave this as <c>0</c> (zero).
</li>
<li>
  The sixth field is used by <c>fsck</c> to determine the order in which 
  filesystems should be <b>check</b>ed if the system wasn't shut down properly. 
  The root filesystem should have <c>1</c> while the rest should have <c>2</c> 
  (or <c>0</c> if a filesystem check isn't necessary).
</li>
</ul>

<p>
The default <path>/etc/fstab</path> file provided by Gentoo <e>is no valid fstab
file</e>, so start <c>nano</c> (or your favorite editor) to create your 
<path>/etc/fstab</path>:
</p>

<pre caption="Opening /etc/fstab">
# <i>nano -w /etc/fstab</i>
</pre>

<p>
Let us take a look at how we write down the options for the <path>/boot</path>
partition. This is just an example, so if your architecture doesn't require a
<path>/boot</path> partition (such as <b>PPC</b>), don't copy it verbatim.
</p>

<p>
In our default x86 partitioning example <path>/boot</path> is the
<path>/dev/hda1</path> partition, with <c>ext2</c> as filesystem. 
It needs to be checked during boot, so we would write down:
</p>

<pre caption="An example /boot line for /etc/fstab">
/dev/hda1   /boot     ext2    defaults        1 2
</pre>

<p>
Some users don't want their <path>/boot</path> partition to be mounted
automatically to improve their system's security. Those people should 
substitute <c>defaults</c> with <c>noauto</c>. This does mean that you need to 
manually mount this partition every time you want to use it.
</p>

<p>
Now, to improve performance, most users would want to add the <c>noatime</c>
option as mountoption, which results in a faster system since access times
aren't registered (you don't need those generally anyway):
</p>

<pre caption="An improved /boot line for /etc/fstab">
/dev/hda1   /boot     ext2    defaults,noatime    1 2
</pre>

<p>
If we continue with this, we would end up with the following three lines (for
<path>/boot</path>, <path>/</path> and the swap partition):
</p>

<pre caption="Three /etc/fstab lines">
/dev/hda1   /boot     ext2    defaults,noatime  1 2
/dev/hda2   none      swap    sw                0 0
/dev/hda3   /         ext3    noatime           0 1
</pre>

<p>
To finish up, you should add a rule for <path>/proc</path>, <c>tmpfs</c>
(required) and for your CD-ROM drive (and of course, if you have other 
partitions or drives, for those too):
</p>

<pre caption="A full /etc/fstab example">
/dev/hda1   /boot     ext2    defaults,noatime     1 2
/dev/hda2   none      swap    sw                   0 0
/dev/hda3   /         ext3    noatime              0 1

none        /proc     proc    defaults             0 0
none        /dev/shm  tmpfs   nodev,nosuid,noexec  0 0

/dev/cdroms/cdrom0    /mnt/cdrom    auto      noauto,user    0 0
</pre>

<p>
<c>auto</c> makes <c>mount</c> guess for the filesystem (recommended for 
removable media as they can be created with one of many filesystems) and 
<c>user</c> makes it possible for non-root users to mount the CD.
</p>

<p>
Now use the above example to create your <path>/etc/fstab</path>. If you are a
<b>SPARC</b>-user, you should add the following line to your 
<path>/etc/fstab</path>
too:
</p>

<pre caption="Adding openprom filesystem to /etc/fstab">
none        /proc/openprom  openpromfs    defaults      0 0
</pre>

<p>
Double-check your <path>/etc/fstab</path>, save and quit to continue.
</p>

</body>
</subsection>
</section>
<section>
<title>Networking Information</title>
<subsection>
<title>Hostname, Domainname etc.</title>
<body>

<p>
One of the choices the user has to make is name his/her PC. This seems to be 
quite easy, but <e>lots</e> of users are having difficulties finding the 
appropriate name for their Linux-pc. To speed things up, know that any name you 
choose can be changed afterwards. For all we care, you can just call your system
<c>tux</c> and domain <c>homenetwork</c>. 
</p>

<p>
We use these values in the next examples. First we set the hostname:
</p>

<pre caption="Setting the hostname">
# <i>nano -w /etc/conf.d/hostname</i>

<comment>(Set the HOSTNAME variable to your hostname)</comment>
HOSTNAME="<i>tux</i>"
</pre>

