-.\" nfs.5 "Rick Sladkey" <jrs@world.std.com>
-.\" Wed Feb 8 12:52:42 1995, faith@cs.unc.edu: updates for Ross Biro's
-.\" patches. "
-.TH NFS 5 "20 November 1993" "Linux 0.99" "Linux Programmer's Manual"
+.\"@(#)nfs.5"
+.TH NFS 5 "2 November 2007"
.SH NAME
-nfs \- nfs and nfs4 fstab format and options
+nfs \- fstab format and options for the
+.B nfs
+and
+.B nfs4
+file systems
.SH SYNOPSIS
-.B /etc/fstab
+.I /etc/fstab
.SH DESCRIPTION
+NFS is an Internet Standard protocol
+created by Sun Microsystems in 1984. NFS was developed
+to allow file sharing between systems residing
+on a local area network.
+The Linux NFS client supports three versions
+of the NFS protocol:
+NFS version 2 [RFC1094],
+NFS version 3 [RFC1813],
+and NFS version 4 [RFC3530].
+.P
The
-.I fstab
-file contains information about which filesystems
-to mount where and with what options.
-For NFS mounts, it contains the server name and
-exported server directory to mount from,
-the local directory that is the mount point,
-and the NFS specific options that control
-the way the filesystem is mounted.
-.P
-Three different versions of the NFS protocol are
-supported by the Linux NFS client:
-NFS version 2, NFS version 3, and NFS version 4.
-To mount via NFS version 2, use the
-.BR nfs
-file system type and specify
-.BR nfsvers=2 .
-To mount via NFS version 3, use the
-.BR nfs
-file system type and specify
-.BR nfsvers=3 .
-Version 3 is the default protocol version for the
-.BR nfs
-file system type when
-.BR nfsvers=
-is not specified on the mount command and both client and server
-support it.
-To mount via NFS version 4, use the
-.BR nfs4
-file system type.
+.BR mount (8)
+command attaches a file system to the system's
+name space hierarchy at a given mount point.
The
-.BR nfsvers=
-keyword is not supported for the
-.BR nfs4
-file system type.
+.I /etc/fstab
+file describes how
+.BR mount (8)
+should assemble a system's file name hierarchy
+from various independent file systems
+(including file systems exported by NFS servers).
+Each line in the
+.I /etc/fstab
+file describes a single file system, its mount point,
+and a set of default mount options for that mount point.
.P
-These file system types share similar mount options;
-the differences are listed below.
+For NFS file system mounts, a line in the
+.I /etc/fstab
+file specifies the server name,
+the path name of the exported server directory to mount,
+the local directory that is the mount point,
+the type of file system that is being mounted,
+and a list of mount options that control
+the way the filesystem is mounted and
+how the NFS client behaves when accessing
+files on this mount point.
+The fifth and sixth fields on each line are not used
+by NFS, thus conventionally each contain the digit zero. For example:
.P
-Here is an example from an \fI/etc/fstab\fP file for an NFSv3 mount
-over TCP.
-.sp
-.nf
-.ta 2.5i +0.75i +0.75i +1.0i
-server:/usr/local/pub /pub nfs rsize=32768,wsize=32768,timeo=14,intr
-.fi
+.SP
+.NF
+.TA 2.5i +0.75i +0.75i +1.0i
+ server:path /mountpoint fstype option,option,... 0 0
+.FI
.P
-Here is an example for an NFSv4 mount over TCP using Kerberos
-5 mutual authentication.
-.sp
-.nf
-.ta 2.5i +0.75i +0.75i +1.0i
-server:/usr/local/pub /pub nfs4 proto=tcp,sec=krb5,hard,intr
-.fi
+The server's hostname and export pathname
+are separated by a colon, while
+the mount options are separated by commas. The remaining fields
+are separated by blanks or tabs.
+The server's hostname can be an unqualified hostname,
+a fully qualified domain name,
+or a dotted quad IPv4 address.
+The
+.I fstype
+field contains either "nfs" (for version 2 or version 3 NFS mounts)
+or "nfs4" (for NFS version 4 mounts).
+The
+.B nfs
+and
+.B nfs4
+file system types share similar mount options,
+which are described below.
+.SH "MOUNT OPTIONS"
+Refer to
+.BR mount (8)
+for a description of generic mount options
+available for all file systems. If you do not need to
+specify any mount options, use the generic option
+.B defaults
+in
+.IR /etc/fstab .
+.
.DT
-.SS Options for the nfs file system type
-.TP 1.5i
-.I rsize=n
-The number of bytes NFS uses when reading files from an NFS server.
-The rsize is negotiated between the server and client to determine
-the largest block size that both can support.
-The value specified by this option is the maximum size that could
-be used; however, the actual size used may be smaller.
-Note: Setting this size to a value less than the largest supported
-block size will adversely affect performance.
-.TP 1.5i
-.I wsize=n
-The number of bytes NFS uses when writing files to an NFS server.
-The wsize is negotiated between the server and client to determine
-the largest block size that both can support.
-The value specified by this option is the maximum size that could
-be used; however, the actual size used may be smaller.
-Note: Setting this size to a value less than the largest supported
-block size will adversely affect performance.
-.TP 1.5i
-.I 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 seconds is reached or the enough retransmissions
-have occured to cause a major timeout. 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
-retransmission. 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 gateways.
-.TP 1.5i
-.I retrans=n
-The number of minor timeouts and retransmissions that must occur before
-a major timeout occurs. The default is 3 timeouts. When a major timeout
-occurs, the file operation is either aborted or a "server not responding"
-message is printed on the console.
-.TP 1.5i
-.I acregmin=n
-The minimum time in seconds that attributes of a regular file should
-be cached before requesting fresh information from a server.
-The default is 3 seconds.
-.TP 1.5i
-.I acregmax=n
-The maximum time in seconds that attributes of a regular file can
-be cached before requesting fresh information from a server.
-The default is 60 seconds.
-.TP 1.5i
-.I acdirmin=n
-The minimum time in seconds that attributes of a directory should
-be cached before requesting fresh information from a server.
-The default is 30 seconds.
-.TP 1.5i
-.I acdirmax=n
-The maximum time in seconds that attributes of a directory can
-be cached before requesting fresh information from a server.
-The default is 60 seconds.
-.TP 1.5i
-.I actimeo=n
-Using actimeo sets all of
-.I acregmin,
-.I acregmax,
-.I acdirmin,
+.SS "Valid options for either the nfs or nfs4 file system type"
+These options are valid to use when mounting either
+.B nfs
+or
+.B nfs4
+file system types.
+They imply the same behavior
+and have the same default for both file system types.
+.TP 1.5i
+.BR soft " / " hard
+Determines the recovery behavior of the NFS client
+after an NFS request times out.
+If neither option is specified (or if the
+.B hard
+option is specified), NFS requests are retried indefinitely.
