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1 \input texinfo @c -*-texinfo-*-
2 @comment %**start of header
3 @setfilename tar.info
4 @include version.texi
5 @settitle GNU tar @value{VERSION}
6 @setchapternewpage odd
7
8 @finalout
9
10 @smallbook
11 @c %**end of header
12
13 @c ======================================================================
14 @c This document has three levels of rendition: PUBLISH, DISTRIB or PROOF,
15 @c as decided by @set symbols. The PUBLISH rendition does not show
16 @c notes or marks asking for revision. Most users will prefer having more
17 @c information, even if this information is not fully revised for adequacy,
18 @c so DISTRIB is the default for tar distributions. The PROOF rendition
19 @c show all marks to the point of ugliness, but is nevertheless useful to
20 @c those working on the manual itself.
21 @c ======================================================================
22
23 @ifclear PUBLISH
24 @ifclear DISTRIB
25 @ifclear PROOF
26 @set DISTRIB
27 @end ifclear
28 @end ifclear
29 @end ifclear
30
31 @ifset PUBLISH
32 @set RENDITION The book, version
33 @end ifset
34
35 @ifset DISTRIB
36 @set RENDITION FTP release, version
37 @end ifset
38
39 @ifset PROOF
40 @set RENDITION Proof reading version
41 @end ifset
42
43 @c ---------------------------------------------------------------------
44 @c The @FIXME's, @UNREVISED and @c comments are part Fran@,{c}ois's work
45 @c plan. These annotations are somewhat precious to him; he asks that I
46 @c do not alter them inconsiderately. Much work is needed for GNU tar
47 @c internals (the sources, the programs themselves). Revising the
48 @c adequacy of the manual while revising the sources, and cleaning them
49 @c both at the same time, seems to him like a good way to proceed.
50 @c ---------------------------------------------------------------------
51
52 @c Output marks for nodes needing revision, but not in PUBLISH rendition.
53
54 @macro UNREVISED
55 @ifclear PUBLISH
56 @quotation
57 @emph{(This message will disappear, once this node revised.)}
58 @end quotation
59 @end ifclear
60 @end macro
61
62 @c Output various FIXME information only in PROOF rendition.
63
64 @macro FIXME{string}
65 @allow-recursion
66 @quote-arg
67 @ifset PROOF
68 @strong{<FIXME>} \string\ @strong{</>}
69 @end ifset
70
71 @end macro
72
73 @macro FIXME-ref{string}
74 @quote-arg
75 @ifset PROOF
76 @strong{<REF>} \string\ @strong{</>}
77 @end ifset
78
79 @end macro
80
81 @macro FIXME-pxref{string}
82 @quote-arg
83 @ifset PROOF
84 @strong{<PXREF>} \string\ @strong{</>}
85 @end ifset
86
87 @end macro
88
89 @macro FIXME-xref{string}
90 @quote-arg
91 @ifset PROOF
92 @strong{<XREF>} \string\ @strong{</>}
93 @end ifset
94
95 @end macro
96
97 @c @macro option{entry}
98 @c @quote-arg
99 @c @opindex{--\entry\}
100 @c @value{\entry\}
101 @c @end macro
102
103 @set op-absolute-names @kbd{--absolute-names} (@kbd{-P})
104 @set ref-absolute-names @ref{absolute}
105 @set xref-absolute-names @xref{absolute}
106 @set pxref-absolute-names @pxref{absolute}
107
108 @set op-after-date @kbd{--after-date=@var{date}} (@kbd{--newer=@var{date}}, @kbd{-N @var{date}})
109 @set ref-after-date @ref{after}
110 @set xref-after-date @xref{after}
111 @set pxref-after-date @pxref{after}
112
113 @set op-append @kbd{--append} (@kbd{-r})
114 @set ref-append @ref{add}
115 @set xref-append @xref{add}
116 @set pxref-append @pxref{add}
117
118 @set op-atime-preserve @kbd{--atime-preserve}
119 @set ref-atime-preserve @ref{Attributes}
120 @set xref-atime-preserve @xref{Attributes}
121 @set pxref-atime-preserve @pxref{Attributes}
122
123 @set op-backup @kbd{--backup}
124 @set ref-backup @ref{Backup options}
125 @set xref-backup @xref{Backup options}
126 @set pxref-backup @pxref{Backup options}
127
128 @set op-block-number @kbd{--block-number} (@kbd{-R})
129 @set ref-block-number @ref{verbose}
130 @set xref-block-number @xref{verbose}
131 @set pxref-block-number @pxref{verbose}
132
133 @set op-blocking-factor @kbd{--blocking-factor=@var{512-size}} (@kbd{-b @var{512-size}})
134 @set ref-blocking-factor @ref{Blocking Factor}
135 @set xref-blocking-factor @xref{Blocking Factor}
136 @set pxref-blocking-factor @pxref{Blocking Factor}
137
138 @set op-bzip2 @kbd{--bzip2} (@kbd{-j})
139 @set ref-bzip2 @ref{gzip}
140 @set xref-bzip2 @xref{gzip}
141 @set pxref-bzip2 @pxref{gzip}
142
143 @set op-checkpoint @kbd{--checkpoint}
144 @set ref-checkpoint @ref{verbose}
145 @set xref-checkpoint @xref{verbose}
146 @set pxref-checkpoint @pxref{verbose}
147
148 @set op-check-links @kbd{--check-links}
149
150 @set op-compare @kbd{--compare} (@kbd{--diff}, @kbd{-d})
151 @set ref-compare @ref{compare}
152 @set xref-compare @xref{compare}
153 @set pxref-compare @pxref{compare}
154
155 @set op-compress @kbd{--compress} (@kbd{--uncompress}, @kbd{-Z})
156 @set ref-compress @ref{gzip}
157 @set xref-compress @xref{gzip}
158 @set pxref-compress @pxref{gzip}
159
160 @set op-concatenate @kbd{--concatenate} (@kbd{--catenate}, @kbd{-A})
161 @set ref-concatenate @ref{concatenate}
162 @set xref-concatenate @xref{concatenate}
163 @set pxref-concatenate @pxref{concatenate}
164
165 @set op-create @kbd{--create} (@kbd{-c})
166 @set ref-create @ref{create}
167 @set xref-create @xref{create}
168 @set pxref-create @pxref{create}
169
170 @set op-delete @kbd{--delete}
171 @set ref-delete @ref{delete}
172 @set xref-delete @xref{delete}
173 @set pxref-delete @pxref{delete}
174
175 @set op-dereference @kbd{--dereference} (@kbd{-h})
176 @set ref-dereference @ref{dereference}
177 @set xref-dereference @xref{dereference}
178 @set pxref-dereference @pxref{dereference}
179
180 @set op-directory @kbd{--directory=@var{directory}} (@kbd{-C @var{directory}})
181 @set ref-directory @ref{directory}
182 @set xref-directory @xref{directory}
183 @set pxref-directory @pxref{directory}
184
185 @set op-exclude @kbd{--exclude=@var{pattern}}
186 @set ref-exclude @ref{exclude}
187 @set xref-exclude @xref{exclude}
188 @set pxref-exclude @pxref{exclude}
189
190 @set op-exclude-from @kbd{--exclude-from=@var{file-of-patterns}} (@kbd{-X @var{file-of-patterns}})
191 @set ref-exclude-from @ref{exclude}
192 @set xref-exclude-from @xref{exclude}
193 @set pxref-exclude-from @pxref{exclude}
194
195 @set op-extract @kbd{--extract} (@kbd{--get}, @kbd{-x})
196 @set ref-extract @ref{extract}
197 @set xref-extract @xref{extract}
198 @set pxref-extract @pxref{extract}
199
200 @set op-file @kbd{--file=@var{archive-name}} (@kbd{-f @var{archive-name}})
201 @set ref-file @ref{file}
202 @set xref-file @xref{file}
203 @set pxref-file @pxref{file}
204
205 @set op-files-from @kbd{--files-from=@var{file-of-names}} (@kbd{-T @var{file-of-names}})
206 @set ref-files-from @ref{files}
207 @set xref-files-from @xref{files}
208 @set pxref-files-from @pxref{files}
209
210 @set op-force-local @kbd{--force-local}
211 @set ref-force-local @ref{file}
212 @set xref-force-local @xref{file}
213 @set pxref-force-local @pxref{file}
214
215 @set op-group @kbd{--group=@var{group}}
216 @set ref-group @ref{Option Summary}
217 @set xref-group @xref{Option Summary}
218 @set pxref-group @pxref{Option Summary}
219
220 @set op-gzip @kbd{--gzip} (@kbd{--gunzip}, @kbd{--ungzip}, @kbd{-z})
221 @set ref-gzip @ref{gzip}
222 @set xref-gzip @xref{gzip}
223 @set pxref-gzip @pxref{gzip}
224
225 @set op-help @kbd{--help}
226 @set ref-help @ref{help}
227 @set xref-help @xref{help}
228 @set pxref-help @pxref{help}
229
230 @set op-ignore-failed-read @kbd{--ignore-failed-read}
231 @set ref-ignore-failed-read @ref{create options}
232 @set xref-ignore-failed-read @xref{create options}
233 @set pxref-ignore-failed-read @pxref{create options}
234
235 @set op-ignore-zeros @kbd{--ignore-zeros} (@kbd{-i})
236 @set ref-ignore-zeros @ref{Reading}
237 @set xref-ignore-zeros @xref{Reading}
238 @set pxref-ignore-zeros @pxref{Reading}
239
240 @set op-incremental @kbd{--incremental} (@kbd{-G})
241 @set ref-incremental @ref{Inc Dumps}
242 @set xref-incremental @xref{Inc Dumps}
243 @set pxref-incremental @pxref{Inc Dumps}
244
245 @set op-info-script @kbd{--info-script=@var{script-name}} (@kbd{--new-volume-script=@var{script-name}}, @kbd{-F @var{script-name}})
246 @set ref-info-script @ref{Multi-Volume Archives}
247 @set xref-info-script @xref{Multi-Volume Archives}
248 @set pxref-info-script @pxref{Multi-Volume Archives}
249
250 @set op-interactive @kbd{--interactive} (@kbd{-w})
251 @set ref-interactive @ref{interactive}
252 @set xref-interactive @xref{interactive}
253 @set pxref-interactive @pxref{interactive}
254
255 @set op-keep-old-files @kbd{--keep-old-files} (@kbd{-k})
256 @set ref-keep-old-files @ref{Writing}
257 @set xref-keep-old-files @xref{Writing}
258 @set pxref-keep-old-files @pxref{Writing}
259
260 @set op-label @kbd{--label=@var{archive-label}} (@kbd{-V @var{archive-label}})
261 @set ref-label @ref{label}
262 @set xref-label @xref{label}
263 @set pxref-label @pxref{label}
264
265 @set op-list @kbd{--list} (@kbd{-t})
266 @set ref-list @ref{list}
267 @set xref-list @xref{list}
268 @set pxref-list @pxref{list}
269
270 @set op-listed-incremental @kbd{--listed-incremental=@var{snapshot-file}} (@kbd{-g @var{snapshot-file}})
271 @set ref-listed-incremental @ref{Inc Dumps}
272 @set xref-listed-incremental @xref{Inc Dumps}
273 @set pxref-listed-incremental @pxref{Inc Dumps}
274
275 @set op-mode @kbd{--mode=@var{permissions}}
276 @set ref-mode @ref{Option Summary}
277 @set xref-mode @xref{Option Summary}
278 @set pxref-mode @pxref{Option Summary}
279
280 @set op-multi-volume @kbd{--multi-volume} (@kbd{-M})
281 @set ref-multi-volume @ref{Multi-Volume Archives}
282 @set xref-multi-volume @xref{Multi-Volume Archives}
283 @set pxref-multi-volume @pxref{Multi-Volume Archives}
284
285 @set op-newer-mtime @kbd{--newer-mtime=@var{date}}
286 @set ref-newer-mtime @ref{after}
287 @set xref-newer-mtime @xref{after}
288 @set pxref-newer-mtime @pxref{after}
289
290 @set op-no-recursion @kbd{--no-recursion}
291 @set ref-no-recursion @ref{recurse}
292 @set xref-no-recursion @xref{recurse}
293 @set pxref-no-recursion @pxref{recurse}
294
295 @set op-no-same-owner @kbd{--no-same-owner}
296 @set ref-no-same-owner @ref{Attributes}
297 @set xref-no-same-owner @xref{Attributes}
298 @set pxref-no-same-owner @pxref{Attributes}
299
300 @set op-no-same-permissions @kbd{--no-same-permissions}
301 @set ref-no-same-permissions @ref{Attributes}
302 @set xref-no-same-permissions @xref{Attributes}
303 @set pxref-no-same-permissions @pxref{Attributes}
304
305 @set op-null @kbd{--null}
306 @set ref-null @ref{files}
307 @set xref-null @xref{files}
308 @set pxref-null @pxref{files}
309
310 @set op-numeric-owner @kbd{--numeric-owner}
311 @set ref-numeric-owner @ref{Attributes}
312 @set xref-numeric-owner @xref{Attributes}
313 @set pxref-numeric-owner @pxref{Attributes}
314
315 @set op-old-archive @kbd{--old-archive} (@kbd{-o})
316 @set ref-old-archive @ref{old}
317 @set xref-old-archive @xref{old}
318 @set pxref-old-archive @pxref{old}
319
320 @set op-one-file-system @kbd{--one-file-system} (@kbd{-l})
321 @set ref-one-file-system @ref{one}
322 @set xref-one-file-system @xref{one}
323 @set pxref-one-file-system @pxref{one}
324
325 @set op-overwrite @kbd{--overwrite}
326 @set ref-overwrite @ref{Overwrite Old Files}
327 @set xref-overwrite @xref{Overwrite Old Files}
328 @set pxref-overwrite @pxref{Overwrite Old Files}
329
330 @set op-owner @kbd{--owner=@var{user}}
331 @set ref-owner @ref{Option Summary}
332 @set xref-owner @xref{Option Summary}
333 @set pxref-owner @pxref{Option Summary}
334
335 @set op-posix @kbd{--posix}
336 @set ref-posix @ref{posix}
337 @set xref-posix @xref{posix}
338 @set pxref-posix @pxref{posix}
339
340 @set op-preserve @kbd{--preserve}
341 @set ref-preserve @ref{Attributes}
342 @set xref-preserve @xref{Attributes}
343 @set pxref-preserve @pxref{Attributes}
344
345 @set op-record-size @kbd{--record-size=@var{size}}
346 @set ref-record-size @ref{Blocking}
347 @set xref-record-size @xref{Blocking}
348 @set pxref-record-size @pxref{Blocking}
349
350 @set op-recursive-unlink @kbd{--recursive-unlink}
351 @set ref-recursive-unlink @ref{Writing}
352 @set xref-recursive-unlink @xref{Writing}
353 @set pxref-recursive-unlink @pxref{Writing}
354
355 @set op-read-full-records @kbd{--read-full-records} (@kbd{-B})
356 @set ref-read-full-records @ref{Blocking}
357 @set xref-read-full-records @xref{Blocking}
358 @set pxref-read-full-records @pxref{Blocking}
359 @c FIXME: or should it be Reading, or Blocking Factor
360
361 @set op-remove-files @kbd{--remove-files}
362 @set ref-remove-files @ref{Writing}
363 @set xref-remove-files @xref{Writing}
364 @set pxref-remove-files @pxref{Writing}
365
366 @set op-rsh-command @kbd{rsh-command=@var{command}}
367
368 @set op-same-order @kbd{--same-order} (@kbd{--preserve-order}, @kbd{-s})
369 @set ref-same-order @ref{Scarce}
370 @set xref-same-order @xref{Scarce}
371 @set pxref-same-order @pxref{Scarce}
372 @c FIXME: or should it be Reading, or Attributes?
373
374 @set op-same-owner @kbd{--same-owner}
375 @set ref-same-owner @ref{Attributes}
376 @set xref-same-owner @xref{Attributes}
377 @set pxref-same-owner @pxref{Attributes}
378
379 @set op-same-permissions @kbd{--same-permissions} (@kbd{--preserve-permissions}, @kbd{-p})
380 @set ref-same-permissions @ref{Attributes}
381 @set xref-same-permissions @xref{Attributes}
382 @set pxref-same-permissions @pxref{Attributes}
383 @c FIXME: or should it be Writing?
384
385 @set op-show-omitted-dirs @kbd{--show-omitted-dirs}
386 @set ref-show-omitted-dirs @ref{verbose}
387 @set xref-show-omitted-dirs @xref{verbose}
388 @set pxref-show-omitted-dirs @pxref{verbose}
389
390 @set op-sparse @kbd{--sparse} (@kbd{-S})
391 @set ref-sparse @ref{sparse}
392 @set xref-sparse @xref{sparse}
393 @set pxref-sparse @pxref{sparse}
394
395 @set op-starting-file @kbd{--starting-file=@var{name}} (@kbd{-K @var{name}})
396 @set ref-starting-file @ref{Scarce}
397 @set xref-starting-file @xref{Scarce}
398 @set pxref-starting-file @pxref{Scarce}
399
400 @set op-suffix @kbd{--suffix=@var{suffix}}
401 @set ref-suffix @ref{Backup options}
402 @set xref-suffix @xref{Backup options}
403 @set pxref-suffix @pxref{Backup options}
404
405 @set op-tape-length @kbd{--tape-length=@var{1024-size}} (@kbd{-L @var{1024-size}})
406 @set ref-tape-length @ref{Using Multiple Tapes}
407 @set xref-tape-length @xref{Using Multiple Tapes}
408 @set pxref-tape-length @pxref{Using Multiple Tapes}
409
410 @set op-to-stdout @kbd{--to-stdout} (@kbd{-O})
411 @set ref-to-stdout @ref{Writing}
412 @set xref-to-stdout @xref{Writing}
413 @set pxref-to-stdout @pxref{Writing}
414
415 @set op-totals @kbd{--totals}
416 @set ref-totals @ref{verbose}
417 @set xref-totals @xref{verbose}
418 @set pxref-totals @pxref{verbose}
419
420 @set op-touch @kbd{--touch} (@kbd{-m})
421 @set ref-touch @ref{Writing}
422 @set xref-touch @xref{Writing}
423 @set pxref-touch @pxref{Writing}
424
425 @set op-unlink-first @kbd{--unlink-first} (@kbd{-U})
426 @set ref-unlink-first @ref{Writing}
427 @set xref-unlink-first @xref{Writing}
428 @set pxref-unlink-first @pxref{Writing}
429
430 @set op-update @kbd{--update} (@kbd{-u})
431 @set ref-update @ref{update}
432 @set xref-update @xref{update}
433 @set pxref-update @pxref{update}
434
435 @set op-use-compress-prog @kbd{--use-compress-prog=@var{program}}
436 @set ref-use-compress-prog @ref{gzip}
437 @set xref-use-compress-prog @xref{gzip}
438 @set pxref-use-compress-prog @pxref{gzip}
439
440 @set op-verbose @kbd{--verbose} (@kbd{-v})
441 @set ref-verbose @ref{verbose}
442 @set xref-verbose @xref{verbose}
443 @set pxref-verbose @pxref{verbose}
444
445 @set op-verify @kbd{--verify} (@kbd{-W})
446 @set ref-verify @ref{verify}
447 @set xref-verify @xref{verify}
448 @set pxref-verify @pxref{verify}
449
450 @set op-version @kbd{--version}
451 @set ref-version @ref{help}
452 @set xref-version @xref{help}
453 @set pxref-version @pxref{help}
454
455 @set op-volno-file @kbd{--volno-file=@var{file-of-number}}
456 @set ref-volno-file @ref{Using Multiple Tapes}
457 @set xref-volno-file @xref{Using Multiple Tapes}
458 @set pxref-volno-file @pxref{Using Multiple Tapes}
459
460 @c Put everything in one index (arbitrarily chosen to be the concept index).
461 @syncodeindex fn cp
462 @syncodeindex ky cp
463 @syncodeindex pg cp
464 @syncodeindex vr cp
465
466 @defindex op
467 @syncodeindex op cp
468
469 @copying
470
471 This manual is for @acronym{GNU} @command{tar} (version
472 @value{VERSION}, @value{UPDATED}), which creates and extracts files
473 from archives.
474
475 Copyright @copyright{} 1992, 1994, 1995, 1996, 1997, 1999, 2000, 2001,
476 2003 Free Software Foundation, Inc.
477
478 @quotation
479 Permission is granted to copy, distribute and/or modify this document
480 under the terms of the GNU Free Documentation License, Version 1.1 or
481 any later version published by the Free Software Foundation; with the
482 Invariant Sections being "GNU General Public License", with the
483 Front-Cover Texts being ``A GNU Manual,'' and with the Back-Cover Texts
484 as in (a) below. A copy of the license is included in the section
485 entitled "GNU Free Documentation License".
486
487 (a) The FSF's Back-Cover Text is: ``You are free to copy and modify
488 this GNU Manual. Buying copies from GNU Press supports the FSF in
489 developing GNU and promoting software freedom.''
490 @end quotation
491 @end copying
492
493 @dircategory Archiving
494 @direntry
495 * Tar: (tar). Making tape (or disk) archives.
496 @end direntry
497
498 @dircategory Individual utilities
499 @direntry
500 * tar: (tar)tar invocation. Invoking @acronym{GNU} @command{tar}
501 @end direntry
502
503 @shorttitlepage @acronym{GNU} @command{tar}
504
505 @titlepage
506 @title @acronym{GNU} tar: an archiver tool
507 @subtitle @value{RENDITION} @value{VERSION}, @value{UPDATED}
508 @author Melissa Weisshaus, Jay Fenlason,
509 @author Thomas Bushnell, n/BSG, Amy Gorin
510 @c he said to remove it: Fran@,{c}ois Pinard
511 @c i'm thinking about how the author page *should* look. -mew 2may96
512
513 @page
514 @vskip 0pt plus 1filll
515 @insertcopying
516 @end titlepage
517
518 @ifnottex
519 @node Top
520 @top @acronym{GNU} tar: an archiver tool
521
522 @insertcopying
523
524 @cindex file archival
525 @cindex archiving files
526
527 The first part of this master menu lists the major nodes in this Info
528 document. The rest of the menu lists all the lower level nodes.
529 @end ifnottex
530
531 @c The master menu, created with texinfo-master-menu, goes here.
532 @c (However, getdate.texi's menu is interpolated by hand.)
533
534 @menu
535 * Introduction::
536 * Tutorial::
537 * tar invocation::
538 * operations::
539 * Backups::
540 * Choosing::
541 * Date input formats::
542 * Formats::
543 * Media::
544 * Free Software Needs Free Documentation::
545 * Copying This Manual::
546 * Index::
547
548 @detailmenu
549 --- The Detailed Node Listing ---
550
551 Introduction
552
553 * Book Contents:: What this Book Contains
554 * Definitions:: Some Definitions
555 * What tar Does:: What @command{tar} Does
556 * Naming tar Archives:: How @command{tar} Archives are Named
557 * posix compliance::
558 * Authors:: @acronym{GNU} @command{tar} Authors
559 * Reports:: Reporting bugs or suggestions
560
561 Tutorial Introduction to @command{tar}
562
563 * assumptions::
564 * stylistic conventions::
565 * basic tar options:: Basic @command{tar} Operations and Options
566 * frequent operations::
567 * Two Frequent Options::
568 * create:: How to Create Archives
569 * list:: How to List Archives
570 * extract:: How to Extract Members from an Archive
571 * going further::
572
573 Two Frequently Used Options
574
575 * file tutorial::
576 * verbose tutorial::
577 * help tutorial::
578
579 How to Create Archives
580
581 * prepare for examples::
582 * Creating the archive::
583 * create verbose::
584 * short create::
585 * create dir::
586
587 How to List Archives
588
589 * list dir::
590
591 How to Extract Members from an Archive
592
593 * extracting archives::
594 * extracting files::
595 * extract dir::
596 * failing commands::
597
598 Invoking @acronym{GNU} @command{tar}
599
600 * Synopsis::
601 * using tar options::
602 * Styles::
603 * All Options::
604 * help::
605 * verbose::
606 * interactive::
607
608 The Three Option Styles
609
610 * Mnemonic Options:: Mnemonic Option Style
611 * Short Options:: Short Option Style
612 * Old Options:: Old Option Style
613 * Mixing:: Mixing Option Styles
614
615 All @command{tar} Options
616
617 * Operation Summary::
618 * Option Summary::
619 * Short Option Summary::
620
621 @acronym{GNU} @command{tar} Operations
622
623 * Basic tar::
624 * Advanced tar::
625 * create options::
626 * extract options::
627 * backup::
628 * Applications::
629 * looking ahead::
630
631 Advanced @acronym{GNU} @command{tar} Operations
632
633 * Operations::
634 * append::
635 * update::
636 * concatenate::
637 * delete::
638 * compare::
639
640 How to Add Files to Existing Archives: @code{--append}
641
642 * appending files:: Appending Files to an Archive
643 * multiple::
644
645 Updating an Archive
646
647 * how to update::
648
649 Options Used by @code{--create}
650
651 * Ignore Failed Read::
652
653 Options Used by @code{--extract}
654
655 * Reading:: Options to Help Read Archives
656 * Writing:: Changing How @command{tar} Writes Files
657 * Scarce:: Coping with Scarce Resources
658
659 Options to Help Read Archives
660
661 * read full records::
662 * Ignore Zeros::
663
664 Changing How @command{tar} Writes Files
665
666 * Dealing with Old Files::
667 * Overwrite Old Files::
668 * Keep Old Files::
669 * Unlink First::
670 * Recursive Unlink::
671 * Modification Times::
672 * Setting Access Permissions::
673 * Writing to Standard Output::
674 * remove files::
675
676 Coping with Scarce Resources
677
678 * Starting File::
679 * Same Order::
680
681 Performing Backups and Restoring Files
682
683 * Full Dumps:: Using @command{tar} to Perform Full Dumps
684 * Inc Dumps:: Using @command{tar} to Perform Incremental Dumps
685 * incremental and listed-incremental:: The Incremental Options
686 * Backup Levels:: Levels of Backups
687 * Backup Parameters:: Setting Parameters for Backups and Restoration
688 * Scripted Backups:: Using the Backup Scripts
689 * Scripted Restoration:: Using the Restore Script
690
691 Setting Parameters for Backups and Restoration
692
693 * backup-specs example:: An Example Text of @file{Backup-specs}
694 * Script Syntax:: Syntax for @file{Backup-specs}
695
696 Choosing Files and Names for @command{tar}
697
698 * file:: Choosing the Archive's Name
699 * Selecting Archive Members::
700 * files:: Reading Names from a File
701 * exclude:: Excluding Some Files
702 * Wildcards::
703 * after:: Operating Only on New Files
704 * recurse:: Descending into Directories
705 * one:: Crossing Filesystem Boundaries
706
707 Reading Names from a File
708
709 * nul::
710
711 Excluding Some Files
712
713 * controlling pattern-patching with exclude::
714 * problems with exclude::
715
716 Crossing Filesystem Boundaries
717
718 * directory:: Changing Directory
719 * absolute:: Absolute File Names
720
721 Date input formats
722
723 * General date syntax:: Common rules.