<p>
Second we set the domainname:
</p>

<pre caption="Setting the domainname">
# <i>nano -w /etc/conf.d/domainname</i>

<comment>(Set the DNSDOMAIN variable to your domain name)</comment>
DNSDOMAIN="<i>homenetwork</i>"
</pre>

<p>
If you have a NIS domain (if you don't know what that is, then you don't have
one), you need to define that one too:
</p>

<pre caption="Setting the NIS domainname">
# <i>nano -w /etc/conf.d/domainname</i>

<comment>(Set the NISDOMAIN variable to your NIS domain name)</comment>
NISDOMAIN="<i>my-nisdomain</i>"
</pre>

<p>
Now add the <c>domainname</c> script to the default runlevel:
</p>

<pre caption="Adding domainname to the default runlevel">
# <i>rc-update add domainname default</i>
</pre>

</body>
</subsection>
<subsection>
<title>Configuring your Network</title>
<body>

<p>
Before you get that "Hey, we've had that already"-feeling, you should remember
that the networking you set up in the beginning of the Gentoo installation was 
just for the installation. Right now you are going to configure networking for 
your Gentoo system permanently.
</p>

<note>
More detailed information about networking, including advanced topics like
bonding, bridging, 802.11q VLANs or wireless networking is covered in the <uri
link="?part=4">Gentoo Network Configuration</uri> section.
</note>

<p>
All networking information is gathered in <path>/etc/conf.d/net</path>. It uses
a straightforward yet not intuitive syntax if you don't know how to set up
networking manually. But don't fear, we'll explain everything. A fully
commented example that covers many different configurations is available in
<path>/etc/conf.d/net.example</path>.
</p>

<p>
DHCP is used by default and does not require any further configuration.
</p>

<p>
If you need to configure your network connection either because you need
specific DHCP options or because you do not use DHCP at all, open
<path>/etc/conf.d/net</path> with your favorite editor (<c>nano</c> is used in
this example):
</p>

<pre caption="Opening /etc/conf.d/net for editing">
# <i>nano -w /etc/conf.d/net</i>
</pre>

<p>
You will see the following file:
</p>

<pre caption="Default /etc/conf.d/net">
# This blank configuration will automatically use DHCP for any net.*
# scripts in /etc/init.d.  To create a more complete configuration,
# please review /etc/conf.d/net.example and save your configuration
# in /etc/conf.d/net (this file :]!).
</pre>

<p>
To enter your own IP address, netmask and gateway, you need
to set both <c>config_eth0</c> and <c>routes_eth0</c>:
</p>

<pre caption="Manually setting IP information for eth0">
config_eth0=( "192.168.0.2 netmask 255.255.255.0" )
routes_eth0=( "default gw 192.168.0.1" )
</pre>

<p>
To use DHCP and add specific DHCP options, define <c>config_eth0</c> and
<c>dhcp_eth0</c>:
</p>

<pre caption="Automatically obtaining an IP address for eth0">
config_eth0=( "dhcp" )
dhcp_eth0="nodns nontp nonis"
</pre>

<p>
Please read <path>/etc/conf.d/net.example</path> for a list of all available
options.
</p>

<p>
If you have several network interfaces repeat the above steps for 
<c>config_eth1</c>, <c>config_eth2</c>, etc.
</p>

<p>
Now save the configuration and exit to continue.
</p>

</body>
</subsection>
<subsection>
<title>Automatically Start Networking at Boot</title>
<body>

<p>
To have your network interfaces activated at boot, you need to add them to the
default runlevel. If you have PCMCIA interfaces you should skip this action as
the PCMCIA interfaces are started by the PCMCIA init script.
</p>

<pre caption="Adding net.eth0 to the default runlevel">
# <i>rc-update add net.eth0 default</i>
</pre>

<p>
If you have several network interfaces, you need to create the appropriate
<path>net.eth1</path>, <path>net.eth2</path> etc. initscripts for those. You can
use <c>ln</c> to do this:
</p>

<pre caption="Creating extra initscripts">
# <i>cd /etc/init.d</i>
# <i>ln -s net.eth0 net.eth1</i>
# <i>rc-update add net.eth1 default</i>
</pre>

</body>
</subsection>
<subsection>
<title>Writing Down Network Information</title>
<body>