+If the
+.B soft
+option is specified, then the NFS client fails an NFS request
+after
+.B retrans
+retransmissions have been sent,
+causing the NFS client to return an error
+to the calling application.
+.IP
+.I NB:
+A so-called "soft" timeout can cause
+silent data corruption in certain cases. As such, use the
+.B soft
+option only when client responsiveness
+is more important than data integrity.
+Using NFS over TCP or increasing the value of the
+.B retrans
+option may mitigate some of the risks of using the
+.B soft
+option.
+.TP 1.5i
+.BI timeo= n
+The time (in tenths of a second) the NFS client waits for a
+response before it retries an NFS request. If this
+option is not specified, requests are retried every
+60 seconds for NFS over TCP.
+The NFS client does not perform any kind of timeout backoff
+for NFS over TCP.
+.IP
+However, for NFS over UDP, the client uses an adaptive
+algorithm to estimate an appropriate timeout value for frequently used
+request types (such as READ and WRITE requests), but uses the
+.B timeo
+setting for infrequently used request types (such as FSINFO requests).
+If the
+.B timeo
+option is not specified,
+infrequently used request types are retried after 1.1 seconds.
+After each retransmission, the NFS client doubles the timeout for
+that request,
+up to a maximum timeout length of 60 seconds.
+.TP 1.5i
+.BI retrans= n
+The number of times the NFS client retries a request before
+it attempts further recovery action. If the
+.B retrans
+option is not specified, the NFS client tries each request
+three times.
+.IP
+The NFS client generates a "server not responding" message
+after
+.B retrans
+retries, then attempts further recovery (depending on whether the
+.B hard
+mount option is in effect).
+.TP 1.5i
+.BI rsize= n
+The maximum number of bytes in each network READ request
+that the NFS client can receive when reading data from a file
+on an NFS server.
+The actual data payload size of each NFS READ request is equal to
+or smaller than the
+.B rsize
+setting. The largest read payload supported by the Linux NFS client
+is 1,048,576 bytes (one megabyte).
+.IP
+The
+.B rsize
+value is a positive integral multiple of 1024.
+Specified
+.B rsize
+values lower than 1024 are replaced with 4096; values larger than
+1048576 are replaced with 1048576. If a specified value is within the supported
+range but not a multiple of 1024, it is rounded down to the nearest
+multiple of 1024.
+.IP
+If an
+.B rsize
+value is not specified, or if the specified
+.B rsize
+value is larger than the maximum that either client or server can support,
+the client and server negotiate the largest
+.B rsize
+value that they can both support.
+.IP
+The
+.B rsize
+mount option as specified on the
+.BR mount (8)
+command line appears in the
+.I /etc/mtab
+file. However, the effective
+.B rsize
+value negotiated by the client and server is reported in the
+.I /proc/mounts
+file.
+.TP 1.5i
+.BI wsize= n
+The maximum number of bytes per network WRITE request
+that the NFS client can send when writing data to a file
+on an NFS server. The actual data payload size of each
+NFS WRITE request is equal to
+or smaller than the
+.B wsize
+setting. The largest write payload supported by the Linux NFS client
+is 1,048,576 bytes (one megabyte).
+.IP
+Similar to
+.B rsize
+, the
+.B wsize
+value is a positive integral multiple of 1024.
+Specified
+.B wsize
+values lower than 1024 are replaced with 4096; values larger than
+1048576 are replaced with 1048576. If a specified value is within the supported
+range but not a multiple of 1024, it is rounded down to the nearest
+multiple of 1024.
+.IP
+If a
+.B wsize
+value is not specified, or if the specified
+.B wsize
+value is larger than the maximum that either client or server can support,
+the client and server negotiate the largest
+.B wsize
+value that they can both support.
+.IP
+The
+.B wsize
+mount option as specified on the
+.BR mount (8)
+command line appears in the
+.I /etc/mtab
+file. However, the effective
+.B wsize
+value negotiated by the client and server is reported in the
+.I /proc/mounts
+file.
+.TP 1.5i
+.BR ac " / " noac
+Selects whether the client may cache file attributes. If neither
+option is specified (or if
+.B ac
+is specified), the client caches file
+attributes.
+.IP
+To improve performance, NFS clients cache file
+attributes. Every few seconds, an NFS client checks the server's version of each
+file's attributes for updates. Changes that occur on the server in
+those small intervals remain undetected until the client checks the
+server again. The
+.B noac
+option prevents clients from caching file
+attributes so that applications can more quickly detect file changes
+on the server.
+.IP
+In addition to preventing the client from caching file attributes,
+the
+.B noac
+option forces application writes to become synchronous so
+that local changes to a file become visible on the server
+immediately. That way, other clients can quickly detect recent
+writes when they check the file's attributes.
+.IP
+Using the
+.B noac
+option provides greater cache coherence among NFS clients
+accessing the same files,
+but it extracts a significant performance penalty.
+As such, judicious use of file locking is encouraged instead.
+The DATA AND METADATA COHERENCE section contains a detailed discussion
+of these trade-offs.
+.TP 1.5i
+.BI acregmin= n
+The minimum time (in seconds) that the NFS client caches
+attributes of a regular file before it requests
+fresh attribute information from a server.
+If this option is not specified, the NFS client uses
+a 3-second minimum.
+.TP 1.5i
+.BI acregmax= n
+The maximum time (in seconds) that the NFS client caches
+attributes of a regular file before it requests
+fresh attribute information from a server.
+If this option is not specified, the NFS client uses
+a 60-second maximum.
+.TP 1.5i
+.BI acdirmin= n
+The minimum time (in seconds) that the NFS client caches
+attributes of a directory before it requests
+fresh attribute information from a server.
+If this option is not specified, the NFS client uses
+a 30-second minimum.
+.TP 1.5i
+.BI acdirmax= n
+The maximum time (in seconds) that the NFS client caches
+attributes of a directory before it requests
+fresh attribute information from a server.
+If this option is not specified, the NFS client uses
+a 60-second maximum.
+.TP 1.5i
+.BI actimeo= n
+Using
+.B actimeo
+sets all of
+.BR acregmin ,
+.BR acregmax ,
+.BR acdirmin ,
and
-.I acdirmax
+.B acdirmax
to the same value.
-There is no default value.
+If this option is not specified, the NFS client uses
+the defaults for each of these options listed above.
+.TP 1.5i
+.BR bg " / " fg
+Determines how the
+.BR mount (8)
+command behaves if an attempt to mount an export fails.
+The
+.B fg
+option causes
+.BR mount (8)
+to exit with an error status if any part of the mount request
+times out or fails outright.
+This is called a "foreground" mount,
+and is the default behavior if neither the
+.B fg
+nor
+.B bg
+mount option is specified.
