NFS HOWTO
  Nicolai Langfeldt janl@math.uio.no
  v0.7, 3 November 1997

  HOWTO set up NFS clients and servers.

  1.  Preamble

  1.1.  Legal stuff

  (C)opyright 1997 Nicolai Langfeldt.  Do not modify without amending
  copyright, distribute freely but retain this paragraph.  The FAQ
  section is based on a NFS FAQ compiled by Alan Cox.  The Checklist
  section is based on a mount problem checklist compiled by the IBM
  Corporation.

  1.2.  Other stuff

  This will never be a finished document, please send me mail about your
  problems and successes, it can make this a better HOWTO.  Please send
  money, comments and/or questions to janl@math.uio.no.  If you send E-
  mail please make sure that the return address is correct and working,
  I get a lot of E-mail and figuring out your e-mail address can be a
  lot of work.  Please.

  If you want to translate this HOWTO please notify me so I can keep
  track of what languages I have been published in :-).

  Curses and Thanks to Olaf Kirch who got me to write this and then gave
  good suggestions for it :-)

  This HOWTO covers NFS in the 2.0 versions of the kernel.  There are
  significant enhancements, and changes, of NFS in the 2.1 versions of
  the kernel.

  1.3.  Dedication

  This HOWTO is dedicated to Anne Line Norheim Langfeldt.  Though she
  will probably never read it since she's not that kind of girl.

  2.  README.first

  NFS, the Network File System has three important characteristics:

  �  It makes sharing of files over a network possible.

  �  It mostly works well enough.

  �  It opens a can of security risks that are well understood by
     crackers, and easily exploited to get access (read, write and
     delete) to all your files.

  I'll say something on both issues in this HOWTO.  Please make sure you
  read the security section of this HOWTO, and you will be vulnerable to
  fewer silly security risks.  The passages about security will at times
  be pretty technical and require some knowledge about IP networking and
  the terms used.  If you don't recognize the terms you can either go
  back and check the networking HOWTO, wing it, or get a book about
  TCP/IP network administration to familiarize yourself with TCP/IP.
  That's a good idea anyway if you're administrating UNIX/Linux
  machines.  A very good book on the subject is TCP/IP Network
  Administration by Craig Hunt, published by O'Reilly & Associates, Inc.
  And after you've read it and understood it you'll have higher value on
  the job market, you can't loose ;-)

  There are two sections to help you troubleshoot NFS, called Mount
  Checklist and FAQs.  Please refer to them if something dosn't work as
  advertized.

  3.  Setting up a NFS server

  3.1.  Prerequisites

  Before you continue reading this HOWTO you will need to be able to
  telnet back and forth between the machine you're using as server and
  the client.  If that does not work you need to check the
  networking/NET-2 HOWTO and set up networking properly.

  3.2.  First step

  Before we can do anything else we need a NFS server set up.  If you're
  part of a department or university network there are likely numerous
  NFS servers already set up.  If they will let you get access to them,
  or indeed, if you're reading this HOWTO to get access to one of them
  you obviously don't need to read this section and can just skip ahead
  to the section on ``setting up a NFS client''

  If you need to set up a non-Linux box as server you will have to read
  the system manual(s) to discover how to enable NFS serving and export
  of file systems through NFS.  There is a separate section in this
  HOWTO on how to do it on many different systems.  After you have
  figured all that out you can continue reading the next section of this
  HOWTO.  Or read more of this section since some of the things I will
  say are relevant no matter what kind of machine you use as server.

  Those of you still reading will need to set up a number of programs.

  3.3.  The portmapper

  The portmapper on Linux is called either portmap or rpc.portmap.  The
  man page on my system says it is a "DARPA port to RPC program number
  mapper".  It is the first security holes you'll open reading this
  HOWTO.  Description of how to close one of the holes is in the
  ``security section''.  Which I, again, urge you to read.