<p>
You now need to inform Linux about your network. This is defined in
<path>/etc/hosts</path> and helps in resolving hostnames to IP addresses
for hosts that aren't resolved by your nameserver. For instance, if your 
internal network consists of three PCs called <c>jenny</c> (192.168.0.5), 
<c>benny</c> (192.168.0.6) and <c>tux</c> (192.168.0.7 - this system) you would
open <path>/etc/hosts</path> and fill in the values:
</p>

<pre caption="Opening /etc/hosts">
# <i>nano -w /etc/hosts</i>
</pre>

<pre caption="Filling in the networking information">
127.0.0.1     localhost
192.168.0.5   jenny.homenetwork jenny
192.168.0.6   benny.homenetwork benny
192.168.0.7   tux.homenetwork tux
</pre>

<p>
If your system is the only system (or the nameservers handle all name
resolution) a single line is sufficient. For instance, if you want to call your
system <c>tux</c>:
</p>

<pre caption="/etc/hosts for lonely or fully integrated PCs">
127.0.0.1     localhost tux
</pre>

<p>
Save and exit the editor to continue.
</p>

<p>
If you don't have PCMCIA, you can now continue with <uri
link="#doc_chap3">System Information</uri>. PCMCIA-users should read the
following topic on PCMCIA.
</p>

</body>
</subsection>
<subsection>
<title>Optional: Get PCMCIA Working</title>
<body>

<note>
pcmcia-cs is only available for x86, amd64 and ppc platforms.
</note>

<p>
PCMCIA-users should first install the <c>pcmcia-cs</c> package. This also
includes users who will be working with a 2.6 kernel (even though they won't be
using the PCMCIA drivers from this package). The <c>USE="-X"</c> is necessary 
to avoid installing xorg-x11 at this moment:
</p>

<pre caption="Installing pcmcia-cs">
# <i>USE="-X" emerge pcmcia-cs</i>
</pre>

<p>
When <c>pcmcia-cs</c> is installed, add <c>pcmcia</c> to the <e>default</e> 
runlevel:
</p>

<pre caption="Adding pcmcia to the default runlevel">
# <i>rc-update add pcmcia default</i>
</pre>

</body>
</subsection>
</section>
<section>
<title>System Information</title>
<subsection>
<title>Root Password</title>
<body>

<p>
First we set the root password by typing:
</p>

<pre caption="Setting the root password">
# <i>passwd</i>
</pre>

<p>
If you want root to be able to log on through the serial console, add 
<c>tts/0</c> to <path>/etc/securetty</path>:
</p>

<pre caption="Adding tts/0 to /etc/securetty">
# <i>echo "tts/0" &gt;&gt; /etc/securetty</i>
</pre>

</body>
</subsection>
<subsection>
<title>System Information</title>
<body>

<p>
Gentoo uses <path>/etc/rc.conf</path> for general, system-wide configuration.
Open up <path>/etc/rc.conf</path> and enjoy all the comments in that file :)
</p>

<pre caption="Opening /etc/rc.conf">
# <i>nano -w /etc/rc.conf</i>
</pre>

<p>
When you're finished configuring <path>/etc/rc.conf</path>, save and exit. 
</p>

<p>
As you can see, this file is well commented to help you set up the necessary
configuration variables. You can configure your system to use unicode and
define your default editor and your display manager (like gdm or kdm).
</p>

<p>
Gentoo uses <path>/etc/conf.d/keymaps</path> to handle keyboard configuration.
Edit it to configure your keyboard.
</p>

<pre caption="Opening /etc/conf.d/keymaps">
# <i>nano -w /etc/conf.d/keymaps</i>
</pre>

<p>
Take special care with the <c>KEYMAP</c> variable. If you select the wrong
<c>KEYMAP</c>, you will get weird results when typing on your keyboard.
</p>

<note>
Users of USB-based <b>SPARC</b> systems and <b>SPARC</b> clones might need to 
select an i386 keymap (such as "us") instead of "sunkeymap". <b>PPC</b> uses x86
keymaps on most systems. Users who want to be able to use ADB keymaps on boot
have to enable ADB keycode sendings in their kernel and have to set a mac/ppc
keymap in <path>/etc/conf.d/keymaps</path>.
</note>

<p>
When you're finished configuring <path>/etc/conf.d/keymaps</path>, save and
exit. 
</p>