+.IP
+If the
+.B bg
+option is specified, a timeout or failure causes the
+.BR mount (8)
+command to fork a child which continues to attempt
+to mount the export.
+The parent immediately returns with a zero exit code.
+This is known as a "background" mount.
+.IP
+If the local mount point directory is missing, the
+.BR mount (8)
+command acts as if the mount request timed out.
+This permits nested NFS mounts specified in
+.I /etc/fstab
+to proceed in any order during system initialization,
+even if some NFS servers are not yet available.
+Alternatively these issues can be addressed
+using an automounter (refer to
+.BR automount (8)
+for details).
.TP 1.5i
-.I retry=n
-The number of minutes to retry an NFS mount operation
+.BI retry= n
+The number of minutes that the
+.BR mount (8)
+command retries an NFS mount operation
in the foreground or background before giving up.
-The default value for forground mounts is 2 minutes.
-The default value for background mounts is 10000 minutes,
-which is roughly one week.
-.TP 1.5i
-.I namlen=n
-When an NFS server does not support version two of the
-RPC mount protocol, this option can be used to specify
-the maximum length of a filename that is supported on
-the remote filesystem. This is used to support the
-POSIX pathconf functions. The default is 255 characters.
-.TP 1.5i
-.I port=n
-The numeric value of the port to connect to the NFS server on.
-If the port number is 0 (the default) then query the
-remote host's portmapper for the port number to use.
-If the remote host's NFS daemon is not registered with
-its portmapper, the standard NFS port number 2049 is
-used instead.
-.TP 1.5i
-.I mountport=n
-The numeric value of the
-.B mountd
-port.
-.TP 1.5i
-.I mounthost=name
-The name of the host running
-.B mountd .
-.TP 1.5i
-.I mountprog=n
-Use an alternate RPC program number to contact the
-mount daemon on the remote host. This option is useful
-for hosts that can run multiple NFS servers.
-The default value is 100005 which is the standard RPC
-mount daemon program number.
-.TP 1.5i
-.I mountvers=n
-Use an alternate RPC version number to contact the
-mount daemon on the remote host. This option is useful
-for hosts that can run multiple NFS servers.
-The default value depends on which kernel you are using.
-.TP 1.5i
-.I nfsprog=n
-Use an alternate RPC program number to contact the
-NFS daemon on the remote host. This option is useful
-for hosts that can run multiple NFS servers.
-The default value is 100003 which is the standard RPC
-NFS daemon program number.
-.TP 1.5i
-.I nfsvers=n
-Use an alternate RPC version number to contact the
-NFS daemon on the remote host. This option is useful
-for hosts that can run multiple NFS servers.
-The default value depends on which kernel you are using.
-.TP 1.5i
-.I vers=n
-vers is an alternative to nfsvers and is compatible with
-many other operating systems.
-.TP 1.5i
-.I nolock
-Disable NFS locking. Do not start lockd.
-This is appropriate for mounting the root filesystem or
-.B /usr
-or
-.BR /var .
-These filesystems are typically either read-only or not shared, and in
-those cases, remote locking is not needed.
-This also needs to be used with some old NFS servers
-that don't support locking.
-.br
-Note that applications can still get locks on files, but the locks
-only provide exclusion locally. Other clients mounting the same
-filesystem will not be able to detect the locks.
-.TP 1.5i
-.I bg
-If the first NFS mount attempt times out, retry the mount
-in the background.
-After a mount operation is backgrounded, all subsequent mounts
-on the same NFS server will be backgrounded immediately, without
-first attempting the mount.
-A missing mount point is treated as a timeout,
-to allow for nested NFS mounts.
-.TP 1.5i
-.I fg
-If the first NFS mount attempt times out, retry the mount
-in the foreground.
-This is the complement of the
-.I bg
-option, and also the default behavior.
-.TP 1.5i
-.I soft
-If an NFS file operation has a major timeout then report an I/O error to
-the calling program.
-The default is to continue retrying NFS file operations indefinitely.
-.TP 1.5i
-.I hard
-If an NFS file operation has a major timeout then report
-"server not responding" on the console and continue retrying indefinitely.
-This is the default.
-.TP 1.5i
-.I intr
-If an NFS file operation has a major timeout and it is hard mounted,
-then allow signals to interupt the file operation and cause it to
-return EINTR to the calling program. The default is to not
-allow file operations to be interrupted.
-.TP 1.5i
-.I posix
-Mount the NFS filesystem using POSIX semantics. This allows
-an NFS filesystem to properly support the POSIX pathconf
-command by querying the mount server for the maximum length
-of a filename. To do this, the remote host must support version
-two of the RPC mount protocol. Many NFS servers support only
-version one.
-.TP 1.5i
-.I nocto
-Suppress the retrieval of new attributes when creating a file.
-.TP 1.5i
-.I noac
-Disable all forms of attribute caching entirely. This extracts a
-significant performance penalty but it allows two different NFS clients
-to get reasonable results when both clients are actively
-writing to a common export on the server.
-.TP 1.5i
-.I noacl
-Disables Access Control List (ACL) processing.
-.TP 1.5i
-.I sec=mode
-Set the security flavor for this mount to "mode".
-The default setting is \f3sec=sys\f1, which uses local
-unix uids and gids to authenticate NFS operations (AUTH_SYS).
-Other currently supported settings are:
-\f3sec=krb5\f1, which uses Kerberos V5 instead of local unix uids
-and gids to authenticate users;
-\f3sec=krb5i\f1, which uses Kerberos V5 for user authentication
-and performs integrity checking of NFS operations using secure
-checksums to prevent data tampering; and
-\f3sec=krb5p\f1, which uses Kerberos V5 for user authentication
-and integrity checking, and encrypts NFS traffic to prevent
-traffic sniffing (this is the most secure setting).
-Note that there is a performance penalty when using integrity
-or privacy.
-.TP 1.5i
-.I tcp
-Mount the NFS filesystem using the TCP protocol. This is the default
-if it is supported by both client and server. Many NFS servers only
-support UDP.
-.TP 1.5i
-.I udp
-Mount the NFS filesystem using the UDP protocol.
-.TP 1.5i
-.I nordirplus
-Disables NFSv3 READDIRPLUS RPCs. Use this option when
-mounting servers that don't support or have broken
-READDIRPLUS implementations.
-.P
-All of the non-value options have corresponding nooption forms.
-For example, nointr means don't allow file operations to be
-interrupted.
-.SS Options for the nfs4 file system type
-.TP 1.5i
-.I rsize=n
-The number of bytes nfs4 uses when reading files from the server.
-The rsize is negotiated between the server and client to determine
-the largest block size that both can support.
-The value specified by this option is the maximum size that could
-be used; however, the actual size used may be smaller.
-Note: Setting this size to a value less than the largest supported
-block size will adversely affect performance.