  Start the portmapper.  It's either called portmap or rpc.portmap and
  it should live in the /usr/sbin directory (on some machines it's
  called rpcbind).  You can start it by hand now, but it will need to be
  started every time you boot your machine so you need to make/edit the
  rc scripts.  Your rc scripts are explained more closely in the init
  man page, they usually reside in /etc/rc.d, /etc/init.d or
  /etc/rc.d/init.d.  If there is a script called something like inet
  it's probably the right script to edit.  But, what to write or do is
  outside the scope of this HOWTO.  Start portmap, and check that it
  lives by running ps aux.  It does?  Good.

  3.4.  Mountd and nfsd

  The next programs we need running are mountd and nfsd.  But first
  we'll edit another file.  /etc/exports this time.  Say I want the file
  system /mn/eris/local which lives on the machine eris to be available
  to the machine called apollon.  Then I'd put this in /etc/exports on
  eris:

  ______________________________________________________________________
  /mn/eris/local  apollon(rw)
  ______________________________________________________________________

  The above line gives apollon read/write access to /mn/eris/local.
  Instead of rw it could say ro which means read only (if you put
  nothing it defaults to read only).  There are other options you can
  give it, and I will discuss some security related ones later.  They
  are all enumerated in the exports man page which you should have read
  at least once in your life.  There are also better ways than listing
  all the hosts in the exports file.  You can for example use net groups
  if you are running NIS (or NYS) (NIS was known as YP), and always
  specify domain wild cards and IP-subnets as hosts that are allowed to
  mount something.  But you should consider who can get access to the
  server in unauthorized ways if you use such blanket authorizations.

  Note: This exports file is not the same syntax that other Unixes use.
  There is a separate section in this HOWTO about other Unixes exports
  files.

  Now we're set to start mountd (or maybe it's called rpc.mountd and
  then nfsd (which could be called rpc.nfsd).  They will both read the
  exports file.

  If you edit /etc/exports you will have to make sure nfsd and mountd
  knows that the files have changed.  The traditonal way is to run
  exportfs.  Many Linux distributions lack a exportfs program.  If
  you're exportfs-less you can install this script on your machine:

  ______________________________________________________________________
  #!/bin/sh
  killall -HUP /usr/sbin/rpc.mountd
  killall -HUP /usr/sbin/rpc.nfsd
  echo re-exported file systems
  ______________________________________________________________________

  Save it in, say, /usr/sbin/exportfs, and don't forget to chmod a+rx
  it.  Now, whenever you change your exports file, you run exportfs
  after, as root.

  Now you should check that mountd and nfsd are running properly.  First
  with rpcinfo -p.  It should show something like this:

  ______________________________________________________________________
     program vers proto   port
      100000    2   tcp    111  portmapper
      100000    2   udp    111  portmapper
      100005    1   udp    745  mountd
      100005    1   tcp    747  mountd
      100003    2   udp   2049  nfs
      100003    2   tcp   2049  nfs
  ______________________________________________________________________

  As you see the portmapper has announced it's services, and so has
  mountd and nfsd.

  If you get rpcinfo: can't contact portmapper: RPC: Remote system error
  - Connection refused or something similar instead then the portmapper
  isn't running.  Fix it.  If you get No remote programs registered.
  then either the portmapper doesn't want to talk to you, or something
  is broken.  Kill nfsd, mountd, and the portmapper and try the ignition
  sequence again.

  After checking that the portmapper reports the services you can check
  with ps too.  The portmapper will continue to report the services even
  after the programs that extend them have crashed.  So a ps check can
  be smart if something seems broken.

  Of course, you will need to modify your system rc files to start
  mountd and nfsd as well as the portmapper when you boot.  It is very
  likely that the scripts already exist on your machine, you just have
  to uncomment the critical section or activate it for the correct init
  run levels.

  Man pages you should be familiar with now: portmap, mountd, nfsd, and
  exports.

  Well, if you did everything exactly like I said you should you're all
  set to start on the NFS client.

  4.  Setting up a NFS client

  First you will need a kernel with the NFS file system either compiled
  in or available as a module.  This is configured before you compile
  the kernel.  If you have never compiled a kernel before you might need
  to check the kernel HOWTO and figure it out.  If you're using a very
  cool distribution (like Red Hat) and you've never fiddled with the
  kernel or modules on it (and thus ruined it ;-), nfs is likely
  automagicaly available to you.