<p>
Gentoo uses <path>/etc/conf.d/clock</path> to set clock options. Edit it
according to your needs.
</p>

<pre caption="Opening /etc/conf.d/clock">
# <i>nano -w /etc/conf.d/clock</i>
</pre>

<p>
If your hardware clock is not using UTC, you need to add <c>CLOCK="local"</c> to
the file. Otherwise you will notice some clock skew.
</p>

<p>
When you're finished configuring <path>/etc/conf.d/clock</path>, save and
exit. 
</p>

<p>
If you are not installing Gentoo on IBM PPC64 hardware, continue with
<uri link="?part=1&amp;chap=9">Installing Necessary System Tools</uri>.
</p>

</body>
</subsection>
<subsection>
<title>Configuring the Console</title>
<body>

<note>
The following section applies to the IBM PPC64 hardware platforms.
</note>

<p>
If you are running Gentoo on IBM PPC64 hardware and using a virtual console 
you must uncomment the appropriate line in <path>/etc/inittab</path> for the 
virtual console to spawn a login prompt.
</p>

<pre caption="Enabling hvc or hvsi support in /etc/inittab">
hvc0:12345:respawn:/sbin/agetty -L 9600 hvc0
hvsi:12345:respawn:/sbin/agetty -L 19200 hvsi0
</pre>

<p>
You should also take this time to verify that the appropriate console is 
listed in <path>/etc/securetty</path>.
</p>

<p>
You may now continue with <uri link="?part=1&amp;chap=9">Installing Necessary 
System Tools</uri>.
</p>