-.TP 1.5i
-.I wsize=n
-The number of bytes nfs4 uses when writing files to the server.
-The wsize is negotiated between the server and client to determine
-the largest block size that both can support.
-The value specified by this option is the maximum size that could
-be used; however, the actual size used may be smaller.
-Note: Setting this size to a value less than the largest supported
-block size will adversely affect performance.
-.TP 1.5i
-.I timeo=n
-The value in tenths of a second before sending the
-first retransmission after an RPC timeout.
-The default value depends on whether
-.IR proto=udp
+If this option is not specified, the default value for foreground mounts
+is 2 minutes, and the default value for background mounts is 10000 minutes (80 minutes shy of one week).
+.TP 1.5i
+.BI sec= mode
+The RPCGSS security flavor to use for accessing files on this mount point.
+If the
+.B sec
+option is not specified, or if
+.B sec=sys
+is specified, the NFS client uses the AUTH_SYS security flavor
+for all NFS requests on this mount point.
+Valid security flavors are
+.BR none ,
+.BR sys ,
+.BR krb5 ,
+.BR krb5i ,
+.BR krb5p ,
+.BR lkey ,
+.BR lkeyi ,
+.BR lkeyp ,
+.BR spkm ,
+.BR spkmi ,
+and
+.BR spkmp .
+Refer to the SECURITY CONSIDERATIONS section for details.
+.TP 1.5i
+.BR sharecache " / " nosharecache
+Determines how the client's data cache and attribute cache are shared
+when mounting the same export more than once concurrently. Using the
+same cache reduces memory requirements on the client and presents
+identical file contents to applications when the same remote file is
+accessed via different mount points.
+.IP
+If neither option is specified, or if the
+.B sharecache
+option is
+specified, then a single cache is used for all mount points that
+access the same export. If the
+.B nosharecache
+option is specified,
+then that mount point gets a unique cache. Note that when data and
+attribute caches are shared, the mount options from the first mount
+point take effect for subsequent concurrent mounts of the same export.
+.IP
+As of kernel 2.6.18, the behavior specified by
+.B nosharecache
+is legacy caching behavior. This
+is considered a data risk since multiple cached copies
+of the same file on the same client can become out of sync
+following a local update of one of the copies.
+.SS "Valid options for the nfs file system type"
+Use these options, along with the options in the above subsection,
+for mounting the
+.B nfs
+file system type.
+.TP 1.5i
+.BI proto= netid
+The transport protocol used by the NFS client
+to transmit requests to the NFS server for this mount point.
+.I netid
+can be either
+.B udp
or
-.IR proto=tcp
-is in effect (see below).
-The default value for UDP is 7 tenths of a second.
-The default value for TCP is 60 seconds.
-After the first timeout,
-the timeout is doubled after each successive timeout until a maximum
-timeout of 60 seconds is reached or the enough retransmissions
-have occured to cause a major timeout. 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
-retransmission. The maximum timeout is always 60 seconds.
-.TP 1.5i
-.I retrans=n
-The number of minor timeouts and retransmissions that must occur before
-a major timeout occurs. The default is 5 timeouts for
-.IR proto=udp
-and 2 timeouts for
-.IR proto=tcp .
-When a major timeout
-occurs, the file operation is either aborted or a "server not responding"
-message is printed on the console.
-.TP 1.5i
-.I acregmin=n
-The minimum time in seconds that attributes of a regular file should
-be cached before requesting fresh information from a server.
-The default is 3 seconds.
-.TP 1.5i
-.I acregmax=n
-The maximum time in seconds that attributes of a regular file can
-be cached before requesting fresh information from a server.
-The default is 60 seconds.
-.TP 1.5i
-.I acdirmin=n
-The minimum time in seconds that attributes of a directory should
-be cached before requesting fresh information from a server.
-The default is 30 seconds.
-.TP 1.5i
-.I acdirmax=n
-The maximum time in seconds that attributes of a directory can
-be cached before requesting fresh information from a server.
-The default is 60 seconds.
-.TP 1.5i
-.I actimeo=n
-Using actimeo sets all of
-.I acregmin,
-.I acregmax,
-.I acdirmin,
+.BR tcp .
+Each transport protocol uses different default
+.B retrans
and
-.I acdirmax
-to the same value.
-There is no default value.
+.B timeo
+settings; refer to the description of these two mount options for details.
+.IP
+In addition to controlling how the NFS client transmits requests to
+the server, this mount option also controls how the
+.BR mount (8)
+command communicates with the server's rpcbind and mountd services.
+Specifying
+.B proto=tcp
+forces all traffic from the
+.BR mount (8)
+command and the NFS client to use TCP.
+Specifying
+.B proto=udp
+forces all traffic types to use UDP.
+.IP
+If the
+.B proto
+mount option is not specified, the
+.BR mount (8)
+command discovers which protocols the server supports
+and chooses an appropriate transport for each service.
+Refer to the TRANSPORT METHODS section for more details.
.TP 1.5i
-.I retry=n
-The number of minutes to retry an NFS mount operation
-in the foreground or background before giving up.
-The default value for forground mounts is 2 minutes.
-The default value for background mounts is 10000 minutes,
-which is roughly one week.
-.TP 1.5i
-.I port=n
-The numeric value of the port to connect to the NFS server on.
-If the port number is 0 (the default) then query the
-remote host's portmapper for the port number to use.
-If the remote host's NFS daemon is not registered with
-its portmapper, the standard NFS port number 2049 is
-used instead.
-.TP 1.5i
-.I proto=n
-Mount the NFS filesystem using a specific network protocol
-instead of the default UDP protocol.
-Many NFS version 4 servers only support TCP.
-Valid protocol types are
-.IR udp
+.B udp
+The
+.B udp
+option is an alternative to specifying
+.BR proto=udp.
+It is included for compatibility with other operating systems.
+.TP 1.5i
+.B tcp
+The
+.B tcp
+option is an alternative to specifying
+.BR proto=tcp.
+It is included for compatibility with other operating systems.
+.TP 1.5i
+.BI port= n
+The numeric value of the server's NFS service port.
+If the server's NFS service is not available on the specified port,
+the mount request fails.
+.IP
+If this option is not specified, or if the specified port value is 0,
+then the NFS client uses the NFS service port number
+advertised by the server's rpcbind service.
+The mount request fails if the server's rpcbind service is not available,
+the server's NFS service is not registered with its rpcbind service,
+or the server's NFS service is not available on the advertised port.
+.TP 1.5i
+.BI mountport= n
+The numeric value of the server's mountd port.
+If the server's mountd service is not available on the specified port,
+the mount request fails.
+.IP
+If this option is not specified,
+or if the specified port value is 0, then the
+.BR mount (8)
+command uses the mountd service port number
+advertised by the server's rpcbind service.