724 * Calendar date items:: 19 Dec 1994.
725 * Time of day items:: 9:20pm.
726 * Time zone items:: @sc{est}, @sc{pdt}, @sc{gmt}, ...
727 * Day of week items:: Monday and others.
728 * Relative items in date strings:: next tuesday, 2 years ago.
729 * Pure numbers in date strings:: 19931219, 1440.
730 * Authors of getdate:: Bellovin, Eggert, Salz, Berets, et al.
731
732 Controlling the Archive Format
733
734 * Portability:: Making @command{tar} Archives More Portable
735 * Compression:: Using Less Space through Compression
736 * Attributes:: Handling File Attributes
737 * Standard:: The Standard Format
738 * Extensions:: @acronym{GNU} Extensions to the Archive Format
739 * cpio:: Comparison of @command{tar} and @command{cpio}
740
741 Making @command{tar} Archives More Portable
742
743 * Portable Names:: Portable Names
744 * dereference:: Symbolic Links
745 * old:: Old V7 Archives
746 * posix:: @sc{posix} archives
747 * Checksumming:: Checksumming Problems
748 * Large or Negative Values:: Large files, negative time stamps, etc.
749
750 Using Less Space through Compression
751
752 * gzip:: Creating and Reading Compressed Archives
753 * sparse:: Archiving Sparse Files
754
755 Tapes and Other Archive Media
756
757 * Device:: Device selection and switching
758 * Remote Tape Server::
759 * Common Problems and Solutions::
760 * Blocking:: Blocking
761 * Many:: Many archives on one tape
762 * Using Multiple Tapes:: Using Multiple Tapes
763 * label:: Including a Label in the Archive
764 * verify::
765 * Write Protection::
766
767 Blocking
768
769 * Format Variations:: Format Variations
770 * Blocking Factor:: The Blocking Factor of an Archive
771
772 Many Archives on One Tape
773
774 * Tape Positioning:: Tape Positions and Tape Marks
775 * mt:: The @command{mt} Utility
776
777 Using Multiple Tapes
778
779 * Multi-Volume Archives:: Archives Longer than One Tape or Disk
780 * Tape Files:: Tape Files
781
782 Copying This Manual
783
784 * GNU Free Documentation License:: License for copying this manual
785
786 @end detailmenu
787 @end menu
788
789 @node Introduction
790 @chapter Introduction
791
792 @acronym{GNU} @command{tar} creates
793 and manipulates (@dfn{archives}) which are actually collections of
794 many other files; the program provides users with an organized and
795 systematic method for controlling a large amount of data.
796 The name ``tar'' originally came from the phrase ``Tape ARchive'', but
797 archives need not (and these days, typically do not) reside on tapes.
798
799 @menu
800 * Book Contents:: What this Book Contains
801 * Definitions:: Some Definitions
802 * What tar Does:: What @command{tar} Does
803 * Naming tar Archives:: How @command{tar} Archives are Named
804 * posix compliance::
805 * Authors:: @acronym{GNU} @command{tar} Authors
806 * Reports:: Reporting bugs or suggestions
807 @end menu
808
809 @node Book Contents
810 @section What this Book Contains
811
812 The first part of this chapter introduces you to various terms that will
813 recur throughout the book. It also tells you who has worked on @acronym{GNU}
814 @command{tar} and its documentation, and where you should send bug reports
815 or comments.
816
817 The second chapter is a tutorial (@pxref{Tutorial}) which provides a
818 gentle introduction for people who are new to using @command{tar}. It is
819 meant to be self contained, not requiring any reading from subsequent
820 chapters to make sense. It moves from topic to topic in a logical,
821 progressive order, building on information already explained.
822
823 Although the tutorial is paced and structured to allow beginners to
824 learn how to use @command{tar}, it is not intended solely for beginners.
825 The tutorial explains how to use the three most frequently used
826 operations (@samp{create}, @samp{list}, and @samp{extract}) as well as
827 two frequently used options (@samp{file} and @samp{verbose}). The other
828 chapters do not refer to the tutorial frequently; however, if a section
829 discusses something which is a complex variant of a basic concept, there
830 may be a cross reference to that basic concept. (The entire book,
831 including the tutorial, assumes that the reader understands some basic
832 concepts of using a Unix-type operating system; @pxref{Tutorial}.)
833
834 The third chapter presents the remaining five operations, and
835 information about using @command{tar} options and option syntax.
836
837 @FIXME{this sounds more like a @acronym{GNU} Project Manuals Concept [tm] more
838 than the reality. should think about whether this makes sense to say
839 here, or not.} The other chapters are meant to be used as a
840 reference. Each chapter presents everything that needs to be said
841 about a specific topic.
842
843 One of the chapters (@pxref{Date input formats}) exists in its
844 entirety in other @acronym{GNU} manuals, and is mostly self-contained.
845 In addition, one section of this manual (@pxref{Standard}) contains a
846 big quote which is taken directly from @command{tar} sources.
847
848 In general, we give both the long and short (abbreviated) option names
849 at least once in each section where the relevant option is covered, so
850 that novice readers will become familiar with both styles. (A few
851 options have no short versions, and the relevant sections will
852 indicate this.)
853
854 @node Definitions
855 @section Some Definitions
856
857 @cindex archive
858 @cindex tar archive
859 The @command{tar} program is used to create and manipulate @command{tar}
860 archives. An @dfn{archive} is a single file which contains the contents
861 of many files, while still identifying the names of the files, their
862 owner(s), and so forth. (In addition, archives record access
863 permissions, user and group, size in bytes, and last modification time.
864 Some archives also record the file names in each archived directory, as
865 well as other file and directory information.) You can use @command{tar}
866 to @dfn{create} a new archive in a specified directory.
867
868 @cindex member
869 @cindex archive member
870 @cindex file name
871 @cindex member name
872 The files inside an archive are called @dfn{members}. Within this
873 manual, we use the term @dfn{file} to refer only to files accessible in
874 the normal ways (by @command{ls}, @command{cat}, and so forth), and the term
875 @dfn{member} to refer only to the members of an archive. Similarly, a
876 @dfn{file name} is the name of a file, as it resides in the filesystem,
877 and a @dfn{member name} is the name of an archive member within the
878 archive.
879
880 @cindex extraction
881 @cindex unpacking
882 The term @dfn{extraction} refers to the process of copying an archive
883 member (or multiple members) into a file in the filesystem. Extracting
884 all the members of an archive is often called @dfn{extracting the
885 archive}. The term @dfn{unpack} can also be used to refer to the
886 extraction of many or all the members of an archive. Extracting an
887 archive does not destroy the archive's structure, just as creating an
888 archive does not destroy the copies of the files that exist outside of
889 the archive. You may also @dfn{list} the members in a given archive
890 (this is often thought of as ``printing'' them to the standard output,
891 or the command line), or @dfn{append} members to a pre-existing archive.
892 All of these operations can be performed using @command{tar}.
893
894 @node What tar Does
895 @section What @command{tar} Does
896
897 @cindex tar
898 The @command{tar} program provides the ability to create @command{tar}
899 archives, as well as various other kinds of manipulation. For example,
900 you can use @command{tar} on previously created archives to extract files,
901 to store additional files, or to update or list files which were already
902 stored.
903
904 Initially, @command{tar} archives were used to store files conveniently on
905 magnetic tape. The name @command{tar} comes from this use; it stands for
906 @code{t}ape @code{ar}chiver. Despite the utility's name, @command{tar} can
907 direct its output to available devices, files, or other programs (using
908 pipes). @command{tar} may even access remote devices or files (as archives).
909
910 @FIXME{the following table entries need a bit of work..}
911
912 You can use @command{tar} archives in many ways. We want to stress a few
913 of them: storage, backup, and transportation.
914
915 @table @asis
916 @item Storage
917 Often, @command{tar} archives are used to store related files for
918 convenient file transfer over a network. For example, the
919 @acronym{GNU} Project distributes its software bundled into
920 @command{tar} archives, so that all the files relating to a particular
921 program (or set of related programs) can be transferred as a single
922 unit.
923
924 A magnetic tape can store several files in sequence. However, the tape
925 has no names for these files; it only knows their relative position on
926 the tape. One way to store several files on one tape and retain their
927 names is by creating a @command{tar} archive. Even when the basic transfer
928 mechanism can keep track of names, as FTP can, the nuisance of handling
929 multiple files, directories, and multiple links makes @command{tar}
930 archives useful.
931
932 Archive files are also used for long-term storage. You can think of
933 this as transportation from the present into the future. (It is a
934 science-fiction idiom that you can move through time as well as in
935 space; the idea here is that @command{tar} can be used to move archives in
936 all dimensions, even time!)
937
938 @item Backup
939 Because the archive created by @command{tar} is capable of preserving
940 file information and directory structure, @command{tar} is commonly
941 used for performing full and incremental backups of disks. A backup
942 puts a collection of files (possibly pertaining to many users and
943 projects) together on a disk or a tape. This guards against
944 accidental destruction of the information in those files.
945 @acronym{GNU} @command{tar} has special features that allow it to be
946 used to make incremental and full dumps of all the files in a
947 filesystem.
948
949 @item Transportation
950 You can create an archive on one system, transfer it to another system,
951 and extract the contents there. This allows you to transport a group of
952 files from one system to another.
953 @end table
954
955 @node Naming tar Archives
956 @section How @command{tar} Archives are Named
957
958 Conventionally, @command{tar} archives are given names ending with
959 @samp{.tar}. This is not necessary for @command{tar} to operate properly,
960 but this manual follows that convention in order to accustom readers to
961 it and to make examples more clear.
962
963 @cindex tar file
964 @cindex entry
965 @cindex tar entry
966 Often, people refer to @command{tar} archives as ``@command{tar} files,'' and
967 archive members as ``files'' or ``entries''. For people familiar with
968 the operation of @command{tar}, this causes no difficulty. However, in
969 this manual, we consistently refer to ``archives'' and ``archive
970 members'' to make learning to use @command{tar} easier for novice users.
971
972 @node posix compliance
973 @section @sc{posix} Compliance
974
975 @noindent
976 @FIXME{must ask franc,ois about this. dan hagerty thinks this might
977 be an issue, but we're not really sure at this time. dan just tried a
978 test case of mixing up options' orders while the variable was set, and
979 there was no problem...}
980
981 We make some of our recommendations throughout this book for one
982 reason in addition to what we think of as ``good sense''. The main
983 additional reason for a recommendation is to be compliant with the
984 @sc{posix} standards. If you set the shell environment variable
985 @env{POSIXLY_CORRECT}, @acronym{GNU} @command{tar} will force you to
986 adhere to these standards. Therefore, if this variable is set and you
987 violate one of the @sc{posix} standards in the way you phrase a
988 command, for example, @acronym{GNU} @command{tar} will not allow the
989 command and will signal an error message. You would then have to
990 reorder the options or rephrase the command to comply with the
991 @sc{posix} standards.
992
993 There is a chance in the future that, if you set this environment
994 variable, your archives will be forced to comply with @sc{posix} standards,
995 also. No @acronym{GNU} @command{tar} extensions will be allowed.
996
997 @node Authors
998 @section @acronym{GNU} @command{tar} Authors
999
1000 @acronym{GNU} @command{tar} was originally written by John Gilmore,
1001 and modified by many people. The @acronym{GNU} enhancements were
1002 written by Jay Fenlason, then Joy Kendall, and the whole package has
1003 been further maintained by Thomas Bushnell, n/BSG, and finally
1004 Fran@,{c}ois Pinard, with the help of numerous and kind users.
1005
1006 We wish to stress that @command{tar} is a collective work, and owes much to
1007 all those people who reported problems, offered solutions and other
1008 insights, or shared their thoughts and suggestions. An impressive, yet
1009 partial list of those contributors can be found in the @file{THANKS}
1010 file from the @acronym{GNU} @command{tar} distribution.
1011
1012 @FIXME{i want all of these names mentioned, Absolutely. BUT, i'm not
1013 sure i want to spell out the history in this detail, at least not for
1014 the printed book. i'm just not sure it needs to be said this way.
1015 i'll think about it.}
1016
1017 @FIXME{History is more important, and surely more interesting, than
1018 actual names. Quoting names without history would be meaningless. FP}
1019
1020 Jay Fenlason put together a draft of a @acronym{GNU} @command{tar}
1021 manual, borrowing notes from the original man page from John Gilmore.
1022 This was withdrawn in version 1.11. Thomas Bushnell, n/BSG and Amy
1023 Gorin worked on a tutorial and manual for @acronym{GNU} @command{tar}.
1024 Fran@,{c}ois Pinard put version 1.11.8 of the manual together by
1025 taking information from all these sources and merging them. Melissa
1026 Weisshaus finally edited and redesigned the book to create version
1027 1.12. @FIXME{update version number as necessary; i'm being
1028 optimistic!} @FIXME{Someone [maybe karl berry? maybe bob chassell?
1029 maybe melissa? maybe julie sussman?] needs to properly index the
1030 thing.}
1031
1032 For version 1.12, Daniel Hagerty contributed a great deal of technical
1033 consulting. In particular, he is the primary author of @ref{Backups}.
1034
1035 @node Reports
1036 @section Reporting bugs or suggestions
1037
1038 @cindex bug reports
1039 @cindex reporting bugs
1040 If you find problems or have suggestions about this program or manual,
1041 please report them to @file{bug-tar@@gnu.org}.
1042
1043 @node Tutorial
1044 @chapter Tutorial Introduction to @command{tar}
1045
1046 This chapter guides you through some basic examples of three @command{tar}
1047 operations: @samp{--create}, @samp{--list}, and @samp{--extract}. If
1048 you already know how to use some other version of @command{tar}, then you
1049 may not need to read this chapter. This chapter omits most complicated
1050 details about how @command{tar} works.
1051
1052 @menu
1053 * assumptions::
1054 * stylistic conventions::
1055 * basic tar options:: Basic @command{tar} Operations and Options
1056 * frequent operations::
1057 * Two Frequent Options::
1058 * create:: How to Create Archives
1059 * list:: How to List Archives
1060 * extract:: How to Extract Members from an Archive
1061 * going further::
1062 @end menu
1063
1064 @node assumptions
1065 @section Assumptions this Tutorial Makes
1066
1067 This chapter is paced to allow beginners to learn about @command{tar}
1068 slowly. At the same time, we will try to cover all the basic aspects of
1069 these three operations. In order to accomplish both of these tasks, we
1070 have made certain assumptions about your knowledge before reading this
1071 manual, and the hardware you will be using:
1072
1073 @itemize @bullet
1074 @item
1075 Before you start to work through this tutorial, you should understand
1076 what the terms ``archive'' and ``archive member'' mean
1077 (@pxref{Definitions}). In addition, you should understand something
1078 about how Unix-type operating systems work, and you should know how to
1079 use some basic utilities. For example, you should know how to create,
1080 list, copy, rename, edit, and delete files and directories; how to
1081 change between directories; and how to figure out where you are in the
1082 filesystem. You should have some basic understanding of directory
1083 structure and how files are named according to which directory they are
1084 in. You should understand concepts such as standard output and standard
1085 input, what various definitions of the term ``argument'' mean, and the
1086 differences between relative and absolute path names. @FIXME{and what
1087 else?}
1088
1089 @item
1090 This manual assumes that you are working from your own home directory
1091 (unless we state otherwise). In this tutorial, you will create a
1092 directory to practice @command{tar} commands in. When we show path names,
1093 we will assume that those paths are relative to your home directory.
1094 For example, my home directory path is @file{/home/fsf/melissa}. All of
1095 my examples are in a subdirectory of the directory named by that path
1096 name; the subdirectory is called @file{practice}.
1097
1098 @item
1099 In general, we show examples of archives which exist on (or can be
1100 written to, or worked with from) a directory on a hard disk. In most
1101 cases, you could write those archives to, or work with them on any other
1102 device, such as a tape drive. However, some of the later examples in
1103 the tutorial and next chapter will not work on tape drives.
1104 Additionally, working with tapes is much more complicated than working
1105 with hard disks. For these reasons, the tutorial does not cover working
1106 with tape drives. @xref{Media}, for complete information on using
1107 @command{tar} archives with tape drives.
1108
1109 @FIXME{this is a cop out. need to add some simple tape drive info.}
1110 @end itemize
1111
1112 @node stylistic conventions
1113 @section Stylistic Conventions
1114
1115 In the examples, @samp{$} represents a typical shell prompt. It
1116 precedes lines you should type; to make this more clear, those lines are
1117 shown in @kbd{this font}, as opposed to lines which represent the
1118 computer's response; those lines are shown in @code{this font}, or
1119 sometimes @samp{like this}. When we have lines which are too long to be
1120 displayed in any other way, we will show them like this:
1121
1122 @smallexample
1123 This is an example of a line which would otherwise not fit in this space.
1124 @end smallexample
1125
1126 @FIXME{how often do we use smallexample?}
1127
1128 @node basic tar options
1129 @section Basic @command{tar} Operations and Options
1130
1131 @command{tar} can take a wide variety of arguments which specify and define
1132 the actions it will have on the particular set of files or the archive.
1133 The main types of arguments to @command{tar} fall into one of two classes:
1134 operations, and options.
1135
1136 Some arguments fall into a class called @dfn{operations}; exactly one of
1137 these is both allowed and required for any instance of using @command{tar};
1138 you may @emph{not} specify more than one. People sometimes speak of
1139 @dfn{operating modes}. You are in a particular operating mode when you
1140 have specified the operation which specifies it; there are eight
1141 operations in total, and thus there are eight operating modes.
1142
1143 The other arguments fall into the class known as @dfn{options}. You are
1144 not required to specify any options, and you are allowed to specify more
1145 than one at a time (depending on the way you are using @command{tar} at
1146 that time). Some options are used so frequently, and are so useful for
1147 helping you type commands more carefully that they are effectively
1148 ``required''. We will discuss them in this chapter.
1149
1150 You can write most of the @command{tar} operations and options in any
1151 of three forms: long (mnemonic) form, short form, and old style. Some
1152 of the operations and options have no short or ``old'' forms; however,
1153 the operations and options which we will cover in this tutorial have
1154 corresponding abbreviations. @FIXME{make sure this is still the case,
1155 at the end}We will indicate those abbreviations appropriately to get
1156 you used to seeing them. (Note that the ``old style'' option forms
1157 exist in @acronym{GNU} @command{tar} for compatibility with Unix
1158 @command{tar}. We present a full discussion of this way of writing
1159 options and operations appears in @ref{Old Options}, and we discuss
1160 the other two styles of writing options in @ref{Mnemonic Options} and
1161 @ref{Short Options}.)
1162
1163 In the examples and in the text of this tutorial, we usually use the
1164 long forms of operations and options; but the ``short'' forms produce
1165 the same result and can make typing long @command{tar} commands easier.
1166 For example, instead of typing
1167
1168 @example
1169 @kbd{tar --create --verbose --file=afiles.tar apple angst aspic}
1170 @end example
1171
1172 @noindent
1173 you can type
1174 @example
1175 @kbd{tar -c -v -f afiles.tar apple angst aspic}
1176 @end example
1177
1178 @noindent
1179 or even
1180 @example
1181 @kbd{tar -cvf afiles.tar apple angst aspic}
1182 @end example
1183
1184 @noindent
1185 For more information on option syntax, see @ref{Advanced tar}. In
1186 discussions in the text, when we name an option by its long form, we
1187 also give the corresponding short option in parentheses.
1188
1189 The term, ``option'', can be confusing at times, since ``operations''
1190 are often lumped in with the actual, @emph{optional} ``options'' in certain
1191 general class statements. For example, we just talked about ``short and
1192 long forms of options and operations''. However, experienced @command{tar}
1193 users often refer to these by shorthand terms such as, ``short and long
1194 options''. This term assumes that the ``operations'' are included, also.
1195 Context will help you determine which definition of ``options'' to use.
1196
1197 Similarly, the term ``command'' can be confusing, as it is often used in
1198 two different ways. People sometimes refer to @command{tar} ``commands''.
1199 A @command{tar} @dfn{command} is the entire command line of user input
1200 which tells @command{tar} what to do --- including the operation, options,
1201 and any arguments (file names, pipes, other commands, etc). However,
1202 you will also sometimes hear the term ``the @command{tar} command''. When
1203 the word ``command'' is used specifically like this, a person is usually
1204 referring to the @command{tar} @emph{operation}, not the whole line.
1205 Again, use context to figure out which of the meanings the speaker
1206 intends.
1207
1208 @node frequent operations
1209 @section The Three Most Frequently Used Operations
1210
1211 Here are the three most frequently used operations (both short and long
1212 forms), as well as a brief description of their meanings. The rest of
1213 this chapter will cover how to use these operations in detail. We will
1214 present the rest of the operations in the next chapter.
1215
1216 @table @kbd
1217 @item --create
1218 @itemx -c
1219 Create a new @command{tar} archive.
1220 @item --list
1221 @itemx -t
1222 List the contents of an archive.
1223 @item --extract
1224 @itemx -x
1225 Extract one or more members from an archive.
1226 @end table
1227
1228 @node Two Frequent Options
1229 @section Two Frequently Used Options
1230
1231 To understand how to run @command{tar} in the three operating modes listed
1232 previously, you also need to understand how to use two of the options to
1233 @command{tar}: @samp{--file} (which takes an archive file as an argument)
1234 and @samp{--verbose}. (You are usually not @emph{required} to specify
1235 either of these options when you run @command{tar}, but they can be very
1236 useful in making things more clear and helping you avoid errors.)
1237
1238 @menu
1239 * file tutorial::
1240 * verbose tutorial::
1241 * help tutorial::
1242 @end menu
1243
1244 @node file tutorial
1245 @unnumberedsubsec The @samp{--file} Option
1246
1247 @table @kbd
1248 @item --file=@var{archive-name}
1249 @itemx -f @var{archive-name}
1250 Specify the name of an archive file.
1251 @end table
1252
1253 You can specify an argument for the @value{op-file} option whenever you
1254 use @command{tar}; this option determines the name of the archive file
1255 that @command{tar} will work on.
1256
1257 If you don't specify this argument, then @command{tar} will use a
1258 default, usually some physical tape drive attached to your machine.
1259 If there is no tape drive attached, or the default is not meaningful,
1260 then @command{tar} will print an error message. The error message might
1261 look roughly like one of the following:
1262
1263 @example
1264 tar: can't open /dev/rmt8 : No such device or address
1265 tar: can't open /dev/rsmt0 : I/O error
1266 @end example
1267
1268 @noindent
1269 To avoid confusion, we recommend that you always specify an archive file
1270 name by using @value{op-file} when writing your @command{tar} commands.
1271 For more information on using the @value{op-file} option, see
1272 @ref{file}.
