1xfsdump(8)                  System Manager's Manual                 xfsdump(8)
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NAME

6       xfsdump - XFS filesystem incremental dump utility
7

SYNOPSIS

9       xfsdump -h
10       xfsdump [ options ] -f dest [ -f dest ... ] filesystem
11       xfsdump [ options ] - filesystem
12       xfsdump -I [ subopt=value ... ]
13

DESCRIPTION

15       xfsdump backs up files and their attributes in a filesystem.  The files
16       are dumped to storage  media,  a  regular  file,  or  standard  output.
17       Options  allow  the  operator to have all files dumped, just files that
18       have changed since a previous dump, or just files contained in  a  list
19       of pathnames.
20
21       The  xfsrestore(8)  utility re-populates a filesystem with the contents
22       of the dump.
23
24       Each invocation of xfsdump dumps just one filesystem.  That  invocation
25       is  termed a dump session.  The dump session splits the filesystem into
26       one or more dump streams, one per destination.  The split  is  done  in
27       filesystem inode number (ino) order, at boundaries selected to equalize
28       the size of each stream.  Furthermore, the breakpoints between  streams
29       may be in the middle of very large files (at extent boundaries) if nec‐
30       essary to achieve  reasonable  stream  size  equalization.   Each  dump
31       stream  can  span  several media objects, and a single media object can
32       contain several dump streams.  The typical media object is a tape  car‐
33       tridge.   The media object records the dump stream as one or more media
34       files.  A media file is a self-contained partial dump, intended to min‐
35       imize  the  impact  of  media dropouts on the entire dump stream at the
36       expense of increasing the  time  required  to  complete  the  dump.  By
37       default  only  one  media  file  is written unless a media file size is
38       specified using the -d option. Other techniques, such as making a  sec‐
39       ond copy of the dump image, provide more protection against media fail‐
40       ures than multiple media files will.
41
42       However, the current implementation in Linux only supports one destina‐
43       tion and running single threaded. Therefore, the above comments regard‐
44       ing multiple streams describe the possible future capabilities.
45
46       xfsdump maintains an online dump inventory  in  /var/lib/xfsdump/inven‐
47       tory.   The  -I  option displays the inventory contents hierarchically.
48       The levels of the hierarchy are: filesystem, dump session, stream,  and
49       media file.
50
51       The options to xfsdump are:
52
53       -a   Specifies  that  files for which the Data Migration Facility (DMF)
54            has complete offline copies (dual-state files) be  treated  as  if
55            they  were  offline (OFL).  This means that the file data will not
56            be dumped by xfsdump, resulting in a smaller dump  file.   If  the
57            file  is  later restored the file data is still accessible through
58            DMF.  If both '-a option' and '-z option' are specified,  the  '-a
59            option' takes precedence (see '-z option' below).
60
61       -b blocksize
62            Specifies  the  blocksize, in bytes, to be used for the dump.  The
63            same blocksize must be specified to restore the tape.  If  the  -m
64            option  is  not  used,  then  -b  does  not  need to be specified.
65            Instead, a default blocksize of 1Mb will be used.
66
67       -c progname
68            Use the specified program to  alert  the  operator  when  a  media
69            change  is  required.  The  alert program is typically a script to
70            send a mail or flash a window to draw the operator's attention.
71
72       -d filesize
73            Specifies the size, in megabytes, of dump  media  files.   If  not
74            specified,  xfsdump  will  dump  data to tape using a single media
75            file per media object.  The specified media file size may need  to
76            be  adjusted if, for example, xfsdump cannot fit a media file onto
77            a single tape.
78
79       -e   Allow files to be excluded from the dump.  This will cause xfsdump
80            to skip files which have the "no dump" file attribute set. See the
81            "Excluding individual files" section below for details on  setting
82            this  file  attribute.  Files  with  an  extended  attribute named
83            "SGI_XFSDUMP_SKIP_FILE" will also be skipped, however this  method
84            is  deprecated  and  xfsdump will stop checking for it in a future
85            version.
86
87       -f dest [ -f dest ... ]
88            Specifies a dump destination.  A dump destination can be the path‐
89            name  of  a  device  (such  as  a tape drive), a regular file or a
90            remote tape drive (see rmt(8)).  This option must  be  omitted  if
91            the standard output option (a lone - preceding the source filesys‐
92            tem specification) is specified.
93
94       -l level
95            Specifies a dump level of 0 to 9.  The dump level  determines  the
96            base  dump  to  which this dump is relative.  The base dump is the
97            most recent dump at a lesser level.  A level 0 dump is absolute  -