+The mount request fails if the server's rpcbind service is not available,
+the server's mountd service is not registered with its rpcbind service,
+or the server's mountd service is not available on the advertised port.
+.IP
+This option can be used when mounting an NFS server
+through a firewall that blocks the rpcbind protocol.
+.TP 1.5i
+.BI mountproto= netid
+The transport protocol used by the NFS client
+to transmit requests to the NFS server's mountd service when performing
+this mount request, and when later unmounting this mount point.
+.I netid
+can be either
+.B udp
+or
+.BR tcp .
+.IP
+This option can be used when mounting an NFS server
+through a firewall that blocks a particular transport protocol.
+When used in combination with the
+.B proto
+option, different transports for mountd requests and NFS requests
+can be specified.
+If the server's mountd service is not available via the specified
+transport, the mount request fails.
+.TP 1.5i
+.BI mounthost= name
+The hostname of the host running mountd.
+If this option is not specified, the
+.BR mount (8)
+command assumes that the mountd service runs
+on the same host as the NFS service.
+.TP 1.5i
+.BI mountvers= n
+The RPC version number used to contact the server's mountd.
+If this option is not specified, the client uses a version number
+appropriate to the requested NFS version.
+This option is useful when multiple NFS services
+are running on the same remote server host.
+.TP 1.5i
+.BI namlen= n
+The maximum length of a pathname component on this mount.
+If this option is not specified, the maximum length is negotiated
+with the server. In most cases, this maximum length is 255 characters.
+.IP
+Some early versions of NFS did not support this negotiation.
+Using this option ensures that
+.BR pathconf (3)
+reports the proper maximum component length to applications
+in such cases.
+.TP 1.5i
+.BI nfsvers= n
+The NFS protocol version number used to contact the server's NFS service.
+The Linux client supports version 2 and version 3 of the NFS protocol
+when using the file system type
+.BR nfs .
+If the server does not support the requested version,
+the mount request fails.
+If this option is not specified, the client attempts to use version 3,
+but negotiates the NFS version with the server if version 3 support
+is not available.
+.TP 1.5i
+.BI vers= n
+This option is an alternative to the
+.B nfsvers
+option.
+It is included for compatibility with other operating systems.
+.TP 1.5i
+.BR lock " / " nolock
+Selects whether to use the NLM sideband protocol to lock files on the server.
+If neither option is specified (or if
+.B lock
+is specified), NLM locking is used for this mount point.
+When using the
+.B nolock
+option, applications can lock files,
+but such locks provide exclusion only against other applications
+running on the same client.
+Remote applications are not affected by these locks.
+.IP
+NLM locking must be disabled with the
+.B nolock
+option when using NFS to mount
+.I /var
+because
+.I /var
+contains files used by the NLM implementation on Linux.
+Using the
+.B nolock
+option is also required when mounting exports on NFS servers
+that do not support the NLM protocol.
+.TP 1.5i
+.BR intr " / " nointr
+Selects whether to allow signals to interrupt file operations
+on this mount point. If neither option
+is specified (or if
+.B nointr
+is specified),
+signals do not interrupt NFS file operations. If
+.B intr
+is specified, system calls return EINTR if an in-progress NFS operation is interrupted by
+a signal.
+.IP
+Using the
+.B intr
+option is preferred to using the
+.B soft
+option because it is significantly less likely to result in data corruption.
+.TP 1.5i
+.BR cto " / " nocto
+Selects whether to use close-to-open cache coherence semantics.
+If neither option is specified (or if
+.B cto
+is specified), the client uses close-to-open
+cache coherence semantics. If the
+.B nocto
+option is specified, the client uses a non-standard heuristic to determine when
+files on the server have changed.
+.IP
+Using the
+.B nocto
+option may improve performance for read-only mounts,
+but should be used only if the data on the server changes only occasionally.
+The DATA AND METADATA COHERENCE section discusses the behavior
+of this option in more detail.
+.TP 1.5i
+.BR acl " / " noacl
+Selects whether to use the NFSACL sideband protocol on this mount point.
+The NFSACL sideband protocol is a proprietary protocol
+implemented in Solaris that manages Access Control Lists. NFSACL was never
+made a standard part of the NFS protocol specification.
+.IP
+If neither
+.B acl
+nor
+.B noacl
+option is specified,
+the NFS client negotiates with the server
+to see if the NFSACL protocol is supported,
+and uses it if the server supports it.
+Disabling the NFSACL sideband protocol may be necessary
+if the negotiation causes problems on the client or server.
+Refer to the SECURITY CONSIDERATIONS section for more details.
+.TP 1.5i
+.BR rdirplus " / " nordirplus
+Selects whether to use NFS version 3 READDIRPLUS requests.
+If this option is not specified, the NFS client uses READDIRPLUS requests
+on NFS version 3 mounts to read small directories.
+Some applications perform better if the client uses only READDIR requests
+for all directories.
+.SS "Valid options for the nfs4 file system type"
+Use these options, along with the options in the first subsection above,
+for mounting the
+.B nfs4
+file system type.
+.TP 1.5i
+.BI proto= netid
+The transport protocol used by the NFS client
+to transmit requests to the NFS server for this mount point.
+.I netid
+can be either
+.B udp
+or
+.BR tcp .
+All NFS version 4 servers are required to support TCP,
+so if this mount option is not specified, the NFS version 4 client
+uses the TCP transport protocol.
+Refer to the TRANSPORT METHODS section for more details.
+.TP 1.5i
+.BI port= n
+The numeric value of the server's NFS service port.
+If the server's NFS service is not available on the specified port,
+the mount request fails.
+.IP
+If this mount option is not specified,
+the NFS client uses the standard NFS port number of 2049
+without first checking the server's rpcbind service.
+This allows an NFS version 4 client to contact an NFS version 4
+server through a firewall that may block rpcbind requests.
+.IP
+If the specified port value is 0,
+then the NFS client uses the NFS service port number
+advertised by the server's rpcbind service.
+The mount request fails if the server's rpcbind service is not available,
+the server's NFS service is not registered with its rpcbind service,
+or the server's NFS service is not available on the advertised port.
+.TP 1.5i
+.BR intr " / " nointr
+Selects whether to allow signals to interrupt file operations
+on this mount point. If neither option is specified (or if
+.B intr
+is specified), system calls return EINTR if an in-progress NFS operation
+is interrupted by a signal. If
+.B nointr
+is specified, signals do not
+interrupt NFS operations.
+.IP
+Using the
+.B intr
+option is preferred to using the
+.B soft
+option because it is significantly less likely to result in data corruption.
+.TP 1.5i
+.BR cto " / " nocto
+Selects whether to use close-to-open cache coherence semantics
+for NFS directories on this mount point.
+If neither
+.B cto
+nor
+.B nocto
+is specified,
+the default is to use close-to-open cache coherence
+semantics for directories.