1273
1274 @node verbose tutorial
1275 @unnumberedsubsec The @samp{--verbose} Option
1276
1277 @table @kbd
1278 @item --verbose
1279 @itemx -v
1280 Show the files being worked on as @command{tar} is running.
1281 @end table
1282
1283 @value{op-verbose} shows details about the results of running
1284 @command{tar}. This can be especially useful when the results might not be
1285 obvious. For example, if you want to see the progress of @command{tar} as
1286 it writes files into the archive, you can use the @samp{--verbose}
1287 option. In the beginning, you may find it useful to use
1288 @samp{--verbose} at all times; when you are more accustomed to
1289 @command{tar}, you will likely want to use it at certain times but not at
1290 others. We will use @samp{--verbose} at times to help make something
1291 clear, and we will give many examples both using and not using
1292 @samp{--verbose} to show the differences.
1293
1294 Sometimes, a single instance of @samp{--verbose} on the command line
1295 will show a full, @samp{ls} style listing of an archive or files,
1296 @c FIXME: Describe the exact output format, e.g., how hard links are displayed.
1297 giving sizes, owners, and similar information. Other times,
1298 @samp{--verbose} will only show files or members that the particular
1299 operation is operating on at the time. In the latter case, you can
1300 use @samp{--verbose} twice in a command to get a listing such as that
1301 in the former case. For example, instead of saying
1302
1303 @example
1304 @kbd{tar -cvf afiles.tar apple angst aspic}
1305 @end example
1306
1307 @noindent
1308 above, you might say
1309
1310 @example
1311 @kbd{tar -cvvf afiles.tar apple angst aspic}
1312 @end example
1313
1314 @noindent
1315 This works equally well using short or long forms of options. Using
1316 long forms, you would simply write out the mnemonic form of the option
1317 twice, like this:
1318
1319 @example
1320 $ @kbd{tar --create --verbose --verbose @dots{}}
1321 @end example
1322
1323 @noindent
1324 Note that you must double the hyphens properly each time.
1325
1326 Later in the tutorial, we will give examples using @w{@samp{--verbose
1327 --verbose}}.
1328
1329 @node help tutorial
1330 @unnumberedsubsec Getting Help: Using the @code{--help} Option
1331
1332 @table @kbd
1333 @item --help
1334
1335 The @samp{--help} option to @command{tar} prints out a very brief list of
1336 all operations and option available for the current version of
1337 @command{tar} available on your system.
1338 @end table
1339
1340 @node create
1341 @section How to Create Archives
1342 @UNREVISED
1343
1344 One of the basic operations of @command{tar} is @value{op-create}, which
1345 you use to create a @command{tar} archive. We will explain
1346 @samp{--create} first because, in order to learn about the other
1347 operations, you will find it useful to have an archive available to
1348 practice on.
1349
1350 To make this easier, in this section you will first create a directory
1351 containing three files. Then, we will show you how to create an
1352 @emph{archive} (inside the new directory). Both the directory, and
1353 the archive are specifically for you to practice on. The rest of this
1354 chapter and the next chapter will show many examples using this
1355 directory and the files you will create: some of those files may be
1356 other directories and other archives.
1357
1358 The three files you will archive in this example are called
1359 @file{blues}, @file{folk}, and @file{jazz}. The archive is called
1360 @file{collection.tar}.
1361
1362 This section will proceed slowly, detailing how to use @samp{--create}
1363 in @code{verbose} mode, and showing examples using both short and long
1364 forms. In the rest of the tutorial, and in the examples in the next
1365 chapter, we will proceed at a slightly quicker pace. This section
1366 moves more slowly to allow beginning users to understand how
1367 @command{tar} works.
1368
1369 @menu
1370 * prepare for examples::
1371 * Creating the archive::
1372 * create verbose::
1373 * short create::
1374 * create dir::
1375 @end menu
1376
1377 @node prepare for examples
1378 @subsection Preparing a Practice Directory for Examples
1379
1380 To follow along with this and future examples, create a new directory
1381 called @file{practice} containing files called @file{blues}, @file{folk}
1382 and @file{jazz}. The files can contain any information you like:
1383 ideally, they should contain information which relates to their names,
1384 and be of different lengths. Our examples assume that @file{practice}
1385 is a subdirectory of your home directory.
1386
1387 Now @command{cd} to the directory named @file{practice}; @file{practice}
1388 is now your @dfn{working directory}. (@emph{Please note}: Although
1389 the full path name of this directory is
1390 @file{/@var{homedir}/practice}, in our examples we will refer to
1391 this directory as @file{practice}; the @var{homedir} is presumed.
1392
1393 In general, you should check that the files to be archived exist where
1394 you think they do (in the working directory) by running @command{ls}.
1395 Because you just created the directory and the files and have changed to
1396 that directory, you probably don't need to do that this time.
1397
1398 It is very important to make sure there isn't already a file in the
1399 working directory with the archive name you intend to use (in this case,
1400 @samp{collection.tar}), or that you don't care about its contents.
1401 Whenever you use @samp{create}, @command{tar} will erase the current
1402 contents of the file named by @value{op-file} if it exists. @command{tar}
1403 will not tell you if you are about to overwrite an archive unless you
1404 specify an option which does this. @FIXME{xref to the node for
1405 --backup!}To add files to an existing archive, you need to use a
1406 different option, such as @value{op-append}; see @ref{append} for
1407 information on how to do this.
1408
1409 @node Creating the archive
1410 @subsection Creating the Archive
1411
1412 To place the files @file{blues}, @file{folk}, and @file{jazz} into an
1413 archive named @file{collection.tar}, use the following command:
1414
1415 @example
1416 $ @kbd{tar --create --file=collection.tar blues folk jazz}
1417 @end example
1418
1419 The order of the arguments is not very important, @emph{when using long
1420 option forms}. You could also say:
1421
1422 @example
1423 $ @kbd{tar blues --create folk --file=collection.tar jazz}
1424 @end example
1425
1426 @noindent
1427 However, you can see that this order is harder to understand; this is
1428 why we will list the arguments in the order that makes the commands
1429 easiest to understand (and we encourage you to do the same when you use
1430 @command{tar}, to avoid errors).
1431
1432 Note that the part of the command which says,
1433 @w{@kbd{--file=collection.tar}} is considered to be @emph{one} argument.
1434 If you substituted any other string of characters for
1435 @kbd{collection.tar}, then that string would become the name of the
1436 archive file you create.
1437
1438 The order of the options becomes more important when you begin to use
1439 short forms. With short forms, if you type commands in the wrong order
1440 (even if you type them correctly in all other ways), you may end up with
1441 results you don't expect. For this reason, it is a good idea to get
1442 into the habit of typing options in the order that makes inherent sense.
1443 @xref{short create}, for more information on this.
1444
1445 In this example, you type the command as shown above: @samp{--create}
1446 is the operation which creates the new archive
1447 (@file{collection.tar}), and @samp{--file} is the option which lets
1448 you give it the name you chose. The files, @file{blues}, @file{folk},
1449 and @file{jazz}, are now members of the archive, @file{collection.tar}
1450 (they are @dfn{file name arguments} to the @samp{--create} operation).
1451 @FIXME{xref here to the discussion of file name args?}Now that they are
1452 in the archive, they are called @emph{archive members}, not files.
1453 @FIXME{xref to definitions?}
1454
1455 When you create an archive, you @emph{must} specify which files you
1456 want placed in the archive. If you do not specify any archive
1457 members, @acronym{GNU} @command{tar} will complain.
1458
1459 If you now list the contents of the working directory (@kbd{ls}), you will
1460 find the archive file listed as well as the files you saw previously:
1461
1462 @example
1463 blues folk jazz collection.tar
1464 @end example
1465
1466 @noindent
1467 Creating the archive @samp{collection.tar} did not destroy the copies of
1468 the files in the directory.
1469
1470 Keep in mind that if you don't indicate an operation, @command{tar} will not
1471 run and will prompt you for one. If you don't name any files, @command{tar}
1472 will complain. You must have write access to the working directory,
1473 or else you will not be able to create an archive in that directory.
1474
1475 @emph{Caution}: Do not attempt to use @value{op-create} to add files to
1476 an existing archive; it will delete the archive and write a new one.
1477 Use @value{op-append} instead. @xref{append}.
1478
1479 @node create verbose
1480 @subsection Running @samp{--create} with @samp{--verbose}
1481
1482 If you include the @value{op-verbose} option on the command line,
1483 @command{tar} will list the files it is acting on as it is working. In
1484 verbose mode, the @code{create} example above would appear as:
1485
1486 @example
1487 $ @kbd{tar --create --verbose --file=collection.tar blues folk jazz}
1488 blues
1489 folk
1490 jazz
1491 @end example
1492
1493 This example is just like the example we showed which did not use
1494 @samp{--verbose}, except that @command{tar} generated the remaining lines
1495 @iftex
1496 (note the different font styles).
1497 @end iftex
1498 @ifinfo
1499 .
1500 @end ifinfo
1501
1502 In the rest of the examples in this chapter, we will frequently use
1503 @code{verbose} mode so we can show actions or @command{tar} responses that
1504 you would otherwise not see, and which are important for you to
1505 understand.
1506
1507 @node short create
1508 @subsection Short Forms with @samp{create}
1509
1510 As we said before, the @value{op-create} operation is one of the most
1511 basic uses of @command{tar}, and you will use it countless times.
1512 Eventually, you will probably want to use abbreviated (or ``short'')
1513 forms of options. A full discussion of the three different forms that
1514 options can take appears in @ref{Styles}; for now, here is what the
1515 previous example (including the @value{op-verbose} option) looks like
1516 using short option forms:
1517
1518 @example
1519 $ @kbd{tar -cvf collection.tar blues folk jazz}
1520 blues
1521 folk
1522 jazz
1523 @end example
1524
1525 @noindent
1526 As you can see, the system responds the same no matter whether you use
1527 long or short option forms.
1528
1529 @FIXME{i don't like how this is worded:} One difference between using
1530 short and long option forms is that, although the exact placement of
1531 arguments following options is no more specific when using short forms,
1532 it is easier to become confused and make a mistake when using short
1533 forms. For example, suppose you attempted the above example in the
1534 following way:
1535
1536 @example
1537 $ @kbd{tar -cfv collection.tar blues folk jazz}
1538 @end example
1539
1540 @noindent
1541 In this case, @command{tar} will make an archive file called @file{v},
1542 containing the files @file{blues}, @file{folk}, and @file{jazz}, because
1543 the @samp{v} is the closest ``file name'' to the @samp{-f} option, and
1544 is thus taken to be the chosen archive file name. @command{tar} will try
1545 to add a file called @file{collection.tar} to the @file{v} archive file;
1546 if the file @file{collection.tar} did not already exist, @command{tar} will
1547 report an error indicating that this file does not exist. If the file
1548 @file{collection.tar} does already exist (e.g., from a previous command
1549 you may have run), then @command{tar} will add this file to the archive.
1550 Because the @samp{-v} option did not get registered, @command{tar} will not
1551 run under @samp{verbose} mode, and will not report its progress.
1552
1553 The end result is that you may be quite confused about what happened,
1554 and possibly overwrite a file. To illustrate this further, we will show
1555 you how an example we showed previously would look using short forms.
1556
1557 This example,
1558
1559 @example
1560 $ @kbd{tar blues --create folk --file=collection.tar jazz}
1561 @end example
1562
1563 @noindent
1564 is confusing as it is. When shown using short forms, however, it
1565 becomes much more so:
1566
1567 @example
1568 $ @kbd{tar blues -c folk -f collection.tar jazz}
1569 @end example
1570
1571 @noindent
1572 It would be very easy to put the wrong string of characters
1573 immediately following the @samp{-f}, but doing that could sacrifice
1574 valuable data.
1575
1576 For this reason, we recommend that you pay very careful attention to
1577 the order of options and placement of file and archive names,
1578 especially when using short option forms. Not having the option name
1579 written out mnemonically can affect how well you remember which option
1580 does what, and therefore where different names have to be placed.
1581 (Placing options in an unusual order can also cause @command{tar} to
1582 report an error if you have set the shell environment variable
1583 @env{POSIXLY_CORRECT}; @pxref{posix compliance} for more information
1584 on this.)
1585
1586 @node create dir
1587 @subsection Archiving Directories
1588
1589 @cindex Archiving Directories
1590 @cindex Directories, Archiving
1591 You can archive a directory by specifying its directory name as a
1592 file name argument to @command{tar}. The files in the directory will be
1593 archived relative to the working directory, and the directory will be
1594 re-created along with its contents when the archive is extracted.
1595
1596 To archive a directory, first move to its superior directory. If you
1597 have followed the previous instructions in this tutorial, you should
1598 type:
1599
1600 @example
1601 $ @kbd{cd ..}
1602 $
1603 @end example
1604
1605 @noindent
1606 This will put you into the directory which contains @file{practice},
1607 i.e. your home directory. Once in the superior directory, you can
1608 specify the subdirectory, @file{practice}, as a file name argument. To
1609 store @file{practice} in the new archive file @file{music.tar}, type:
1610
1611 @example
1612 $ @kbd{tar --create --verbose --file=music.tar practice}
1613 @end example
1614
1615 @noindent
1616 @command{tar} should output:
1617
1618 @example
1619 practice/
1620 practice/blues
1621 practice/folk
1622 practice/jazz
1623 practice/collection.tar
1624 @end example
1625
1626 Note that the archive thus created is not in the subdirectory
1627 @file{practice}, but rather in the current working directory---the
1628 directory from which @command{tar} was invoked. Before trying to archive a
1629 directory from its superior directory, you should make sure you have
1630 write access to the superior directory itself, not only the directory
1631 you are trying archive with @command{tar}. For example, you will probably
1632 not be able to store your home directory in an archive by invoking
1633 @command{tar} from the root directory; @value{xref-absolute-names}. (Note
1634 also that @file{collection.tar}, the original archive file, has itself
1635 been archived. @command{tar} will accept any file as a file to be
1636 archived, regardless of its content. When @file{music.tar} is
1637 extracted, the archive file @file{collection.tar} will be re-written
1638 into the file system).
1639
1640 If you give @command{tar} a command such as
1641
1642 @example
1643 $ @kbd{tar --create --file=foo.tar .}
1644 @end example
1645
1646 @noindent
1647 @command{tar} will report @samp{tar: ./foo.tar is the archive; not
1648 dumped}. This happens because @command{tar} creates the archive
1649 @file{foo.tar} in the current directory before putting any files into
1650 it. Then, when @command{tar} attempts to add all the files in the
1651 directory @file{.} to the archive, it notices that the file
1652 @file{./foo.tar} is the same as the archive @file{foo.tar}, and skips
1653 it. (It makes no sense to put an archive into itself.) @acronym{GNU}
1654 @command{tar} will continue in this case, and create the archive
1655 normally, except for the exclusion of that one file. (@emph{Please
1656 note:} Other versions of @command{tar} are not so clever; they will
1657 enter an infinite loop when this happens, so you should not depend on
1658 this behavior unless you are certain you are running @acronym{GNU}
1659 @command{tar}.) @FIXME{bob doesn't like this sentence, since he does
1660 it all the time, and we've been doing it in the editing passes for
1661 this manual: In general, make sure that the archive is not inside a
1662 directory being dumped.}
1663
1664 @node list
1665 @section How to List Archives
1666
1667 Frequently, you will find yourself wanting to determine exactly what a
1668 particular archive contains. You can use the @value{op-list} operation
1669 to get the member names as they currently appear in the archive, as well
1670 as various attributes of the files at the time they were archived. For
1671 example, you can examine the archive @file{collection.tar} that you
1672 created in the last section with the command,
1673
1674 @example
1675 $ @kbd{tar --list --file=collection.tar}
1676 @end example
1677
1678 @noindent
1679 The output of @command{tar} would then be:
1680
1681 @example
1682 blues
1683 folk
1684 jazz
1685 @end example
1686
1687 @FIXME{we hope this will change. if it doesn't, need to show the
1688 creation of bfiles somewhere above!!! : }
1689
1690 @noindent
1691 The archive @file{bfiles.tar} would list as follows:
1692
1693 @example
1694 ./birds
1695 baboon
1696 ./box
1697 @end example
1698
1699 @noindent
1700 Be sure to use a @value{op-file} option just as with @value{op-create}
1701 to specify the name of the archive.
1702
1703 If you use the @value{op-verbose} option with @samp{--list}, then
1704 @command{tar} will print out a listing reminiscent of @w{@samp{ls -l}},
1705 showing owner, file size, and so forth.
1706
1707 If you had used @value{op-verbose} mode, the example above would look
1708 like:
1709
1710 @example
1711 $ @kbd{tar --list --verbose --file=collection.tar folk}
1712 -rw-rw-rw- myself user 62 1990-05-23 10:55 folk
1713 @end example
1714
1715 @cindex File name arguments, using @code{--list} with
1716 @cindex @code{--list} with file name arguments
1717 You can specify one or more individual member names as arguments when
1718 using @samp{list}. In this case, @command{tar} will only list the
1719 names of members you identify. For example, @w{@kbd{tar --list
1720 --file=afiles.tar apple}} would only print @file{apple}.
1721
1722 @FIXME{we hope the relevant aspects of this will change:}Because
1723 @command{tar} preserves paths, file names must be specified as they appear
1724 in the archive (ie., relative to the directory from which the archive
1725 was created). Therefore, it is essential when specifying member names
1726 to @command{tar} that you give the exact member names. For example,
1727 @w{@kbd{tar --list --file=bfiles birds}} would produce an error message
1728 something like @samp{tar: birds: Not found in archive}, because there is
1729 no member named @file{birds}, only one named @file{./birds}. While the
1730 names @file{birds} and @file{./birds} name the same file, @emph{member}
1731 names are compared using a simplistic name comparison, in which an exact
1732 match is necessary. @xref{absolute}.
1733
1734 However, @w{@kbd{tar --list --file=collection.tar folk}} would respond
1735 with @file{folk}, because @file{folk} is in the archive file
1736 @file{collection.tar}. If you are not sure of the exact file name, try
1737 listing all the files in the archive and searching for the one you
1738 expect to find; remember that if you use @samp{--list} with no file
1739 names as arguments, @command{tar} will print the names of all the members
1740 stored in the specified archive.
1741
1742 @menu
1743 * list dir::
1744 @end menu
1745
1746 @node list dir
1747 @unnumberedsubsec Listing the Contents of a Stored Directory
1748 @UNREVISED
1749
1750 @FIXME{i changed the order of these nodes around and haven't had a
1751 chance to play around with this node's example, yet. i have to play
1752 with it and see what it actually does for my own satisfaction, even if
1753 what it says *is* correct..}
1754
1755 To get information about the contents of an archived directory,
1756 use the directory name as a file name argument in conjunction with
1757 @value{op-list}. To find out file attributes, include the
1758 @value{op-verbose} option.
1759
1760 For example, to find out about files in the directory @file{practice}, in
1761 the archive file @file{music.tar}, type:
1762
1763 @example
1764 $ @kbd{tar --list --verbose --file=music.tar practice}
1765 @end example
1766
1767 @command{tar} responds:
1768
1769 @example
1770 drwxrwxrwx myself user 0 1990-05-31 21:49 practice/
1771 -rw-rw-rw- myself user 42 1990-05-21 13:29 practice/blues
1772 -rw-rw-rw- myself user 62 1990-05-23 10:55 practice/folk
1773 -rw-rw-rw- myself user 40 1990-05-21 13:30 practice/jazz
1774 -rw-rw-rw- myself user 10240 1990-05-31 21:49 practice/collection.tar
1775 @end example
1776
1777 When you use a directory name as a file name argument, @command{tar} acts on
1778 all the files (including sub-directories) in that directory.
1779
1780 @node extract
1781 @section How to Extract Members from an Archive
1782 @UNREVISED
1783 @cindex Extraction
1784 @cindex Retrieving files from an archive
1785 @cindex Resurrecting files from an archive
1786
1787 Creating an archive is only half the job---there is no point in storing
1788 files in an archive if you can't retrieve them. The act of retrieving
1789 members from an archive so they can be used and manipulated as
1790 unarchived files again is called @dfn{extraction}. To extract files
1791 from an archive, use the @value{op-extract} operation. As with
1792 @value{op-create}, specify the name of the archive with @value{op-file}.
1793 Extracting an archive does not modify the archive in any way; you can
1794 extract it multiple times if you want or need to.
1795
1796 Using @samp{--extract}, you can extract an entire archive, or specific
1797 files. The files can be directories containing other files, or not. As
1798 with @value{op-create} and @value{op-list}, you may use the short or the
1799 long form of the operation without affecting the performance.
1800
1801 @menu
1802 * extracting archives::
1803 * extracting files::
1804 * extract dir::
1805 * extracting untrusted archives::
1806 * failing commands::
1807 @end menu
1808
1809 @node extracting archives
1810 @subsection Extracting an Entire Archive
1811
1812 To extract an entire archive, specify the archive file name only, with
1813 no individual file names as arguments. For example,
1814
1815 @example
1816 $ @kbd{tar -xvf collection.tar}
1817 @end example
1818
1819 @noindent
1820 produces this:
1821
1822 @example
1823 -rw-rw-rw- me user 28 1996-10-18 16:31 jazz
1824 -rw-rw-rw- me user 21 1996-09-23 16:44 blues
1825 -rw-rw-rw- me user 20 1996-09-23 16:44 folk
1826 @end example
1827
1828 @node extracting files
1829 @subsection Extracting Specific Files
1830
1831 To extract specific archive members, give their exact member names as
1832 arguments, as printed by @value{op-list}. If you had mistakenly deleted
1833 one of the files you had placed in the archive @file{collection.tar}
1834 earlier (say, @file{blues}), you can extract it from the archive without
1835 changing the archive's structure. It will be identical to the original
1836 file @file{blues} that you deleted. @FIXME{check this; will the times,
1837 permissions, owner, etc be the same, also?}
1838
1839 First, make sure you are in the @file{practice} directory, and list the
1840 files in the directory. Now, delete the file, @samp{blues}, and list
1841 the files in the directory again.
1842
1843 You can now extract the member @file{blues} from the archive file
1844 @file{collection.tar} like this:
1845
1846 @example
1847 $ @kbd{tar --extract --file=collection.tar blues}
1848 @end example
1849
1850 @noindent
1851 If you list the files in the directory again, you will see that the file
1852 @file{blues} has been restored, with its original permissions, creation
1853 times, and owner.@FIXME{This is only accidentally true, but not in
1854 general. In most cases, one has to be root for restoring the owner, and
1855 use a special option for restoring permissions. Here, it just happens
1856 that the restoring user is also the owner of the archived members, and
1857 that the current @code{umask} is compatible with original permissions.}
1858 (These parameters will be identical to those which
1859 the file had when you originally placed it in the archive; any changes
1860 you may have made before deleting the file from the file system,
1861 however, will @emph{not} have been made to the archive member.) The
1862 archive file, @samp{collection.tar}, is the same as it was before you
1863 extracted @samp{blues}. You can confirm this by running @command{tar} with
1864 @value{op-list}.
1865
1866 @FIXME{we hope this will change:}Remember that as with other operations,
1867 specifying the exact member name is important. @w{@kbd{tar --extract
1868 --file=bfiles.tar birds}} will fail, because there is no member named
1869 @file{birds}. To extract the member named @file{./birds}, you must
1870 specify @w{@kbd{tar --extract --file=bfiles.tar ./birds}}. To find the
1871 exact member names of the members of an archive, use @value{op-list}
1872 (@pxref{list}).
1873
1874 You can extract a file to standard output by combining the above options
1875 with the @option{--to-stdout} option (@pxref{Writing to Standard
1876 Output}).
1877
1878 If you give the @value{op-verbose} option, then @value{op-extract} will
1879 print the names of the archive members as it extracts them.
1880
1881 @node extract dir
1882 @subsection Extracting Files that are Directories
1883
1884 Extracting directories which are members of an archive is similar to
1885 extracting other files. The main difference to be aware of is that if
1886 the extracted directory has the same name as any directory already in
1887 the working directory, then files in the extracted directory will be
1888 placed into the directory of the same name. Likewise, if there are
1889 files in the pre-existing directory with the same names as the members
1890 which you extract, the files from the extracted archive will replace
1891 the files already in the working directory (and possible
1892 subdirectories). This will happen regardless of whether or not the
1893 files in the working directory were more recent than those extracted.
1894
1895 However, if a file was stored with a directory name as part of its file
1896 name, and that directory does not exist under the working directory when
1897 the file is extracted, @command{tar} will create the directory.
1898
1899 We can demonstrate how to use @samp{--extract} to extract a directory
1900 file with an example. Change to the @file{practice} directory if you
1901 weren't there, and remove the files @file{folk} and @file{jazz}. Then,
1902 go back to the parent directory and extract the archive
1903 @file{music.tar}. You may either extract the entire archive, or you may
1904 extract only the files you just deleted. To extract the entire archive,
1905 don't give any file names as arguments after the archive name
1906 @file{music.tar}. To extract only the files you deleted, use the
1907 following command:
1908
1909 @example
1910 $ @kbd{tar -xvf music.tar practice/folk practice/jazz}
1911 @end example
1912
1913 @FIXME{need to show tar's response; used verbose above. also, here's a
1914 good place to demonstrate the -v -v thing. have to write that up
1915 (should be trivial, but i'm too tired!).}
1916
1917 @noindent
1918 Because you created the directory with @file{practice} as part of the
1919 file names of each of the files by archiving the @file{practice}
1920 directory as @file{practice}, you must give @file{practice} as part
1921 of the file names when you extract those files from the archive.