98            all  files  are  dumped.   A  dump  level where 1 <= level <= 9 is
99            referred to as an incremental dump.  Only  files  that  have  been
100            changed since the base dump are dumped.  Subtree dumps (see the -s
101            option below) cannot be used as the base for incremental dumps.
102
103       -m   Use the minimal tape protocol for non-scsi  tape  destinations  or
104            remote  tape destinations which are not scsi Linux tape drives nor
105            IRIX tape drives.  This option cannot be used without specifying a
106            blocksize to be used (see -b option above).
107
108       -o   Overwrite  the  tape.  With this option, xfsdump does not read the
109            tape first to check the contents. This option may be used if  xfs‐
110            dump is unable to determine the block size of a tape .
111
112       -p interval
113            Causes  progress  reports to be printed at the specified interval.
114            interval is given in seconds.  The progress report  indicates  how
115            many  files  have  been dumped, the total number of files to dump,
116            the percentage of data dumped, and the elapsed time.
117
118       -q   Destination tape drive is a QIC tape.  QIC tapes only  use  a  512
119            byte blocksize, for which xfsdump must make special allowances.
120
121       -s pathname [ -s pathname ... ]
122            Restricts  the  dump to files contained in the specified pathnames
123            (subtrees).  A pathname must be relative to the mount point of the
124            filesystem.   For  example, if a filesystem is mounted at /d2, the
125            pathname argument for the directory  /d2/users  is  ``users''.   A
126            pathname  can  be a file or a directory; if it is a directory, the
127            entire hierarchy of files and subdirectories rooted at that direc‐
128            tory  is  dumped.   Subtree  dumps  cannot be used as the base for
129            incremental dumps (see the -l option above).
130
131       -t file
132            Sets the dump time to the modification time of  file  rather  than
133            using  the  current time.  xfsdump uses the dump time to determine
134            what files need to be backed up during an incremental  dump.  This
135            option should be used when dumping snapshots so that the dump time
136            matches the time the snapshot was taken. Otherwise files  modified
137            after  a  snapshot is taken may be skipped in the next incremental
138            dump.
139
140       -v verbosity
141       -v subsys=verbosity[,subsys=verbosity,...]
142            Specifies the level of detail used for messages  displayed  during
143            the  course  of  the dump. The verbosity argument can be passed as
144            either a string or an integer. If passed as a string the following
145            values  may  be used: silent, verbose, trace, debug, or nitty.  If
146            passed as an integer, values from 0-5 may be used. The values  0-4
147            correspond  to the strings already listed. The value 5 can be used
148            to produce even more verbose debug output.
149
150            The first form of this option activates message logging across all
151            dump  subsystems. The second form allows the message logging level
152            to be controlled on a per-subsystem basis. The two  forms  can  be
153            combined (see the example below). The argument subsys can take one
154            of the following values: general, proc, drive,  media,  inventory,
155            inomap and excluded_files.
156
157            For  example,  to  dump the root filesystem with tracing activated
158            for all subsystems:
159
160                 # xfsdump -v trace -f /dev/tape /
161
162            To enable debug-level tracing for drive and media operations:
163
164                 # xfsdump -v drive=debug,media=debug -f /dev/tape /
165
166            To enable tracing for all subsystems, and debug level tracing  for
167            drive operations only:
168
169                 # xfsdump -v trace,drive=debug -f /dev/tape /
170
171            To list files that will be excluded from the dump:
172
173                 # xfsdump -e -v excluded_files=debug -f /dev/tape /
174
175
176       -z size
177            Specifies  the maximum size, in kilobytes, of files to be included
178            in the dump.  Files over this size,  will  be  excluded  from  the
179            dump,  except  for DMF dual-state files when '-a option' is speci‐
180            fied (see '-a option' above).  When specified, '-a  option'  takes
181            precedence  over '-z option'. The size is an estimate based on the
182            number of disk blocks actually used by the file, and so  does  not
183            include holes.  In other words, size refers to the amount of space
184            the file would take in the  resulting  dump.   On  an  interactive
185            restore,  the  skipped  file is visible with xfsrestore's 'ls' and
186            while you can use the 'add' and 'extract' commands,  nothing  will
187            be restored.
188
189       -A   Do  not  dump extended file attributes.  When dumping a filesystem
190            managed within a DMF environment this option should not  be  used.
191            DMF  stores file migration status within extended attributes asso‐
192            ciated with each file. If these attributes are not preserved  when
