install revision 1.2 1 1.1 cjs 0. Introduction
2 1.1 cjs
3 1.2 cjs This is the first release of NetBSD/alpha with regular packaging
4 1.2 cjs and install tools, and the installation program is still rather
5 1.2 cjs primitive. It also hasn't been tested very well, so there may
6 1.2 cjs be bugs in both it and this document. However, if you have
7 1.1 cjs problems, don't despair; most problems you might encounter are
8 1.2 cjs very easy to fix. We strongly suggest you join the port-alpha
9 1.2 cjs list (see the section on mailing lists on www.netbsd.org) and
10 1.2 cjs ask questions there if you run into any problems. Also report
11 1.2 cjs problem you've gotten around there or by using send-pr so that
12 1.2 cjs they can be fixed for the next release.
13 1.2 cjs
14 1.1 cjs 1. General
15 1.1 cjs
16 1.1 cjs The following is a walk-through of the steps you will take
17 1.1 cjs while getting NetBSD installed on your hard disk. It's divided
18 1.1 cjs into three basic components: booting NetBSD (section 2 below),
19 1.1 cjs preparing the disk (section 3 below), and loading the operating
20 1.1 cjs system files onto the disk (section 4 below).
21 1.1 cjs
22 1.1 cjs 2. Booting NetBSD
23 1.1 cjs
24 1.1 cjs You have two choices of how to boot your machine. If you have a
25 1.1 cjs floppy drive, you may boot from that. This is probably the simplest
26 1.1 cjs way of getting started. If you don't have a floppy drive, you will
27 1.1 cjs need to set yourself up for a boot from a file server on the
28 1.1 cjs network, which is a little more complex.
29 1.1 cjs
30 1.1 cjs 2.1 Making and Booting a Floppy
31 1.1 cjs
32 1.1 cjs The 3.5", 1.44 MB boot floppy image is found under the
33 1.1 cjs NetBSD/alpha _VER distribution directory in the file
34 1.1 cjs alpha/installation/floppy/floppy-144. You need to take this disk
35 1.1 cjs image and put it on a floppy disk.
36 1.1 cjs
37 1.1 cjs If you have a Unix system handy, you can do this with a command
38 1.1 cjs like the following:
39 1.1 cjs
40 1.2 cjs dd if=floppy-144 of=/dev/rfd0a
41 1.1 cjs
42 1.1 cjs If the Unix system you are using is not a NetBSD system, you will
43 1.1 cjs probably need to replace `/dev/rfd0a' with the name of the floppy
44 1.1 cjs device on your particular system.
45 1.1 cjs
46 1.2 cjs If you have an MS-DOS or Windows system available, you can use
47 1.2 cjs the `rawrite.exe' utility to transfer the image to a floppy
48 1.2 cjs disk. (Note that rawrite.exe doesn't work under many, if not
49 1.2 cjs all, Windows NT systems.) This utility is provided with the
50 1.2 cjs NetBSD/i386 install tools, under i386/installation/misc; a
51 1.2 cjs documentation file, `rawrite.doc' is available there as well.
52 1.1 cjs
53 1.1 cjs Once the floppy has been made, you simply need to put it in the
54 1.1 cjs drive and type
55 1.1 cjs
56 1.2 cjs boot dva0
57 1.1 cjs
58 1.1 cjs Now you may skip to section 3.
59 1.1 cjs
60 1.1 cjs 2.2 Booting over the Network
61 1.1 cjs
62 1.1 cjs Booting NetBSD/alpha _VER over a network requires a BOOTP server,
63 1.1 cjs a TFTP server and an NFS server. (These are usually all run on
64 1.1 cjs the same machine.) There are three basic stages to the boot:
65 1.1 cjs
66 1.1 cjs 1.The Alpha console software sends a BOOTP request to get its own
67 1.1 cjs address, the address of the TFTP server and the file to
68 1.1 cjs download. It downloads this file, which is the second stage
69 1.1 cjs bootstrap, via TFTP and then executes it.
70 1.1 cjs
71 1.1 cjs 2.The second stage bootstrap uses further information in the BOOTP
72 1.1 cjs packet that the console received to find the NFS server and path
73 1.1 cjs and retreive the kernel (the file /netbsd). After loading the
74 1.1 cjs kernel into memory, it executes it.