1922
1923 @FIXME{IMPORTANT! show the final structure, here. figure out what it
1924 will be.}
1925
1926 @node extracting untrusted archives
1927 @subsection Extracting Archives from Untrusted Sources
1928
1929 Extracting files from archives can overwrite files that already exist.
1930 If you receive an archive from an untrusted source, you should make a
1931 new directory and extract into that directory, so that you don't have
1932 to worry about the extraction overwriting one of your existing files.
1933 For example, if @file{untrusted.tar} came from somewhere else on the
1934 Internet, and you don't necessarily trust its contents, you can
1935 extract it as follows:
1936
1937 @example
1938 $ @kbd{mkdir newdir}
1939 $ @kbd{cd newdir}
1940 $ @kbd{tar -xvf ../untrusted.tar}
1941 @end example
1942
1943 @node failing commands
1944 @subsection Commands That Will Fail
1945
1946 Here are some sample commands you might try which will not work, and why
1947 they won't work.
1948
1949 If you try to use this command,
1950
1951 @example
1952 $ @kbd{tar -xvf music.tar folk jazz}
1953 @end example
1954
1955 @noindent
1956 you will get the following response:
1957
1958 @example
1959 tar: folk: Not found in archive
1960 tar: jazz: Not found in archive
1961 $
1962 @end example
1963
1964 @noindent
1965 This is because these files were not originally @emph{in} the parent
1966 directory @file{..}, where the archive is located; they were in the
1967 @file{practice} directory, and their file names reflect this:
1968
1969 @example
1970 $ @kbd{tar -tvf music.tar}
1971 practice/folk
1972 practice/jazz
1973 practice/rock
1974 @end example
1975
1976 @FIXME{make sure the above works when going through the examples in
1977 order...}
1978
1979 @noindent
1980 Likewise, if you try to use this command,
1981
1982 @example
1983 $ @kbd{tar -tvf music.tar folk jazz}
1984 @end example
1985
1986 @noindent
1987 you would get a similar response. Members with those names are not in the
1988 archive. You must use the correct member names in order to extract the
1989 files from the archive.
1990
1991 If you have forgotten the correct names of the files in the archive,
1992 use @w{@kbd{tar --list --verbose}} to list them correctly.
1993
1994 @FIXME{more examples, here? hag thinks it's a good idea.}
1995
1996 @node going further
1997 @section Going Further Ahead in this Manual
1998
1999 @FIXME{need to write up a node here about the things that are going to
2000 be in the rest of the manual.}
2001
2002 @node tar invocation
2003 @chapter Invoking @acronym{GNU} @command{tar}
2004 @UNREVISED
2005
2006 This chapter is about how one invokes the @acronym{GNU} @command{tar}
2007 command, from the command synopsis (@pxref{Synopsis}). There are
2008 numerous options, and many styles for writing them. One mandatory
2009 option specifies the operation @command{tar} should perform
2010 (@pxref{Operation Summary}), other options are meant to detail how
2011 this operation should be performed (@pxref{Option Summary}).
2012 Non-option arguments are not always interpreted the same way,
2013 depending on what the operation is.
2014
2015 You will find in this chapter everything about option styles and rules for
2016 writing them (@pxref{Styles}). On the other hand, operations and options
2017 are fully described elsewhere, in other chapters. Here, you will find
2018 only synthetic descriptions for operations and options, together with
2019 pointers to other parts of the @command{tar} manual.
2020
2021 Some options are so special they are fully described right in this
2022 chapter. They have the effect of inhibiting the normal operation of
2023 @command{tar} or else, they globally alter the amount of feedback the user
2024 receives about what is going on. These are the @value{op-help} and
2025 @value{op-version} (@pxref{help}), @value{op-verbose} (@pxref{verbose})
2026 and @value{op-interactive} options (@pxref{interactive}).
2027
2028 @menu
2029 * Synopsis::
2030 * using tar options::
2031 * Styles::
2032 * All Options::
2033 * help::
2034 * verbose::
2035 * interactive::
2036 @end menu
2037
2038 @node Synopsis
2039 @section General Synopsis of @command{tar}
2040
2041 The @acronym{GNU} @command{tar} program is invoked as either one of:
2042
2043 @example
2044 @kbd{tar @var{option}@dots{} [@var{name}]@dots{}}
2045 @kbd{tar @var{letter}@dots{} [@var{argument}]@dots{} [@var{option}]@dots{} [@var{name}]@dots{}}
2046 @end example
2047
2048 The second form is for when old options are being used.
2049
2050 You can use @command{tar} to store files in an archive, to extract them from
2051 an archive, and to do other types of archive manipulation. The primary
2052 argument to @command{tar}, which is called the @dfn{operation}, specifies
2053 which action to take. The other arguments to @command{tar} are either
2054 @dfn{options}, which change the way @command{tar} performs an operation,
2055 or file names or archive members, which specify the files or members
2056 @command{tar} is to act on.
2057
2058 You can actually type in arguments in any order, even if in this manual
2059 the options always precede the other arguments, to make examples easier
2060 to understand. Further, the option stating the main operation mode
2061 (the @command{tar} main command) is usually given first.
2062
2063 Each @var{name} in the synopsis above is interpreted as an archive member
2064 name when the main command is one of @value{op-compare}, @value{op-delete},
2065 @value{op-extract}, @value{op-list} or @value{op-update}. When naming
2066 archive members, you must give the exact name of the member in the
2067 archive, as it is printed by @value{op-list}. For @value{op-append}
2068 and @value{op-create}, these @var{name} arguments specify the names
2069 of either files or directory hierarchies to place in the archive.
2070 These files or hierarchies should already exist in the file system,
2071 prior to the execution of the @command{tar} command.
2072
2073 @command{tar} interprets relative file names as being relative to the
2074 working directory. @command{tar} will make all file names relative
2075 (by removing leading slashes when archiving or restoring files),
2076 unless you specify otherwise (using the @value{op-absolute-names}
2077 option). @value{xref-absolute-names}, for more information about
2078 @value{op-absolute-names}.
2079
2080 If you give the name of a directory as either a file name or a member
2081 name, then @command{tar} acts recursively on all the files and directories
2082 beneath that directory. For example, the name @file{/} identifies all
2083 the files in the filesystem to @command{tar}.
2084
2085 The distinction between file names and archive member names is especially
2086 important when shell globbing is used, and sometimes a source of confusion
2087 for newcomers. @xref{Wildcards}, for more information about globbing.
2088 The problem is that shells may only glob using existing files in the
2089 file system. Only @command{tar} itself may glob on archive members, so when
2090 needed, you must ensure that wildcard characters reach @command{tar} without
2091 being interpreted by the shell first. Using a backslash before @samp{*}
2092 or @samp{?}, or putting the whole argument between quotes, is usually
2093 sufficient for this.
2094
2095 Even if @var{name}s are often specified on the command line, they
2096 can also be read from a text file in the file system, using the
2097 @value{op-files-from} option.
2098
2099 If you don't use any file name arguments, @value{op-append},
2100 @value{op-delete} and @value{op-concatenate} will do nothing, while
2101 @value{op-create} will usually yield a diagnostic and inhibit @command{tar}
2102 execution. The other operations of @command{tar} (@value{op-list},
2103 @value{op-extract}, @value{op-compare}, and @value{op-update}) will act
2104 on the entire contents of the archive.
2105
2106 @cindex exit status
2107 @cindex return status
2108 Besides successful exits, @acronym{GNU} @command{tar} may fail for
2109 many reasons. Some reasons correspond to bad usage, that is, when the
2110 @command{tar} command is improperly written. Errors may be
2111 encountered later, while encountering an error processing the archive
2112 or the files. Some errors are recoverable, in which case the failure
2113 is delayed until @command{tar} has completed all its work. Some
2114 errors are such that it would not meaningful, or at least risky, to
2115 continue processing: @command{tar} then aborts processing immediately.
2116 All abnormal exits, whether immediate or delayed, should always be
2117 clearly diagnosed on @code{stderr}, after a line stating the nature of
2118 the error.
2119
2120 @acronym{GNU} @command{tar} returns only a few exit statuses. I'm really
2121 aiming simplicity in that area, for now. If you are not using the
2122 @value{op-compare} option, zero means that everything went well, besides
2123 maybe innocuous warnings. Nonzero means that something went wrong.
2124 Right now, as of today, ``nonzero'' is almost always 2, except for
2125 remote operations, where it may be 128.
2126
2127 @node using tar options
2128 @section Using @command{tar} Options
2129
2130 @acronym{GNU} @command{tar} has a total of eight operating modes which
2131 allow you to perform a variety of tasks. You are required to choose
2132 one operating mode each time you employ the @command{tar} program by
2133 specifying one, and only one operation as an argument to the
2134 @command{tar} command (two lists of four operations each may be found
2135 at @ref{frequent operations} and @ref{Operations}). Depending on
2136 circumstances, you may also wish to customize how the chosen operating
2137 mode behaves. For example, you may wish to change the way the output
2138 looks, or the format of the files that you wish to archive may require
2139 you to do something special in order to make the archive look right.
2140
2141 You can customize and control @command{tar}'s performance by running
2142 @command{tar} with one or more options (such as @value{op-verbose}, which
2143 we used in the tutorial). As we said in the tutorial, @dfn{options} are
2144 arguments to @command{tar} which are (as their name suggests) optional.
2145 Depending on the operating mode, you may specify one or more options.
2146 Different options will have different effects, but in general they all
2147 change details of the operation, such as archive format, archive name,
2148 or level of user interaction. Some options make sense with all
2149 operating modes, while others are meaningful only with particular modes.
2150 You will likely use some options frequently, while you will only use
2151 others infrequently, or not at all. (A full list of options is
2152 available in @pxref{All Options}.)
2153
2154 The @env{TAR_OPTIONS} environment variable specifies default options to
2155 be placed in front of any explicit options. For example, if
2156 @code{TAR_OPTIONS} is @samp{-v --unlink-first}, @command{tar} behaves as
2157 if the two options @option{-v} and @option{--unlink-first} had been
2158 specified before any explicit options. Option specifications are
2159 separated by whitespace. A backslash escapes the next character, so it
2160 can be used to specify an option containing whitespace or a backslash.
2161
2162 Note that @command{tar} options are case sensitive. For example, the
2163 options @samp{-T} and @samp{-t} are different; the first requires an
2164 argument for stating the name of a file providing a list of @var{name}s,
2165 while the second does not require an argument and is another way to
2166 write @value{op-list}.
2167
2168 In addition to the eight operations, there are many options to
2169 @command{tar}, and three different styles for writing both: long (mnemonic)
2170 form, short form, and old style. These styles are discussed below.
2171 Both the options and the operations can be written in any of these three
2172 styles.
2173
2174 @FIXME{menu at end of this node. need to think of an actual outline
2175 for this chapter; probably do that after stuff from chap. 4 is
2176 incorporated.}
2177
2178 @node Styles
2179 @section The Three Option Styles
2180
2181 There are three styles for writing operations and options to the command
2182 line invoking @command{tar}. The different styles were developed at
2183 different times during the history of @command{tar}. These styles will be
2184 presented below, from the most recent to the oldest.
2185
2186 Some options must take an argument. (For example, @value{op-file} takes
2187 the name of an archive file as an argument. If you do not supply an
2188 archive file name, @command{tar} will use a default, but this can be
2189 confusing; thus, we recommend that you always supply a specific archive
2190 file name.) Where you @emph{place} the arguments generally depends on
2191 which style of options you choose. We will detail specific information
2192 relevant to each option style in the sections on the different option
2193 styles, below. The differences are subtle, yet can often be very
2194 important; incorrect option placement can cause you to overwrite a
2195 number of important files. We urge you to note these differences, and
2196 only use the option style(s) which makes the most sense to you until you
2197 feel comfortable with the others.
2198
2199 @FIXME{hag to write a brief paragraph on the option(s) which can
2200 optionally take an argument}
2201
2202 @menu
2203 * Mnemonic Options:: Mnemonic Option Style
2204 * Short Options:: Short Option Style
2205 * Old Options:: Old Option Style
2206 * Mixing:: Mixing Option Styles
2207 @end menu
2208
2209 @node Mnemonic Options
2210 @subsection Mnemonic Option Style
2211
2212 @FIXME{have to decide whether or ot to replace other occurrences of
2213 "mnemonic" with "long", or *ugh* vice versa.}
2214
2215 Each option has at least one long (or mnemonic) name starting with two
2216 dashes in a row, e.g.@: @samp{--list}. The long names are more clear than
2217 their corresponding short or old names. It sometimes happens that a
2218 single mnemonic option has many different different names which are
2219 synonymous, such as @samp{--compare} and @samp{--diff}. In addition,
2220 long option names can be given unique abbreviations. For example,
2221 @samp{--cre} can be used in place of @samp{--create} because there is no
2222 other mnemonic option which begins with @samp{cre}. (One way to find
2223 this out is by trying it and seeing what happens; if a particular
2224 abbreviation could represent more than one option, @command{tar} will tell
2225 you that that abbreviation is ambiguous and you'll know that that
2226 abbreviation won't work. You may also choose to run @samp{tar --help}
2227 to see a list of options. Be aware that if you run @command{tar} with a
2228 unique abbreviation for the long name of an option you didn't want to
2229 use, you are stuck; @command{tar} will perform the command as ordered.)
2230
2231 Mnemonic options are meant to be obvious and easy to remember, and their
2232 meanings are generally easier to discern than those of their
2233 corresponding short options (see below). For example:
2234
2235 @example
2236 $ @kbd{tar --create --verbose --blocking-factor=20 --file=/dev/rmt0}
2237 @end example
2238
2239 @noindent
2240 gives a fairly good set of hints about what the command does, even
2241 for those not fully acquainted with @command{tar}.
2242
2243 Mnemonic options which require arguments take those arguments
2244 immediately following the option name; they are introduced by an equal
2245 sign. For example, the @samp{--file} option (which tells the name
2246 of the @command{tar} archive) is given a file such as @file{archive.tar}
2247 as argument by using the notation @samp{--file=archive.tar} for the
2248 mnemonic option.
2249
2250 @node Short Options
2251 @subsection Short Option Style
2252
2253 Most options also have a short option name. Short options start with
2254 a single dash, and are followed by a single character, e.g.@: @samp{-t}
2255 (which is equivalent to @samp{--list}). The forms are absolutely
2256 identical in function; they are interchangeable.
2257
2258 The short option names are faster to type than long option names.
2259
2260 Short options which require arguments take their arguments immediately
2261 following the option, usually separated by white space. It is also
2262 possible to stick the argument right after the short option name, using
2263 no intervening space. For example, you might write @w{@samp{-f
2264 archive.tar}} or @samp{-farchive.tar} instead of using
2265 @samp{--file=archive.tar}. Both @samp{--file=@var{archive-name}} and
2266 @w{@samp{-f @var{archive-name}}} denote the option which indicates a
2267 specific archive, here named @file{archive.tar}.
2268
2269 Short options' letters may be clumped together, but you are not
2270 required to do this (as compared to old options; see below). When
2271 short options are clumped as a set, use one (single) dash for them
2272 all, e.g.@: @w{@samp{@command{tar} -cvf}}. Only the last option in
2273 such a set is allowed to have an argument@footnote{Clustering many
2274 options, the last of which has an argument, is a rather opaque way to
2275 write options. Some wonder if @acronym{GNU} @code{getopt} should not
2276 even be made helpful enough for considering such usages as invalid.}.
2277
2278 When the options are separated, the argument for each option which requires
2279 an argument directly follows that option, as is usual for Unix programs.
2280 For example:
2281
2282 @example
2283 $ @kbd{tar -c -v -b 20 -f /dev/rmt0}
2284 @end example
2285
2286 If you reorder short options' locations, be sure to move any arguments
2287 that belong to them. If you do not move the arguments properly, you may
2288 end up overwriting files.
2289
2290 @node Old Options
2291 @subsection Old Option Style
2292 @UNREVISED
2293
2294 Like short options, old options are single letters. However, old options
2295 must be written together as a single clumped set, without spaces separating
2296 them or dashes preceding them@footnote{Beware that if you precede options
2297 with a dash, you are announcing the short option style instead of the
2298 old option style; short options are decoded differently.}. This set
2299 of letters must be the first to appear on the command line, after the
2300 @command{tar} program name and some white space; old options cannot appear
2301 anywhere else. The letter of an old option is exactly the same letter as
2302 the corresponding short option. For example, the old option @samp{t} is
2303 the same as the short option @samp{-t}, and consequently, the same as the
2304 mnemonic option @samp{--list}. So for example, the command @w{@samp{tar
2305 cv}} specifies the option @samp{-v} in addition to the operation @samp{-c}.
2306
2307 @FIXME{bob suggests having an uglier example. :-) }
2308
2309 When options that need arguments are given together with the command,
2310 all the associated arguments follow, in the same order as the options.
2311 Thus, the example given previously could also be written in the old
2312 style as follows:
2313
2314 @example
2315 $ @kbd{tar cvbf 20 /dev/rmt0}
2316 @end example
2317
2318 @noindent
2319 Here, @samp{20} is the argument of @samp{-b} and @samp{/dev/rmt0} is
2320 the argument of @samp{-f}.
2321
2322 On the other hand, this old style syntax makes it difficult to match
2323 option letters with their corresponding arguments, and is often
2324 confusing. In the command @w{@samp{tar cvbf 20 /dev/rmt0}}, for example,
2325 @samp{20} is the argument for @samp{-b}, @samp{/dev/rmt0} is the
2326 argument for @samp{-f}, and @samp{-v} does not have a corresponding
2327 argument. Even using short options like in @w{@samp{tar -c -v -b 20 -f
2328 /dev/rmt0}} is clearer, putting all arguments next to the option they
2329 pertain to.
2330
2331 If you want to reorder the letters in the old option argument, be
2332 sure to reorder any corresponding argument appropriately.
2333
2334 This old way of writing @command{tar} options can surprise even experienced
2335 users. For example, the two commands:
2336
2337 @example
2338 @kbd{tar cfz archive.tar.gz file}
2339 @kbd{tar -cfz archive.tar.gz file}
2340 @end example
2341
2342 @noindent
2343 are quite different. The first example uses @file{archive.tar.gz} as
2344 the value for option @samp{f} and recognizes the option @samp{z}. The
2345 second example, however, uses @file{z} as the value for option
2346 @samp{f}---probably not what was intended.
2347
2348 Old options are kept for compatibility with old versions of @command{tar}.
2349
2350 This second example could be corrected in many ways, among which the
2351 following are equivalent:
2352
2353 @example
2354 @kbd{tar -czf archive.tar.gz file}
2355 @kbd{tar -cf archive.tar.gz -z file}
2356 @kbd{tar cf archive.tar.gz -z file}
2357 @end example
2358
2359 @FIXME{still could explain this better; it's redundant:}
2360
2361 @cindex option syntax, traditional
2362 As far as we know, all @command{tar} programs, @acronym{GNU} and
2363 non-@acronym{GNU}, support old options. @acronym{GNU} @command{tar}
2364 supports them not only for historical reasons, but also because many
2365 people are used to them. For compatibility with Unix @command{tar},
2366 the first argument is always treated as containing command and option
2367 letters even if it doesn't start with @samp{-}. Thus, @samp{tar c} is
2368 equivalent to @w{@samp{tar -c}:} both of them specify the
2369 @value{op-create} command to create an archive.
2370
2371 @node Mixing
2372 @subsection Mixing Option Styles
2373
2374 All three styles may be intermixed in a single @command{tar} command,
2375 so long as the rules for each style are fully
2376 respected@footnote{Before @acronym{GNU} @command{tar} version 1.11.6,
2377 a bug prevented intermixing old style options with mnemonic options in
2378 some cases.}. Old style options and either of the modern styles of
2379 options may be mixed within a single @command{tar} command. However,
2380 old style options must be introduced as the first arguments only,
2381 following the rule for old options (old options must appear directly
2382 after the @command{tar} command and some white space). Modern options
2383 may be given only after all arguments to the old options have been
2384 collected. If this rule is not respected, a modern option might be
2385 falsely interpreted as the value of the argument to one of the old
2386 style options.
2387
2388 For example, all the following commands are wholly equivalent, and
2389 illustrate the many combinations and orderings of option styles.
2390
2391 @example
2392 @kbd{tar --create --file=archive.tar}
2393 @kbd{tar --create -f archive.tar}
2394 @kbd{tar --create -farchive.tar}
2395 @kbd{tar --file=archive.tar --create}
2396 @kbd{tar --file=archive.tar -c}
2397 @kbd{tar -c --file=archive.tar}
2398 @kbd{tar -c -f archive.tar}
2399 @kbd{tar -c -farchive.tar}
2400 @kbd{tar -cf archive.tar}
2401 @kbd{tar -cfarchive.tar}
2402 @kbd{tar -f archive.tar --create}
2403 @kbd{tar -f archive.tar -c}
2404 @kbd{tar -farchive.tar --create}
2405 @kbd{tar -farchive.tar -c}
2406 @kbd{tar c --file=archive.tar}
2407 @kbd{tar c -f archive.tar}
2408 @kbd{tar c -farchive.tar}
2409 @kbd{tar cf archive.tar}
2410 @kbd{tar f archive.tar --create}
2411 @kbd{tar f archive.tar -c}
2412 @kbd{tar fc archive.tar}
2413 @end example
2414
2415 On the other hand, the following commands are @emph{not} equivalent to
2416 the previous set:
2417
2418 @example
2419 @kbd{tar -f -c archive.tar}
2420 @kbd{tar -fc archive.tar}
2421 @kbd{tar -fcarchive.tar}
2422 @kbd{tar -farchive.tarc}
2423 @kbd{tar cfarchive.tar}
2424 @end example
2425
2426 @noindent
2427 These last examples mean something completely different from what the
2428 user intended (judging based on the example in the previous set which
2429 uses long options, whose intent is therefore very clear). The first
2430 four specify that the @command{tar} archive would be a file named
2431 @samp{-c}, @samp{c}, @samp{carchive.tar} or @samp{archive.tarc},
2432 respectively. The first two examples also specify a single non-option,
2433 @var{name} argument having the value @samp{archive.tar}. The last
2434 example contains only old style option letters (repeating option
2435 @samp{c} twice), not all of which are meaningful (eg., @samp{.},
2436 @samp{h}, or @samp{i}), with no argument value. @FIXME{not sure i liked
2437 the first sentence of this paragraph..}
2438
2439 @node All Options
2440 @section All @command{tar} Options
2441
2442 The coming manual sections contain an alphabetical listing of all
2443 @command{tar} operations and options, with brief descriptions and cross
2444 references to more in-depth explanations in the body of the manual.
2445 They also contain an alphabetically arranged table of the short option
2446 forms with their corresponding long option. You can use this table as
2447 a reference for deciphering @command{tar} commands in scripts.
2448
2449 @menu
2450 * Operation Summary::
2451 * Option Summary::
2452 * Short Option Summary::
2453 @end menu
2454
2455 @node Operation Summary
2456 @subsection Operations
2457
2458 @table @kbd
2459
2460 @item --append
2461 @itemx -r
2462
2463 Appends files to the end of the archive. @xref{append}.
2464
2465 @item --catenate
2466 @itemx -A
2467
2468 Same as @samp{--concatenate}. @xref{concatenate}.
2469
2470 @item --compare
2471 @itemx -d
2472
2473 Compares archive members with their counterparts in the file
2474 system, and reports differences in file size, mode, owner,
2475 modification date and contents. @xref{compare}.
2476
2477 @item --concatenate
2478 @itemx -A
2479
2480 Appends other @command{tar} archives to the end of the archive.
2481 @xref{concatenate}.
2482
2483 @item --create
2484 @itemx -c
2485
2486 Creates a new @command{tar} archive. @xref{create}.
2487
2488 @item --delete
2489
2490 Deletes members from the archive. Don't try this on a archive on a
2491 tape! @xref{delete}.
2492
2493 @item --diff
2494 @itemx -d
2495
2496 Same @samp{--compare}. @xref{compare}.
2497
2498 @item --extract
2499 @itemx -x
2500
2501 Extracts members from the archive into the file system. @xref{extract}.
2502
2503 @item --get
2504 @itemx -x
2505
2506 Same as @samp{--extract}. @xref{extract}.
2507
2508 @item --list
2509 @itemx -t
2510
2511 Lists the members in an archive. @xref{list}.
2512
2513 @item --update
2514 @itemx -u
2515
2516 @FIXME{It was: A combination of the @samp{--compare} and
2517 @samp{--append} operations. This is not true and rather misleading,
2518 as @value{op-compare} does a lot more than @value{op-update} for
2519 ensuring files are identical.} Adds files to the end of the archive,
2520 but only if they are newer than their counterparts already in the
2521 archive, or if they do not already exist in the archive.
2522 @xref{update}.