</body>
</subsection>
</section>
</sections>
1	<?xml version='1.0' encoding='UTF-8'?>
2	<!DOCTYPE sections SYSTEM "/dtd/book.dtd">
3
4	<!-- The content of this document is licensed under the CC-BY-SA license -->
5	<!-- See http://creativecommons.org/licenses/by-sa/2.5 -->
6
7	<!-- $Header: /var/cvsroot/gentoo/xml/htdocs/doc/en/handbook/hb-install-config.xml,v 1.70 2005/08/09 09:43:58 swift Exp $ -->
8
9	<sections>
10
11	<version>2.12</version>
12	<date>2005-08-13</date>
13
14	<section>
15	<title>Filesystem Information</title>
16	<subsection>
17	<title>What is fstab?</title>
18	<body>
19
20	<p>
21	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	and with what special options (automatically or not, whether users can mount
25	them or not, etc.)
26	</p>
27
28	</body>
29	</subsection>
30	<subsection>
31	<title>Creating /etc/fstab</title>
32	<body>
33
34	<p>
35	<path>/etc/fstab</path> uses a special syntax. Every line consists of six
36	fields, separated by whitespace (space(s), tabs or a mixture). Each field has
37	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	you are encouraged to read the mount man page (<c>man mount</c>) for a full
56	listing. Multiple mountoptions are comma-separated.
57	</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	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	(or <c>0</c> if a filesystem check isn't necessary).
67	</li>
68	</ul>
69
70	<p>
71	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	<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	Let us take a look at how we write down the options for the <path>/boot</path>
82	partition. This is just an example, so if your architecture doesn't require a
83	<path>/boot</path> partition (such as <b>PPC</b>), don't copy it verbatim.
84	</p>
85
86	<p>
87	In our default x86 partitioning example <path>/boot</path> is the
88	<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	</p>
91
92	<pre caption="An example /boot line for /etc/fstab">
93	/dev/hda1 /boot ext2 defaults 1 2
94	</pre>
95
96	<p>
97	Some users don't want their <path>/boot</path> partition to be mounted
98	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	</p>
102
103	<p>
104	Now, to improve performance, most users would want to add the <c>noatime</c>
105	option as mountoption, which results in a faster system since access times
106	aren't registered (you don't need those generally anyway):
107	</p>
108
109	<pre caption="An improved /boot line for /etc/fstab">
110	/dev/hda1 /boot ext2 defaults,noatime 1 2
111	</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	/dev/hda1 /boot ext2 defaults,noatime 1 2
120	/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	(required) and for your CD-ROM drive (and of course, if you have other
127	partitions or drives, for those too):
128	</p>
129
130	<pre caption="A full /etc/fstab example">
131	/dev/hda1 /boot ext2 defaults,noatime 1 2
132	/dev/hda2 none swap sw 0 0
133	/dev/hda3 / ext3 noatime 0 1
134
135	none /proc proc defaults 0 0
136	none /dev/shm tmpfs nodev,nosuid,noexec 0 0
137
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	<b>SPARC</b>-user, you should add the following line to your
150	<path>/etc/fstab</path>
151	too:
152	</p>
153
154	<pre caption="Adding openprom filesystem to /etc/fstab">
155	none /proc/openprom openpromfs defaults 0 0
156	</pre>
157
158	<p>
159	Double-check your <path>/etc/fstab</path>, save and quit to continue.
160	</p>
161
162	</body>
163	</subsection>
164	</section>
165	<section>
166	<title>Networking Information</title>
167	<subsection>
168	<title>Hostname, Domainname etc.</title>
169	<body>
170
171	<p>
172	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	<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>nano -w /etc/conf.d/hostname</i>
185
186	<comment>(Set the HOSTNAME variable to your hostname)</comment>
187	HOSTNAME="<i>tux</i>"
188	</pre>
189
190	<p>
191	Second we set the domainname:
192	</p>
193
194	<pre caption="Setting the domainname">
195	# <i>nano -w /etc/conf.d/domainname</i>
196
197	<comment>(Set the DNSDOMAIN variable to your domain name)</comment>
198	DNSDOMAIN="<i>homenetwork</i>"
199	</pre>
200
201	<p>
202	If you have a NIS domain (if you don't know what that is, then you don't have
203	one), you need to define that one too:
204	</p>
205
206	<pre caption="Setting the NIS domainname">
207	# <i>nano -w /etc/conf.d/domainname</i>
208
209	<comment>(Set the NISDOMAIN variable to your NIS domain name)</comment>
210	NISDOMAIN="<i>my-nisdomain</i>"
211	</pre>
212
213	<p>
214	Now add the <c>domainname</c> script to the default runlevel:
215	</p>
216
217	<pre caption="Adding domainname to the default runlevel">
218	# <i>rc-update add domainname default</i>
219	</pre>
220
221	</body>
222	</subsection>
223	<subsection>
224	<title>Configuring your Network</title>
225	<body>
226
227	<p>