+.IP
+File data caching behavior is not affected by this option.
+The DATA AND METADATA COHERENCE section discusses
+the behavior of this option in more detail.
+.TP 1.5i
+.BI clientaddr= n.n.n.n
+Specifies a single IPv4 address (in dotted-quad form)
+that the NFS client advertises to allow servers
+to perform NFS version 4 callback requests against
+files on this mount point. If the server is unable to
+establish callback connections to clients, performance
+may degrade, or accesses to files may temporarily hang.
+.IP
+If this option is not specified, the
+.BR mount (8)
+command attempts to discover an appropriate callback address automatically.
+The automatic discovery process is not perfect, however.
+In the presence of multiple client network interfaces,
+special routing policies,
+or atypical network topologies,
+the exact address to use for callbacks may be nontrivial to determine.
+.SH EXAMPLES
+To mount an export using NFS version 2,
+use the
+.B nfs
+file system type and specify the
+.B nfsvers=2
+mount option.
+To mount using NFS version 3,
+use the
+.B nfs
+file system type and specify the
+.B nfsvers=3
+mount option.
+To mount using NFS version 4,
+use the
+.B nfs4
+file system type.
+The
+.B nfsvers
+mount option is not supported for the
+.B nfs4
+file system type.
+.P
+The following example from an
+.I /etc/fstab
+file causes the mount command to negotiate
+reasonable defaults for NFS behavior.
+.P
+.NF
+.TA 2.5i +0.7i +0.7i +.7i
+ server:/export /mnt nfs defaults 0 0
+.FI
+.P
+Here is an example from an /etc/fstab file for an NFS version 2 mount over UDP.
+.P
+.NF
+.TA 2.5i +0.7i +0.7i +.7i
+ server:/export /mnt nfs nfsvers=2,proto=udp 0 0
+.FI
+.P
+Try this example to mount using NFS version 4 over TCP
+with Kerberos 5 mutual authentication.
+.P
+.NF
+.TA 2.5i +0.7i +0.7i +.7i
+ server:/export /mnt nfs4 sec=krb5 0 0
+.FI
+.P
+This example can be used to mount /usr over NFS.
+.P
+.NF
+.TA 2.5i +0.7i +0.7i +.7i
+ server:/export /usr nfs ro,nolock,nocto,actimeo=3600 0 0
+.FI
+.SH "TRANSPORT METHODS"
+NFS clients send requests to NFS servers via
+Remote Procedure Calls, or
+.IR RPCs .
+The RPC client discovers remote service endpoints automatically,
+handles per-request authentication,
+adjusts request parameters for different byte endianness on client and server,
+and retransmits requests that may have been lost by the network or server.
+RPC requests and replies flow over a network transport.
+.P
+In most cases, the
+.BR mount (8)
+command, NFS client, and NFS server
+can automatically negotiate proper transport
+and data transfer size settings for a mount point.
+In some cases, however, it pays to specify
+these settings explicitly using mount options.
+.P
+Traditionally, NFS clients used the UDP transport exclusively for
+transmitting requests to servers. Though its implementation is
+simple, NFS over UDP has many limitations that prevent smooth
+operation and good performance in some common deployment
+environments. Even an insignificant packet loss rate results in the
+loss of whole NFS requests; as such, retransmit timeouts are usually
+in the subsecond range to allow clients to recover quickly from
+dropped requests, but this can result in extraneous network traffic
+and server load.
+.P
+However, UDP can be quite effective in specialized settings where
+the network’s MTU is large relative to NFS’s data transfer size (such
+as network environments that enable jumbo Ethernet frames). In such
+environments, trimming the
+.B rsize
+and
+.B wsize
+settings so that each
+NFS read or write request fits in just a few network frames (or even
+in a single frame) is advised. This reduces the probability that
+the loss of a single MTU-sized network frame results in the loss of
+an entire large read or write request.
+.P
+TCP is the default transport protocol used for all modern NFS
+implementations. It performs well in almost every conceivable
+network environment and provides excellent guarantees against data
+corruption caused by network unreliability. TCP is often a
+requirement for mounting a server through a network firewall.
+.P
+Under normal circumstances, networks drop packets much more
+frequently than NFS servers drop requests. As such, an aggressive
+retransmit timeout setting for NFS over TCP is unnecessary. Typical
+timeout settings for NFS over TCP are between one and ten minutes.
+After the client exhausts its retransmits (the value of the
+.B retrans
+mount option), it assumes a network partition has occurred,
+and attempts to reconnect to the server on a fresh socket. Since
+TCP itself makes network data transfer reliable,
+.B rsize
+and
+.B wsize
+can safely be allowed to default to the largest values supported by
+both client and server, independent of the network's MTU size.
+.SH "DATA AND METADATA COHERENCE"
+Some modern cluster file systems provide
+perfect cache coherence among their clients.
+Perfect cache coherence among disparate NFS clients
+is expensive to achieve, especially on wide area networks.
+As such, NFS settles for weaker cache coherence that
+satisfies the requirements of most file sharing types. Normally,
+file sharing is completely sequential:
+first client A opens a file, writes something to it, then closes it;
+then client B opens the same file, and reads the changes.
+.DT
+.SS "Close-to-open cache consistency"
+When an application opens a file stored on an NFS server,
+the NFS client checks that it still exists on the server
+and is permitted to the opener by sending a GETATTR or ACCESS request.
+When the application closes the file,
+the NFS client writes back any pending changes
+to the file so that the next opener can view the changes.
+This also gives the NFS client an opportunity to report
+any server write errors to the application
+via the return code from
+.BR close (2).
+The behavior of checking at open time and flushing at close time
+is referred to as close-to-open cache consistency.
+.SS "Weak cache consistency"
+There are still opportunities for a client's data cache
+to contain stale data.
+The NFS version 3 protocol introduced "weak cache consistency"
+(also known as WCC) which provides a way of efficiently checking
+a file's attributes before and after a single request.
+This allows a client to help identify changes
+that could have been made by other clients.
+.P
+When a client is using many concurrent operations
+that update the same file at the same time
+(for example, during asynchronous write behind),
+it is still difficult to tell whether it was
+that client's updates or some other client's updates
+that altered the file.
+.SS "Attribute caching"
+Use the
+.B noac
+mount option to achieve attribute cache coherence
+among multiple clients.
+Almost every file system operation checks
+file attribute information.
+The client keeps this information cached
+for a period of time to reduce network and server load.
+When
+.B noac
+is in effect, a client's file attribute cache is disabled,
+so each operation that needs to check a file's attributes
+is forced to go back to the server.
+This permits a client to see changes to a file very quickly,
+at the cost of many extra network operations.
+.P
+Be careful not to confuse the
+.B noac
+option with "no data caching."
+The
+.B noac
+mount option prevents the client from caching file metadata,
+but there are still races that may result in data cache incoherence
+between client and server.