2523
2524 @end table
2525
2526 @node Option Summary
2527 @subsection @command{tar} Options
2528
2529 @table @kbd
2530
2531 @item --absolute-names
2532 @itemx -P
2533
2534 Normally when creating an archive, @command{tar} strips an initial
2535 @samp{/} from member names. This option disables that behavior.
2536 @FIXME-xref{}
2537
2538 @item --after-date
2539
2540 (See @samp{--newer}.) @FIXME-pxref{}
2541
2542 @item --anchored
2543 An exclude pattern must match an initial subsequence of the name's components.
2544 @FIXME-xref{}
2545
2546 @item --atime-preserve
2547
2548 Tells @command{tar} to preserve the access time field in a file's inode when
2549 reading it. Due to limitations in the @code{utimes} system call, the
2550 modification time field is also preserved, which may cause problems if
2551 the file is simultaneously being modified by another program.
2552 This option is incompatible with incremental backups, because
2553 preserving the access time involves updating the last-changed time.
2554 Also, this option does not work on files that you do not own,
2555 unless you're root.
2556 @FIXME-xref{}
2557
2558 @item --backup=@var{backup-type}
2559
2560 Rather than deleting files from the file system, @command{tar} will
2561 back them up using simple or numbered backups, depending upon
2562 @var{backup-type}. @FIXME-xref{}
2563
2564 @item --block-number
2565 @itemx -R
2566
2567 With this option present, @command{tar} prints error messages for read errors
2568 with the block number in the archive file. @FIXME-xref{}
2569
2570 @item --blocking-factor=@var{blocking}
2571 @itemx -b @var{blocking}
2572
2573 Sets the blocking factor @command{tar} uses to @var{blocking} x 512 bytes per
2574 record. @FIXME-xref{}
2575
2576 @item --bzip2
2577 @itemx -j
2578
2579 This option tells @command{tar} to read or write archives through
2580 @code{bzip2}. @FIXME-xref{}
2581
2582 @item --checkpoint
2583
2584 This option directs @command{tar} to print periodic checkpoint messages as it
2585 reads through the archive. Its intended for when you want a visual
2586 indication that @command{tar} is still running, but don't want to see
2587 @samp{--verbose} output. @FIXME-xref{}
2588
2589 @item --check-links
2590
2591 If this option was given, @command{tar} will check the number of links
2592 dumped for each processed file. If this number does not match the
2593 total number of hard links for the file, a warning message will be
2594 output.
2595
2596 @item --compress
2597 @itemx --uncompress
2598 @itemx -Z
2599
2600 @command{tar} will use the @command{compress} program when reading or
2601 writing the archive. This allows you to directly act on archives
2602 while saving space. @FIXME-xref{}
2603
2604 @item --confirmation
2605
2606 (See @samp{--interactive}.) @FIXME-pxref{}
2607
2608 @item --dereference
2609 @itemx -h
2610
2611 When creating a @command{tar} archive, @command{tar} will archive the
2612 file that a symbolic link points to, rather than archiving the
2613 symlink. @FIXME-xref{}
2614
2615 @item --directory=@var{dir}
2616 @itemx -C @var{dir}
2617
2618 When this option is specified, @command{tar} will change its current directory
2619 to @var{dir} before performing any operations. When this option is used
2620 during archive creation, it is order sensitive. @FIXME-xref{}
2621
2622 @item --exclude=@var{pattern}
2623
2624 When performing operations, @command{tar} will skip files that match
2625 @var{pattern}. @FIXME-xref{}
2626
2627 @item --exclude-from=@var{file}
2628 @itemx -X @var{file}
2629
2630 Similar to @samp{--exclude}, except @command{tar} will use the list of
2631 patterns in the file @var{file}. @FIXME-xref{}
2632
2633 @item --file=@var{archive}
2634 @itemx -f @var{archive}
2635
2636 @command{tar} will use the file @var{archive} as the @command{tar} archive it
2637 performs operations on, rather than @command{tar}'s compilation dependent
2638 default. @FIXME-xref{}
2639
2640 @item --files-from=@var{file}
2641 @itemx -T @var{file}
2642
2643 @command{tar} will use the contents of @var{file} as a list of archive members
2644 or files to operate on, in addition to those specified on the
2645 command-line. @FIXME-xref{}
2646
2647 @item --force-local
2648
2649 Forces @command{tar} to interpret the filename given to @samp{--file}
2650 as a local file, even if it looks like a remote tape drive name.
2651 @FIXME-xref{}
2652
2653 @item --group=@var{group}
2654
2655 Files added to the @command{tar} archive will have a group id of @var{group},
2656 rather than the group from the source file. @var{group} is first decoded
2657 as a group symbolic name, but if this interpretation fails, it has to be
2658 a decimal numeric group ID. @FIXME-xref{}
2659
2660 Also see the comments for the @value{op-owner} option.
2661
2662 @item --gunzip
2663
2664 (See @samp{--gzip}.) @FIXME-pxref{}
2665
2666 @item --gzip
2667 @itemx --gunzip
2668 @itemx --ungzip
2669 @itemx -z
2670
2671 This option tells @command{tar} to read or write archives through
2672 @command{gzip}, allowing @command{tar} to directly operate on several
2673 kinds of compressed archives transparently. @FIXME-xref{}
2674
2675 @item --help
2676
2677 @command{tar} will print out a short message summarizing the operations and
2678 options to @command{tar} and exit. @FIXME-xref{}
2679
2680 @item --ignore-case
2681 Ignore case when excluding files.
2682 @FIXME-xref{}
2683
2684 @item --ignore-failed-read
2685
2686 Do not exit unsuccessfully merely because an unreadable file was encountered.
2687 @xref{Reading}.
2688
2689 @item --ignore-zeros
2690 @itemx -i
2691
2692 With this option, @command{tar} will ignore zeroed blocks in the
2693 archive, which normally signals EOF. @xref{Reading}.
2694
2695 @item --incremental
2696 @itemx -G
2697
2698 Used to inform @command{tar} that it is working with an old
2699 @acronym{GNU}-format incremental backup archive. It is intended
2700 primarily for backwards compatibility only. @FIXME-xref{}
2701
2702 @item --index-file=@var{file}
2703
2704 Send verbose output to @var{file} instead of to standard output.
2705
2706 @item --info-script=@var{script-file}
2707 @itemx --new-volume-script=@var{script-file}
2708 @itemx -F @var{script-file}
2709
2710 When @command{tar} is performing multi-tape backups, @var{script-file} is run
2711 at the end of each tape. If @var{script-file} exits with nonzero status,
2712 @command{tar} fails immediately. @FIXME-xref{}
2713
2714 @item --interactive
2715 @itemx --confirmation
2716 @itemx -w
2717
2718 Specifies that @command{tar} should ask the user for confirmation before
2719 performing potentially destructive options, such as overwriting files.
2720 @FIXME-xref{}
2721
2722 @item --keep-old-files
2723 @itemx -k
2724
2725 Do not overwrite existing files when extracting files from an archive.
2726 @xref{Writing}.
2727
2728 @item --label=@var{name}
2729 @itemx -V @var{name}
2730
2731 When creating an archive, instructs @command{tar} to write @var{name}
2732 as a name record in the archive. When extracting or listing archives,
2733 @command{tar} will only operate on archives that have a label matching
2734 the pattern specified in @var{name}. @FIXME-xref{}
2735
2736 @item --listed-incremental=@var{snapshot-file}
2737 @itemx -g @var{snapshot-file}
2738
2739 During a @samp{--create} operation, specifies that the archive that
2740 @command{tar} creates is a new @acronym{GNU}-format incremental
2741 backup, using @var{snapshot-file} to determine which files to backup.
2742 With other operations, informs @command{tar} that the archive is in
2743 incremental format. @FIXME-xref{}
2744
2745 @item --mode=@var{permissions}
2746
2747 When adding files to an archive, @command{tar} will use
2748 @var{permissions} for the archive members, rather than the permissions
2749 from the files. The program @command{chmod} and this @command{tar}
2750 option share the same syntax for what @var{permissions} might be.
2751 @xref{File permissions, Permissions, File permissions, fileutils,
2752 @acronym{GNU} file utilities}. This reference also has useful
2753 information for those not being overly familiar with the Unix
2754 permission system.
2755
2756 Of course, @var{permissions} might be plainly specified as an octal number.
2757 However, by using generic symbolic modifications to mode bits, this allows
2758 more flexibility. For example, the value @samp{a+rw} adds read and write
2759 permissions for everybody, while retaining executable bits on directories
2760 or on any other file already marked as executable.
2761
2762 @item --multi-volume
2763 @itemx -M
2764
2765 Informs @command{tar} that it should create or otherwise operate on a
2766 multi-volume @command{tar} archive. @FIXME-xref{}
2767
2768 @item --new-volume-script
2769
2770 (see --info-script)
2771
2772 @item --newer=@var{date}
2773 @itemx --after-date=@var{date}
2774 @itemx -N
2775
2776 When creating an archive, @command{tar} will only add files that have changed
2777 since @var{date}. If @var{date} begins with @samp{/} or @samp{.}, it
2778 is taken to be the name of a file whose last-modified time specifies
2779 the date. @FIXME-xref{}
2780
2781 @item --newer-mtime=@var{date}
2782
2783 Like @samp{--newer}, but add only files whose
2784 contents have changed (as opposed to just @samp{--newer}, which will
2785 also back up files for which any status information has changed).
2786
2787 @item --no-anchored
2788 An exclude pattern can match any subsequence of the name's components.
2789 @FIXME-xref{}
2790
2791 @item --no-ignore-case
2792 Use case-sensitive matching when excluding files.
2793 @FIXME-xref{}
2794
2795 @item --no-recursion
2796
2797 With this option, @command{tar} will not recurse into directories.
2798 @FIXME-xref{}
2799
2800 @item --no-same-owner
2801
2802 When extracting an archive, do not attempt to preserve the owner
2803 specified in the @command{tar} archive. This the default behavior
2804 for ordinary users; this option has an effect only for the superuser.
2805
2806 @item --no-same-permissions
2807
2808 When extracting an archive, subtract the user's umask from files from
2809 the permissions specified in the archive. This is the default behavior
2810 for ordinary users; this option has an effect only for the superuser.
2811
2812 @item --no-wildcards
2813 Do not use wildcards when excluding files.
2814 @FIXME-xref{}
2815
2816 @item --no-wildcards-match-slash
2817 Wildcards do not match @samp{/} when excluding files.
2818 @FIXME-xref{}
2819
2820 @item --null
2821
2822 When @command{tar} is using the @samp{--files-from} option, this option
2823 instructs @command{tar} to expect filenames terminated with @kbd{NUL}, so
2824 @command{tar} can correctly work with file names that contain newlines.
2825 @FIXME-xref{}
2826
2827 @item --numeric-owner
2828
2829 This option will notify @command{tar} that it should use numeric user
2830 and group IDs when creating a @command{tar} file, rather than names.
2831 @FIXME-xref{}
2832
2833 @item --old-archive
2834
2835 (See @samp{--portability}.) @FIXME-pxref{}
2836
2837 @item --one-file-system
2838 @itemx -l
2839
2840 Used when creating an archive. Prevents @command{tar} from recursing into
2841 directories that are on different file systems from the current
2842 directory. @FIXME-xref{}
2843
2844 @item --overwrite
2845
2846 Overwrite existing files and directory metadata when extracting files
2847 from an archive. @xref{Overwrite Old Files}.
2848
2849 @item --overwrite-dir
2850
2851 Overwrite the metadata of existing directories when extracting files
2852 from an archive. @xref{Overwrite Old Files}.
2853
2854 @item --owner=@var{user}
2855
2856 Specifies that @command{tar} should use @var{user} as the owner of members
2857 when creating archives, instead of the user associated with the source
2858 file. @var{user} is first decoded as a user symbolic name, but if
2859 this interpretation fails, it has to be a decimal numeric user ID.
2860 @FIXME-xref{}
2861
2862 There is no value indicating a missing number, and @samp{0} usually means
2863 @code{root}. Some people like to force @samp{0} as the value to offer in
2864 their distributions for the owner of files, because the @code{root} user is
2865 anonymous anyway, so that might as well be the owner of anonymous archives.
2866
2867 This option does not affect extraction from archives.
2868
2869 @item --portability
2870 @itemx --old-archive
2871 @itemx -o
2872
2873 Tells @command{tar} to create an archive that is compatible with Unix V7
2874 @command{tar}. @FIXME-xref{}
2875
2876 @item --posix
2877
2878 Instructs @command{tar} to create a @sc{posix} compliant @command{tar}
2879 archive. @FIXME-xref{}
2880
2881 @item --preserve
2882
2883 Synonymous with specifying both @samp{--preserve-permissions} and
2884 @samp{--same-order}. @FIXME-xref{}
2885
2886 @item --preserve-order
2887
2888 (See @samp{--same-order}; @pxref{Reading}.)
2889
2890 @item --preserve-permissions
2891 @itemx --same-permissions
2892 @itemx -p
2893
2894 When @command{tar} is extracting an archive, it normally subtracts the
2895 users' umask from the permissions specified in the archive and uses
2896 that number as the permissions to create the destination file.
2897 Specifying this option instructs @command{tar} that it should use the
2898 permissions directly from the archive. @xref{Writing}.
2899
2900 @item --read-full-records
2901 @itemx -B
2902
2903 Specifies that @command{tar} should reblock its input, for reading
2904 from pipes on systems with buggy implementations. @xref{Reading}.
2905
2906 @item --record-size=@var{size}
2907
2908 Instructs @command{tar} to use @var{size} bytes per record when accessing the
2909 archive. @FIXME-xref{}
2910
2911 @item --recursion
2912
2913 With this option, @command{tar} recurses into directories.
2914 @FIXME-xref{}
2915
2916 @item --recursive-unlink
2917
2918 Remove existing
2919 directory hierarchies before extracting directories of the same name
2920 from the archive. @xref{Writing}.
2921
2922 @item --remove-files
2923
2924 Directs @command{tar} to remove the source file from the file system after
2925 appending it to an archive. @FIXME-xref{}
2926
2927 @item --rsh-command=@var{cmd}
2928
2929 Notifies @command{tar} that is should use @var{cmd} to communicate with remote
2930 devices. @FIXME-xref{}
2931
2932 @item --same-order
2933 @itemx --preserve-order
2934 @itemx -s
2935
2936 This option is an optimization for @command{tar} when running on machines with
2937 small amounts of memory. It informs @command{tar} that the list of file
2938 arguments has already been sorted to match the order of files in the
2939 archive. @xref{Reading}.
2940
2941 @item --same-owner
2942
2943 When extracting an archive, @command{tar} will attempt to preserve the owner
2944 specified in the @command{tar} archive with this option present.
2945 This is the default behavior for the superuser; this option has an
2946 effect only for ordinary users. @FIXME-xref{}
2947
2948 @item --same-permissions
2949
2950 (See @samp{--preserve-permissions}; @pxref{Writing}.)
2951
2952 @item --show-omitted-dirs
2953
2954 Instructs @command{tar} to mention directories its skipping over when
2955 operating on a @command{tar} archive. @FIXME-xref{}
2956
2957 @item --sparse
2958 @itemx -S
2959
2960 Invokes a @acronym{GNU} extension when adding files to an archive that handles
2961 sparse files efficiently. @FIXME-xref{}
2962
2963 @item --starting-file=@var{name}
2964 @itemx -K @var{name}
2965
2966 This option affects extraction only; @command{tar} will skip extracting
2967 files in the archive until it finds one that matches @var{name}.
2968 @xref{Scarce}.
2969
2970 @item --suffix=@var{suffix}
2971
2972 Alters the suffix @command{tar} uses when backing up files from the default
2973 @samp{~}. @FIXME-xref{}
2974
2975 @item --tape-length=@var{num}
2976 @itemx -L @var{num}
2977
2978 Specifies the length of tapes that @command{tar} is writing as being
2979 @w{@var{num} x 1024} bytes long. @FIXME-xref{}
2980
2981 @item --to-stdout
2982 @itemx -O
2983
2984 During extraction, @command{tar} will extract files to stdout rather
2985 than to the file system. @xref{Writing}.
2986
2987 @item --totals
2988
2989 Displays the total number of bytes written after creating an archive.
2990 @FIXME-xref{}
2991
2992 @item --touch
2993 @itemx -m
2994
2995 Sets the modification time of extracted files to the extraction time,
2996 rather than the modification time stored in the archive.
2997 @xref{Writing}.
2998
2999 @item --uncompress
3000
3001 (See @samp{--compress}.) @FIXME-pxref{}
3002
3003 @item --ungzip
3004
3005 (See @samp{--gzip}.) @FIXME-pxref{}
3006
3007 @item --unlink-first
3008 @itemx -U
3009
3010 Directs @command{tar} to remove the corresponding file from the file
3011 system before extracting it from the archive. @xref{Writing}.
3012
3013 @item --use-compress-program=@var{prog}
3014
3015 Instructs @command{tar} to access the archive through @var{prog}, which is
3016 presumed to be a compression program of some sort. @FIXME-xref{}
3017
3018 @item --verbose
3019 @itemx -v
3020
3021 Specifies that @command{tar} should be more verbose about the operations its
3022 performing. This option can be specified multiple times for some
3023 operations to increase the amount of information displayed. @FIXME-xref{}
3024
3025 @item --verify
3026 @itemx -W
3027
3028 Verifies that the archive was correctly written when creating an
3029 archive. @FIXME-xref{}
3030
3031 @item --version
3032
3033 @command{tar} will print an informational message about what version
3034 it is and a copyright message, some credits, and then exit.
3035 @FIXME-xref{}
3036
3037 @item --volno-file=@var{file}
3038
3039 Used in conjunction with @samp{--multi-volume}. @command{tar} will keep track
3040 of which volume of a multi-volume archive its working in @var{file}.
3041 @FIXME-xref{}
3042
3043 @item --wildcards
3044 Use wildcards when excluding files.
3045 @FIXME-xref{}
3046
3047 @item --wildcards-match-slash
3048 Wildcards match @samp{/} when excluding files.
3049 @FIXME-xref{}
3050 @end table
3051
3052 @node Short Option Summary
3053 @subsection Short Options Cross Reference
3054
3055 Here is an alphabetized list of all of the short option forms, matching
3056 them with the equivalent long option.
3057
3058 @table @kbd
3059
3060 @item -A
3061
3062 @samp{--concatenate}
3063
3064 @item -B
3065
3066 @samp{--read-full-records}
3067
3068 @item -C
3069
3070 @samp{--directory}
3071
3072 @item -F
3073
3074 @samp{--info-script}
3075
3076 @item -G
3077
3078 @samp{--incremental}
3079
3080 @item -K
3081
3082 @samp{--starting-file}
3083
3084 @item -L
3085
3086 @samp{--tape-length}
3087
3088 @item -M
3089
3090 @samp{--multi-volume}
3091
3092 @item -N
3093
3094 @samp{--newer}
3095
3096 @item -O
3097
3098 @samp{--to-stdout}
3099
3100 @item -P
3101
3102 @samp{--absolute-names}
3103
3104 @item -R
3105
3106 @samp{--block-number}
3107
3108 @item -S
3109
3110 @samp{--sparse}
3111
3112 @item -T
3113
3114 @samp{--files-from}
3115
3116 @item -U
3117
3118 @samp{--unlink-first}
3119
3120 @item -V
3121
3122 @samp{--label}
3123
3124 @item -W
3125
3126 @samp{--verify}
3127
3128 @item -X
3129
3130 @samp{--exclude-from}
3131
3132 @item -Z
3133
3134 @samp{--compress}
3135
3136 @item -b
3137
3138 @samp{--blocking-factor}
3139
3140 @item -c
3141
3142 @samp{--create}
3143
3144 @item -d
3145
3146 @samp{--compare}
3147
3148 @item -f
3149
3150 @samp{--file}
3151
3152 @item -g
3153
3154 @samp{--listed-incremental}
3155
3156 @item -h
3157
3158 @samp{--dereference}
3159
3160 @item -i
3161
3162 @samp{--ignore-zeros}
3163
3164 @item -j
3165
3166 @samp{--bzip2}
3167
3168 @item -k
3169
3170 @samp{--keep-old-files}
3171
3172 @item -l
3173
3174 @samp{--one-file-system}
3175
3176 @item -m
3177
3178 @samp{--touch}
3179
3180 @item -o
3181
3182 @samp{--portability}
3183
3184 @item -p
3185
3186 @samp{--preserve-permissions}
3187
3188 @item -r
3189
3190 @samp{--append}
3191
3192 @item -s
3193
3194 @samp{--same-order}
3195
3196 @item -t
3197
3198 @samp{--list}
3199
3200 @item -u
3201
3202 @samp{--update}
3203
3204 @item -v
3205
3206 @samp{--verbose}
3207
3208 @item -w
3209
3210 @samp{--interactive}
3211
3212 @item -x
3213
3214 @samp{--extract}
3215
3216 @item -z
3217
3218 @samp{--gzip}
3219
3220 @end table
3221
3222 @node help
3223 @section @acronym{GNU} @command{tar} documentation
3224
3225 Being careful, the first thing is really checking that you are using
3226 @acronym{GNU} @command{tar}, indeed. The @value{op-version} option
3227 will generate a message giving confirmation that you are using
3228 @acronym{GNU} @command{tar}, with the precise version of @acronym{GNU}
3229 @command{tar} you are using. @command{tar} identifies itself and
3230 prints the version number to the standard output, then immediately
3231 exits successfully, without doing anything else, ignoring all other
3232 options. For example, @w{@samp{tar --version}} might return:
3233
3234 @example
3235 tar (@acronym{GNU} tar) @value{VERSION}
3236 @end example
3237
3238 @noindent
3239 The first occurrence of @samp{tar} in the result above is the program
3240 name in the package (for example, @command{rmt} is another program),
3241 while the second occurrence of @samp{tar} is the name of the package
3242 itself, containing possibly many programs. The package is currently
3243 named @samp{tar}, after the name of the main program it
3244 contains@footnote{There are plans to merge the @command{cpio} and
3245 @command{tar} packages into a single one which would be called
3246 @code{paxutils}. So, who knows if, one of this days, the
3247 @value{op-version} would not yield @w{@samp{tar (@acronym{GNU}
3248 paxutils) 3.2}}}.
3249
3250 Another thing you might want to do is checking the spelling or meaning
3251 of some particular @command{tar} option, without resorting to this
3252 manual, for once you have carefully read it. @acronym{GNU}
3253 @command{tar} has a short help feature, triggerable through the
3254 @value{op-help} option. By using this option, @command{tar} will
3255 print a usage message listing all available options on standard
3256 output, then exit successfully, without doing anything else and
3257 ignoring all other options. Even if this is only a brief summary, it
3258 may be several screens long. So, if you are not using some kind of
3259 scrollable window, you might prefer to use something like:
3260
3261 @example
3262 $ @kbd{tar --help | less}
3263 @end example
3264
3265 @noindent
3266 presuming, here, that you like using @command{less} for a pager. Other
3267 popular pagers are @command{more} and @command{pg}. If you know about some
3268 @var{keyword} which interests you and do not want to read all the
3269 @value{op-help} output, another common idiom is doing:
3270
3271 @example
3272 tar --help | grep @var{keyword}
3273 @end example
3274
3275 @noindent
3276 for getting only the pertinent lines.
3277
3278 The perceptive reader would have noticed some contradiction in the
3279 previous paragraphs. It is written that both @value{op-version} and
3280 @value{op-help} print something, and have all other options ignored. In
3281 fact, they cannot ignore each other, and one of them has to win. We do
3282 not specify which is stronger, here; experiment if you really wonder!
3283
3284 The short help output is quite succinct, and you might have to get
3285 back to the full documentation for precise points. If you are reading
3286 this paragraph, you already have the @command{tar} manual in some
3287 form. This manual is available in printed form, as a kind of small
3288 book. It may printed out of the @acronym{GNU} @command{tar}
3289 distribution, provided you have @TeX{} already installed somewhere,
3290 and a laser printer around. Just configure the distribution, execute
3291 the command @w{@samp{make dvi}}, then print @file{doc/tar.dvi} the
3292 usual way (contact your local guru to know how). If @acronym{GNU}
3293 @command{tar} has been conveniently installed at your place, this
3294 manual is also available in interactive, hypertextual form as an Info
3295 file. Just call @w{@samp{info tar}} or, if you do not have the
3296 @command{info} program handy, use the Info reader provided within
3297 @acronym{GNU} Emacs, calling @samp{tar} from the main Info menu.
3298
3299 There is currently no @code{man} page for @acronym{GNU} @command{tar}.
3300 If you observe such a @code{man} page on the system you are running,
3301 either it does not long to @acronym{GNU} @command{tar}, or it has not
3302 been produced by @acronym{GNU}. Currently, @acronym{GNU}
3303 @command{tar} documentation is provided in Texinfo format only, if we
3304 except, of course, the short result of @kbd{tar --help}.