75 1.1 cjs
76 1.1 cjs 3.The kernel probes and configures the devices, and then sends
77 1.1 cjs out another BOOTP request so it can find out its address, the NFS
78 1.1 cjs server, and path. (The kernel probably should get this information
79 1.1 cjs from the console, but it currently doesn't.) It then mounts its
80 1.1 cjs root via NFS and continues.
81 1.1 cjs
82 1.1 cjs 2.2.1 Setting Up the Server
83 1.1 cjs
84 1.1 cjs You will need to set up your server to serve BOOTP, TFTP and NFS.
85 1.1 cjs
86 1.1 cjs The NFS setup is quite simple. If you want to run a full system
87 1.2 cjs from the network, untar the NetBSD snapshot or distribution
88 1.2 cjs into a directory on your server and NFS export that directory
89 1.2 cjs to the client. (Make sure you put a kernel there as well, and
90 1.2 cjs create the device nodes in /dev with `sh ./MAKEDEV all'. In
91 1.2 cjs fact, see the full instructions available off the alpha port
92 1.2 cjs page at www.netbsd.org.)
93 1.1 cjs
94 1.1 cjs You'll want to map root to `root' (rather than the default
95 1.1 cjs `nobody') when you export your root filesystem. A typical
96 1.1 cjs /etc/exports line on a NetBSD system would be:
97 1.1 cjs
98 1.2 cjs /usr/export/alpha -maproot=0 myclient.mydom.com
99 1.1 cjs
100 1.1 cjs If you just want to get the install kernel loaded so that you
101 1.1 cjs can download sets to the local hard drive of that machine, you
102 1.1 cjs need nothing other than the install kernel in the NFS root
103 1.1 cjs directory on your server.
104 1.1 cjs
105 1.1 cjs For the TFTP setup, you need to copy the second stage bootstrap,
106 1.1 cjs netboot, into an appropriately named file (I use boot.netbsd.alpha)
107 1.1 cjs in the directory used by your TFTP server. If you extracted a full
108 1.1 cjs snapshot, you can get the netboot program from /usr/mdec/netboot;
109 1.1 cjs if not, you can get this from the installation/netboot directory
110 1.1 cjs where you found the alpha distribution.
111 1.1 cjs
112 1.1 cjs For the BOOTP server you need to specify the:
113 1.1 cjs
114 1.2 cjs hardware type (Ethernet)
115 1.2 cjs hardware address (Ethernet MAC address)
116 1.2 cjs IP address of the client
117 1.2 cjs subnet mask of the client
118 1.2 cjs address of of the TFTP/NFS server
119 1.2 cjs name of the second stage bootstrap loaded via TFTP
120 1.2 cjs path to the root for the client (mounted via NFS)
121 1.1 cjs
122 1.1 cjs Here's an example for a Unix system running bootpd:
123 1.1 cjs
124 1.2 cjs myhost.mydom.com:\
125 1.2 cjs :ht=ethernet:ha=0000c0391ae4:\
126 1.2 cjs :ip=192.168.1.2:sm=255.255.255.0:\
127 1.2 cjs :sa=192.168.1.1:bf=boot.netbsd.alpha:rp=/usr/export/alpha:
128 1.2 cjs
129 1.2 cjs And here's an example for a Unix system running dhcpd:
130 1.2 cjs
131 1.2 cjs host axp {
132 1.2 cjs hardware ethernet 0:0:c0:39:1a:e4;
133 1.2 cjs fixed-address 192.168.1.2;
134 1.2 cjs option host-name "myhost.mydom.com";
135 1.2 cjs filename "boot.netbsd.alpha";
136 1.2 cjs option root-path "/usr/export/alpha";
137 1.2 cjs option domain-name-servers 192.168.1.1;
138 1.2 cjs option broadcast-address 255.255.255.0;
139 1.2 cjs option domain-name "my.domain";
140 1.2 cjs }
141 1.1 cjs
142 1.1 cjs 2.2.2 The Alpha Console
143 1.1 cjs
144 1.2 cjs The only Ethernet device the console on most Alpha systems
145 1.2 cjs knows how to boot from is the onboard Ethernet interface or a
146 1.2 cjs DEC Tulip (21040, 21041, 21140) based PCI Ethernet card. Some
147 1.2 cjs older SMC 100 Mbps card that use this chip have been known to
148 1.2 cjs work as well. Many older systems will not be able to use the
149 1.2 cjs newer 2.0 stepping of the 21140, however. If your system appears
150 1.2 cjs not to be receiving packets, this may be the problem. (You may
151 1.2 cjs or may not be able to update your firmware to fix this; see
152 1.2 cjs the alpha port pages on www.netbsd.org for more information on
153 1.2 cjs this.)