+.P
+The NFS protocol is not designed to support
+true cluster file system cache coherence
+without some type of application serialization.
+If absolute cache coherence among clients is required,
+applications should use file locking. Alternatively, applications
+can also open their files with the O_DIRECT flag
+to disable data caching entirely.
+.SS "The sync mount option"
+The NFS client treats the
+.B sync
+mount option differently than some other file systems
+(refer to
+.BR mount (8)
+for a description of the generic
+.B sync
+and
+.B async
+mount options).
+If neither
+.B sync
+nor
+.B async
+is specified (or if the
+.B async
+option is specified),
+the NFS client delays sending application
+writes to the server
+until any of these events occur:
+.IP
+Memory pressure forces reclamation of system memory resources.
+.IP
+An application flushes file data explicitly with
+.BR sync (2),
+.BR msync (2),
+or
+.BR fsync (3).
+.IP
+An application closes a file with
+.BR close (2).
+.IP
+The file is locked/unlocked via
+.BR fcntl (2).
+.P
+In other words, under normal circumstances,
+data written by an application may not immediately appear
+on the server that hosts the file.
+.P
+If the
+.B sync
+option is specified on a mount point,
+any system call that writes data to files on that mount point
+causes that data to be flushed to the server
+before the system call returns control to user space.
+This provides greater data cache coherence among clients,
+but at a significant performance cost.
+.P
+Applications can use the O_SYNC open flag to force application
+writes to individual files to go to the server immediately without
+the use of the
+.B sync
+mount option.
+.SS "Using file locks with NFS"
+The Network Lock Manager protocol is a separate sideband protocol
+used to manage file locks in NFS version 2 and version 3.
+To support lock recovery after a client or server reboot,
+a second sideband protocol --
+known as the Network Status Manager protocol --
+is also required.
+In NFS version 4,
+file locking is supported directly in the main NFS protocol,
+and the NLM and NSM sideband protocols are not used.
+.P
+In most cases, NLM and NSM services are started automatically,
+and no extra configuration is required.
+Configure all NFS clients with fully-qualified domain names
+to ensure that NFS servers can find clients to notify them of server reboots.
+.P
+NLM supports advisory file locks only.
+To lock NFS files, use
+.BR fcntl (2)
+with the F_GETLK and F_SETLK commands.
+The NFS client converts file locks obtained via
+.BR flock (2)
+to advisory locks.
+.P
+When mounting servers that do not support the NLM protocol,
+or when mounting an NFS server through a firewall
+that blocks the NLM service port,
+specify the
+.B nolock
+mount option. NLM locking must be disabled with the
+.B nolock
+option when using NFS to mount
+.I /var
+because
+.I /var
+contains files used by the NLM implementation on Linux.
+.P
+Specifying the
+.B nolock
+option may also be advised to improve the performance
+of a proprietary application which runs on a single client
+and uses file locks extensively.
+.SS "NFS version 4 caching features"
+The data and metadata caching behavior of NFS version 4
+clients is similar to that of earlier versions.
+However, NFS version 4 adds two features that improve
+cache behavior:
+.I change attributes
+and
+.IR "file delegation" .
+.P
+The
+.I change attribute
+is a new part of NFS file and directory metadata
+which tracks data changes.
+It replaces the use of a file's modification
+and change time stamps
+as a way for clients to validate the content
+of their caches.
+Change attributes are independent of the time stamp
+resolution on either the server or client, however.
+.P
+A
+.I file delegation
+is a contract between an NFS version 4 client
+and server that allows the client to treat a file temporarily
+as if no other client is accessing it.
+The server promises to notify the client (via a callback request) if another client
+attempts to access that file.
+Once a file has been delegated to a client, the client can
+cache that file's data and metadata aggressively without
+contacting the server.
+.P
+File delegations come in two flavors:
+.I read
+and
+.IR write .
+A
+.I read
+delegation means that the server notifies the client
+about any other clients that want to write to the file.
+A
+.I write
+delegation means that the client gets notified about
+either read or write accessors.
+.P
+Servers grant file delegations when a file is opened,
+and can recall delegations at any time when another
+client wants access to the file that conflicts with
+any delegations already granted.
+Delegations on directories are not supported.
+.P
+In order to support delegation callback, the server
+checks the network return path to the client during
+the client's initial contact with the server.
+If contact with the client cannot be established,
+the server simply does not grant any delegations to
+that client.
+.SH "SECURITY CONSIDERATIONS"
+NFS servers control access to file data,
+but they depend on their RPC implementation
+to provide authentication of NFS requests.
+Traditional NFS access control mimics
+the standard mode bit access control provided in local file systems.
+Traditional RPC authentication uses a number
+to represent each user
+(usually the user's own uid),
+a number to represent the user's group (the user's gid),
+and a set of up to 16 auxiliary group numbers
+to represent other groups of which the user may be a member.
+.P
+Typically, file data and user ID values appear unencrypted
+(i.e. "in the clear") on the network.
+Moreover, NFS versions 2 and 3 use
+separate sideband protocols for mounting,
+locking and unlocking files,
+and reporting system status of clients and servers.
+These auxiliary protocols use no authentication.
+.P
+In addition to combining these sideband protocols with the main NFS protocol,
+NFS version 4 introduces more advanced forms of access control,
+authentication, and in-transit data protection.
+The NFS version 4 specification mandates NFSv4 ACLs,
+RPCGSS authentication, and RPCGSS security flavors
+that provide per-RPC integrity checking and encryption.
+Because NFS version 4 combines the
+function of the sideband protocols into the main NFS protocol,
+the new security features apply to all NFS version 4 operations
+including mounting, file locking, and so on.
+RPCGSS authentication can also be used with NFS versions 2 and 3,
+but does not protect their sideband protocols.
+.P
+The
+.B sec
+mount option specifies the RPCGSS security mode
+that is in effect on a given NFS mount point.
+Specifying
+.B sec=krb5
+provides cryptographic proof of a user's identity in each RPC request.
+This provides strong verification of the identity of users
+accessing data on the server.
+Note that additional configuration besides adding this mount option
+is required in order to enable Kerberos security.
+Refer to the
+.BR rpc.gssd (8)
+man page for details.
+.P
+Two additional flavors of Kerberos security are supported:
+.B krb5i
and
-.IR tcp .
-.TP 1.5i
-.I clientaddr=n
-On a multi-homed client, this
-causes the client to use a specific callback address when
-communicating with an NFS version 4 server.
-This option is currently ignored.
-.TP 1.5i
-.I sec=mode
-Same as \f3sec=mode\f1 for the nfs filesystem type (see above).
-.TP 1.5i
-.I bg
-If an NFS mount attempt times out, retry the mount
-in the background.