3305
3306 @node verbose
3307 @section Checking @command{tar} progress
3308
3309 @cindex Progress information
3310 @cindex Status information
3311 @cindex Information on progress and status of operations
3312 @cindex Verbose operation
3313 @cindex Block number where error occurred
3314 @cindex Error message, block number of
3315 @cindex Version of the @command{tar} program
3316
3317 @cindex Getting more information during the operation
3318 @cindex Information during operation
3319 @cindex Feedback from @command{tar}
3320
3321 Typically, @command{tar} performs most operations without reporting any
3322 information to the user except error messages. When using @command{tar}
3323 with many options, particularly ones with complicated or
3324 difficult-to-predict behavior, it is possible to make serious mistakes.
3325 @command{tar} provides several options that make observing @command{tar}
3326 easier. These options cause @command{tar} to print information as it
3327 progresses in its job, and you might want to use them just for being
3328 more careful about what is going on, or merely for entertaining
3329 yourself. If you have encountered a problem when operating on an
3330 archive, however, you may need more information than just an error
3331 message in order to solve the problem. The following options can be
3332 helpful diagnostic tools.
3333
3334 Normally, the @value{op-list} command to list an archive prints just
3335 the file names (one per line) and the other commands are silent.
3336 When used with most operations, the @value{op-verbose} option causes
3337 @command{tar} to print the name of each file or archive member as it
3338 is processed. This and the other options which make @command{tar} print
3339 status information can be useful in monitoring @command{tar}.
3340
3341 With @value{op-create} or @value{op-extract}, @value{op-verbose} used once
3342 just prints the names of the files or members as they are processed.
3343 Using it twice causes @command{tar} to print a longer listing (reminiscent
3344 of @samp{ls -l}) for each member. Since @value{op-list} already prints
3345 the names of the members, @value{op-verbose} used once with @value{op-list}
3346 causes @command{tar} to print an @samp{ls -l} type listing of the files
3347 in the archive. The following examples both extract members with
3348 long list output:
3349
3350 @example
3351 $ @kbd{tar --extract --file=archive.tar --verbose --verbose}
3352 $ @kbd{tar xvv archive.tar}
3353 @end example
3354
3355 Verbose output appears on the standard output except when an archive is
3356 being written to the standard output, as with @samp{tar --create
3357 --file=- --verbose} (@samp{tar cfv -}, or even @samp{tar cv}---if the
3358 installer let standard output be the default archive). In that case
3359 @command{tar} writes verbose output to the standard error stream.
3360
3361 If @option{--index-file=@var{file}} is specified, @command{tar} sends
3362 verbose output to @var{file} rather than to standard output or standard
3363 error.
3364
3365 The @value{op-totals} option---which is only meaningful when used with
3366 @value{op-create}---causes @command{tar} to print the total
3367 amount written to the archive, after it has been fully created.
3368
3369 The @value{op-checkpoint} option prints an occasional message
3370 as @command{tar} reads or writes the archive. In fact, it print
3371 directory names while reading the archive. It is designed for
3372 those who don't need the more detailed (and voluminous) output of
3373 @value{op-block-number}, but do want visual confirmation that @command{tar}
3374 is actually making forward progress.
3375
3376 @FIXME{There is some confusion here. It seems that -R once wrote a
3377 message at @samp{every} record read or written.}
3378
3379 The @value{op-show-omitted-dirs} option, when reading an archive---with
3380 @value{op-list} or @value{op-extract}, for example---causes a message
3381 to be printed for each directory in the archive which is skipped.
3382 This happens regardless of the reason for skipping: the directory might
3383 not have been named on the command line (implicitly or explicitly),
3384 it might be excluded by the use of the @value{op-exclude} option, or
3385 some other reason.
3386
3387 If @value{op-block-number} is used, @command{tar} prints, along with
3388 every message it would normally produce, the block number within the
3389 archive where the message was triggered. Also, supplementary messages
3390 are triggered when reading blocks full of NULs, or when hitting end of
3391 file on the archive. As of now, if the archive if properly terminated
3392 with a NUL block, the reading of the file may stop before end of file
3393 is met, so the position of end of file will not usually show when
3394 @value{op-block-number} is used. Note that @acronym{GNU}
3395 @command{tar} drains the archive before exiting when reading the
3396 archive from a pipe.
3397
3398 This option is especially useful when reading damaged archives, since
3399 it helps pinpoint the damaged sections. It can also be used with
3400 @value{op-list} when listing a file-system backup tape, allowing you to
3401 choose among several backup tapes when retrieving a file later, in
3402 favor of the tape where the file appears earliest (closest to the
3403 front of the tape). @FIXME-xref{when the node name is set and the
3404 backup section written.}
3405
3406 @node interactive
3407 @section Asking for Confirmation During Operations
3408 @cindex Interactive operation
3409
3410 Typically, @command{tar} carries out a command without stopping for
3411 further instructions. In some situations however, you may want to
3412 exclude some files and archive members from the operation (for instance
3413 if disk or storage space is tight). You can do this by excluding
3414 certain files automatically (@pxref{Choosing}), or by performing
3415 an operation interactively, using the @value{op-interactive} option.
3416 @command{tar} also accepts @samp{--confirmation} for this option.
3417
3418 When the @value{op-interactive} option is specified, before
3419 reading, writing, or deleting files, @command{tar} first prints a message
3420 for each such file, telling what operation it intends to take, then asks
3421 for confirmation on the terminal. The actions which require
3422 confirmation include adding a file to the archive, extracting a file
3423 from the archive, deleting a file from the archive, and deleting a file
3424 from disk. To confirm the action, you must type a line of input
3425 beginning with @samp{y}. If your input line begins with anything other
3426 than @samp{y}, @command{tar} skips that file.
3427
3428 If @command{tar} is reading the archive from the standard input,
3429 @command{tar} opens the file @file{/dev/tty} to support the interactive
3430 communications.
3431
3432 Verbose output is normally sent to standard output, separate from
3433 other error messages. However, if the archive is produced directly
3434 on standard output, then verbose output is mixed with errors on
3435 @code{stderr}. Producing the archive on standard output may be used
3436 as a way to avoid using disk space, when the archive is soon to be
3437 consumed by another process reading it, say. Some people felt the need
3438 of producing an archive on stdout, still willing to segregate between
3439 verbose output and error output. A possible approach would be using a
3440 named pipe to receive the archive, and having the consumer process to
3441 read from that named pipe. This has the advantage of letting standard
3442 output free to receive verbose output, all separate from errors.
3443
3444 @node operations
3445 @chapter @acronym{GNU} @command{tar} Operations
3446
3447 @menu
3448 * Basic tar::
3449 * Advanced tar::
3450 * create options::
3451 * extract options::
3452 * backup::
3453 * Applications::
3454 * looking ahead::
3455 @end menu
3456
3457 @node Basic tar
3458 @section Basic @acronym{GNU} @command{tar} Operations
3459
3460 The basic @command{tar} operations, @value{op-create}, @value{op-list} and
3461 @value{op-extract}, are currently presented and described in the tutorial
3462 chapter of this manual. This section provides some complementary notes
3463 for these operations.
3464
3465 @table @asis
3466 @item @value{op-create}
3467
3468 Creating an empty archive would have some kind of elegance. One can
3469 initialize an empty archive and later use @value{op-append} for adding
3470 all members. Some applications would not welcome making an exception
3471 in the way of adding the first archive member. On the other hand,
3472 many people reported that it is dangerously too easy for @command{tar}
3473 to destroy a magnetic tape with an empty archive@footnote{This is well
3474 described in @cite{Unix-haters Handbook}, by Simson Garfinkel, Daniel
3475 Weise & Steven Strassmann, IDG Books, ISBN 1-56884-203-1.}. The two most
3476 common errors are:
3477
3478 @enumerate
3479 @item
3480 Mistakingly using @code{create} instead of @code{extract}, when the
3481 intent was to extract the full contents of an archive. This error
3482 is likely: keys @kbd{c} and @kbd{x} are right next ot each other on
3483 the QWERTY keyboard. Instead of being unpacked, the archive then
3484 gets wholly destroyed. When users speak about @dfn{exploding} an
3485 archive, they usually mean something else :-).
3486
3487 @item
3488 Forgetting the argument to @code{file}, when the intent was to create
3489 an archive with a single file in it. This error is likely because a
3490 tired user can easily add the @kbd{f} key to the cluster of option
3491 letters, by the mere force of habit, without realizing the full
3492 consequence of doing so. The usual consequence is that the single
3493 file, which was meant to be saved, is rather destroyed.
3494 @end enumerate
3495
3496 So, recognizing the likelihood and the catastrophical nature of these
3497 errors, @acronym{GNU} @command{tar} now takes some distance from elegance, and
3498 cowardly refuses to create an archive when @value{op-create} option is
3499 given, there are no arguments besides options, and @value{op-files-from}
3500 option is @emph{not} used. To get around the cautiousness of @acronym{GNU}
3501 @command{tar} and nevertheless create an archive with nothing in it,
3502 one may still use, as the value for the @value{op-files-from} option,
3503 a file with no names in it, as shown in the following commands:
3504
3505 @example
3506 @kbd{tar --create --file=empty-archive.tar --files-from=/dev/null}
3507 @kbd{tar cfT empty-archive.tar /dev/null}
3508 @end example
3509
3510 @item @value{op-extract}
3511
3512 A socket is stored, within a @acronym{GNU} @command{tar} archive, as a pipe.
3513
3514 @item @value{op-list}
3515
3516 @acronym{GNU} @command{tar} now shows dates as @samp{1996-08-30},
3517 while it used to show them as @samp{Aug 30 1996}. (One can revert to
3518 the old behavior by defining @code{USE_OLD_CTIME} in @file{src/list.c}
3519 before reinstalling.) But preferably, people should get used to ISO
3520 8601 dates. Local American dates should be made available again with
3521 full date localization support, once ready. In the meantime, programs
3522 not being localizable for dates should prefer international dates,
3523 that's really the way to go.
3524
3525 Look up @url{http://www.ft.uni-erlangen.de/~mskuhn/iso-time.html} if you
3526 are curious, it contains a detailed explanation of the ISO 8601 standard.
3527
3528 @end table
3529
3530 @node Advanced tar
3531 @section Advanced @acronym{GNU} @command{tar} Operations
3532
3533 Now that you have learned the basics of using @acronym{GNU}
3534 @command{tar}, you may want to learn about further ways in which
3535 @command{tar} can help you.
3536
3537 This chapter presents five, more advanced operations which you probably
3538 won't use on a daily basis, but which serve more specialized functions.
3539 We also explain the different styles of options and why you might want
3540 to use one or another, or a combination of them in your @command{tar}
3541 commands. Additionally, this chapter includes options which allow you to
3542 define the output from @command{tar} more carefully, and provide help and
3543 error correction in special circumstances.
3544
3545 @FIXME{check this after the chapter is actually revised to make sure
3546 it still introduces the info in the chapter correctly : ).}
3547
3548 @menu
3549 * Operations::
3550 * append::
3551 * update::
3552 * concatenate::
3553 * delete::
3554 * compare::
3555 @end menu
3556
3557 @node Operations
3558 @subsection The Five Advanced @command{tar} Operations
3559 @UNREVISED
3560
3561 In the last chapter, you learned about the first three operations to
3562 @command{tar}. This chapter presents the remaining five operations to
3563 @command{tar}: @samp{--append}, @samp{--update}, @samp{--concatenate},
3564 @samp{--delete}, and @samp{--compare}.
3565
3566 You are not likely to use these operations as frequently as those
3567 covered in the last chapter; however, since they perform specialized
3568 functions, they are quite useful when you do need to use them. We
3569 will give examples using the same directory and files that you created
3570 in the last chapter. As you may recall, the directory is called
3571 @file{practice}, the files are @samp{jazz}, @samp{blues}, @samp{folk},
3572 @samp{rock}, and the two archive files you created are
3573 @samp{collection.tar} and @samp{music.tar}.
3574
3575 We will also use the archive files @samp{afiles.tar} and
3576 @samp{bfiles.tar}. @samp{afiles.tar} contains the members @samp{apple},
3577 @samp{angst}, and @samp{aspic}. @samp{bfiles.tar} contains the members
3578 @samp{./birds}, @samp{baboon}, and @samp{./box}.
3579
3580 Unless we state otherwise, all practicing you do and examples you follow
3581 in this chapter will take place in the @file{practice} directory that
3582 you created in the previous chapter; see @ref{prepare for examples}.
3583 (Below in this section, we will remind you of the state of the examples
3584 where the last chapter left them.)
3585
3586 The five operations that we will cover in this chapter are:
3587
3588 @table @kbd
3589 @item --append
3590 @itemx -r
3591 Add new entries to an archive that already exists.
3592 @item --update
3593 @itemx -r
3594 Add more recent copies of archive members to the end of an archive, if
3595 they exist.
3596 @item --concatenate
3597 @itemx --catenate
3598 @itemx -A
3599 Add one or more pre-existing archives to the end of another archive.
3600 @item --delete
3601 Delete items from an archive (does not work on tapes).
3602 @item --compare
3603 @itemx --diff
3604 @itemx -d
3605 Compare archive members to their counterparts in the file system.
3606 @end table
3607
3608 @node append
3609 @subsection How to Add Files to Existing Archives: @code{--append}
3610 @UNREVISED
3611
3612 If you want to add files to an existing archive, you don't need to
3613 create a new archive; you can use @value{op-append}. The archive must
3614 already exist in order to use @samp{--append}. (A related operation
3615 is the @samp{--update} operation; you can use this to add newer
3616 versions of archive members to an existing archive. To learn how to
3617 do this with @samp{--update}, @pxref{update}.)
3618
3619 @FIXME{Explain in second paragraph whether you can get to the previous
3620 version -- explain whole situation somewhat more clearly.}
3621
3622 If you use @value{op-append} to add a file that has the same name as an
3623 archive member to an archive containing that archive member, then the
3624 old member is not deleted. What does happen, however, is somewhat
3625 complex. @command{tar} @emph{allows} you to have infinite numbers of files
3626 with the same name. Some operations treat these same-named members no
3627 differently than any other set of archive members: for example, if you
3628 view an archive with @value{op-list}, you will see all of those members
3629 listed, with their modification times, owners, etc.
3630
3631 Other operations don't deal with these members as perfectly as you might
3632 prefer; if you were to use @value{op-extract} to extract the archive,
3633 only the most recently added copy of a member with the same name as four
3634 other members would end up in the working directory. This is because
3635 @samp{--extract} extracts an archive in the order the members appeared
3636 in the archive; the most recently archived members will be extracted
3637 last. Additionally, an extracted member will @emph{replace} a file of
3638 the same name which existed in the directory already, and @command{tar}
3639 will not prompt you about this. Thus, only the most recently archived
3640 member will end up being extracted, as it will replace the one
3641 extracted before it, and so on.
3642
3643 @FIXME{ hag -- you might want to incorporate some of the above into the
3644 MMwtSN node; not sure. i didn't know how to make it simpler...}
3645
3646 There are a few ways to get around this. @FIXME-xref{Multiple Members
3647 with the Same Name.}
3648
3649 @cindex Members, replacing with other members
3650 @cindex Replacing members with other members
3651 If you want to replace an archive member, use @value{op-delete} to
3652 delete the member you want to remove from the archive, , and then use
3653 @samp{--append} to add the member you want to be in the archive. Note
3654 that you can not change the order of the archive; the most recently
3655 added member will still appear last. In this sense, you cannot truly
3656 ``replace'' one member with another. (Replacing one member with another
3657 will not work on certain types of media, such as tapes; see @ref{delete}
3658 and @ref{Media}, for more information.)
3659
3660 @menu
3661 * appending files:: Appending Files to an Archive
3662 * multiple::
3663 @end menu
3664
3665 @node appending files
3666 @subsubsection Appending Files to an Archive
3667 @UNREVISED
3668 @cindex Adding files to an Archive
3669 @cindex Appending files to an Archive
3670 @cindex Archives, Appending files to
3671
3672 The simplest way to add a file to an already existing archive is the
3673 @value{op-append} operation, which writes specified files into the
3674 archive whether or not they are already among the archived files.
3675 When you use @samp{--append}, you @emph{must} specify file name
3676 arguments, as there is no default. If you specify a file that already
3677 exists in the archive, another copy of the file will be added to the
3678 end of the archive. As with other operations, the member names of the
3679 newly added files will be exactly the same as their names given on the
3680 command line. The @value{op-verbose} option will print out the names
3681 of the files as they are written into the archive.
3682
3683 @samp{--append} cannot be performed on some tape drives, unfortunately,
3684 due to deficiencies in the formats those tape drives use. The archive
3685 must be a valid @command{tar} archive, or else the results of using this
3686 operation will be unpredictable. @xref{Media}.
3687
3688 To demonstrate using @samp{--append} to add a file to an archive,
3689 create a file called @file{rock} in the @file{practice} directory.
3690 Make sure you are in the @file{practice} directory. Then, run the
3691 following @command{tar} command to add @file{rock} to
3692 @file{collection.tar}:
3693
3694 @example
3695 $ @kbd{tar --append --file=collection.tar rock}
3696 @end example
3697
3698 @noindent
3699 If you now use the @value{op-list} operation, you will see that
3700 @file{rock} has been added to the archive:
3701
3702 @example
3703 $ @kbd{tar --list --file=collection.tar}
3704 -rw-rw-rw- me user 28 1996-10-18 16:31 jazz
3705 -rw-rw-rw- me user 21 1996-09-23 16:44 blues
3706 -rw-rw-rw- me user 20 1996-09-23 16:44 folk
3707 -rw-rw-rw- me user 20 1996-09-23 16:44 rock
3708 @end example
3709
3710 @FIXME{in theory, dan will (soon) try to turn this node into what it's
3711 title claims it will become...}
3712
3713 @node multiple
3714 @subsubsection Multiple Files with the Same Name
3715
3716 You can use @value{op-append} to add copies of files which have been
3717 updated since the archive was created. (However, we do not recommend
3718 doing this since there is another @command{tar} option called
3719 @samp{--update}; @pxref{update} for more information. We describe this
3720 use of @samp{--append} here for the sake of completeness.) @FIXME{is
3721 this really a good idea, to give this whole description for something
3722 which i believe is basically a Stupid way of doing something? certain
3723 aspects of it show ways in which tar is more broken than i'd personally
3724 like to admit to, specifically the last sentence. On the other hand, i
3725 don't think it's a good idea to be saying that re explicitly don't
3726 recommend using something, but i can't see any better way to deal with
3727 the situation.}When you extract the archive, the older version will be
3728 effectively lost. This works because files are extracted from an
3729 archive in the order in which they were archived. Thus, when the
3730 archive is extracted, a file archived later in time will replace a
3731 file of the same name which was archived earlier, even though the older
3732 version of the file will remain in the archive unless you delete all
3733 versions of the file.
3734
3735 Supposing you change the file @file{blues} and then append the changed
3736 version to @file{collection.tar}. As you saw above, the original
3737 @file{blues} is in the archive @file{collection.tar}. If you change the
3738 file and append the new version of the file to the archive, there will
3739 be two copies in the archive. When you extract the archive, the older
3740 version of the file will be extracted first, and then replaced by the
3741 newer version when it is extracted.
3742
3743 You can append the new, changed copy of the file @file{blues} to the
3744 archive in this way:
3745
3746 @example
3747 $ @kbd{tar --append --verbose --file=collection.tar blues}
3748 blues
3749 @end example
3750
3751 @noindent
3752 Because you specified the @samp{--verbose} option, @command{tar} has
3753 printed the name of the file being appended as it was acted on. Now
3754 list the contents of the archive:
3755
3756 @example
3757 $ @kbd{tar --list --verbose --file=collection.tar}
3758 -rw-rw-rw- me user 28 1996-10-18 16:31 jazz
3759 -rw-rw-rw- me user 21 1996-09-23 16:44 blues
3760 -rw-rw-rw- me user 20 1996-09-23 16:44 folk
3761 -rw-rw-rw- me user 20 1996-09-23 16:44 rock
3762 -rw-rw-rw- me user 58 1996-10-24 18:30 blues
3763 @end example
3764
3765 @noindent
3766 The newest version of @file{blues} is now at the end of the archive
3767 (note the different creation dates and file sizes). If you extract
3768 the archive, the older version of the file @file{blues} will be
3769 replaced by the newer version. You can confirm this by extracting
3770 the archive and running @samp{ls} on the directory. @xref{Writing},
3771 for more information. (@emph{Please note:} This is the case unless
3772 you employ the @value{op-backup} option. @FIXME-ref{Multiple Members
3773 with the Same Name}.)
3774
3775 @node update
3776 @subsection Updating an Archive
3777 @UNREVISED
3778 @cindex Updating an archive
3779
3780 In the previous section, you learned how to use @value{op-append} to add
3781 a file to an existing archive. A related operation is
3782 @value{op-update}. The @samp{--update} operation updates a @command{tar}
3783 archive by comparing the date of the specified archive members against
3784 the date of the file with the same name. If the file has been modified
3785 more recently than the archive member, then the newer version of the
3786 file is added to the archive (as with @value{op-append}).
3787
3788 Unfortunately, you cannot use @samp{--update} with magnetic tape drives.
3789 The operation will fail.
3790
3791 @FIXME{other examples of media on which --update will fail? need to ask
3792 charles and/or mib/thomas/dave shevett..}
3793
3794 Both @samp{--update} and @samp{--append} work by adding to the end
3795 of the archive. When you extract a file from the archive, only the
3796 version stored last will wind up in the file system, unless you use
3797 the @value{op-backup} option. @FIXME-ref{Multiple Members with the
3798 Same Name}
3799
3800 @menu
3801 * how to update::
3802 @end menu
3803
3804 @node how to update
3805 @subsubsection How to Update an Archive Using @code{--update}
3806
3807 You must use file name arguments with the @value{op-update} operation.
3808 If you don't specify any files, @command{tar} won't act on any files and
3809 won't tell you that it didn't do anything (which may end up confusing
3810 you).
3811
3812 @FIXME{note: the above parenthetical added because in fact, this
3813 behavior just confused the author. :-) }
3814
3815 To see the @samp{--update} option at work, create a new file,
3816 @file{classical}, in your practice directory, and some extra text to the
3817 file @file{blues}, using any text editor. Then invoke @command{tar} with
3818 the @samp{update} operation and the @value{op-verbose} option specified,
3819 using the names of all the files in the practice directory as file name
3820 arguments:
3821
3822 @example
3823 $ @kbd{tar --update -v -f collection.tar blues folk rock classical}
3824 blues
3825 classical
3826 $
3827 @end example
3828
3829 @noindent
3830 Because we have specified verbose mode, @command{tar} prints out the names
3831 of the files it is working on, which in this case are the names of the
3832 files that needed to be updated. If you run @samp{tar --list} and look
3833 at the archive, you will see @file{blues} and @file{classical} at its
3834 end. There will be a total of two versions of the member @samp{blues};
3835 the one at the end will be newer and larger, since you added text before
3836 updating it.
3837
3838 (The reason @command{tar} does not overwrite the older file when updating
3839 it is because writing to the middle of a section of tape is a difficult
3840 process. Tapes are not designed to go backward. @xref{Media}, for more
3841 information about tapes.
3842
3843 @value{op-update} is not suitable for performing backups for two
3844 reasons: it does not change directory content entries, and it
3845 lengthens the archive every time it is used. The @acronym{GNU}
3846 @command{tar} options intended specifically for backups are more
3847 efficient. If you need to run backups, please consult @ref{Backups}.
3848
3849 @node concatenate
3850 @subsection Combining Archives with @code{--concatenate}
3851
3852 @cindex Adding archives to an archive
3853 @cindex Concatenating Archives
3854 Sometimes it may be convenient to add a second archive onto the end of
3855 an archive rather than adding individual files to the archive. To add
3856 one or more archives to the end of another archive, you should use the
3857 @value{op-concatenate} operation.
3858
3859 To use @samp{--concatenate}, name the archives to be concatenated on the
3860 command line. (Nothing happens if you don't list any.) The members,
3861 and their member names, will be copied verbatim from those archives. If
3862 this causes multiple members to have the same name, it does not delete
3863 any members; all the members with the same name coexist. @FIXME-ref{For
3864 information on how this affects reading the archive, Multiple
3865 Members with the Same Name.}
3866
3867 To demonstrate how @samp{--concatenate} works, create two small archives
3868 called @file{bluesrock.tar} and @file{folkjazz.tar}, using the relevant
3869 files from @file{practice}:
3870
3871 @example
3872 $ @kbd{tar -cvf bluesrock.tar blues rock}
3873 blues
3874 classical
3875 $ @kbd{tar -cvf folkjazz.tar folk jazz}
3876 folk
3877 jazz
3878 @end example
3879
3880 @noindent
3881 If you like, You can run @samp{tar --list} to make sure the archives
3882 contain what they are supposed to:
3883
3884 @example
3885 $ @kbd{tar -tvf bluesrock.tar}
3886 -rw-rw-rw- melissa user 105 1997-01-21 19:42 blues
3887 -rw-rw-rw- melissa user 33 1997-01-20 15:34 rock
3888 $ @kbd{tar -tvf folkjazz.tar}
3889 -rw-rw-rw- melissa user 20 1996-09-23 16:44 folk
3890 -rw-rw-rw- melissa user 65 1997-01-30 14:15 jazz
3891 @end example
3892
3893 We can concatenate these two archives with @command{tar}:
3894
3895 @example
3896 $ @kbd{cd ..}
3897 $ @kbd{tar --concatenate --file=bluesrock.tar jazzfolk.tar}
3898 @end example
3899
3900 If you now list the contents of the @file{bluesclass.tar}, you will see
3901 that now it also contains the archive members of @file{jazzfolk.tar}:
3902
3903 @example
3904 $ @kbd{tar --list --file=bluesrock.tar}
3905 blues
3906 rock
3907 jazz
3908 folk
3909 @end example
3910
3911 When you use @samp{--concatenate}, the source and target archives must
3912 already exist and must have been created using compatible format
3913 parameters. @FIXME-pxref{Matching Format Parameters}The new,
3914 concatenated archive will be called by the same name as the first
3915 archive listed on the command line. @FIXME{is there a way to specify a
3916 new name?}
3917
3918 Like @value{op-append}, this operation cannot be performed on some
3919 tape drives, due to deficiencies in the formats those tape drives use.