  You can now, at a root prompt, enter a appropriate mount command and
  the file system will appear.  Continuing the example in the previous
  section we want to mount /mn/eris/local from eris.  This is done with
  this command:

  ______________________________________________________________________
  mount -o rsize=1024,wsize=1024 eris:/mn/eris/local /mnt
  ______________________________________________________________________

  (We'll get back to the rsize and wsize options.)  The file system is
  now available under /mnt and you can cd there, and ls in it, and look
  at the individual files.  You will notice that it's not as fast as a
  local file system, but a lot more convenient than ftp.  If, instead of
  mounting the file system, mount produces a error message like mount:
  eris:/mn/eris/local failed, reason given by server: Permission denied
  then the exports file is wrong, or you forgot to run exportfs after
  editing the exports file.  If it says mount clntudp_create: RPC:
  Program not registered it means that nfsd or mountd is not running on
  the server.

  To get rid of the file system you can say

  ______________________________________________________________________
  umount /mnt
  ______________________________________________________________________

  To make the system mount a nfs file system upon boot you edit
  /etc/fstab in the normal manner.  For our example a line such as this
  is required:

  ______________________________________________________________________
  # device      mountpoint     fs-type     options              dump fsckorder
  eris:/mn/eris/local  /mnt    nfs        rsize=1024,wsize=1024 0    0
  ______________________________________________________________________

  That's all there is too it, almost.  Read on please.

  4.1.  Mount options

  There are some options you should consider adding at once.  They
  govern the way the NFS client handles a server crash or network
  outage.  One of the cool things about NFS is that it can handle this
  gracefully.  If you set up the clients right.  There are two distinct
  failure modes:

     soft
        The NFS client will report and error to the process accessing a
        file on a NFS mounted file system.  Some programs can handle
        this with composure, most won't.  I cannot recommend using this
        setting.

     hard
        The program accessing a file on a NFS mounted file system will
        hang when the server crashes.  The process cannot be interrupted
        or killed unless you also specify intr.  When the NFS server is
        back online the program will continue undisturbed from where it
        were.  This is probably what you want.  I recommend using
        hard,intr on all NFS mounted file systems.

  Picking up the previous example, this is now your fstab entry:

  ______________________________________________________________________
  # device      mountpoint     fs-type    options                  dump fsckorder
  eris:/mn/eris/local  /mnt    nfs        rsize=1024,wsize=1024,hard,intr 0 0
  ______________________________________________________________________

  4.2.  Optimizing NFS

  Normally, if no rsize and wsize options are specified NFS will read
  and write in chunks of 4096 or 8192 bytes.  Some combinations of Linux
  kernels and network cards cannot handle that large blocks, and it
  might not be optimal, anyway.  So we'll want to experiment and find a
  rsize and wsize that works and is as fast as possible.  You can test
  the speed of your options with some simple commands.  Given the mount
  command above and that you have write access to the disk you can do
  this to test the sequential write performance:

  ______________________________________________________________________
  time dd if=/dev/zero of=/mnt/testfile bs=16k count=4096
  ______________________________________________________________________

  This creates a 64Mb file of zeroed bytes (which should be large enough
  that caching is no significant part of any performance perceived, use
  a larger file if you have a lot of memory).  Do it a couple (5-10?)
  of times and average the times.  It is the `elapsed' or `wall clock'
  time that's most interesting in this connection.  Then you can test
  the read performance by reading back the file:

  ______________________________________________________________________
  time dd if=/mnt/testfile of=/dev/null bs=16k
  ______________________________________________________________________

  do that a couple of times and average.  Then umount, and mount again
  with a larger rsize and wsize.  They should probably be multiples of
  1024, and not larger than 16384 bytes since that's the maximum size in
  NFS version 2.  Directly after mounting with a larger size cd into the
  mounted file system and do things like ls, explore the fs a bit to
  make sure everything is as it should.  If the rsize/wsize is too large
  the symptoms are very odd and not 100% obvious.  A typical symptom is
  incomplete file lists when doing 'ls', and no error messages.  Or
  reading files failing mysteriously with no error messages.  After
  establishing that the given rsize/wsize works you can do the speed
  tests again.  Different server platforms are likely to have different
  optimal sizes.  SunOS and Solaris is reputedly a lot faster with 4096
  byte blocks than with anything else.

