xref: /freebsd/usr.sbin/mountd/exports.5 (revision 5e3190f700637fcfc1a52daeaa4a031fdd2557c7)
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30.Dd August 16, 2022
31.Dt EXPORTS 5
32.Os
33.Sh NAME
34.Nm exports
35.Nd define remote mount points for
36.Tn NFS
37mount requests
38.Sh SYNOPSIS
39.Nm
40.Sh DESCRIPTION
41The
42.Nm
43file specifies remote mount points for the
44.Tn NFS
45mount protocol per the
46.Tn NFS
47server specification; see
48.%T "Network File System Protocol Specification" ,
49RFC1094, Appendix A and
50.%T "NFS: Network File System Version 3 Specification" ,
51Appendix I.
52.Pp
53Each line in the file
54(other than comment lines that begin with a #)
55specifies the mount point(s) and export flags within one local server
56file system or the NFSv4 tree root for one or more hosts.
57A long line may be split over several lines by ending all but the
58last line with a backslash
59.Pq Ql \e .
60A host may be specified only once for each local file or the NFSv4 tree root on the
61server and there may be only one default entry for each server
62file system that applies to all other hosts.
63The latter exports the file system to the
64.Dq world
65and should
66be used only when the file system contains public information.
67.Pp
68In a mount entry,
69the first field(s) specify the directory path(s) within a server file system
70that can be mounted on by the corresponding client(s).
71There are three forms of this specification.
72The first is to list all mount points as absolute
73directory paths separated by whitespace.
74This list of directory paths should be considered an
75.Dq administrative control ,
76since it is only enforced by the
77.Xr mountd 8
78daemon and not the kernel.
79As such, it only applies to NFSv2 and NFSv3 mounts and only
80with respect to the client's use of the mount protocol.
81The second is to specify the pathname of the root of the file system
82followed by the
83.Fl alldirs
84flag;
85this form allows the host(s) to mount at any point within the file system,
86including regular files if the
87.Fl r
88option is used on
89.Xr mountd 8 .
90Because NFSv4 does not use the mount protocol,
91the
92.Dq administrative controls
93are not applied and all directories within this server
94file system are mountable via NFSv4 even if the
95.Fl alldirs
96flag has not been specified.
97The third form has the string ``V4:'' followed by a single absolute path
98name, to specify the NFSv4 tree root.
99This line does not export any file system, but simply marks where the root
100of the server's directory tree is for NFSv4 clients.
101The exported file systems for NFSv4 are specified via the other lines
102in the
103.Nm
104file in the same way as for NFSv2 and NFSv3.
105The pathnames must not have any symbolic links in them and should not have
106any
107.Dq Pa \&.
108or
109.Dq Pa ..
110components.
111Mount points for a file system may appear on multiple lines each with
112different sets of hosts and export options.
113.Pp
114The second component of a line specifies how the file system is to be
115exported to the host set.
116The option flags specify whether the file system
117is exported read-only or read-write and how the client UID is mapped to
118user credentials on the server.
119For the NFSv4 tree root, the only options that can be specified in this
120section are ones related to security:
121.Fl sec ,
122.Fl tls ,
123.Fl tlscert
124and
125.Fl tlscertuser .
126.Pp
127Export options are specified as follows:
128.Pp
129.Sm off
130.Fl maproot Li = Sy user
131.Sm on
132The credential of the specified user is used for remote access by root.
133The credential includes all the groups to which the user is a member
134on the local machine (see
135.Xr id 1 ) .
136The user may be specified by name or number.
137The user string may be quoted, or use backslash escaping.
138.Pp
139.Sm off
140.Fl maproot Li = Sy user:group1:group2:...
141.Sm on
142The colon separated list is used to specify the precise credential
143to be used for remote access by root.
144The elements of the list may be either names or numbers.
145Note that user: should be used to distinguish a credential containing
146no groups from a complete credential for that user.
147The group names may be quoted, or use backslash escaping.
148.Pp
149.Sm off
150.Fl mapall Li = Sy user
151.Sm on
152or
153.Sm off
154.Fl mapall Li = Sy user:group1:group2:...
155.Sm on
156specifies a mapping for all client UIDs (including root)
157using the same semantics as
158.Fl maproot .
159.Pp
160The option
161.Fl r
162is a synonym for
163.Fl maproot
164in an effort to be backward compatible with older export file formats.
165.Pp
166In the absence of
167.Fl maproot
168and
169.Fl mapall
170options, remote accesses by root will result in using a credential of 65534:65533.
171All other users will be mapped to their remote credential.
172If a
173.Fl maproot
174option is given,
175remote access by root will be mapped to that credential instead of 65534:65533.
176If a
177.Fl mapall
178option is given,
179all users (including root) will be mapped to that credential in
180place of their own.