3920
3921 @cindex @code{concatenate} vs @command{cat}
3922 @cindex @command{cat} vs @code{concatenate}
3923 It may seem more intuitive to you to want or try to use @command{cat} to
3924 concatenate two archives instead of using the @samp{--concatenate}
3925 operation; after all, @command{cat} is the utility for combining files.
3926
3927 However, @command{tar} archives incorporate an end-of-file marker which
3928 must be removed if the concatenated archives are to be read properly as
3929 one archive. @samp{--concatenate} removes the end-of-archive marker
3930 from the target archive before each new archive is appended. If you use
3931 @command{cat} to combine the archives, the result will not be a valid
3932 @command{tar} format archive. If you need to retrieve files from an
3933 archive that was added to using the @command{cat} utility, use the
3934 @value{op-ignore-zeros} option. @xref{Ignore Zeros}, for further
3935 information on dealing with archives improperly combined using the
3936 @command{cat} shell utility.
3937
3938 @FIXME{this shouldn't go here. where should it go?} You must specify
3939 the source archives using @value{op-file} (@value{pxref-file}). If you
3940 do not specify the target archive, @command{tar} uses the value of the
3941 environment variable @env{TAPE}, or, if this has not been set, the
3942 default archive name.
3943
3944 @node delete
3945 @subsection Removing Archive Members Using @samp{--delete}
3946 @UNREVISED
3947 @cindex Deleting files from an archive
3948 @cindex Removing files from an archive
3949
3950 You can remove members from an archive by using the @value{op-delete}
3951 option. Specify the name of the archive with @value{op-file} and then
3952 specify the names of the members to be deleted; if you list no member
3953 names, nothing will be deleted. The @value{op-verbose} option will
3954 cause @command{tar} to print the names of the members as they are deleted.
3955 As with @value{op-extract}, you must give the exact member names when
3956 using @samp{tar --delete}. @samp{--delete} will remove all versions of
3957 the named file from the archive. The @samp{--delete} operation can run
3958 very slowly.
3959
3960 Unlike other operations, @samp{--delete} has no short form.
3961
3962 @cindex Tapes, using @code{--delete} and
3963 @cindex Deleting from tape archives
3964 This operation will rewrite the archive. You can only use
3965 @samp{--delete} on an archive if the archive device allows you to
3966 write to any point on the media, such as a disk; because of this, it
3967 does not work on magnetic tapes. Do not try to delete an archive member
3968 from a magnetic tape; the action will not succeed, and you will be
3969 likely to scramble the archive and damage your tape. There is no safe
3970 way (except by completely re-writing the archive) to delete files from
3971 most kinds of magnetic tape. @xref{Media}.
3972
3973 To delete all versions of the file @file{blues} from the archive
3974 @file{collection.tar} in the @file{practice} directory, make sure you
3975 are in that directory, and then,
3976
3977 @example
3978 $ @kbd{tar --list --file=collection.tar}
3979 blues
3980 folk
3981 jazz
3982 rock
3983 practice/blues
3984 practice/folk
3985 practice/jazz
3986 practice/rock
3987 practice/blues
3988 $ @kbd{tar --delete --file=collection.tar blues}
3989 $ @kbd{tar --list --file=collection.tar}
3990 folk
3991 jazz
3992 rock
3993 $
3994 @end example
3995
3996 @FIXME{I changed the order of these nodes around and haven't had a chance
3997 to fix the above example's results, yet. I have to play with this and
3998 follow it and see what it actually does!}
3999
4000 The @value{op-delete} option has been reported to work properly when
4001 @command{tar} acts as a filter from @code{stdin} to @code{stdout}.
4002
4003 @node compare
4004 @subsection Comparing Archive Members with the File System
4005 @cindex Verifying the currency of an archive
4006 @UNREVISED
4007
4008 The @samp{--compare} (@samp{-d}), or @samp{--diff} operation compares
4009 specified archive members against files with the same names, and then
4010 reports differences in file size, mode, owner, modification date and
4011 contents. You should @emph{only} specify archive member names, not file
4012 names. If you do not name any members, then @command{tar} will compare the
4013 entire archive. If a file is represented in the archive but does not
4014 exist in the file system, @command{tar} reports a difference.
4015
4016 You have to specify the record size of the archive when modifying an
4017 archive with a non-default record size.
4018
4019 @command{tar} ignores files in the file system that do not have
4020 corresponding members in the archive.
4021
4022 The following example compares the archive members @file{rock},
4023 @file{blues} and @file{funk} in the archive @file{bluesrock.tar} with
4024 files of the same name in the file system. (Note that there is no file,
4025 @file{funk}; @command{tar} will report an error message.)
4026
4027 @example
4028 $ @kbd{tar --compare --file=bluesrock.tar rock blues funk}
4029 rock
4030 blues
4031 tar: funk not found in archive
4032 @end example
4033
4034 @noindent
4035 @FIXME{what does this actually depend on? i'm making a guess,
4036 here.}Depending on the system where you are running @command{tar} and the
4037 version you are running, @command{tar} may have a different error message,
4038 such as:
4039
4040 @example
4041 funk: does not exist
4042 @end example
4043
4044 @FIXME-xref{somewhere, for more information about format parameters.
4045 Melissa says: such as "format variations"? But why? Clearly I don't
4046 get it yet; I'll deal when I get to that section.}
4047
4048 The spirit behind the @value{op-compare} option is to check whether the
4049 archive represents the current state of files on disk, more than validating
4050 the integrity of the archive media. For this later goal, @xref{verify}.
4051
4052 @node create options
4053 @section Options Used by @code{--create}
4054
4055 The previous chapter described the basics of how to use
4056 @value{op-create} to create an archive from a set of files.
4057 @xref{create}. This section described advanced options to be used with
4058 @samp{--create}.
4059
4060 @menu
4061 * Ignore Failed Read::
4062 @end menu
4063
4064 @node Ignore Failed Read
4065 @subsection Ignore Fail Read
4066
4067 @table @kbd
4068 @item --ignore-failed-read
4069 Do not exit with nonzero on unreadable files or directories.
4070 @end table
4071
4072 @node extract options
4073 @section Options Used by @code{--extract}
4074 @UNREVISED
4075
4076 @FIXME{i need to get dan to go over these options with me and see if
4077 there's a better way of organizing them.}
4078
4079 The previous chapter showed how to use @value{op-extract} to extract
4080 an archive into the filesystem. Various options cause @command{tar} to
4081 extract more information than just file contents, such as the owner,
4082 the permissions, the modification date, and so forth. This section
4083 presents options to be used with @samp{--extract} when certain special
4084 considerations arise. You may review the information presented in
4085 @ref{extract} for more basic information about the
4086 @samp{--extract} operation.
4087
4088 @menu
4089 * Reading:: Options to Help Read Archives
4090 * Writing:: Changing How @command{tar} Writes Files
4091 * Scarce:: Coping with Scarce Resources
4092 @end menu
4093
4094 @node Reading
4095 @subsection Options to Help Read Archives
4096 @cindex Options when reading archives
4097 @cindex Reading incomplete records
4098 @cindex Records, incomplete
4099 @cindex End-of-archive entries, ignoring
4100 @cindex Ignoring end-of-archive entries
4101 @cindex Large lists of file names on small machines
4102 @cindex Small memory
4103 @cindex Running out of space
4104 @UNREVISED
4105
4106 Normally, @command{tar} will request data in full record increments from
4107 an archive storage device. If the device cannot return a full record,
4108 @command{tar} will report an error. However, some devices do not always
4109 return full records, or do not require the last record of an archive to
4110 be padded out to the next record boundary. To keep reading until you
4111 obtain a full record, or to accept an incomplete record if it contains
4112 an end-of-archive marker, specify the @value{op-read-full-records} option
4113 in conjunction with the @value{op-extract} or @value{op-list} operations.
4114 @value{xref-read-full-records}.
4115
4116 The @value{op-read-full-records} option is turned on by default when
4117 @command{tar} reads an archive from standard input, or from a remote
4118 machine. This is because on BSD Unix systems, attempting to read a
4119 pipe returns however much happens to be in the pipe, even if it is
4120 less than was requested. If this option were not enabled, @command{tar}
4121 would fail as soon as it read an incomplete record from the pipe.
4122
4123 If you're not sure of the blocking factor of an archive, you can
4124 read the archive by specifying @value{op-read-full-records} and
4125 @value{op-blocking-factor}, using a blocking factor larger than what the
4126 archive uses. This lets you avoid having to determine the blocking factor
4127 of an archive. @value{xref-blocking-factor}.
4128
4129 @menu
4130 * read full records::
4131 * Ignore Zeros::
4132 @end menu
4133
4134 @node read full records
4135 @unnumberedsubsubsec Reading Full Records
4136
4137 @FIXME{need sentence or so of intro here}
4138
4139 @table @kbd
4140 @item --read-full-records
4141 @item -B
4142 Use in conjunction with @value{op-extract} to read an archive which
4143 contains incomplete records, or one which has a blocking factor less
4144 than the one specified.
4145 @end table
4146
4147 @node Ignore Zeros
4148 @unnumberedsubsubsec Ignoring Blocks of Zeros
4149
4150 Normally, @command{tar} stops reading when it encounters a block of zeros
4151 between file entries (which usually indicates the end of the archive).
4152 @value{op-ignore-zeros} allows @command{tar} to completely read an archive
4153 which contains a block of zeros before the end (i.e.@: a damaged
4154 archive, or one which was created by concatenating several archives
4155 together).
4156
4157 The @value{op-ignore-zeros} option is turned off by default because many
4158 versions of @command{tar} write garbage after the end-of-archive entry,
4159 since that part of the media is never supposed to be read. @acronym{GNU}
4160 @command{tar} does not write after the end of an archive, but seeks to
4161 maintain compatiblity among archiving utilities.
4162
4163 @table @kbd
4164 @item --ignore-zeros
4165 @itemx -i
4166 To ignore blocks of zeros (ie.@: end-of-archive entries) which may be
4167 encountered while reading an archive. Use in conjunction with
4168 @value{op-extract} or @value{op-list}.
4169 @end table
4170
4171 @node Writing
4172 @subsection Changing How @command{tar} Writes Files
4173 @cindex Overwriting old files, prevention
4174 @cindex Protecting old files
4175 @cindex Modification times of extracted files
4176 @cindex Permissions of extracted files
4177 @cindex Modes of extracted files
4178 @cindex Writing extracted files to standard output
4179 @cindex Standard output, writing extracted files to
4180 @UNREVISED
4181
4182 @FIXME{need to mention the brand new option, --backup}
4183
4184 @menu
4185 * Dealing with Old Files::
4186 * Overwrite Old Files::
4187 * Keep Old Files::
4188 * Unlink First::
4189 * Recursive Unlink::
4190 * Modification Times::
4191 * Setting Access Permissions::
4192 * Writing to Standard Output::
4193 * remove files::
4194 @end menu
4195
4196 @node Dealing with Old Files
4197 @unnumberedsubsubsec Options Controlling the Overwriting of Existing Files
4198
4199 When extracting files, if @command{tar} discovers that the extracted
4200 file already exists, it normally replaces the file by removing it before
4201 extracting it, to prevent confusion in the presence of hard or symbolic
4202 links. (If the existing file is a symbolic link, it is removed, not
4203 followed.) However, if a directory cannot be removed because it is
4204 nonempty, @command{tar} normally overwrites its metadata (ownership,
4205 permission, etc.). The @option{--overwrite-dir} option enables this
4206 default behavior. To be more cautious and preserve the metadata of
4207 such a directory, use the @option{--no-overwrite-dir} option.
4208
4209 To be even more cautious and prevent existing files from being replaced, use
4210 the @value{op-keep-old-files} option. It causes @command{tar} to refuse
4211 to replace or update a file that already exists, i.e., a file with the
4212 same name as an archive member prevents extraction of that archive
4213 member. Instead, it reports an error.
4214
4215 To be more aggressive about altering existing files, use the
4216 @value{op-overwrite} option. It causes @command{tar} to overwrite
4217 existing files and to follow existing symbolic links when extracting.
4218
4219 Some people argue that @acronym{GNU} @command{tar} should not hesitate
4220 to overwrite files with other files when extracting. When extracting
4221 a @command{tar} archive, they expect to see a faithful copy of the
4222 state of the filesystem when the archive was created. It is debatable
4223 that this would always be a proper behavior. For example, suppose one
4224 has an archive in which @file{usr/local} is a link to
4225 @file{usr/local2}. Since then, maybe the site removed the link and
4226 renamed the whole hierarchy from @file{/usr/local2} to
4227 @file{/usr/local}. Such things happen all the time. I guess it would
4228 not be welcome at all that @acronym{GNU} @command{tar} removes the
4229 whole hierarchy just to make room for the link to be reinstated
4230 (unless it @emph{also} simultaneously restores the full
4231 @file{/usr/local2}, of course! @acronym{GNU} @command{tar} is indeed
4232 able to remove a whole hierarchy to reestablish a symbolic link, for
4233 example, but @emph{only if} @value{op-recursive-unlink} is specified
4234 to allow this behavior. In any case, single files are silently
4235 removed.
4236
4237 Finally, the @value{op-unlink-first} option can improve performance in
4238 some cases by causing @command{tar} to remove files unconditionally
4239 before extracting them.
4240
4241 @node Overwrite Old Files
4242 @unnumberedsubsubsec Overwrite Old Files
4243
4244 @table @kbd
4245 @item --overwrite
4246 Overwrite existing files and directory metadata when extracting files
4247 from an archive.
4248
4249 This
4250 causes @command{tar} to write extracted files into the file system without
4251 regard to the files already on the system; i.e., files with the same
4252 names as archive members are overwritten when the archive is extracted.
4253 It also causes @command{tar} to extract the ownership, permissions,
4254 and time stamps onto any preexisting files or directories.
4255 If the name of a corresponding file name is a symbolic link, the file
4256 pointed to by the symbolic link will be overwritten instead of the
4257 symbolic link itself (if this is possible). Moreover, special devices,
4258 empty directories and even symbolic links are automatically removed if
4259 they are in the way of extraction.
4260
4261 Be careful when using the @value{op-overwrite} option, particularly when
4262 combined with the @value{op-absolute-names} option, as this combination
4263 can change the contents, ownership or permissions of any file on your
4264 system. Also, many systems do not take kindly to overwriting files that
4265 are currently being executed.
4266
4267 @item --overwrite-dir
4268 Overwrite the metadata of directories when extracting files from an
4269 archive, but remove other files before extracting.
4270 @end table
4271
4272 @node Keep Old Files
4273 @unnumberedsubsubsec Keep Old Files
4274
4275 @table @kbd
4276 @item --keep-old-files
4277 @itemx -k
4278 Do not replace existing files from archive. The
4279 @value{op-keep-old-files} option prevents @command{tar} from replacing
4280 existing files with files with the same name from the archive.
4281 The @value{op-keep-old-files} option is meaningless with @value{op-list}.
4282 Prevents @command{tar} from replacing files in the file system during
4283 extraction.
4284 @end table
4285
4286 @node Unlink First
4287 @unnumberedsubsubsec Unlink First
4288
4289 @table @kbd
4290 @item --unlink-first
4291 @itemx -U
4292 Remove files before extracting over them.
4293 This can make @command{tar} run a bit faster if you know in advance
4294 that the extracted files all need to be removed. Normally this option
4295 slows @command{tar} down slightly, so it is disabled by default.
4296 @end table
4297
4298 @node Recursive Unlink
4299 @unnumberedsubsubsec Recursive Unlink
4300
4301 @table @kbd
4302 @item --recursive-unlink
4303 When this option is specified, try removing files and directory hierarchies
4304 before extracting over them. @emph{This is a dangerous option!}
4305 @end table
4306
4307 If you specify the @value{op-recursive-unlink} option,
4308 @command{tar} removes @emph{anything} that keeps you from extracting a file
4309 as far as current permissions will allow it. This could include removal
4310 of the contents of a full directory hierarchy.
4311
4312 @node Modification Times
4313 @unnumberedsubsubsec Setting Modification Times
4314
4315 Normally, @command{tar} sets the modification times of extracted files to
4316 the modification times recorded for the files in the archive, but
4317 limits the permissions of extracted files by the current @code{umask}
4318 setting.
4319
4320 To set the modification times of extracted files to the time when
4321 the files were extracted, use the @value{op-touch} option in
4322 conjunction with @value{op-extract}.
4323
4324 @table @kbd
4325 @item --touch
4326 @itemx -m
4327 Sets the modification time of extracted archive members to the time
4328 they were extracted, not the time recorded for them in the archive.
4329 Use in conjunction with @value{op-extract}.
4330 @end table
4331
4332 @node Setting Access Permissions
4333 @unnumberedsubsubsec Setting Access Permissions
4334
4335 To set the modes (access permissions) of extracted files to those
4336 recorded for those files in the archive, use @samp{--same-permissions}
4337 in conjunction with the @value{op-extract} operation. @FIXME{Should be
4338 aliased to ignore-umask.}
4339
4340 @table @kbd
4341 @item --preserve-permission
4342 @itemx --same-permission
4343 @itemx --ignore-umask
4344 @itemx -p
4345 Set modes of extracted archive members to those recorded in the
4346 archive, instead of current umask settings. Use in conjunction with
4347 @value{op-extract}.
4348 @end table
4349
4350 @FIXME{Following paragraph needs to be rewritten: why doesn't this cat
4351 files together, why is this useful. is it really useful with
4352 more than one file?}
4353
4354 @node Writing to Standard Output
4355 @unnumberedsubsubsec Writing to Standard Output
4356
4357 To write the extracted files to the standard output, instead of
4358 creating the files on the file system, use @value{op-to-stdout} in
4359 conjunction with @value{op-extract}. This option is useful if you are
4360 extracting files to send them through a pipe, and do not need to
4361 preserve them in the file system. If you extract multiple members,
4362 they appear on standard output concatenated, in the order they are
4363 found in the archive.
4364
4365 @table @kbd
4366 @item --to-stdout
4367 @itemx -O
4368 Writes files to the standard output. Used in conjunction with
4369 @value{op-extract}. Extract files to standard output. When this option
4370 is used, instead of creating the files specified, @command{tar} writes
4371 the contents of the files extracted to its standard output. This may
4372 be useful if you are only extracting the files in order to send them
4373 through a pipe. This option is meaningless with @value{op-list}.
4374 @end table
4375
4376 This can be useful, for example, if you have a tar archive containing
4377 a big file and don't want to store the file on disk before processing
4378 it. You can use a command like this:
4379
4380 @example
4381 tar -xOzf foo.tgz bigfile | process
4382 @end example
4383
4384 or even like this if you want to process the concatenation of the files:
4385
4386 @example
4387 tar -xOzf foo.tgz bigfile1 bigfile2 | process
4388 @end example
4389
4390 @node remove files
4391 @unnumberedsubsubsec Removing Files
4392
4393 @FIXME{the various macros in the front of the manual think that this
4394 option goes in this section. i have no idea; i only know it's nowhere
4395 else in the book...}
4396
4397 @table @kbd
4398 @item --remove-files
4399 Remove files after adding them to the archive.
4400 @end table
4401
4402 @node Scarce
4403 @subsection Coping with Scarce Resources
4404 @cindex Middle of the archive, starting in the
4405 @cindex Running out of space during extraction
4406 @cindex Disk space, running out of
4407 @cindex Space on the disk, recovering from lack of
4408 @UNREVISED
4409
4410 @menu
4411 * Starting File::
4412 * Same Order::
4413 @end menu
4414
4415 @node Starting File
4416 @unnumberedsubsubsec Starting File
4417
4418 @table @kbd
4419 @item --starting-file=@var{name}
4420 @itemx -K @var{name}
4421 Starts an operation in the middle of an archive. Use in conjunction
4422 with @value{op-extract} or @value{op-list}.
4423 @end table
4424
4425 If a previous attempt to extract files failed due to lack of disk
4426 space, you can use @value{op-starting-file} to start extracting only
4427 after member @var{name} of the archive. This assumes, of course, that
4428 there is now free space, or that you are now extracting into a
4429 different file system. (You could also choose to suspend @command{tar},
4430 remove unnecessary files from the file system, and then restart the
4431 same @command{tar} operation. In this case, @value{op-starting-file} is
4432 not necessary. @value{xref-incremental}, @value{xref-interactive},
4433 and @value{ref-exclude}.)
4434
4435 @node Same Order
4436 @unnumberedsubsubsec Same Order
4437
4438 @table @kbd
4439 @item --same-order
4440 @itemx --preserve-order
4441 @itemx -s
4442 To process large lists of file names on machines with small amounts of
4443 memory. Use in conjunction with @value{op-compare},
4444 @value{op-list}
4445 or @value{op-extract}.
4446 @end table
4447
4448 @FIXME{we don't need/want --preserve to exist any more (from melissa:
4449 ie, don't want that *version* of the option to exist, or don't want
4450 the option to exist in either version?}
4451
4452 @FIXME{i think this explanation is lacking.}
4453
4454 The @value{op-same-order} option tells @command{tar} that the list of file
4455 names to be listed or extracted is sorted in the same order as the
4456 files in the archive. This allows a large list of names to be used,
4457 even on a small machine that would not otherwise be able to hold all
4458 the names in memory at the same time. Such a sorted list can easily be
4459 created by running @samp{tar -t} on the archive and editing its output.
4460
4461 This option is probably never needed on modern computer systems.
4462
4463 @node backup
4464 @section Backup options
4465
4466 @cindex backup options
4467
4468 @acronym{GNU} @command{tar} offers options for making backups of files
4469 before writing new versions. These options control the details of
4470 these backups. They may apply to the archive itself before it is
4471 created or rewritten, as well as individual extracted members. Other
4472 @acronym{GNU} programs (@command{cp}, @command{install}, @command{ln},
4473 and @command{mv}, for example) offer similar options.
4474
4475 Backup options may prove unexpectedly useful when extracting archives
4476 containing many members having identical name, or when extracting archives
4477 on systems having file name limitations, making different members appear
4478 has having similar names through the side-effect of name truncation.
4479 (This is true only if we have a good scheme for truncated backup names,
4480 which I'm not sure at all: I suspect work is needed in this area.)
4481 When any existing file is backed up before being overwritten by extraction,
4482 then clashing files are automatically be renamed to be unique, and the
4483 true name is kept for only the last file of a series of clashing files.
4484 By using verbose mode, users may track exactly what happens.
4485
4486 At the detail level, some decisions are still experimental, and may
4487 change in the future, we are waiting comments from our users. So, please
4488 do not learn to depend blindly on the details of the backup features.
4489 For example, currently, directories themselves are never renamed through
4490 using these options, so, extracting a file over a directory still has
4491 good chances to fail. Also, backup options apply to created archives,
4492 not only to extracted members. For created archives, backups will not
4493 be attempted when the archive is a block or character device, or when it
4494 refers to a remote file.
4495
4496 For the sake of simplicity and efficiency, backups are made by renaming old
4497 files prior to creation or extraction, and not by copying. The original
4498 name is restored if the file creation fails. If a failure occurs after a
4499 partial extraction of a file, both the backup and the partially extracted
4500 file are kept.
4501
4502 @table @samp
4503
4504 @item --backup[=@var{method}]
4505 @opindex --backup
4506 @vindex VERSION_CONTROL
4507 @cindex backups
4508 Back up files that are about to be overwritten or removed.
4509 Without this option, the original versions are destroyed.
4510
4511 Use @var{method} to determine the type of backups made.
4512 If @var{method} is not specified, use the value of the @env{VERSION_CONTROL}
4513 environment variable. And if @env{VERSION_CONTROL} is not set,
4514 use the @samp{existing} method.
4515
4516 @vindex version-control @r{Emacs variable}
4517 This option corresponds to the Emacs variable @samp{version-control};
4518 the same values for @var{method} are accepted as in Emacs. This option
4519 also allows more descriptive names. The valid @var{method}s are:
4520
4521 @table @samp
4522 @item t
4523 @itemx numbered
4524 @opindex numbered @r{backup method}
4525 Always make numbered backups.
4526
4527 @item nil
4528 @itemx existing
4529 @opindex existing @r{backup method}
4530 Make numbered backups of files that already have them, simple backups
4531 of the others.
