sm-notify(8)


NAME

   sm-notify - send reboot notifications to NFS peers

SYNOPSIS

   /usr/sbin/sm-notify  [-dfn] [-m minutes] [-v name] [-p notify-port] [-P
   path]

DESCRIPTION

   File locks are not part of persistent file system state.  Lock state is
   thus lost when a host reboots.

   Network file systems must also detect when lock state is lost because a
   remote host has rebooted.  After an NFS client reboots, an  NFS  server
   must  release  all file locks held by applications that were running on
   that client.  After a server reboots, a client must remind  the  server
   of file locks held by applications running on that client.

   For  NFS  version  2 and version 3, the Network Status Monitor protocol
   (or NSM for short) is used to notify NFS peers of reboots.   On  Linux,
   two separate user-space components constitute the NSM service:

   sm-notify
          A  helper program that notifies NFS peers after the local system
          reboots

   rpc.statd
          A daemon that listens for reboot notifications from other hosts,
          and  manages  the  list  of  hosts to be notified when the local
          system reboots

   The local NFS lock manager alerts its local rpc.statd  of  each  remote
   peer  that should be monitored.  When the local system reboots, the sm-
   notify command notifies the NSM  service  on  monitored  peers  of  the
   reboot.  When a remote reboots, that peer notifies the local rpc.statd,
   which in turn passes the reboot notification back to the local NFS lock
   manager.

NSM OPERATION IN DETAIL

   The  first  file  locking  interaction between an NFS client and server
   causes the NFS lock managers on both peers to contact their  local  NSM
   service  to  store  information about the opposite peer.  On Linux, the
   local lock manager contacts rpc.statd.

   rpc.statd  records  information  about  each  monitored  NFS  peer   on
   persistent storage.  This information describes how to contact a remote
   peer in case the local system reboots, how to recognize which monitored
   peer  is  reporting  a reboot, and how to notify the local lock manager
   when a monitored peer indicates it has rebooted.

   An NFS client sends a hostname, known as the client's  caller_name,  in
   each  file  lock  request.  An NFS server can use this hostname to send
   asynchronous GRANT calls to a client, or to notify the  client  it  has
   rebooted.

   The  Linux  NFS  server  can  provide  the  client's caller_name or the
   client's network address to rpc.statd.  For the  purposes  of  the  NSM
   protocol,  this  name  or  address  is  known  as  the monitored peer's
   mon_name.  In addition, the local lock manager tells rpc.statd what  it
   thinks its own hostname is.  For the purposes of the NSM protocol, this
   hostname is known as my_name.

   There is no equivalent interaction between an NFS server and  a  client
   to  inform  the  client  of  the  server's  caller_name.  Therefore NFS
   clients do not actually know what mon_name an NFS server might  use  in
   an  SM_NOTIFY  request.   The  Linux  NFS  client  records the server's
   hostname used on the mount command to identify rebooting NFS servers.

   Reboot notification
   When the local system reboots, the sm-notify command reads the list  of
   monitored  peers from persistent storage and sends an SM_NOTIFY request
   to the NSM service on each listed remote peer.  It  uses  the  mon_name
   string  as  the  destination.  To identify which host has rebooted, the
   sm-notify command normally sends  my_name  string  recorded  when  that
   remote  was monitored.  The remote rpc.statd matches incoming SM_NOTIFY
   requests using this string, or the caller's network address, to one  or
   more peers on its own monitor list.

   If  rpc.statd  does not find a peer on its monitor list that matches an
   incoming SM_NOTIFY request, the notification is not  forwarded  to  the
   local  lock  manager.   In  addition,  each  peer has its own NSM state
   number, a 32-bit integer that is bumped after each reboot  by  the  sm-
   notify  command.   rpc.statd  uses  this  number to distinguish between
   actual reboots and replayed notifications.

   Part of NFS lock recovery is  rediscovering  which  peers  need  to  be
   monitored  again.   The  sm-notify  command  clears the monitor list on
   persistent storage after each reboot.

OPTIONS

   -d     Keeps sm-notify attached to its controlling terminal and running
          in the foreground so that notification progress may be monitored
          directly.

   -f     Send notifications even if sm-notify has already run  since  the
          last system reboot.

   -m retry-time
          Specifies  the  length of time, in minutes, to continue retrying
          notifications to unresponsive hosts.   If  this  option  is  not
          specified,  sm-notify  attempts  to  send  notifications  for 15
          minutes.  Specifying a value of 0 causes sm-notify  to  continue
          sending notifications to unresponsive peers until it is manually
          killed.

          Notifications are retried if sending fails, the remote does  not
          respond, the remote's NSM service is not registered, or if there
          is a DNS failure which prevents the remote's mon_name from being
          resolved to an address.

          Hosts  are  not removed from the notification list until a valid
          reply has been received.  However, the SM_NOTIFY procedure has a
          void  result.   There  is  no  way  for sm-notify to tell if the
          remote recognized the sender and has  started  appropriate  lock
          recovery.

   -n     Prevents  sm-notify  from  updating the local system's NSM state
          number.

   -p port
          Specifies the source  port  number  sm-notify  should  use  when
          sending  reboot notifications.  If this option is not specified,
          a randomly chosen ephemeral port is used.

          This option can be used to traverse a  firewall  between  client
          and server.

   -P, --state-directory-path pathname
          Specifies  the  pathname of the parent directory where NSM state
          information resides.  If this option is not specified, sm-notify
          uses /var/lib/nfs by default.

          After  starting, sm-notify attempts to set its effective UID and
          GID to the owner and group of this directory.