  Newer Linux kernels (since 1.3 sometime) perform read-ahead for rsizes
  larger or equal to the machine page size.  On Intel CPUs the page size
  is 4096 bytes.  Read ahead will significantly increase the NFS read
  performance.  So on a Intel machine you will want 4096 byte rsize if
  at all possible.

  Remember to edit /etc/fstab to reflect the rsize/wsize you found.

  A trick to increase NFS write performance is to disable synchronous
  writes on the server.  The NFS specification states that NFS write
  requests shall not be considered finished before the data written is
  on a non-volatile medium (normally the disk).  This restricts the
  write performance somewhat, asynchronous writes will speed NFS writes
  up.  The Linux nfsd has never done synchronous writes since the Linux
  file system implementation does not lend itself to this, but on non-
  Linux servers you can increase the performance this way with this in
  your exports file:

  ______________________________________________________________________
  /dir    -async,access=linuxbox
  ______________________________________________________________________

  or something similar.  Please refer to the exports man page on the
  machine in question.  Please note that this increases the risk of data
  loss.

  5.  NFS over slow lines

  Slow lines include Modems, ISDN and quite possibly other long distance
  connections.

  This section is based on knowledge about the used protocols but no
  actual experiments.  My home computer has been down for 6 months (bad
  HD, low on cash) and so I have had no modem connection to test this
  with.  Please let me hear from you if try this :-)

  The first thing to remember is that NFS is a slow protocol.  It has
  high overhead.  Using NFS is almost like using kermit to transfer
  files.  It's slow.  Almost anything is faster than NFS.  FTP is
  faster. HTTP is faster.  rcp is faster.  ssh is faster.

  Still determined to try it out?  Ok.

  NFS' default parameters are for quite fast, low latency, lines.  If
  you use these default parameters over high latency lines it can cause
  NFS to report errors, abort operations, pretend that files are shorter
  than they really are, and act mysteriously in other ways.

  The first thing to do is not to use the soft mount option.  This will
  cause timeouts to return errors to the software, which will, most
  likely not handle the situation at all well.  This is a good way to
  get for mysterious failures.  Instead use the hard mount option.  When
  hard is active timeouts causes infinite retries instead of aborting
  whatever it was the software wanted to do.  This is what you want.
  Really.

  The next thing to do is to tweak the timeo and retrans mount options.
  They are described in the nfs(5) man page, but here is a copy:

  ______________________________________________________________________
         timeo=n        The  value  in  tenths  of  a second before
                        sending the first retransmission  after  an
                        RPC timeout.  The default value is 7 tenths
                        of a second.  After the first timeout,  the
                        timeout  is  doubled  after each successive
                        timeout until a maximum timeout of 60  sec-
                        onds  is  reached or the enough retransmis-
                        sions have occured to cause a  major  time-
                        out.   Then,  if  the  filesystem  is  hard
                        mounted, each new timeout cascade  restarts
                        at  twice the initial value of the previous
                        cascade, again doubling at each retransmis-
                        sion.   The  maximum  timeout  is always 60
                        seconds.  Better overall performance may be
                        achieved  by  increasing  the  timeout when
                        mounting on  a  busy  network,  to  a  slow
                        server, or through several routers or gate-
                        ways.

         retrans=n      The number of minor timeouts  and  retrans-
                        missions  that  must  occur  before a major
                        timeout occurs.  The default is 3 timeouts.
                        When a major timeout occurs, the file oper-
                        ation is either aborted or  a  "server  not
                        responding"  message is printed on the con-
                        sole.
  ______________________________________________________________________

  In other words: If a reply is not received within the 0.7 second
  (700ms) timeout the NFS client will repeat the request and double the
  timeout to 1.4 seconds.  If the reply does not appear within the 1.4
  seconds the request is repeated again and the timeout doubled again,
  to 2.8 seconds.

