NFS-Root Mini-Howto
  Andreas Kostyrka, andreas@ag.or.at
  V8, 8 August 1997

  This Mini-HOWTO tries explains how to setup a ``disc-less'' Linux
  workstation, which mounts it's root filesystems via NFS.  The newest
  version of this Mini-Howto can always be found in ftp://sun-
  site.unc.edu/pub/Linux/docs/HOWTO/mini/NFS-Root or on any sunsite mir-
  ror NEAR YOU.
  ______________________________________________________________________

  Table of Contents


  1. Copyright

     1.1 Contributors

  2. General Overview

  3. Setup on the server

     3.1 Compiling the kernels
     3.2 Creation of the root filesystem
        3.2.1 Copying the filesystem
        3.2.2 Changes to the root filesystem
        3.2.3 Exporting the filesystem
        3.2.4 RARP setup
        3.2.5 BOOTP setup
        3.2.6 Finding out hardware addresses

  4. Booting the workstation

     4.1 Using a boot rom
     4.2 Using a raw kernel disc
     4.3 Using a bootloader &
     4.4 Using a bootloader without

  5. Known problems

     5.1 /sbin/init doesn't start.
     5.2 /dev troubles.

  6. Other topics



  ______________________________________________________________________

  1.  Copyright

  (c) 1996 Andreas Kostyrka (e9207884@student.tuwien.ac.at or
  andreas@ag.or.at)

  Unless otherwise stated, Linux HOWTO documents are copyrighted by
  their respective authors. Linux HOWTO documents may be reproduced and
  distributed in whole or in part, in any medium physical or electronic,
  as long as this copyright notice is retained on all copies. Commercial
  redistribution is allowed and encouraged; however, the author would
  like to be notified of any such distributions.

  All translations, derivative works, or aggregate works incorporating
  any Linux HOWTO documents must be covered under this copyright notice.
  That is, you may not produce a derivative work from a HOWTO and impose
  additional restrictions on its distribution. Exceptions to these rules
  may be granted under certain conditions; please contact the Linux
  HOWTO coordinator at the address given below.

  In short, we wish to promote dissemination of this information through
  as many channels as possible. However, we do wish to retain copyright
  on the HOWTO documents, and would like to be notified of any plans to
  redistribute the HOWTOs.

  If you have questions, please contact Andreas Kostyrka
  <mailto:andreas@ag.or.at>, the author of this mini-HOWTO, or Tim
  Bynum, the Linux HOWTO coordinator, at <mailto:linux-
  howto@sunsite.unc.edu> via email.


  1.1.  Contributors


  o  Avery Pennarun <apenwarr@foxnet.net> (how to boot without LILO)

  o   Ofer Maor <ofer@hadar.co.il> (providing a better mini howto about
     setting up discless workstations.)

  o  Christian Leutloff <leutloff@sundancer.tng.oche.de> (providing
     infos about netboot.)


  2.  General Overview

  Generally speaking there are the following problems for the
  workstation:

  o  It must find out it's own IP-address, and if needed also the rest
     of the Ethernet configuration.

  o  It must know the NFS-server and the mount path to it's root
     filesystem.

  The current implementation of NFSROOT in the Linux kernel (as of
  1.3.7x) allows for the following ``solutions'':

  o  The IP-address may be discovered by RARP, or the full ethernet
     configuration may be passed to the kernel via kernel parameters by
     LILO or LOADLIN.

  o  The NFS-path to mount can be passed via kernel parameters. If this
     is not done, the kernel assumes the RARP-server also as NFS-server,
     and uses compiled in default for the path part. (current default
     value in the kernel: /tftpboot/<IP-address of the machine>.)

  o  The client configuration may be discovered by BOOTP.

  Before starting to setup a discless enviroment, you should decide if
  you will be booting via LILO or LOADLIN. The advantage of doing so is
  flexibility, the disadvantage is speed. Booting a Linux kernel without
  LILO is faster. This may or may not be a consideration.