228	Before you get that "Hey, we've had that already"-feeling, you should remember
229	that the networking you set up in the beginning of the Gentoo installation was
230	just for the installation. Right now you are going to configure networking for
231	your Gentoo system permanently.
232	</p>
233
234	<note>
235	More detailed information about networking, including advanced topics like
236	bonding, bridging, 802.11q VLANs or wireless networking is covered in the <uri
237	link="?part=4">Gentoo Network Configuration</uri> section.
238	</note>
239
240	<p>
241	All networking information is gathered in <path>/etc/conf.d/net</path>. It uses
242	a straightforward yet not intuitive syntax if you don't know how to set up
243	networking manually. But don't fear, we'll explain everything. A fully
244	commented example that covers many different configurations is available in
245	<path>/etc/conf.d/net.example</path>.
246	</p>
247
248	<p>
249	DHCP is used by default and does not require any further configuration.
250	</p>
251
252	<p>
253	If you need to configure your network connection either because you need
254	specific DHCP options or because you do not use DHCP at all, open
255	<path>/etc/conf.d/net</path> with your favorite editor (<c>nano</c> is used in
256	this example):
257	</p>
258
259	<pre caption="Opening /etc/conf.d/net for editing">
260	# <i>nano -w /etc/conf.d/net</i>
261	</pre>
262
263	<p>
264	You will see the following file:
265	</p>
266
267	<pre caption="Default /etc/conf.d/net">
268	# This blank configuration will automatically use DHCP for any net.*
269	# scripts in /etc/init.d. To create a more complete configuration,
270	# please review /etc/conf.d/net.example and save your configuration
271	# in /etc/conf.d/net (this file :]!).
272	</pre>
273
274	<p>
275	To enter your own IP address, netmask and gateway, you need
276	to set both <c>config_eth0</c> and <c>routes_eth0</c>:
277	</p>
278
279	<pre caption="Manually setting IP information for eth0">
280	config_eth0=( "192.168.0.2 netmask 255.255.255.0" )
281	routes_eth0=( "default gw 192.168.0.1" )
282	</pre>
283
284	<p>
285	To use DHCP and add specific DHCP options, define <c>config_eth0</c> and
286	<c>dhcp_eth0</c>:
287	</p>
288
289	<pre caption="Automatically obtaining an IP address for eth0">
290	config_eth0=( "dhcp" )
291	dhcp_eth0="nodns nontp nonis"
292	</pre>
293
294	<p>
295	Please read <path>/etc/conf.d/net.example</path> for a list of all available
296	options.
297	</p>
298
299	<p>
300	If you have several network interfaces repeat the above steps for
301	<c>config_eth1</c>, <c>config_eth2</c>, etc.
302	</p>
303
304	<p>
305	Now save the configuration and exit to continue.
306	</p>
307
308	</body>
309	</subsection>
310	<subsection>
311	<title>Automatically Start Networking at Boot</title>
312	<body>
313
314	<p>
315	To have your network interfaces activated at boot, you need to add them to the
316	default runlevel. If you have PCMCIA interfaces you should skip this action as
317	the PCMCIA interfaces are started by the PCMCIA init script.
318	</p>
319
320	<pre caption="Adding net.eth0 to the default runlevel">
321	# <i>rc-update add net.eth0 default</i>
322	</pre>
323
324	<p>
325	If you have several network interfaces, you need to create the appropriate
326	<path>net.eth1</path>, <path>net.eth2</path> etc. initscripts for those. You can
327	use <c>ln</c> to do this:
328	</p>
329
330	<pre caption="Creating extra initscripts">
331	# <i>cd /etc/init.d</i>
332	# <i>ln -s net.eth0 net.eth1</i>
333	# <i>rc-update add net.eth1 default</i>
334	</pre>
335
336	</body>
337	</subsection>
338	<subsection>
339	<title>Writing Down Network Information</title>
340	<body>
341
342	<p>
343	You now need to inform Linux about your network. This is defined in
344	<path>/etc/hosts</path> and helps in resolving hostnames to IP addresses
345	for hosts that aren't resolved by your nameserver. For instance, if your
346	internal network consists of three PCs called <c>jenny</c> (192.168.0.5),
347	<c>benny</c> (192.168.0.6) and <c>tux</c> (192.168.0.7 - this system) you would
348	open <path>/etc/hosts</path> and fill in the values:
349	</p>
350
351	<pre caption="Opening /etc/hosts">
352	# <i>nano -w /etc/hosts</i>
353	</pre>
354
355	<pre caption="Filling in the networking information">
356	127.0.0.1 localhost
357	192.168.0.5 jenny.homenetwork jenny
358	192.168.0.6 benny.homenetwork benny
359	192.168.0.7 tux.homenetwork tux
360	</pre>
361
362	<p>
363	If your system is the only system (or the nameservers handle all name
364	resolution) a single line is sufficient. For instance, if you want to call your
365	system <c>tux</c>:
366	</p>
367
368	<pre caption="/etc/hosts for lonely or fully integrated PCs">
369	127.0.0.1 localhost tux
370	</pre>
371
372	<p>
373	Save and exit the editor to continue.
374	</p>
375
376	<p>