  A lines speed can be measured with ping with the same packet size as
  your rsize/wsize options.

  ______________________________________________________________________
  $ ping -s 8192 lugulbanda
  PING lugulbanda.uio.no (129.240.222.99): 8192 data bytes
  8200 bytes from 129.240.222.99: icmp_seq=0 ttl=64 time=15.2 ms
  8200 bytes from 129.240.222.99: icmp_seq=1 ttl=64 time=15.9 ms
  8200 bytes from 129.240.222.99: icmp_seq=2 ttl=64 time=14.9 ms
  8200 bytes from 129.240.222.99: icmp_seq=3 ttl=64 time=14.9 ms
  8200 bytes from 129.240.222.99: icmp_seq=4 ttl=64 time=15.0 ms

  --- lugulbanda.uio.no ping statistics ---
  5 packets transmitted, 5 packets received, 0% packet loss
  round-trip min/avg/max = 14.9/15.1/15.9 ms
  ______________________________________________________________________

  The time here is how long the ping packet took to get back and forth
  to lugulbanda.  15ms is quite fast.  Over a 28.000 bps line you can
  expect something like 4000-5000ms, and if the line is otherwise loaded
  this time will be even higher, easily double.  When this time is high
  we say that there is 'high latency'.  Generally, for larger packets
  and for more loaded lines the latency will tend to increase.  Increase
  timeo suitably for your line and load.  And since the latency
  increases when you use the line for other things: If you ever want to
  use FTP and NFS at the same time you should try measuring ping times
  while using FTP to transfer files.

  6.  Security and NFS

  I am by no means a computer security expert.  But I do have a little
  advice for the security conscious.  But be warned: This is by no means
  a complete list of NFS related problems and if you think you're safe
  once you're read and implemented all this I have a bridge I want to
  sell you.

  This section is probably of no concern if you are on a closed network
  where you trust all the users, and no-one you don't trust can get
  access to machines on the network. I.e., there should be no way to
  dial into the network, and it should in no way be connected to other
  networks where you don't trust everyone using it as well as the
  security.  Do you think I sound paranoid?  I'm not at all paranoid.
  This is just basic security advice.  And remember, the things I say
  here is just the start of it.  A secure site needs a diligent and
  knowledgeable admin that knows where to find information about current
  and potential security problems.

  NFS has a basic problem in that the client, if not told otherwise,
  will trust the NFS server and vice versa.  This can be bad.  It means
  that if the server's root account is broken into it can be quite easy
  to break into the client's root account as well.  And vice versa.
  There are a couple of coping strategies for this, which we'll get back
  to.

  Something you should read is the CERT advisories on NFS, most of the
  text below deals with issues CERT has written advisories about.  See
  ftp.cert.org/01-README for a up to date list of CERT advisories.  Here
  are some NFS related advisories:

  ______________________________________________________________________
  CA-91:21.SunOS.NFS.Jumbo.and.fsirand                            12/06/91
       Vulnerabilities concerning Sun Microsystems, Inc. (Sun) Network
       File System (NFS) and the fsirand program.  These vulnerabilities
       affect SunOS versions 4.1.1, 4.1, and 4.0.3 on all architectures.
       Patches are available for SunOS 4.1.1.  An initial patch for SunOS
       4.1 NFS is also available. Sun will be providing complete patches
       for SunOS 4.1 and SunOS 4.0.3 at a later date.

  CA-94:15.NFS.Vulnerabilities                                    12/19/94
       This advisory describes security measures to guard against several
       vulnerabilities in the Network File System (NFS). The advisory was
       prompted by an increase in root compromises by intruders using tools
       to exploit the vulnerabilities.

  CA-96.08.pcnfsd                                                 04/18/96
       This advisory describes a vulnerability in the pcnfsd program (also
       known as rpc.pcnfsd). A patch is included.
  ______________________________________________________________________

  6.1.  Client Security

  On the client we can decide that we don't want to trust the server too
  much a couple of ways with options to mount.  For example we can
  forbid suid programs to work off the NFS file system with the nosuid
  option.  This is a good idea and you should consider using this with
  all NFS mounted disks.  It means that the server's root user cannot
  make a suid-root program on the file system, log in to the client as a
  normal user and then use the suid-root program to become root on the
  client too.  We could also forbid execution of files on the mounted
  file system altogether with the noexec option.  But this is more
  likely to be impractical than nosuid since a file system is likely to
  at least contain some scripts or programs that needs to be executed.
  You enter these options in the options column, with the rsize and
  wsize, separated by commas.