193            the  filesystem is restored, files that had been in migrated state
194            will not be recallable by DMF. Note that dumps containing extended
195            file  attributes  cannot be restored with older versions of xfsre‐
196            store(8).
197
198       -B session_id
199            Specifies the ID of the dump session upon which this dump  session
200            is  to  be based.  If this option is specified, the -l (level) and
201            -R (resume) options are not allowed.  Instead, xfsdump  determines
202            if  the current dump session should be incremental and/or resumed,
203            by looking at the base session's level and interrupted attributes.
204            If the base session was interrupted, the current dump session is a
205            resumption of that base at the same level.  Otherwise, the current
206            dump  session is an incremental dump with a level one greater than
207            that of the base session.   This  option  allows  incremental  and
208            resumed  dumps  to be based on any previous dump, rather than just
209            the most recent.
210
211       -E   Pre-erase media.  If this option is  specified,  media  is  erased
212            prior  to  use.  The operator is prompted for confirmation, unless
213            the -F option is also specified.
214
215       -F   Don't prompt the operator.  When xfsdump encounters a media object
216            containing  non-xfsdump  data,  xfsdump normally asks the operator
217            for permission to overwrite.  With this option  the  overwrite  is
218            performed,  no  questions  asked.  When xfsdump encounters end-of-
219            media during a dump, xfsdump normally asks the operator if another
220            media  object  will  be  provided.   With  this option the dump is
221            instead interrupted.
222
223       -I   Displays the xfsdump inventory (no dump  is  performed).   xfsdump
224            records  each dump session in an online inventory in /var/lib/xfs‐
225            dump/inventory.  xfsdump uses this inventory to determine the base
226            for incremental dumps.  It is also useful for manually identifying
227            a dump session to be restored.  Suboptions to filter the inventory
228            display are described later.
229
230       -J   Inhibits  the normal update of the inventory.  This is useful when
231            the media being dumped to will be discarded or overwritten.
232
233       -L session_label
234            Specifies a label for the dump session.  It can be  any  arbitrary
235            string up to 255 characters long.
236
237       -M label [ -M label ... ]
238            Specifies  a  label  for the first media object (for example, tape
239            cartridge) written on the  corresponding  destination  during  the
240            session.   It  can  be  any  arbitrary string up to 255 characters
241            long.  Multiple media object labels can be specified, one for each
242            destination.
243
244       -O options_file
245            Insert the options contained in options_file into the beginning of
246            the command line.  The options are specified just  as  they  would
247            appear if typed into the command line.  In addition, newline char‐
248            acters (\n) can be used as whitespace.   The  options  are  placed
249            before  all options actually given on the command line, just after
250            the command name.  Only one -O option can be used.  Recursive  use
251            is   ignored.   The  source  filesystem  cannot  be  specified  in
252            options_file.
253
254       -R   Resumes a previously interrupted dump session.  If the most recent
255            dump  at  this dump's level (-l option) was interrupted, this dump
256            contains only files not in the  interrupted  dump  and  consistent
257            with  the  incremental  level.   However,  files  contained in the
258            interrupted dump that have  been  subsequently  modified  are  re-
259            dumped.
260
261       -T   Inhibits interactive dialogue timeouts.  When the -F option is not
262            specified, xfsdump prompts  the  operator  for  labels  and  media
263            changes.   Each dialogue normally times out if no response is sup‐
264            plied.  This option prevents the timeout.
265
266       -Y length
267            Specify I/O buffer ring length.  xfsdump uses  a  ring  of  output
268            buffers to achieve maximum throughput when dumping to tape drives.
269            The default ring length is 3.  However,  this  is  only  supported
270            when  running multi-threaded which has not been done for Linux yet
271            - making this option benign.
272
273       -    A lone - causes the dump stream to be sent to the standard output,
274            where  it can be piped to another utility such as xfsrestore(8) or
275            redirected to a file.  This option cannot  be  used  with  the  -f
276            option.   The  -  must  follow  all  other options and precede the
277            filesystem specification.
278
279       The filesystem, filesystem, can be specified either as a mount point or
280       as  a  special  device  file  (for  example,  /dev/dsk/dks0d1s0).   The
281       filesystem must be mounted to be dumped.
282