-After a mount operation is backgrounded, all subsequent mounts
-on the same NFS server will be backgrounded immediately, without
-first attempting the mount.
-A missing mount point is treated as a timeout,
-to allow for nested NFS mounts.
-.TP 1.5i
-.I fg
-If the first NFS mount attempt times out, retry the mount
-in the foreground.
-This is the complement of the
-.I bg
-option, and also the default behavior.
-.TP 1.5i
-.I soft
-If an NFS file operation has a major timeout then report an I/O error to
-the calling program.
-The default is to continue retrying NFS file operations indefinitely.
-.TP 1.5i
-.I hard
-If an NFS file operation has a major timeout then report
-"server not responding" on the console and continue retrying indefinitely.
-This is the default.
-.TP 1.5i
-.I intr
-If an NFS file operation has a major timeout and it is hard mounted,
-then allow signals to interupt the file operation and cause it to
-return EINTR to the calling program. The default is to not
-allow file operations to be interrupted.
-.TP 1.5i
-.I nocto
-Suppress the retrieval of new attributes when creating a file.
-.TP 1.5i
-.I noac
-Disable attribute caching, and force synchronous writes.
-This extracts a
-server performance penalty but it allows two different NFS clients
-to get reasonable good results when both clients are actively
-writing to common filesystem on the server.
-.P
-All of the non-value options have corresponding nooption forms.
-For example, nointr means don't allow file operations to be
-interrupted.
+.BR krb5p .
+The
+.B krb5i
+security flavor provides a cryptographically strong guarantee
+that the data in each RPC request has not been tampered with.
+The
+.B krb5p
+security flavor encrypts every RPC request
+to prevent data exposure during network transit; however,
+expect some performance impact
+when using integrity checking or encryption.
+Similar support for other forms of cryptographic security (such as lipkey and SPKM3)
+is also available.
+.P
+The NFS version 4 protocol allows
+clients and servers to negotiate among multiple security flavors
+during mount processing.
+However, Linux does not yet implement such negotiation.
+The Linux client specifies a single security flavor at mount time
+which remains in effect for the lifetime of the mount.
+If the server does not support this flavor,
+the initial mount request is rejected by the server.
+.SS "Mounting through a firewall"
+A firewall may reside between an NFS client and server,
+or the client or server may block some of its own ports via IP
+filter rules.
+It is still possible to mount an NFS server through a firewall,
+though some of the
+.BR mount (8)
+command's automatic service endpoint discovery mechanisms may not work; this
+requires you to provide specific endpoint details via NFS mount options.
+.P
+NFS servers normally run a portmapper or rpcbind daemon to advertise
+their service endpoints to clients. Clients use the rpcbind daemon to determine:
+.IP
+What network port each RPC-based service is using
+.IP
+What transport protocols each RPC-based service supports
+.P
+The rpcbind daemon uses a well-known port number (111) to help clients find a service endpoint.
+Although NFS often uses a standard port number (2049),
+auxiliary services such as the NLM service can choose
+any unused port number at random.
+.P
+Common firewall configurations block the well-known rpcbind port.
+In the absense of an rpcbind service,
+the server administrator fixes the port number
+of NFS-related services so that the firewall
+can allow access to specific NFS service ports.
+Client administrators then specify the port number
+for the mountd service via the
+.BR mount (8)
+command's
+.B mountport
+option.
+It may also be necessary to enforce the use of TCP or UDP
+if the firewall blocks one of those transports.
+.SS "NFS Access Control Lists"
+Solaris allows NFS version 3 clients direct access
+to POSIX Access Control Lists stored in its local file systems.
+This proprietary sideband protocol, known as NFSACL,
+provides richer access control than mode bits.
+Linux implements this protocol
+for compatibility with the Solaris NFS implementation.
+The NFSACL protocol never became a standard part
+of the NFS version 3 specification, however.
+.P
+The NFS version 4 specification mandates a new version
+of Access Control Lists that are semantically richer than POSIX ACLs.
+NFS version 4 ACLs are not fully compatible with POSIX ACLs; as such,
+some translation between the two is required
+in an environment that mixes POSIX ACLs and NFS version 4.
.SH FILES
+.TP 1.5i
.I /etc/fstab
-.SH "SEE ALSO"
-.BR fstab "(5), " mount "(8), " umount "(8), " exports (5)
-.SH AUTHOR
-"Rick Sladkey" <jrs@world.std.com>
+file system table
.SH BUGS
+The generic
+.B remount
+option is not fully supported.
+Generic options, such as
+.BR rw " and " ro
+can be modified using the
+.B remount
+option,
+but NFS-specific options are not all supported.
+The underlying transport or NFS version
+cannot be changed by a remount, for example.
+Performing a remount on an NFS file system mounted with the
+.B noac
+option may have unintended consequences.
+The
+.B noac
+option is a mixture of a generic option,
+.BR sync ,
+and an NFS-specific option
+.BR actimeo=0 .
.P
-Checking files on NFS filesystem referenced by file descriptors (i.e. the
-.BR fcntl
-and
-.BR ioctl
-families of functions) may lead to inconsistent result due to the lack of
-consistency check in kernel even if noac is used.
+Before 2.4.7, the Linux NFS client did not support NFS over TCP.
+.P
+Before 2.4.20, the Linux NFS client used a heuristic
+to determine whether cached file data was still valid
+rather than using the standard close-to-open cache coherency method
+described above.
+.P
+Starting with 2.4.22, the Linux NFS client employs
+a Van Jacobsen-based RTT estimator to determine retransmit
+timeout values when using NFS over UDP.
+.P
+Before 2.6.0, the Linux NFS client did not support NFS version 4.
+.P
+Before 2.6.8, the Linux NFS client used only synchronous reads and writes
+when the
+.BR rsize " and " wsize
+settings were smaller than the system's page size.
+.P
+The Linux NFS client does not yet support
+certain optional features of the NFS version 4 protocol,
+such as security negotiation, server referrals, and named attributes.
+.SH "SEE ALSO"
+.BR fstab (5),
+.BR mount (8),
+.BR umount (8),
+.BR mount.nfs (5),
+.BR umount.nfs (5),
+.BR exports (5),
+.BR nfsd (8),
+.BR rpc.idmapd (8),
+.BR rpc.gssd (8),
+.BR rpc.svcgssd (8),
+.BR kerberos (1)
+.sp
+RFC 768 for the UDP specification.
+.br
+RFC 793 for the TCP specification.
+.br
+RFC 1094 for the NFS version 2 specification.
+.br
+RFC 1813 for the NFS version 3 specification.
+.br
+RFC 1832 for the XDR specification.
+.br
+RFC 1833 for the RPC bind specification.
+.br
+RFC 2203 for the RPCSEC GSS API protocol specification.
+.br
+RFC 3530 for the NFS version 4 specification.
projects / nfs-utils.git / blobdiff