  3.  Setup on the server

  3.1.  Compiling the kernels

  RARP support in the kernel of the server will probably be a good idea.
  You must have it if you will boot without kernel parameters. On the
  other hand it doesn't help you, if the client isn't on the same subnet
  than the server.


  The kernel for the workstation needs the following as a minimum set
  compiled in:

  o  NFS-filesystem compiled in. (It doesn't need to have ext2-support
     compiled in, a module suffices.)

  o  ``Root on NFS'' must be enabled.

  o  The Ethernet driver for the network card of the workstation must be
     compiled in.

  o  Depending upon your needs you may have to include RARP or BOOTBP
     support for NFS-Root. (By this I mean the questions that are asked
     after the NFS question in make config.)

  If the workstation will be booted without kernel parameters, you need
  also to set the root device to 0:255. Do this by creating a dummy
  device file with mknod /dev/nfsroot b 0 255. After having created such
  a device file, you can set root device of the kernel image with rdev
  <kernel-image> /dev/nfsroot.

  3.2.  Creation of the root filesystem

  3.2.1.  Copying the filesystem

   Warning: while these instruction might work for you, they are by no
  means sensefull in a production enviroment. For a better way to setup
  a root filesystem for the clients, see the NFS-Root-Client mini howto
  by Ofer Maor <ofer@hadar.co.il>.

  After having decided where to place the root tree, create it with
  (e.g.) mkdir -p <directory> and tar cClf / - | tar xpCf <directory> -.

  If you boot your kernel without LILO, then the rootdir has to be
  /tftpboot/<IP-address>. If you don't like it, you can change it in the
  top Makefile in the kernel sources, look for a line like: NFS_ROOT =
  -DNFS_ROOT="\"/tftpboot/%s\"" If you change this, you have to
  recompile the kernel.


  3.2.2.  Changes to the root filesystem

  Now trim the unneeded files, and check the /etc/rc.d scripts. Some
  important points:

  o  One important thing is eth0 setup. The workstation comes up with a,
     at least partially, setup eth0. Setting up the IP-address of the
     workstation to the the IP-Address of the server is not considered a
     clever thing to do. (As it happened to the author on one of his
     early attempts.)

  o  Another point is the /etc/fstab of the workstation. It should be
     setup for nfs filesystems.

  o  WARNING: Don't confuse the server root filesystem and the
     workstation root filesystem. (I've already patched up a rc.inet1 on
     the server, and wondered why the workstation still didn't work.)


  3.2.3.  Exporting the filesystem

  Export the root dir to the work station. See exports(5). You most
  likely will have to restart the nfsd/mountd after this change.  Under
  RedHat this can easily be done by typing /etc/rc.d/init.d/nfs stop ;
  /etc/rc.d/init.d/nfs start .

  3.2.4.  RARP setup

  Setup the RARP somewhere on the net. If you boot without a nfsroot
  parameter, the RARP server has to be the NFS server. Usually this will
  be the NFS server. To do this, you will need to run a kernel with RARP
  support.

  To do this, execute (and install it somewhere in /etc/rc.d of the
  server!):

  /sbin/rarp -s <ip-addr> <hardware-addr>

  where

     ip-addr
        is the IP address of the workstation, and

     hardware-addr
        is the Ethernet address of the network card of the workstation.

  example: /sbin/rarp -s 131.131.90.200 00:00:c0:47:10:12

  You can also use a symbolic name instead of the IP-address, as long
  the server is able to find out the IP-address. (/etc/hosts or DNS
  lookups)


  3.2.5.  BOOTP setup

  For BOOTP setup you need to edit /etc/bootptab. Please consult the
  bootpd(8) and bootptab(5) man pages.