NOTES

284   Dump Interruption
285       A dump can be interrupted at any time and later resumed.  To interrupt,
286       type  control-C  (or  the  current  terminal interrupt character).  The
287       operator is prompted to select one  of  several  operations,  including
288       dump  interruption.   After the operator selects dump interruption, the
289       dump continues until a convenient break point is encountered (typically
290       the end of the current file).  Very large files are broken into smaller
291       subfiles, so the wait for the end of the current file is brief.
292
293   Dump Resumption
294       A previously interrupted dump can  be  resumed  by  specifying  the  -R
295       option.   If  the  most  recent  dump at the specified level was inter‐
296       rupted, the new dump does not include files already dumped, unless they
297       have changed since the interrupted dump.
298
299   Media Management
300       A  single  media  object  can contain many dump streams.  Conversely, a
301       single dump stream can span multiple media objects.  If a  dump  stream
302       is sent to a media object already containing one or more dumps, xfsdump
303       appends the new dump stream after the last dump  stream.   Media  files
304       are  never  overwritten.   If  end-of-media  is  encountered during the
305       course of a dump, the operator is prompted to insert a new media object
306       into  the  drive.   The  dump stream continuation is appended after the
307       last media file on the new media object.
308
309   Inventory
310       Each dump  session  updates  an  inventory  database  in  /var/lib/xfs‐
311       dump/inventory.   xfsdump  uses  the inventory to determine the base of
312       incremental and resumed dumps.
313
314       This database can be displayed by invoking xfsdump with the -I  option.
315       The display uses tabbed indentation to present the inventory hierarchi‐
316       cally.  The first level is filesystem.  The second  level  is  session.
317       The  third  level  is  media  stream (currently only one stream is sup‐
318       ported).  The fourth level lists the media files sequentially composing
319       the stream.
320
321       The following suboptions are available to filter the display.
322
323       -I depth=n
324            (where  n is 1, 2, or 3) limits the hierarchical depth of the dis‐
325            play. When n is 1, only the filesystem information from the inven‐
326            tory is displayed. When n is 2, only filesystem and session infor‐
327            mation are displayed. When n is 3, only  filesystem,  session  and
328            stream information are displayed.
329
330       -I level=n
331            (where  n  is  the dump level) limits the display to dumps of that
332            particular dump level.
333
334       The display may be restricted to media files contained  in  a  specific
335       media object.
336
337       -I mobjid=value
338            (where  value  is  a  media  ID) specifies the media object by its
339            media ID.
340
341       -I mobjlabel=value
342            (where value is a media label) specifies the media object  by  its
343            media label.
344
345       Similarly, the display can be restricted to a specific filesystem.
346
347       -I mnt=mount_point
348            (that  is,  [hostname:]pathname),  identifies  the  filesystem  by
349            mountpoint.  Specifying the hostname is optional, but may be  use‐
350            ful  in  a  clustered  environment where more than one host can be
351            responsible for dumping a filesystem.
352
353       -I fsid=filesystem_id
354            identifies the filesystem by filesystem ID.
355
356       -I dev=device_pathname
357            (that is, [hostname:]device_pathname) identifies the filesystem by
358            device.  As  with  the  mnt  filter,  specifying  the  hostname is
359            optional.
360
361       More than one of these suboptions, separated by commas, may  be  speci‐
362       fied  at  the  same time to limit the display of the inventory to those
363       dumps of interest.  However, at most four suboptions can  be  specified
364       at once: one to constrain the display hierarchy depth, one to constrain
365       the dump level, one to constrain the media object, and one to constrain
366       the filesystem.
367
368       For  example,  -I  depth=1,mobjlabel="tape 1",mnt=host1:/test_mnt would
369       display only the filesystem information (depth=1) for those filesystems
370       that  were mounted on host1:/test_mnt at the time of the dump, and only
371       those filesystems dumped to the media object labeled "tape 1".
372
373       Dump records may be removed (pruned) from the inventory using the  xfs‐
374       invutil program.
375
376       An  additional  media  file  is  placed at the end of each dump stream.
377       This media file contains the inventory information for the current dump
378       session.   Its  contents  may  be merged back into the online inventory
379       database at a later time using xfsrestore(1M).
380
381       The inventory files stored in /var/lib/xfsdump are not included in  the
382       dump,  even  if that directory is contained within the filesystem being
383       dumped.  Including the inventory in the dump may lead to loss  or  cor‐