377	If you don't have PCMCIA, you can now continue with <uri
378	link="#doc_chap3">System Information</uri>. PCMCIA-users should read the
379	following topic on PCMCIA.
380	</p>
381
382	</body>
383	</subsection>
384	<subsection>
385	<title>Optional: Get PCMCIA Working</title>
386	<body>
387
388	<note>
389	pcmcia-cs is only available for x86, amd64 and ppc platforms.
390	</note>
391
392	<p>
393	PCMCIA-users should first install the <c>pcmcia-cs</c> package. This also
394	includes users who will be working with a 2.6 kernel (even though they won't be
395	using the PCMCIA drivers from this package). The <c>USE="-X"</c> is necessary
396	to avoid installing xorg-x11 at this moment:
397	</p>
398
399	<pre caption="Installing pcmcia-cs">
400	# <i>USE="-X" emerge pcmcia-cs</i>
401	</pre>
402
403	<p>
404	When <c>pcmcia-cs</c> is installed, add <c>pcmcia</c> to the <e>default</e>
405	runlevel:
406	</p>
407
408	<pre caption="Adding pcmcia to the default runlevel">
409	# <i>rc-update add pcmcia default</i>
410	</pre>
411
412	</body>
413	</subsection>
414	</section>
415	<section>
416	<title>System Information</title>
417	<subsection>
418	<title>Root Password</title>
419	<body>
420
421	<p>
422	First we set the root password by typing:
423	</p>
424
425	<pre caption="Setting the root password">
426	# <i>passwd</i>
427	</pre>
428
429	<p>
430	If you want root to be able to log on through the serial console, add
431	<c>tts/0</c> to <path>/etc/securetty</path>:
432	</p>
433
434	<pre caption="Adding tts/0 to /etc/securetty">
435	# <i>echo "tts/0" >> /etc/securetty</i>
436	</pre>
437
438	</body>
439	</subsection>
440	<subsection>
441	<title>System Information</title>
442	<body>
443
444	<p>
445	Gentoo uses <path>/etc/rc.conf</path> for general, system-wide configuration.
446	Open up <path>/etc/rc.conf</path> and enjoy all the comments in that file :)
447	</p>
448
449	<pre caption="Opening /etc/rc.conf">
450	# <i>nano -w /etc/rc.conf</i>
451	</pre>
452
453	<p>
454	When you're finished configuring <path>/etc/rc.conf</path>, save and exit.
455	</p>
456
457	<p>
458	As you can see, this file is well commented to help you set up the necessary
459	configuration variables. You can configure your system to use unicode and
460	define your default editor and your display manager (like gdm or kdm).
461	</p>
462
463	<p>
464	Gentoo uses <path>/etc/conf.d/keymaps</path> to handle keyboard configuration.
465	Edit it to configure your keyboard.
466	</p>
467
468	<pre caption="Opening /etc/conf.d/keymaps">
469	# <i>nano -w /etc/conf.d/keymaps</i>
470	</pre>
471
472	<p>
473	Take special care with the <c>KEYMAP</c> variable. If you select the wrong
474	<c>KEYMAP</c>, you will get weird results when typing on your keyboard.
475	</p>
476
477	<note>
478	Users of USB-based <b>SPARC</b> systems and <b>SPARC</b> clones might need to
479	select an i386 keymap (such as "us") instead of "sunkeymap". <b>PPC</b> uses x86
480	keymaps on most systems. Users who want to be able to use ADB keymaps on boot
481	have to enable ADB keycode sendings in their kernel and have to set a mac/ppc
482	keymap in <path>/etc/conf.d/keymaps</path>.
483	</note>
484
485	<p>
486	When you're finished configuring <path>/etc/conf.d/keymaps</path>, save and
487	exit.
488	</p>
489
490	<p>
491	Gentoo uses <path>/etc/conf.d/clock</path> to set clock options. Edit it
492	according to your needs.
493	</p>
494
495	<pre caption="Opening /etc/conf.d/clock">
496	# <i>nano -w /etc/conf.d/clock</i>
497	</pre>
498
499	<p>
500	If your hardware clock is not using UTC, you need to add <c>CLOCK="local"</c> to
501	the file. Otherwise you will notice some clock skew.
502	</p>
503
504	<p>
505	When you're finished configuring <path>/etc/conf.d/clock</path>, save and
506	exit.
507	</p>
508
509	<p>
510	If you are not installing Gentoo on IBM PPC64 hardware, continue with
511	<uri link="?part=1&chap=9">Installing Necessary System Tools</uri>.
512	</p>
513
514	</body>
515	</subsection>
516	<subsection>
517	<title>Configuring the Console</title>
518	<body>
519
520	<note>
521	The following section applies to the IBM PPC64 hardware platforms.
522	</note>
523
524	<p>
525	If you are running Gentoo on IBM PPC64 hardware and using a virtual console
526	you must uncomment the appropriate line in <path>/etc/inittab</path> for the
527	virtual console to spawn a login prompt.
528	</p>
529
530	<pre caption="Enabling hvc or hvsi support in /etc/inittab">
531	hvc0:12345:respawn:/sbin/agetty -L 9600 hvc0
532	hvsi:12345:respawn:/sbin/agetty -L 19200 hvsi0
533	</pre>
534
535	<p>
536	You should also take this time to verify that the appropriate console is
537	listed in <path>/etc/securetty</path>.
538	</p>
539
540	<p>
541	You may now continue with <uri link="?part=1&chap=9">Installing Necessary
542	System Tools</uri>.
543	</p>
544
545	</body>
546	</subsection>
547	</section>
548	</sections>