  3.2.6.  Finding out hardware addresses

  I don't know the hardware address! How can I find it out?

  o  Boot the kernel disk you made, and watch for the line where the
     network card is recognized. It usually contains 6 hex bytes, that
     should be the address of the card.

  o  Boot the workstation with some OS with TCP/IP networking enabled.
     Then ping the workstation from the server. Look in the ARP-cache by
     executing: /sbin/arp -a


  4.  Booting the workstation


  4.1.  Using a boot rom

  As I have not used such a beast myself yet, I can give you only the
  following tips (courtesy of Christian Leutloff
  <leutloff@sundancer.tng.oche.de>):

  o  You can't use ``normal'' bootroms.

  o  There is a netboot packet by Gero Kuhlmann, that provides for
     bootroms for Linux, and further information. netboot is available
     from the local Linux mirror, or as a Debian package (netboot-0.4).

  o  Read the documentation coming with your boot rom carefully.

  o  You probably will have to enable the tftpd on the server, but this
     depends upon your boot rom's way of loading the kernel.

  o  Any informations on bootrom vendors of these Linux variety,
     mentioned above, as not everybody has access to prom burner :(
     (especially in europe, as I'm located there.) welcome, I'll include
     them then here.

  4.2.  Using a raw kernel disc

  If you have exported the root filesystem with the correct name for the
  default naming and your NFS server is also the RARP server (which
  implies that the boxes are on the same subnet.), than you can just
  boot the kernel by cating it to a disc. (You have to set the root
  device in the kernel to 0:255.) This assumes, that the root directory
  on the server is /tftpboot/IP-Address (this value can be changed when
  compiling the kernel.)

  4.3.  Using a bootloader & RARP

  Give the kernel all needed parameters when booting, and add
  nfsroot=<server-ip-addr>:</path/to/mount> where server-ip-addr is the
  IP-address of your NFS-server, and /path/to/mount is the path to the
  root directory.

  Tips:

  o  When using LILO consider using the ``lock'' feature: Simply type in
     once all the correct parameters and add ``lock''. Next time when
     booting let LILO timeout.

  o  When generating a workstation specific boot disk, you can also use
     the append= feature in lilo.conf.

  4.4.  Using a bootloader without RARP

  In addition to nfsroot give a nfsaddrs=<wst-IP>:<srv-IP>:<gw-
  IP>:<netm-IP>:<hostname> commandline argument for the kernel. The
  kernel will setup eth0 with the given parameters:

     wst-IP
        machine's IP-Address

     srv-IP
        NFS-server IP-Address

     gw-IP
        gateway

     netm-IP
        netmask

     hostname
        machine name

  5.  Known problems


  5.1.  /sbin/init doesn't start.

  A popular problem with /sbin/init is, that some (at least) current
  distributions come with /sbin/init dynamically linked. So you have to
  provide a correct /lib setup to the client. One easy thing one could
  try is replacing /sbin/init (for the client) with a statically linked
  ``Hello World'' program.  This way you know if it is something more
  basic, or ``just'' a problem with dynamic linking.



  5.2.  /dev troubles.


  If you get some garbled messages about ttys when booting, then you
  should run a MAKEDEV from the client in the /dev directory. There are
  rumors that this doesn't work with certain server oses which use
  64-bit dev numbers, should you run into this, please mail me with
  which os you have the troubles. A potential solution would be to
  create a small /dev ram disc early in the boot process, and reinstall
  the device nodes each time.


  6.  Other topics


  o  There is BOOTP client:
     ftp://sunsite.unc.edu/system/Network/admin/bootpc.v045.tgz

     With initrd (which is included in Linux 2.0), it could be made to
     work for diskless stations quite nicely. initrd is actually always
     an advanced option for more customized setups.


  o  For plain bootpd based boots this is actually probably not needed
     as Linux 2.0 contains also the option to use BOOTP instead of RARP.
     (To be more precise, you can compile both in the kernel, and the
     faster response wins.)

  o  In the Documentation directory of kernel source there is a file
     documenting NFS-Root systems.

  o  There is a patch floating around, that allows for swapping over
     NFS. It was send to me (during a private high workload phase), but
     I somehow managed to loose the mail. :(

     You can get it probably from http://www.linuxhq.com/ in the
     unofficial patches section.


  o  My PGP public key can be fetched by fingering andreas@ag.or.at.
     The fingerprint is: F1 F7 43 D5 07 C4 6C 87  BF 6B 33 A2 2C EE 5A
     F9.