384       ruption  of  data,  should an older version be restored overwriting the
385       current version.  To backup the  xfsdump  inventory,  the  contents  of
386       /var/lib/xfsdump should be copied to another location which may then be
387       safely dumped.  Upon restoration, those files may be copied  back  into
388       /var/lib/xfsdump,  overwriting whatever files may be there, or xfsinvu‐
389       til(1M) may be used to selectively merge parts of the  restored  inven‐
390       tory  back into the current inventory.  Prior to version 1.1.8, xfsdump
391       would include the /var/lib/xfsdump directory in the dump.  Care  should
392       be taken not to overwrite the /var/lib/xfsdump directory when restoring
393       an old dump, by either restoring the filesystem to another location  or
394       by  copying  the  current  contents of /var/lib/xfsdump to a safe place
395       prior to running xfsrestore(1M).
396
397   Labels
398       The operator can specify a label to identify the  dump  session  and  a
399       label to identify a media object.  The session label is placed in every
400       media file produced in the course of the dump, and is recorded  in  the
401       inventory.
402
403       The  media  label is used to identify media objects, and is independent
404       of the session label.  Each media file on the media object  contains  a
405       copy  of  the media label.  An error is returned if the operator speci‐
406       fies a media label that does not match  the  media  label  on  a  media
407       object  containing valid media files.  Media labels are recorded in the
408       inventory.
409
410   UUIDs
411       UUIDs (Universally Unique Identifiers) are used  in  three  places:  to
412       identify  the  filesystem  being dumped (using the filesystem UUID, see
413       xfs(5) for more details), to identify the dump session, and to identify
414       each media object.  The inventory display (-I) includes all of these.
415
416   Dump Level Usage
417       The  dump  level  mechanism  provides  a structured form of incremental
418       dumps.  A dump of level level includes only  files  that  have  changed
419       since  the  most  recent dump at a level less than level.  For example,
420       the operator can establish a dump schedule that involves  a  full  dump
421       every  Friday  and  a daily incremental dump containing only files that
422       have changed since the previous dump.  In this case Friday's dump would
423       be  at  level 0, Saturday's at level 1, Sunday's at level 2, and so on,
424       up to the Thursday dump at level 6.
425
426       The above schedule results in a very tedious restore procedure to fully
427       reconstruct  the  Thursday  version of the filesystem; xfsrestore would
428       need to be fed all 7 dumps in sequence.  A compromise  schedule  is  to
429       use  level 1 on Saturday, Monday, and Wednesday, and level 2 on Sunday,
430       Tuesday, and Thursday.  The  Monday  and  Wednesday  dumps  would  take
431       longer,  but  the  worst case restore requires the accumulation of just
432       three dumps, one each at level 0, level 1, and level 2.
433
434   Quotas
435       If the filesystem being dumped contains user quotas, xfsdump  will  use
436       xfs_quota(8) to store the quotas in a file called xfsdump_quotas in the
437       root of the filesystem to be dumped. This file will then be included in
438       the  dump.   Upon  restoration, xfs_quota (8) can be used to reactivate
439       the quotas for the filesystem.  Note, however, that the  xfsdump_quotas
440       file  will  probably  require  modification to change the filesystem or
441       UIDs if the filesystem has been restored to a  different  partition  or
442       system.  Group  and project quotas will be handled in a similar fashion
443       and saved in files called xfsdump_quotas_group and  xfsdump_quotas_proj
444       , respectively.
445
446   Excluding individual files
447       It may be desirable to exclude particular files or directories from the
448       dump.  The -s option can be used to  limit  the  dump  to  a  specified
449       directory,  and  the -z option can be used to exclude files over a par‐
450       ticular size.  Additionally, when xfsdump is run with  the  -e  option,
451       files  that  are  tagged  with the "no dump" file attribute will not be
452       included in the dump.  The chattr(1) command can be used  to  set  this
453       attribute on individual files or entire subtrees.
454
455       To tag an individual file for exclusion from the dump:
456
457            $ chattr +d file
458
459       To tag all files in a subtree for exclusion from the dump:
460
461            $ chattr -R +d directory
462
463       Note that any new files or directories created in a directory which has
464       the "no dump" attribute set will automatically inherit this  attribute.
465       Also  note  that  xfsdump  does not check directories for the "no dump"
466       attribute.
467
468       Care should be taken to note which files have been tagged.  Under  nor‐
469       mal  operation,  xfsdump  will  only report the number of files it will
470       skip.  The -v excluded_files=debug option, however, will cause  xfsdump
471       to list the inode numbers of the individual files affected.
472