181.Pp
182.Sm off
183.Fl sec Li = Sy flavor1:flavor2...
184.Sm on
185specifies a colon separated list of acceptable security flavors to be
186used for remote access.
187Supported security flavors are sys, krb5, krb5i and krb5p.
188If multiple flavors are listed, they should be ordered with the most
189preferred flavor first.
190If this option is not present,
191the default security flavor list of just sys is used.
192.Pp
193The
194.Fl ro
195option specifies that the file system should be exported read-only
196(default read/write).
197The option
198.Fl o
199is a synonym for
200.Fl ro
201in an effort to be backward compatible with older export file formats.
202.Pp
203.Tn WebNFS
204exports strictly according to the spec (RFC 2054 and RFC 2055) can
205be done with the
206.Fl public
207flag.
208However, this flag in itself allows r/w access to all files in
209the file system, not requiring reserved ports and not remapping UIDs.
210It
211is only provided to conform to the spec, and should normally not be used.
212For a
213.Tn WebNFS
214export,
215use the
216.Fl webnfs
217flag, which implies
218.Fl public ,
219.Sm off
220.Fl mapall No = Sy nobody
221.Sm on
222and
223.Fl ro .
224Note that only one file system can be
225.Tn WebNFS
226exported on a server.
227.Pp
228A
229.Sm off
230.Fl index No = Pa file
231.Sm on
232option can be used to specify a file whose handle will be returned if
233a directory is looked up using the public filehandle
234.Pq Tn WebNFS .
235This is to mimic the behavior of URLs.
236If no
237.Fl index
238option is specified, a directory filehandle will be returned as usual.
239The
240.Fl index
241option only makes sense in combination with the
242.Fl public
243or
244.Fl webnfs
245flags.
246.Pp
247The
248.Fl tls ,
249.Fl tlscert
250and
251.Fl tlscertuser
252export options are used to require the client to use TLS for the mount(s)
253per RFC NNNN.
254For NFS mounts using TLS to work,
255.Xr rpc.tlsservd 8
256must be running on the server.
257.Bd -filled -offset indent
258.Fl tls
259requires that the client use TLS.
260.br
261.Fl tlscert
262requires that the client use TLS and provide a verifiable X.509 certificate
263during TLS handshake.
264.br
265.Fl tlscertuser
266requires that the client use TLS and provide a verifiable X.509 certificate.
267The otherName component of the certificate's subjAltName must have a
268an OID of 1.3.6.1.4.1.2238.1.1.1 and a UTF8 string of the form
269.Dq user@domain .
270.Dq user@domain
271will be translated to the credentials of the specified user in the same
272manner as
273.Xr nfsuserd 8 ,
274where
275.Dq user
276is normally a username is the server's password database and
277.Dq domain
278is the DNS domain name for the server.
279All RPCs will be performed using these credentials instead of the
280ones in the RPC header in a manner similar to
281.Sm off
282.Fl mapall Li = Sy user .
283.Sm on
284.Ed
285.Pp
286If none of these three flags are specified, TLS mounts are permitted but
287not required.
288.Pp
289Specifying the
290.Fl quiet
291option will inhibit some of the syslog diagnostics for bad lines in
292.Pa /etc/exports .
293This can be useful to avoid annoying error messages for known possible
294problems (see
295.Sx EXAMPLES
296below).
297.Pp
298The third component of a line specifies the host set to which the line applies.
299The set may be specified in three ways.
300The first way is to list the host name(s) separated by white space.
301(Standard Internet
302.Dq dot
303addresses may be used in place of names.)
304The second way is to specify a
305.Dq netgroup
306as defined in the
307.Pa netgroup
308file (see
309.Xr netgroup 5 ) .
310The third way is to specify an Internet subnetwork using a network and
311network mask that is defined as the set of all hosts with addresses within
312the subnetwork.
313This latter approach requires less overhead within the
314kernel and is recommended for cases where the export line refers to a
315large number of clients within an administrative subnet.
316.Pp
317The first two cases are specified by simply listing the name(s) separated
318by whitespace.
319All names are checked to see if they are
320.Dq netgroup
321names
322first and are assumed to be hostnames otherwise.
323Using the full domain specification for a hostname can normally
324circumvent the problem of a host that has the same name as a netgroup.
325The third case is specified by the flag
326.Sm off
327.Fl network Li = Sy netname Op Li / Ar prefixlength
328.Sm on
329and optionally
330.Sm off
331.Fl mask No = Sy netmask .
332.Sm on
333The netmask may be specified either by attaching a
334.Ar prefixlength
335to the
336.Fl network
337option, or by using a separate
338.Fl mask
339option.
340If the mask is not specified, it will default to the historical mask
341for that network class (A, B, or C; see
342.Xr inet 4 ) .