  6.2.  Server security: nfsd

  On the server we can decide that we don't want to trust the client's
  root account.  We can do that by using the root_squash option in
  exports:

  ______________________________________________________________________
  /mn/eris/local apollon(rw,root_squash)
  ______________________________________________________________________

  Now, if a user with UID 0 on the client attempts to access (read,
  write, delete) the file system the server substitutes the UID of the
  servers `nobody' account.  Which means that the root user on the
  client can't access or change files that only root on the server can
  access or change.  That's good, and you should probably use
  root_squash on all the file systems you export.  "But the root user on
  the client can still use 'su' to become any other user and access and
  change that users files!" say you.  To which the answer is: Yes, and
  that's the way it is, and has to be with Unix and NFS.  This has one
  important implication: All important binaries and files should be
  owned by root, and not bin or other non-root account, since the only
  account the clients root user cannot access is the servers root
  account.  In the NFSd man page there are several other squash options
  listed so that you can decide to mistrust whomever you (don't) like on
  the clients.  You also have options to squash any UID and GID range
  you want to.  This is described in the Linux NFSd man page.

  root_squash is in fact the default with the Linux NFSd, to grant root
  access to a filesystem use no_root_squash.

  Another important thing is to ensure that nfsd checks that all it's
  requests comes from a privileged port.  If it accepts requests from
  any old port on the client a user with no special privileges can run a
  program that's is easy to obtain over the Internet. It talks nfs
  protocol and will claim that the user is anyone the user wants to be.
  Spooky.  The Linux nfsd does this check by default, on other OSes you
  have to enable this check yourself.  This should be described in the
  nfsd man page for the OS.

  Another thing.  Never export a file system to 'localhost' or
  127.0.0.1.  Trust me.

  6.3.  Server security: the portmapper

  The basic portmapper, in combination with nfsd has a design problem
  that makes it possible to get to files on NFS servers without any
  privileges.  Fortunately the portmapper Linux uses is relatively
  secure against this attack, and can be made more secure by configuring
  up access lists in two files.

  First we edit /etc/hosts.deny.  It should contain the line

  ______________________________________________________________________
  portmap: ALL
  ______________________________________________________________________

  which will deny access to everyone.  That's a bit drastic perhaps, so
  we open it again by editing /etc/hosts.allow.  But first we need to
  figure out what to put in it.  It should basically list all machines
  that should have access to your portmapper.  On a run of the mill
  Linux system there are very few machines that need any access for any
  reason.  The portmapper administrates nfsd, mountd, ypbind/ypserv,
  pcnfsd, and 'r' services like ruptime and rusers.  Of these only nfsd,
  mountd, ypbind/ypserv and perhaps pcnfsd are of any consequence.  All
  machines that needs to access services on your machine should be
  allowed to do that.  Let's say that your machines address is
  129.240.223.254 and that it lives on the subnet 129.240.223.0 should
  have access to it (those are terms introduced by the networking HOWTO,
  go back and refresh your memory if you need to).  Then we write

  ______________________________________________________________________
  portmap: 129.240.223.0/255.255.255.0
  ______________________________________________________________________

  in hosts.allow.  This is the same as the network address you give to
  route and the subnet mask you give to ifconfig.  For the device eth0
  on this machine ifconfig should show

  ______________________________________________________________________
  eth0      Link encap:10Mbps Ethernet  HWaddr 00:60:8C:96:D5:56
            inet addr:129.240.223.254  Bcast:129.240.223.255  Mask:255.255.255.0
            UP BROADCAST RUNNING MULTICAST  MTU:1500  Metric:1
            RX packets:360315 errors:0 dropped:0 overruns:0
            TX packets:179274 errors:0 dropped:0 overruns:0
            Interrupt:10 Base address:0x320
  ______________________________________________________________________

  and netstat -rn should show

  ______________________________________________________________________
  Kernel routing table
  Destination     Gateway         Genmask         Flags Metric Ref Use    Iface
  129.240.223.0   0.0.0.0         255.255.255.0   U     0      0   174412 eth0
  ______________________________________________________________________

  (Network address in first column).