154 1.1 cjs
155 1.1 cjs Once you're set up, you should be able to boot with:
156 1.1 cjs
157 1.2 cjs boot -proto bootp ewa0
158 1.2 cjs
159 1.2 cjs (The command may be different on some very old machines.)
160 1.1 cjs
161 1.1 cjs 3. Preparing the Disk
162 1.1 cjs
163 1.1 cjs If you're going to be running a diskless machine, the steps so
164 1.1 cjs far have prepared you to run, and you can skip to section 5
165 1.1 cjs ("Configuration") below.
166 1.1 cjs
167 1.1 cjs If you are going to run NetBSD from a local hard drive, however,
168 1.1 cjs this hard drive needs to be prepared. This preparation consists
169 1.1 cjs of putting a label on the disk, which includes information on
170 1.1 cjs the sizes and placement of the partition into which the disk
171 1.1 cjs is divided, putting the boot blocks on the disk, and initialising
172 1.1 cjs the filesystems on the partitions. This work is done by the
173 1.1 cjs `install' script from the boot floppy (or boot kernel, if you
174 1.1 cjs booted it via NFS with the INSTALL kernel).
175 1.1 cjs
176 1.1 cjs 3.1 Running Install
177 1.1 cjs
178 1.1 cjs When you first boot the INSTALL kernel you will be given the
179 1.1 cjs options of `install' or `shell'. Choose `install' and the
180 1.1 cjs install script will start.
181 1.1 cjs
182 1.1 cjs If, at any time, you have made a mistake in the install script
183 1.1 cjs and want to abort, press ^C. This will take you to a shell
184 1.1 cjs prompt. You can then restart the install script by typing
185 1.1 cjs `/install', or halt the machine by typing `halt'.
186 1.1 cjs
187 1.1 cjs 3.1 Answering the Install Questions
188 1.1 cjs
189 1.1 cjs These will for the most part be fairly obvious. You may install
190 1.1 cjs on either a SCSI or an IDE disk, and you will be prompted for
191 1.1 cjs the disk to install on. The disks in your system will be numbered
192 1.1 cjs starting at xd0 (where x is an `s' for SCSI disks, `w' for IDE
193 1.1 cjs disks) based on the SCSI ID or IDE drive order; if you have
194 1.1 cjs more than one disk, watch the boot messages carefully to see
195 1.1 cjs which ones are probed as which numbers.
196 1.1 cjs
197 1.1 cjs Once you've selected a disk to install on, you'll be prompted
198 1.1 cjs for the geometry. This is also displayed in the boot messages,
199 1.1 cjs and you'll be given a chance to review the boot messages again
200 1.1 cjs to get the exact figures for the number of cylinders, heads
201 1.1 cjs and sectors.
202 1.1 cjs
203 1.1 cjs After this you must specify the size of your partitions.
204 1.1 cjs Generally you'll be giving the sizes in cylinders; the install
205 1.1 cjs program will tell you how many bytes there are in each cylinder.
206 1.1 cjs
207 1.1 cjs The swap partition is the second thing you specify, after the
208 1.1 cjs root partition. Regardless of the size of your disk, you'll
209 1.1 cjs want to specify a swap partition that's at least as large as
210 1.1 cjs the amount of RAM you have, and probably not less than 64 MB
211 1.1 cjs in any case.
212 1.1 cjs
213 1.1 cjs If you have a small disk (under 500 MB), it's probably best to
214 1.1 cjs devote all of the disk (excepting 64 MB or more for the swap)
215 1.1 cjs to the root partition.
216 1.1 cjs
217 1.1 cjs If you have more space, we recommend devoting at least 32 MB,
218 1.1 cjs and preferably 48 MB, to the root partition. /usr will need
219 1.1 cjs 150 MB or so if you're not installing X, 200 MB or so if you
220 1.1 cjs are.