343This usage is deprecated, and will elicit a warning log message.
344See the
345.Sx EXAMPLES
346section below.
347.Pp
348Scoped IPv6 address must carry scope identifier as documented in
349.Xr inet6 4 .
350For example,
351.Dq Li fe80::%re2/10
352is used to specify
353.Li fe80::/10
354on
355.Li re2
356interface.
357.Pp
358For the third form which specifies the NFSv4 tree root, the directory path
359specifies the location within the server's file system tree which is the
360root of the NFSv4 tree.
361There can only be one NFSv4 root directory per server.
362As such, all entries of this form must specify the same directory path.
363For file systems other than ZFS,
364this location can be any directory and does not
365need to be within an exported file system.
366If it is not in an exported file system, a very limited set of operations
367are permitted, so that an NFSv4 client can traverse the tree to an
368exported file system.
369Although parts of the NFSv4 tree can be non-exported, the entire NFSv4 tree
370must consist of local file systems capable of being exported via NFS.
371All ZFS file systems in the subtree below the NFSv4 tree root must be
372exported.
373NFSv4 does not use the mount protocol and does permit clients to cross server
374mount point boundaries, although not all clients are capable of crossing the
375mount points.
376.Pp
377The
378.Fl sec
379option on these line(s) specifies what security flavors may be used for
380NFSv4 operations that do not use file handles.
381Since these operations (SetClientID, SetClientIDConfirm, Renew, DelegPurge
382and ReleaseLockOnwer) allocate/modify state in the server, it is possible
383to restrict some clients to the use of the krb5[ip] security flavors,
384via this option.
385See the
386.Sx EXAMPLES
387section below.
388This third form is meaningless for NFSv2 and NFSv3 and is ignored for them.
389.Pp
390The
391.Xr mountd 8
392utility can be made to re-read the
393.Nm
394file by sending it a hangup signal as follows:
395.Bd -literal -offset indent
396/etc/rc.d/mountd reload
397.Ed
398.Pp
399After sending the
400.Dv SIGHUP ,
401check the
402.Xr syslogd 8
403output to see whether
404.Xr mountd 8
405logged any parsing errors in the
406.Nm
407file.
408.Sh FILES
409.Bl -tag -width /etc/exports -compact
410.It Pa /etc/exports
411the default remote mount-point file
412.El
413.Sh EXAMPLES
414Given that
415.Pa /usr , /u , /a
416and
417.Pa /u2
418are
419local file system mount points, let's consider the following example:
420.Pp
421.Bd -literal -offset indent
422/usr /usr/local -maproot=0:10 friends
423/usr -maproot=daemon grumpy.cis.uoguelph.ca 131.104.48.16
424/usr -ro -mapall=nobody
425/u -maproot=bin: -network 131.104.48 -mask 255.255.255.0
426/a -network 192.168.0/24
427/a -network 3ffe:1ce1:1:fe80::/64
428/u2 -maproot=root friends
429/u2 -alldirs -network cis-net -mask cis-mask
430/cdrom -alldirs,quiet,ro -network 192.168.33.0 -mask 255.255.255.0
431/private -sec=krb5i
432/secret -sec=krb5p
433V4: /	-sec=krb5:krb5i:krb5p -network 131.104.48 -mask 255.255.255.0
434V4: /	-sec=sys:krb5:krb5i:krb5p grumpy.cis.uoguelph.ca
435.Ed
436.Pp
437The file systems rooted at
438.Pa /usr
439and
440.Pa /usr/local
441are exported to hosts within the
442.Dq friends
443network group
444with users mapped to their remote credentials and
445root mapped to UID 0 and group 10.
446They are exported read-write and the hosts in
447.Dq friends .
448.Pp
449The file system rooted at
450.Pa /usr
451is exported to
452.Em 131.104.48.16
453and
454.Em grumpy.cis.uoguelph.ca
455with users mapped to their remote credentials and
456root mapped to the user and groups associated with
457.Dq daemon ;
458it is exported to the rest of the world as read-only with
459all users mapped to the user and groups associated with
460.Dq nobody .
461.Pp
462The file system rooted at
463.Pa /u
464is exported to all hosts on the subnetwork
465.Em 131.104.48
466with root mapped to the UID for
467.Dq bin
468and with no group access.
469.Pp
470The file system rooted at
471.Pa /u2
472is exported to the hosts in
473.Dq friends
474with root mapped to UID and groups
475associated with
476.Dq root ;
477it is exported to all hosts on network
478.Dq cis-net
479allowing mounts at any
480directory within /u2.
481.Pp
482The file system rooted at
483.Pa /a
484is exported to the network 192.168.0.0, with a netmask of 255.255.255.0.