  The hosts.deny and hosts.allow files are described in the manual pages
  of the same names.

  IMPORTANT: Do not put anything but IP NUMBERS in the portmap lines of
  these files.  Host name lookups can indirectly cause portmap activity
  which will trigger host name lookups which can indirectly cause
  portmap activity which will trigger...

  The above things should make your server tighter.  The only remaining
  problem (Yeah, right!) is someone breaking root (or boot MS-DOS) on a
  trusted machine and using that privilege to send requests from a
  secure port as any user they want to be.

  6.4.  NFS and firewalls

  It's a very good idea to firewall the nfs and portmap ports in your
  router or firewall.  The nfsd operates at port 2049, both udp and tcp
  protocols.  The portmapper at port 111, tcp and udp, and mountd at
  port 745 and and 747, tcp and udp.  Normally.  You should check the
  ports with the rpcinfo -p command.

  If on the other hand you want NFS to go through a firewall there are
  options for newer NFSds and mountds to make them use a specific
  (nonstandard) port which can be open in the firewall.

  6.5.  Summary

  If you use the hosts.allow/deny, root_squash, nosuid and privileged
  port features in the portmapper/nfs software you avoid many of the
  presently known bugs in nfs and can almost feel secure about that at
  least.  But still, after all that: When an intruder has access to your
  network, s/he can make strange commands appear in your /var/spool/mail
  are mounted over NFS.  For the same reason, you should never access
  your PGP private key over nfs.  Or at least you should know the risk
  involved.  And now you know a bit of it.

  NFS and the portmapper makes up a complex subsystem and therefore it's
  not totally unlikely that new bugs will be discovered, either in the
  basic design or the implementation we use.  There might even be holes
  known now, which someone is abusing.  But that's life.  To keep
  abreast of things like this you should at least read the newsgroups
  comp.os.linux.announce and comp.security.announce at a absolute
  minimum.

  7.  Mount Checklist

  This section is based on IBM Corp. NFS mount problem checklist.  My
  thanks to them for making it available for this HOWTO.  If you
  experience a problem mounting a NFS filesystem please refer to this
  list before posting your problem.  Each item describes a failure mode
  and the fix.

  1. File system not exported, or not exported to the client in
     question.

     Fix: Export it

  2. Name resolution doesn't jibe with the exports list.

     e.g.: export list says export to johnmad but johnmad's name is
     resolved as johnmad.austin.ibm.com.  mount permission is denied.

     Fix: Export to both forms of the name.

     It can also happen if the client has 2 interfaces with different
     names for each of the two adapters and the export only specifies
     one.

     Fix: export both interfaces.

     This can also happen if the server can't do a lookuphostbyname or
     lookuphostbyaddr (these are library functions) on the client.  Make
     sure the client can do host <name>; host <ip_addr>; and that both
     shows the same machine.

     Fix: straighten out name resolution.

  3. The file system was mounted after NFS was started (on that server).
     In that case the server is exporting underlying mount point, not
     the mounted filesystem.

     Fix: Shut down NFSd and then restart it.

     Note: The clients that had the underlying mount point mounted will
     get problems accessing it after the restart.

  4. The date is wildly off on one or both machines (this can mess up
     make)

     Fix: Get the date set right.

     The HOWTO author recommends using NTP to synchronize clocks.  Since
     there are export restrictions on NTP in the US you have to get NTP
     for debian, redhat or slackware from
     ftp://ftp.hacktic.nl/pub/replay/pub/linux or a mirror.

  5. The server can not accept a mount from a user that is in more than
     8 groups.

     Fix: decrease the number of groups the user is in or mount via a
     different user.

  8.  FAQs

  This is the FAQ section.  Most of it was written by Alan Cox.