   -v ipaddr | hostname
          Specifies  the  network  address  from  which  to  send   reboot
          notifications,  and  the  mon_name  argument to use when sending
          SM_NOTIFY requests.  If this option is not specified,  sm-notify
          uses  a wildcard address as the transport bind address, and uses
          the my_name recorded  when  the  remote  was  monitored  as  the
          mon_name argument when sending SM_NOTIFY requests.

          The  ipaddr  form  can be expressed as either an IPv4 or an IPv6
          presentation address.  If the ipaddr form is used, the sm-notify
          command  converts  this  address  to  a  hostname for use as the
          mon_name argument when sending SM_NOTIFY requests.

          This option can be useful in  multi-homed  configurations  where
          the   remote  requires  notification  from  a  specific  network
          address.

SECURITY

   The sm-notify command must be started as  root  to  acquire  privileges
   needed  to  access  the  state  information  database.   It  drops root
   privileges as soon as it starts up to reduce the risk  of  a  privilege
   escalation attack.

   During  normal operation, the effective user ID it chooses is the owner
   of the state directory.  This allows it to continue to access files  in
   that  directory  after  it has dropped its root privileges.  To control
   which user ID rpc.statd chooses, simply use chown(1) to set  the  owner
   of the state directory.

ADDITIONAL NOTES

   Lock  recovery after a reboot is critical to maintaining data integrity
   and preventing unnecessary application hangs.

   To help rpc.statd match SM_NOTIFY requests to NLM requests, a number of
   best practices should be observed, including:

          The UTS nodename of your systems should match the DNS names that
          NFS peers use to contact them

          The UTS  nodenames  of  your  systems  should  always  be  fully
          qualified domain names

          The  forward and reverse DNS mapping of the UTS nodenames should
          be consistent

          The hostname the client uses to mount the  server  should  match
          the server's mon_name in SM_NOTIFY requests it sends

   Unmounting  an NFS file system does not necessarily stop either the NFS
   client or  server  from  monitoring  each  other.   Both  may  continue
   monitoring each other for a time in case subsequent NFS traffic between
   the two results in fresh mounts and additional file locking.

   On Linux,  if  the  lockd  kernel  module  is  unloaded  during  normal
   operation, all remote NFS peers are unmonitored.  This can happen on an
   NFS client, for example, if an automounter removes all NFS mount points
   due to inactivity.

   IPv6 and TI-RPC support
   TI-RPC  is  a  pre-requisite  for  supporting  NFS  on IPv6.  If TI-RPC
   support is  built  into  the  sm-notify  command  ,it  will  choose  an
   appropriate  IPv4  or  IPv6  transport  based  on  the  network address
   returned by DNS for each remote peer.  It should  be  fully  compatible
   with remote systems that do not support TI-RPC or IPv6.

   Currently, the sm-notify command supports sending notification only via
   datagram transport protocols.

FILES

   /var/lib/nfs/sm          directory containing monitor list

   /var/lib/nfs/sm.bak      directory containing notify list

   /var/lib/nfs/state       NSM state number for this host

   /proc/sys/fs/nfs/nsm_local_state
                            kernel's copy of the NSM state number

SEE ALSO

   rpc.statd(8), nfs(5), uname(2), hostname(7)

   RFC 1094 - "NFS: Network File System Protocol Specification"
   RFC 1813 - "NFS Version 3 Protocol Specification"
   OpenGroup Protocols for Interworking: XNFS, Version 3W - Chapter 11

AUTHORS

   Olaf Kirch <okir@suse.de>
   Chuck Lever <chuck.lever@oracle.com>

                            1 November 2009                   SM-NOTIFY(8)





Opportunity


Personal Opportunity - Free software gives you access to billions of dollars of software at no cost. Use this software for your business, personal use or to develop a profitable skill. Access to source code provides access to a level of capabilities/information that companies protect though copyrights. Open source is a core component of the Internet and it is available to you. Leverage the billions of dollars in resources and capabilities to build a career, establish a business or change the world. The potential is endless for those who understand the opportunity.

Business Opportunity - Goldman Sachs, IBM and countless large corporations are leveraging open source to reduce costs, develop products and increase their bottom lines. Learn what these companies know about open source and how open source can give you the advantage.





Free Software


Free Software provides computer programs and capabilities at no cost but more importantly, it provides the freedom to run, edit, contribute to, and share the software. The importance of free software is a matter of access, not price. Software at no cost is a benefit but ownership rights to the software and source code is far more significant.


Free Office Software - The Libre Office suite provides top desktop productivity tools for free. This includes, a word processor, spreadsheet, presentation engine, drawing and flowcharting, database and math applications. Libre Office is available for Linux or Windows.





Free Books


The Free Books Library is a collection of thousands of the most popular public domain books in an online readable format. The collection includes great classical literature and more recent works where the U.S. copyright has expired. These books are yours to read and use without restrictions.


Source Code - Want to change a program or know how it works? Open Source provides the source code for its programs so that anyone can use, modify or learn how to write those programs themselves. Visit the GNU source code repositories to download the source.





Education


Study at Harvard, Stanford or MIT - Open edX provides free online courses from Harvard, MIT, Columbia, UC Berkeley and other top Universities. Hundreds of courses for almost all major subjects and course levels. Open edx also offers some paid courses and selected certifications.


Linux Manual Pages - A man or manual page is a form of software documentation found on Linux/Unix operating systems. Topics covered include computer programs (including library and system calls), formal standards and conventions, and even abstract concepts.