485However, the netmask length in the entry for
486.Pa /a
487is not specified through a
488.Fl mask
489option, but through the
490.Li / Ns Ar prefix
491notation.
492.Pp
493The file system rooted at
494.Pa /a
495is also exported to the IPv6 network
496.Li 3ffe:1ce1:1:fe80::
497address, using the upper 64 bits as the prefix.
498Note that, unlike with IPv4 network addresses, the specified network
499address must be complete, and not just contain the upper bits.
500With IPv6 addresses, the
501.Fl mask
502option must not be used.
503.Pp
504The file system rooted at
505.Pa /cdrom
506will be exported read-only to the entire network 192.168.33.0/24, including
507all its subdirectories.
508Since
509.Pa /cdrom
510is the conventional mountpoint for a CD-ROM device, this export will
511fail if no CD-ROM medium is currently mounted there since that line
512would then attempt to export a subdirectory of the root file system
513with the
514.Fl alldirs
515option which is not allowed.
516The
517.Fl quiet
518option will then suppress the error message for this condition that
519would normally be syslogged.
520As soon as an actual CD-ROM is going to be mounted,
521.Xr mount 8
522will notify
523.Xr mountd 8
524about this situation, and the
525.Pa /cdrom
526file system will be exported as intended.
527Note that without using the
528.Fl alldirs
529option, the export would always succeed.
530While there is no CD-ROM medium mounted under
531.Pa /cdrom ,
532it would export the (normally empty) directory
533.Pa /cdrom
534of the root file system instead.
535.Pp
536The file system rooted at
537.Pa /private
538will be exported using Kerberos 5 authentication and will require
539integrity protected messages for all accesses.
540The file system rooted at
541.Pa /secret
542will also be exported using Kerberos 5 authentication and all messages
543used to access it will be encrypted.
544.Pp
545For the experimental server, the NFSv4 tree is rooted at ``/'',
546and any client within the 131.104.48 subnet is permitted to perform NFSv4 state
547operations on the server, so long as valid Kerberos credentials are provided.
548The machine grumpy.cis.uoguelph.ca is permitted to perform NFSv4 state
549operations on the server using AUTH_SYS credentials, as well as Kerberos ones.
550.Pp
551In the following example some directories are exported as NFSv3 and NFSv4:
552.Bd -literal -offset indent
553V4: /wingsdl/nfsv4
554/wingsdl/nfsv4/usr-ports -maproot=root -network 172.16.0.0 -mask 255.255.0.0
555/wingsdl/nfsv4/clasper   -maproot=root clasper
556.Ed
557.Pp
558Only one V4: line is needed or allowed to declare where NFSv4 is
559rooted.
560The other lines declare specific exported directories with
561their absolute paths given in /etc/exports.
562.Pp
563The exported directories' paths are used for both v3 and v4.
564However, they are interpreted differently for v3 and v4.
565A client mount command for usr-ports would use the server-absolute name when
566using nfsv3:
567.Bd -literal -offset indent
568mount server:/wingsdl/nfsv4/usr-ports /mnt/tmp
569.Ed
570.Pp
571A mount command using NFSv4 would use the path relative to the NFSv4
572root:
573.Bd -literal -offset indent
574mount server:/usr-ports /mnt/tmp
575.Ed
576.Pp
577This also differentiates which version you want if the client can do
578both v3 and v4.
579The former will only ever do a v3 mount and the latter will only ever
580do a v4 mount.
581.Pp
582Note that due to different mount behavior between NFSv3 and NFSv4 a
583NFSv4 mount request for a directory that the client does not have
584permission for will succeed and read/write access will fail
585afterwards, whereas NFSv3 rejects the mount request.
586.Sh SEE ALSO
587.Xr nfsv4 4 ,
588.Xr netgroup 5 ,
589.Xr mountd 8 ,
590.Xr nfsd 8 ,
591.Xr rpc.tlsservd 8 ,
592.Xr showmount 8
593.Sh STANDARDS
594The implementation is based on the following documents:
595.Bl -dash
596.It
597.Rs
598.%T "Network File System Protocol Specification, Appendix A, RFC 1094"
599.Re
600.It
601.Rs
602.%T "NFS: Network File System Version 3, Appendix I, RFC 1813"
603.Re
604.It
605.Rs
606.%T "Towards Remote Procedure Call Encryption By Default, RFC nnnn"
607.Re
608.El
609.Sh BUGS
610The export options are tied to the local mount points in the kernel and
611must be non-contradictory for any exported subdirectory of the local
612server mount point.
613It is recommended that all exported directories within the same server
614file system be specified on adjacent lines going down the tree.
615You cannot specify a hostname that is also the name of a netgroup.
616Specifying the full domain specification for a hostname can normally
617circumvent the problem.
618