  1. I get a lot of 'stale nfs handle' errors when using Linux as a nfs
     server.

     This is caused by a bug in some oldish nfsd versions.  It is fixed
     in nfs-server2.2beta16 and later.

  2. When I try to mount a file system I get

         can't register with portmap: system error on send

  You are probably using a Caldera system.  There is a bug in the rc
  scripts.  Please contact Caldera to obtain a fix.

  3. Why can't I execute a file after copying it to the NFS server?

     The reason is that nfsd caches open file handles for performance
     reasons (remember, it runs in user space). While nfsd has a file
     open (as is the case after writing to it), the kernel won't allow
     you to execute it. Nfsds newer than  spring 95 release open files
     after a few seconds, older ones would cling to them for days.

  4. My NFS files are all read only

     The Linux NFS server defaults to read only. RTFM the ``exports''
     and nfsd manual pages. You will need to alter /etc/exports.

  5. I mount from a linux nfs server and while ls works I can't read or
     write files.

     On older versions of Linux you must mount a NFS servers with
     rsize=1024,wsize=1024.

  6. I mount from a Linux NFS server with a block size of between
     3500-4000 and it crashes the Linux box regularly

     Basically don't do it then.

  7. Can Linux do NFS over TCP

     No, not at present.

  8. I get loads of strange errors trying to mount a machine from a
     Linux box.

     Make sure your users are in 8 groups or less. Older servers require
     this.

  9. When I reboot my machine it sometimes hangs when trying to unmount
     a hung NFS server.

     Do not unmount NFS servers when rebooting or halting, just ignore
     them, it will not hurt anything if you don't unmount them.  The
     command is umount -avt nonfs.

  10.
     Linux NFS clients are very slow when writing to Sun and BSD systems

     NFS writes are normally synchronous (you can disable this if you
     don't mind risking losing data). Worse still BSD derived kernels
     tend to be unable to work in small blocks. Thus when you write 4K
     of data from a Linux box in the 1K packets it uses BSD does this

               read 4K page
               alter 1K
               write 4K back to physical disk
               read 4K page
               alter 1K
               write 4K page back to physical disk
               etc..

  9.  Exporting filesystems

  The way to export filesytems with NFS is not completely consistent
  across platforms of course.  In this case Linux and Solaris 2 are the
  deviants.  This section lists, superficially the way to do it on most
  systems.  If the kind of system you have is not covered you must check
  your OS man-pages.  Keywords are: nfsd, system administration tool, rc
  scripts, boot scripts, boot sequence, /etc/exports, exportfs.  I'll
  use one example throughout this section: How to export /mn/eris/local
  to apollon read/write.

  9.1.  IRIX, HP-UX, Digital-UNIX, Ultrix, SunOS 4 (Solaris 1), AIX

  These OSes use the traditional Sun export format.  In /etc/exports
  write:

  ______________________________________________________________________
  /mn/eris/local -rw=apollon
  ______________________________________________________________________

  The complete documentation is in the exports man page.  After editing
  the file run exportfs -av to export the filesystems.

  How strict the exportfs command is about the syntax varies.  On some
  OSes you will find that previously entered lines reads:

  ______________________________________________________________________
  /mn/eris/local apollon
  ______________________________________________________________________

  or even something degenerate like:

  ______________________________________________________________________
  /mn/eris/local rw=apollon
  ______________________________________________________________________

  I recommend being formal.  You risk that the next version of exportfs
  if much stricter and then suddenly everything will stop working.

  9.2.  Solaris 2

  Sun completely re-invented the wheel when they did Solaris 2.  So this
  is completely different from all other OSes.  What you do is edit the
  file /etc/dfs/dfstab.  In it you place share commands as documented in
  the share(1M) man page.  Like this:

  ______________________________________________________________________
  share -o rw=apollon -d "Eris Local" /mn/eris/local
  ______________________________________________________________________

  After editing run the program shareall to export the filesystems.

  10.  PC-NFS

  You should not run PC-NFS.  You should run samba.

  Sorry: I don't know anything about PC-NFS.  If someone feels like
  writing something about it please do and I'll include it here.