221 1.1 cjs
222 1.1 cjs Once you've specified this information, the install script will
223 1.1 cjs write the disklabel, install boot blocks to make the disk
224 1.1 cjs bootable, initialise the filesystems, and mount them all under
225 1.1 cjs /mnt. You're now ready to go on to the next step.
226 1.1 cjs
227 1.1 cjs 4. Installing NetBSD
228 1.1 cjs
229 1.1 cjs To install NetBSD you'll have to get access to the tar files
230 1.1 cjs that contain the operating system, and extract them to your
231 1.1 cjs disk. You can get access to the tar files through either a
232 1.1 cjs network or from a CD-ROM.
233 1.1 cjs
234 1.1 cjs 4.1 Preparing to Install from a CD-ROM
235 1.1 cjs
236 1.1 cjs All you need to do is mount the CD-ROM, which will generally
237 1.1 cjs be device cd0. (The initial boot messages will tell you what
238 1.1 cjs the CD-ROM drive as probed as.) This would be done with:
239 1.1 cjs
240 1.2 cjs mount -r -t cd9660 /dev/cd0a /mnt2
241 1.1 cjs
242 1.1 cjs 4.2 Preparing to Install from the Network
243 1.1 cjs
244 1.1 cjs The first thing you need to do is configure the loopback network
245 1.1 cjs interface, which is done with the command
246 1.1 cjs
247 1.2 cjs ifconfig lo0 127.0.0.1
248 1.1 cjs
249 1.1 cjs Then you will have to configure your Ethernet card. The command
250 1.1 cjs
251 1.2 cjs ifconfig -l
252 1.1 cjs
253 1.1 cjs will give you a list of the network interfaces on your system.
254 1.1 cjs It will show you your ethernet cards first, followed by lo0
255 1.1 cjs (the loopback interface that we configured above), ppp0 (the
256 1.1 cjs PPP interface) and sl0 (the SLIP interface).
257 1.1 cjs
258 1.1 cjs To configure your ethernet card, type
259 1.1 cjs
260 1.2 cjs ifconfig <if> inet <addr> [netmask <netmask>] [media <media>]
261 1.1 cjs
262 1.1 cjs Where <if> is the network card (interface), <addr> is the IP
263 1.1 cjs address, the optional <netmask> parameter is the network mask,
264 1.1 cjs and the optional <media> parameter is one of:
265 1.1 cjs
266 1.2 cjs 10base2 BNC connector, 10 Mbps
267 1.2 cjs AUI AUI connector, 10 Mbps
268 1.2 cjs 10baseT Twisted pair connector, 10 Mbps
269 1.2 cjs 100baseTX Twisted pair connector, 100 Mbps
270 1.2 cjs 100baseFX Fibre-optic connector, 100 Mbps
271 1.2 cjs 100baseT4 T4 twisted pair interface, 100 Mbps
272 1.1 cjs
273 1.1 cjs If the host you are getting the data files from is not on the
274 1.1 cjs local network, you will also have to configure a gateway into
275 1.1 cjs your system. Do this with
276 1.1 cjs
277 1.2 cjs route add default <gateway-IP-address>
278 1.1 cjs
279 1.1 cjs If you will need name services you can set up a /etc/resolv.conf
280 1.1 cjs file for those with a `nameserver <ip-address>' line in it, e.g.:
281 1.1 cjs
282 1.2 cjs echo "nameserver 198.41.0.4" >>/etc/resolv.conf
283 1.1 cjs
284 1.1 cjs Once networking has been configured, you may mount the directory
285 1.1 cjs with the install files via NFS, or download them via FTP.
286 1.1 cjs
287 1.1 cjs To mount them via nfs, type
288 1.1 cjs
289 1.2 cjs mount -t nfs <hostname:/path/to/nfs/volume> /mnt2
290 1.1 cjs
291 1.1 cjs If this volume has been exported read-only, you may need the
292 1.1 cjs `-r' option to mount.
293 1.1 cjs
294 1.1 cjs To download the install sets with ftp, create a directory in
295 1.1 cjs which to put them and then use the ftp client to download them.