EXAMPLES

474       To  perform  a  level 0, single stream dump of the root filesystem to a
475       locally mounted tape drive, prompting for session and media labels when
476       required:
477
478            # xfsdump -f /dev/tape /
479
480       To specify session and media labels explicitly:
481
482            # xfsdump -L session_1 -M tape_0 -f /dev/tape /
483
484       To perform a dump to a remote tape using the minimal rmt protocol and a
485       set blocksize of 64k:
486
487            # xfsdump -m -b 65536 -f otherhost:/dev/tape /
488
489       To perform a level 0, multi-stream dump to  two  locally  mounted  tape
490       drives:
491
492            # xfsdump -L session_2 -f /dev/rmt/tps4d6v -M tape_1 \
493                      -f /dev/rmt/tps5d6v -M tape_2 /
494
495       To perform a level 1 dump relative to the last level 0 dump recorded in
496       the inventory:
497
498            # xfsdump -l 1 -f /dev/tape /
499
500       To copy the contents of a filesystem to another directory  (see  xfsre‐
501       store(8)):
502
503            # xfsdump -J - / | xfsrestore -J - /new
504
505

FILES

507       /var/lib/xfsdump/inventory
508                                dump inventory database
509

SEE ALSO

511       attr(1),    rmt(8),    xfsrestore(8),    xfsinvutil(8),   xfs_quota(8),
512       attr_get(2).
513

DIAGNOSTICS

515       The exit code is 0 on normal completion, non-zero if an error occurs or
516       the dump is terminated by the operator.
517
518       For  all verbosity levels greater than 0 (silent) the final line of the
519       output shows the exit status of the dump. It is of the form:
520
521            xfsdump: Dump Status: code
522
523       Where code takes one of the following values: SUCCESS  (normal  comple‐
524       tion),  INTERRUPT  (interrupted), QUIT (media no longer usable), INCOM‐
525       PLETE (dump incomplete), FAULT (software error),  and  ERROR  (resource
526       error).   Every  attempt  will  be made to keep both the syntax and the
527       semantics of this log message unchanged in future versions of  xfsdump.
528       However, it may be necessary to refine or expand the set of exit codes,
529       or their interpretation at some point in the future.
530
531       The message ``xfsdump:  WARNING:  unable  to  open  directory:  ino  N:
532       Invalid  argument'' can occur with filesystems which are actively being
533       modified while xfsdump is running.  This can happen to either directory
534       or  regular  file  inodes - affected files will not end up in the dump,
535       files below affected directories will be placed in the orphanage direc‐
536       tory by xfsrestore.
537

BUGS

539       xfsdump does not dump unmounted filesystems.
540
541       The dump frequency field of /etc/fstab is not supported.
542
543       xfsdump uses the alert program only when a media change is required.
544
545       xfsdump requires root privilege (except for inventory display).
546
547       xfsdump can only dump XFS filesystems.
548
549       The media format used by xfsdump can only be understood by xfsrestore.
550
551       xfsdump  does  not  know  how  to manage CD-ROM or other removable disk
552       drives.
553
554       xfsdump can become confused when doing incremental or resumed dumps  if
555       on  the  same machine you dump two XFS filesystems and both filesystems
556       have the same filesystem identifier (UUID).   Since  xfsdump  uses  the
557       filesystem  identifier  to  identify filesystems, xfsdump maintains one
558       combined set of dump inventories for both filesystems  instead  of  two
559       sets  of dump inventories.  This scenario can happen only if dd or some
560       other block-by-block copy program was used to make a  copy  of  an  XFS
561       filesystem.  See xfs_copy(8) and xfs(5) for more details.
562
563
564
565                                                                    xfsdump(8)