296 1.1 cjs A typical session might be:
297 1.1 cjs
298 1.2 cjs mkdir /mnt/var/tmp
299 1.2 cjs cd /mnt/var/tmp
300 1.2 cjs ftp ftp.netbsd.org
301 1.2 cjs [all the following commmands are given to the ftp program
302 1.2 cjs after logging in]
303 1.2 cjs prompt
304 1.2 cjs cd /pub/NetBSD/NetBSD-1.3/alpha/binary/sets
305 1.2 cjs mget *
306 1.2 cjs cd /pub/NetBSD/NetBSD-1.3/alpha/binary/kernel
307 1.2 cjs get netbsd-GENERIC.gz
308 1.2 cjs cd /pub/NetBSD/NetBSD-1.3/alpha/binary/toolchain
309 1.2 cjs get netbsd-GENERIC.gz
310 1.2 cjs bye
311 1.1 cjs
312 1.1 cjs Feel free, of course, to leave off the sets that you don't need
313 1.2 cjs if you don't plan to install everything.
314 1.1 cjs
315 1.1 cjs You are now ready to proceed to step 4.3.
316 1.1 cjs
317 1.1 cjs 4.3 Extracting the Operating System Files
318 1.1 cjs
319 1.1 cjs This is quite simple. Change to the root directory of your hard
320 1.1 cjs drive (which is /mnt if you've used the standard install script
321 1.1 cjs to this point) by typing
322 1.1 cjs
323 1.2 cjs cd /mnt
324 1.1 cjs
325 1.1 cjs Then extract the kernel with:
326 1.1 cjs
327 1.2 cjs zcat /mnt/var/tmp/netbsd-GENERIC.gz >/mnt/netbsd
328 1.1 cjs
329 1.1 cjs For this and the following commands, replace `/mnt/var/tmp/'
330 1.1 cjs with the path to your NFS volume or CD-ROM if that's how you
331 1.1 cjs chose to access your install files instead.
332 1.1 cjs
333 1.1 cjs The sets are extracted with
334 1.1 cjs
335 1.2 cjs for file in base comp etc games man misc text; do
336 1.2 cjs tar --unlink -t -z -f /mnt/var/tmp/$file;
337 1.2 cjs done
338 1.1 cjs
339 1.1 cjs and the toolchain with
340 1.1 cjs
341 1.2 cjs tar --unlink -t -z -f /mnt/var/tmp/toolchain.tar.gz
342 1.1 cjs
343 1.1 cjs You will now be ready to reboot from your hard disk. Type `sync'
344 1.1 cjs twice to make sure all the data is written out to disk and then
345 1.1 cjs type `halt' to halt your system and go back to the monitor. At
346 1.1 cjs this point you should be able to reboot your system with
347 1.1 cjs
348 1.2 cjs boot dka0
349 1.1 cjs
350 1.2 cjs (or `boot dka100' if your disk drive is on ID 1, etc.--you can
351 1.2 cjs usually use `show device' to see a full list of bootable devices
352 1.2 cjs in your system). Your system will come up in single-user mode,
353 1.2 cjs ready for you to configure it.
354 1.1 cjs
355 1.1 cjs 5. Configuring NetBSD
356 1.1 cjs
357 1.1 cjs Configuring your NetBSD system requires editing the /etc/rc.conf
358 1.1 cjs file. Most of this file is fairly self-explanatory, but you
359 1.1 cjs can `man rc.conf' for further explanations. Remember to set
360 1.1 cjs `rc_configured' to YES so you will boot multi-user, set `hostname'
361 1.1 cjs and possibly `defaultroute', and add an ifconfig_int for your
362 1.1 cjs interface <int>, along the lines of
363 1.1 cjs
364 1.2 cjs ifconfig_de0="inet myname.my.dom 123.45.67.89 netmask 255.255.255.0"
365 1.1 cjs
366 1.1 cjs You will also want either to run named or add an /etc/resolv.conf
367 1.1 cjs file (`man resolv.conf' for information on this), use `vipw' to add
368 1.1 cjs accounts to your system, edit /etc/aliases to forward root mail to
369 1.1 cjs the right place (run `newaliases' afterwards) and edit /etc/rc.local
370 1.1 cjs to run any local daemons you use.
371