4532
4533 @item never
4534 @itemx simple
4535 @opindex simple @r{backup method}
4536 Always make simple backups.
4537
4538 @end table
4539
4540 @item --suffix=@var{suffix}
4541 @opindex --suffix
4542 @cindex backup suffix
4543 @vindex SIMPLE_BACKUP_SUFFIX
4544 Append @var{suffix} to each backup file made with @samp{--backup}. If this
4545 option is not specified, the value of the @env{SIMPLE_BACKUP_SUFFIX}
4546 environment variable is used. And if @env{SIMPLE_BACKUP_SUFFIX} is not
4547 set, the default is @samp{~}, just as in Emacs.
4548
4549 @end table
4550
4551 Some people express the desire to @emph{always} use the @value{op-backup}
4552 option, by defining some kind of alias or script. This is not as easy
4553 as one may think, due to the fact that old style options should appear first
4554 and consume arguments a bit unpredictably for an alias or script. But,
4555 if you are ready to give up using old style options, you may resort to
4556 using something like (a Bourne shell function here):
4557
4558 @example
4559 tar () @{ /usr/local/bin/tar --backup $*; @}
4560 @end example
4561
4562 @node Applications
4563 @section Notable @command{tar} Usages
4564 @UNREVISED
4565
4566 @FIXME{Using Unix file linking capability to recreate directory
4567 structures---linking files into one subdirectory and then
4568 @command{tar}ring that directory.}
4569
4570 @FIXME{Nice hairy example using absolute-names, newer, etc.}
4571
4572 @findex uuencode
4573 You can easily use archive files to transport a group of files from
4574 one system to another: put all relevant files into an archive on one
4575 computer system, transfer the archive to another system, and extract
4576 the contents there. The basic transfer medium might be magnetic tape,
4577 Internet FTP, or even electronic mail (though you must encode the
4578 archive with @command{uuencode} in order to transport it properly by
4579 mail). Both machines do not have to use the same operating system, as
4580 long as they both support the @command{tar} program.
4581
4582 For example, here is how you might copy a directory's contents from
4583 one disk to another, while preserving the dates, modes, owners and
4584 link-structure of all the files therein. In this case, the transfer
4585 medium is a @dfn{pipe}, which is one a Unix redirection mechanism:
4586
4587 @smallexample
4588 $ @kbd{cd sourcedir; tar -cf - . | (cd targetdir; tar -xf -)}
4589 @end smallexample
4590
4591 @noindent
4592 The command also works using short option forms:
4593
4594 @FIXME{The following using standard input/output correct??}
4595 @smallexample
4596 $ @w{@kbd{cd sourcedir; tar --create --file=- . | (cd targetdir; tar --extract --file=-)}}
4597 @end smallexample
4598
4599 @noindent
4600 This is one of the easiest methods to transfer a @command{tar} archive.
4601
4602 @node looking ahead
4603 @section Looking Ahead: The Rest of this Manual
4604
4605 You have now seen how to use all eight of the operations available to
4606 @command{tar}, and a number of the possible options. The next chapter
4607 explains how to choose and change file and archive names, how to use
4608 files to store names of other files which you can then call as
4609 arguments to @command{tar} (this can help you save time if you expect to
4610 archive the same list of files a number of times), and so forth.
4611 @FIXME{in case it's not obvious, i'm making this up in some sense
4612 based on my imited memory of what the next chapter *really* does. i
4613 just wanted to flesh out this final section a little bit so i'd
4614 remember to sitck it in here. :-)}
4615
4616 If there are too many files to conveniently list on the command line,
4617 you can list the names in a file, and @command{tar} will read that file.
4618 @value{xref-files-from}.
4619
4620 There are various ways of causing @command{tar} to skip over some files,
4621 and not archive them. @xref{Choosing}.
4622
4623 @node Backups
4624 @chapter Performing Backups and Restoring Files
4625 @UNREVISED
4626
4627 @acronym{GNU} @command{tar} is distributed along with the scripts
4628 which the Free Software Foundation uses for performing backups. There
4629 is no corresponding scripts available yet for doing restoration of
4630 files. Even if there is a good chance those scripts may be satisfying
4631 to you, they are not the only scripts or methods available for doing
4632 backups and restore. You may well create your own, or use more
4633 sophisticated packages dedicated to that purpose.
4634
4635 Some users are enthusiastic about @code{Amanda} (The Advanced Maryland
4636 Automatic Network Disk Archiver), a backup system developed by James
4637 da Silva @file{jds@@cs.umd.edu} and available on many Unix systems.
4638 This is free software, and it is available at these places:
4639
4640 @example
4641 http://www.cs.umd.edu/projects/amanda/amanda.html
4642 ftp://ftp.cs.umd.edu/pub/amanda
4643 @end example
4644
4645 @ifclear PUBLISH
4646
4647 Here is a possible plan for a future documentation about the backuping
4648 scripts which are provided within the @acronym{GNU} @command{tar}
4649 distribution.
4650
4651 @example
4652 .* dumps
4653 . + what are dumps
4654
4655 . + different levels of dumps
4656 . - full dump = dump everything
4657 . - level 1, level 2 dumps etc, -
4658 A level n dump dumps everything changed since the last level
4659 n-1 dump (?)
4660
4661 . + how to use scripts for dumps (ie, the concept)
4662 . - scripts to run after editing backup specs (details)
4663
4664 . + Backup Specs, what is it.
4665 . - how to customize
4666 . - actual text of script [/sp/dump/backup-specs]
4667
4668 . + Problems
4669 . - rsh doesn't work
4670 . - rtape isn't installed
4671 . - (others?)
4672
4673 . + the --incremental option of tar
4674
4675 . + tapes
4676 . - write protection
4677 . - types of media
4678 . : different sizes and types, useful for different things
4679 . - files and tape marks
4680 one tape mark between files, two at end.
4681 . - positioning the tape
4682 MT writes two at end of write,
4683 backspaces over one when writing again.
4684 @end example
4685
4686 @end ifclear
4687
4688 This chapter documents both the provided FSF scripts and @command{tar}
4689 options which are more specific to usage as a backup tool.
4690
4691 To @dfn{back up} a file system means to create archives that contain
4692 all the files in that file system. Those archives can then be used to
4693 restore any or all of those files (for instance if a disk crashes or a
4694 file is accidentally deleted). File system @dfn{backups} are also
4695 called @dfn{dumps}.
4696
4697 @menu
4698 * Full Dumps:: Using @command{tar} to Perform Full Dumps
4699 * Inc Dumps:: Using @command{tar} to Perform Incremental Dumps
4700 * incremental and listed-incremental:: The Incremental Options
4701 * Backup Levels:: Levels of Backups
4702 * Backup Parameters:: Setting Parameters for Backups and Restoration
4703 * Scripted Backups:: Using the Backup Scripts
4704 * Scripted Restoration:: Using the Restore Script
4705 @end menu
4706
4707 @node Full Dumps
4708 @section Using @command{tar} to Perform Full Dumps
4709 @UNREVISED
4710
4711 @cindex full dumps
4712 @cindex dumps, full
4713
4714 @cindex corrupted archives
4715 Full dumps should only be made when no other people or programs
4716 are modifying files in the filesystem. If files are modified while
4717 @command{tar} is making the backup, they may not be stored properly in
4718 the archive, in which case you won't be able to restore them if you
4719 have to. (Files not being modified are written with no trouble, and do
4720 not corrupt the entire archive.)
4721
4722 You will want to use the @value{op-label} option to give the archive a
4723 volume label, so you can tell what this archive is even if the label
4724 falls off the tape, or anything like that.
4725
4726 Unless the filesystem you are dumping is guaranteed to fit on
4727 one volume, you will need to use the @value{op-multi-volume} option.
4728 Make sure you have enough tapes on hand to complete the backup.
4729
4730 If you want to dump each filesystem separately you will need to use
4731 the @value{op-one-file-system} option to prevent @command{tar} from crossing
4732 filesystem boundaries when storing (sub)directories.
4733
4734 The @value{op-incremental} option is not needed, since this is a complete
4735 copy of everything in the filesystem, and a full restore from this
4736 backup would only be done onto a completely empty disk.
4737
4738 Unless you are in a hurry, and trust the @command{tar} program (and your
4739 tapes), it is a good idea to use the @value{op-verify} option, to make
4740 sure your files really made it onto the dump properly. This will
4741 also detect cases where the file was modified while (or just after)
4742 it was being archived. Not all media (notably cartridge tapes) are
4743 capable of being verified, unfortunately.
4744
4745 @value{op-listed-incremental} take a file name argument always. If the
4746 file doesn't exist, run a level zero dump, creating the file. If the
4747 file exists, uses that file to see what has changed.
4748
4749 @value{op-incremental} @FIXME{look it up}
4750
4751 @value{op-incremental} handle old @acronym{GNU}-format incremental backup.
4752
4753 This option should only be used when creating an incremental backup of
4754 a filesystem. When the @value{op-incremental} option is used, @command{tar}
4755 writes, at the beginning of the archive, an entry for each of the
4756 directories that will be operated on. The entry for a directory
4757 includes a list of all the files in the directory at the time the
4758 dump was done, and a flag for each file indicating whether the file
4759 is going to be put in the archive. This information is used when
4760 doing a complete incremental restore.
4761
4762 Note that this option causes @command{tar} to create a non-standard
4763 archive that may not be readable by non-@acronym{GNU} versions of the
4764 @command{tar} program.
4765
4766 The @value{op-incremental} option means the archive is an incremental
4767 backup. Its meaning depends on the command that it modifies.
4768
4769 If the @value{op-incremental} option is used with @value{op-list},
4770 @command{tar} will list, for each directory in the archive, the list
4771 of files in that directory at the time the archive was created. This
4772 information is put out in a format that is not easy for humans to
4773 read, but which is unambiguous for a program: each file name is
4774 preceded by either a @samp{Y} if the file is present in the archive,
4775 an @samp{N} if the file is not included in the archive, or a @samp{D}
4776 if the file is a directory (and is included in the archive). Each
4777 file name is terminated by a null character. The last file is
4778 followed by an additional null and a newline to indicate the end of
4779 the data.
4780
4781 If the @value{op-incremental} option is used with @value{op-extract}, then
4782 when the entry for a directory is found, all files that currently
4783 exist in that directory but are not listed in the archive @emph{are
4784 deleted from the directory}.
4785
4786 This behavior is convenient when you are restoring a damaged file
4787 system from a succession of incremental backups: it restores the
4788 entire state of the file system to that which obtained when the backup
4789 was made. If you don't use @value{op-incremental}, the file system will
4790 probably fill up with files that shouldn't exist any more.
4791
4792 @value{op-listed-incremental} handle new @acronym{GNU}-format
4793 incremental backup. This option handles new @acronym{GNU}-format
4794 incremental backup. It has much the same effect as
4795 @value{op-incremental}, but also the time when the dump is done and
4796 the list of directories dumped is written to the given
4797 @var{file}. When restoring, only files newer than the saved time are
4798 restored, and the directory list is used to speed up operations.
4799
4800 @value{op-listed-incremental} acts like @value{op-incremental}, but when
4801 used in conjunction with @value{op-create} will also cause @command{tar} to
4802 use the file @var{file}, which contains information about the state
4803 of the filesystem at the time of the last backup, to decide which
4804 files to include in the archive being created. That file will then
4805 be updated by @command{tar}. If the file @var{file} does not exist when
4806 this option is specified, @command{tar} will create it, and include all
4807 appropriate files in the archive.
4808
4809 The file, which is archive independent, contains the date it was last
4810 modified and a list of devices, inode numbers and directory names.
4811 @command{tar} will archive files with newer mod dates or inode change
4812 times, and directories with an unchanged inode number and device but
4813 a changed directory name. The file is updated after the files to
4814 be archived are determined, but before the new archive is actually
4815 created.
4816
4817 @node Inc Dumps
4818 @section Using @command{tar} to Perform Incremental Dumps
4819 @UNREVISED
4820
4821 @cindex incremental dumps
4822 @cindex dumps, incremental
4823
4824 Performing incremental dumps is similar to performing full dumps,
4825 although a few more options will usually be needed.
4826
4827 A standard scheme is to do a @emph{monthly} (full) dump once a month,
4828 a @emph{weekly} dump once a week of everything since the last monthly
4829 and a @emph{daily} every day of everything since the last (weekly or
4830 monthly) dump.
4831
4832 Here is a sample script to dump the directory hierarchies @samp{/usr}
4833 and @samp{/var}.
4834
4835 @example
4836 #! /bin/sh
4837 tar --create \
4838 --blocking-factor=126 \
4839 --file=/dev/rmt/0 \
4840 --label="`hostname` /usr /var `date +%Y-%m-%d`" \
4841 --listed-incremental=/var/log/usr-var.snar \
4842 --verbose \
4843 /usr /var
4844 @end example
4845
4846 This script uses the file @file{/var/log/usr-var.snar} as a snapshot to
4847 store information about the previous tar dump.
4848
4849 The blocking factor 126 is an attempt to make the tape drive stream.
4850 Some tape devices cannot handle 64 kB blocks or larger, and require the
4851 block size to be a multiple of 1 kB; for these devices, 126 is the
4852 largest blocking factor that can be used.
4853
4854 @node incremental and listed-incremental
4855 @section The Incremental Options
4856 @UNREVISED
4857
4858 @value{op-incremental} is used in conjunction with @value{op-create},
4859 @value{op-extract} or @value{op-list} when backing up and restoring file
4860 systems. An archive cannot be extracted or listed with the
4861 @value{op-incremental} option specified unless it was created with the
4862 option specified. This option should only be used by a script, not by
4863 the user, and is usually disregarded in favor of
4864 @value{op-listed-incremental}, which is described below.
4865
4866 @value{op-incremental} in conjunction with @value{op-create} causes
4867 @command{tar} to write, at the beginning of the archive, an entry for
4868 each of the directories that will be archived. The entry for a
4869 directory includes a list of all the files in the directory at the
4870 time the archive was created and a flag for each file indicating
4871 whether or not the file is going to be put in the archive.
4872
4873 Note that this option causes @command{tar} to create a non-standard
4874 archive that may not be readable by non-@acronym{GNU} versions of the
4875 @command{tar} program.
4876
4877 @value{op-incremental} in conjunction with @value{op-extract} causes
4878 @command{tar} to read the lists of directory contents previously stored
4879 in the archive, @emph{delete} files in the file system that did not
4880 exist in their directories when the archive was created, and then
4881 extract the files in the archive.
4882
4883 This behavior is convenient when restoring a damaged file system from
4884 a succession of incremental backups: it restores the entire state of
4885 the file system to that which obtained when the backup was made. If
4886 @value{op-incremental} isn't specified, the file system will probably
4887 fill up with files that shouldn't exist any more.
4888
4889 @value{op-incremental} in conjunction with @value{op-list} causes
4890 @command{tar} to print, for each directory in the archive, the list of
4891 files in that directory at the time the archive was created. This
4892 information is put out in a format that is not easy for humans to
4893 read, but which is unambiguous for a program: each file name is
4894 preceded by either a @samp{Y} if the file is present in the archive,
4895 an @samp{N} if the file is not included in the archive, or a @samp{D}
4896 if the file is a directory (and is included in the archive). Each
4897 file name is terminated by a null character. The last file is followed
4898 by an additional null and a newline to indicate the end of the data.
4899
4900 @value{op-listed-incremental} acts like @value{op-incremental}, but when
4901 used in conjunction with @value{op-create} will also cause @command{tar}
4902 to use the file @var{snapshot-file}, which contains information about
4903 the state of the file system at the time of the last backup, to decide
4904 which files to include in the archive being created. That file will
4905 then be updated by @command{tar}. If the file @var{file} does not exist
4906 when this option is specified, @command{tar} will create it, and include
4907 all appropriate files in the archive.
4908
4909 The file @var{file}, which is archive independent, contains the date
4910 it was last modified and a list of devices, inode numbers and
4911 directory names. @command{tar} will archive files with newer mod dates
4912 or inode change times, and directories with an unchanged inode number
4913 and device but a changed directory name. The file is updated after
4914 the files to be archived are determined, but before the new archive is
4915 actually created.
4916
4917 Incremental dumps depend crucially on time stamps, so the results are
4918 unreliable if you modify a file's time stamps during dumping (e.g.@:
4919 with the @samp{--atime-preserve} option), or if you set the clock
4920 backwards.
4921
4922 Despite it should be obvious that a device has a non-volatile value, NFS
4923 devices have non-dependable values when an automounter gets in the picture.
4924 This led to a great deal of spurious redumping in incremental dumps,
4925 so it is somewhat useless to compare two NFS devices numbers over time.
4926 So @command{tar} now considers all NFS devices as being equal when it comes
4927 to comparing directories; this is fairly gross, but there does not seem
4928 to be a better way to go.
4929
4930 @command{tar} doesn't access @var{snapshot-file} when
4931 @value{op-create} or @value{op-list} are specified, but the
4932 @value{op-listed-incremental} option must still be given. A
4933 placeholder @var{snapshot-file} can be specified, e.g.,
4934 @file{/dev/null}.
4935
4936 @FIXME{this section needs to be written}
4937
4938 @node Backup Levels
4939 @section Levels of Backups
4940 @UNREVISED
4941
4942 An archive containing all the files in the file system is called a
4943 @dfn{full backup} or @dfn{full dump}. You could insure your data by
4944 creating a full dump every day. This strategy, however, would waste a
4945 substantial amount of archive media and user time, as unchanged files
4946 are daily re-archived.
4947
4948 It is more efficient to do a full dump only occasionally. To back up
4949 files between full dumps, you can a incremental dump. A @dfn{level
4950 one} dump archives all the files that have changed since the last full
4951 dump.
4952
4953 A typical dump strategy would be to perform a full dump once a week,
4954 and a level one dump once a day. This means some versions of files
4955 will in fact be archived more than once, but this dump strategy makes
4956 it possible to restore a file system to within one day of accuracy by
4957 only extracting two archives---the last weekly (full) dump and the
4958 last daily (level one) dump. The only information lost would be in
4959 files changed or created since the last daily backup. (Doing dumps
4960 more than once a day is usually not worth the trouble).
4961
4962 @acronym{GNU} @command{tar} comes with scripts you can use to do full
4963 and level-one dumps. Using scripts (shell programs) to perform
4964 backups and restoration is a convenient and reliable alternative to
4965 typing out file name lists and @command{tar} commands by hand.
4966
4967 Before you use these scripts, you need to edit the file
4968 @file{backup-specs}, which specifies parameters used by the backup
4969 scripts and by the restore script. @FIXME{There is no such restore
4970 script!}@FIXME-xref{Script Syntax}Once the backup parameters
4971 are set, you can perform backups or restoration by running the
4972 appropriate script.
4973
4974 The name of the restore script is @code{restore}. @FIXME{There is
4975 no such restore script!}The names of the level one and full backup
4976 scripts are, respectively, @code{level-1} and @code{level-0}.
4977 The @code{level-0} script also exists under the name @code{weekly}, and
4978 the @code{level-1} under the name @code{daily}---these additional names
4979 can be changed according to your backup schedule. @FIXME-xref{Scripted
4980 Restoration, for more information on running the restoration script.}
4981 @FIXME-xref{Scripted Backups, for more information on running the
4982 backup scripts.}
4983
4984 @emph{Please Note:} The backup scripts and the restoration scripts are
4985 designed to be used together. While it is possible to restore files by
4986 hand from an archive which was created using a backup script, and to create
4987 an archive by hand which could then be extracted using the restore script,
4988 it is easier to use the scripts.@FIXME{There is no such restore script!}
4989 @value{xref-incremental}, and @value{xref-listed-incremental},
4990 before making such an attempt.
4991
4992 @FIXME{shorten node names}
4993
4994 @node Backup Parameters
4995 @section Setting Parameters for Backups and Restoration
4996 @UNREVISED
4997
4998 The file @file{backup-specs} specifies backup parameters for the
4999 backup and restoration scripts provided with @command{tar}. You must
5000 edit @file{backup-specs} to fit your system configuration and schedule
5001 before using these scripts.
5002
5003 @FIXME{This about backup scripts needs to be written: BS is a shell
5004 script .... thus ... @file{backup-specs} is in shell script syntax.}
5005
5006 @FIXME-xref{Script Syntax, for an explanation of this syntax.}
5007
5008 @FIXME{Whats a parameter .... looked at by the backup scripts
5009 ... which will be expecting to find ... now syntax ... value is linked
5010 to lame ... @file{backup-specs} specifies the following parameters:}
5011
5012 @table @samp
5013 @item ADMINISTRATOR
5014 The user name of the backup administrator.
5015
5016 @item BACKUP_HOUR
5017 The hour at which the backups are done. This can be a number from 0
5018 to 23, or the string @samp{now}.
5019
5020 @item TAPE_FILE
5021 The device @command{tar} writes the archive to. This device should be
5022 attached to the host on which the dump scripts are run.
5023
5024 @FIXME{examples for all ...}
5025
5026 @item TAPE_STATUS
5027 The command to use to obtain the status of the archive device,
5028 including error count. On some tape drives there may not be such a
5029 command; in that case, simply use @samp{TAPE_STATUS=false}.
5030
5031 @item BLOCKING
5032 The blocking factor @command{tar} will use when writing the dump archive.
5033 @value{xref-blocking-factor}.
5034
5035 @item BACKUP_DIRS
5036 A list of file systems to be dumped. You can include any directory
5037 name in the list---subdirectories on that file system will be
5038 included, regardless of how they may look to other networked machines.
5039 Subdirectories on other file systems will be ignored.
5040
5041 The host name specifies which host to run @command{tar} on, and should
5042 normally be the host that actually contains the file system. However,
5043 the host machine must have @acronym{GNU} @command{tar} installed, and
5044 must be able to access the directory containing the backup scripts and
5045 their support files using the same file name that is used on the
5046 machine where the scripts are run (ie. what @command{pwd} will print
5047 when in that directory on that machine). If the host that contains
5048 the file system does not have this capability, you can specify another
5049 host as long as it can access the file system through NFS.
5050
5051 @item BACKUP_FILES
5052 A list of individual files to be dumped. These should be accessible
5053 from the machine on which the backup script is run.
5054
5055 @FIXME{Same file name, be specific. Through NFS ...}
5056
5057 @end table
5058
5059 @menu
5060 * backup-specs example:: An Example Text of @file{Backup-specs}
5061 * Script Syntax:: Syntax for @file{Backup-specs}
5062 @end menu
5063
5064 @node backup-specs example
5065 @subsection An Example Text of @file{Backup-specs}
5066 @UNREVISED
5067
5068 The following is the text of @file{backup-specs} as it appears at FSF:
5069
5070 @example
5071 # site-specific parameters for file system backup.
5072
5073 ADMINISTRATOR=friedman
5074 BACKUP_HOUR=1
5075 TAPE_FILE=/dev/nrsmt0
5076 TAPE_STATUS="mts -t $TAPE_FILE"
5077 BLOCKING=124
5078 BACKUP_DIRS="
5079 albert:/fs/fsf
5080 apple-gunkies:/gd
5081 albert:/fs/gd2
5082 albert:/fs/gp
5083 geech:/usr/jla
5084 churchy:/usr/roland
5085 albert:/
5086 albert:/usr
5087 apple-gunkies:/
5088 apple-gunkies:/usr
5089 gnu:/hack
5090 gnu:/u
5091 apple-gunkies:/com/mailer/gnu
5092 apple-gunkies:/com/archive/gnu"
5093
5094 BACKUP_FILES="/com/mailer/aliases /com/mailer/league*[a-z]"
5095
5096 @end example
5097
5098 @node Script Syntax
5099 @subsection Syntax for @file{Backup-specs}
5100 @UNREVISED
5101
5102 @file{backup-specs} is in shell script syntax. The following
5103 conventions should be considered when editing the script:
5104 @FIXME{"conventions?"}
5105
5106 A quoted string is considered to be contiguous, even if it is on more
5107 than one line. Therefore, you cannot include commented-out lines
5108 within a multi-line quoted string. BACKUP_FILES and BACKUP_DIRS are
5109 the two most likely parameters to be multi-line.
5110
5111 A quoted string typically cannot contain wildcards. In
5112 @file{backup-specs}, however, the parameters BACKUP_DIRS and
5113 BACKUP_FILES can contain wildcards.
5114
5115 @node Scripted Backups
5116 @section Using the Backup Scripts
5117 @UNREVISED
5118
5119 The syntax for running a backup script is:
5120
5121 @example
5122 @file{script-name} [@var{time-to-be-run}]
5123 @end example
5124
5125 where @var{time-to-be-run} can be a specific system time, or can be
5126 @kbd{now}. If you do not specify a time, the script runs at the time
5127 specified in @file{backup-specs}. @FIXME-pxref{Script Syntax}
5128
5129 You should start a script with a tape or disk mounted. Once you
5130 start a script, it prompts you for new tapes or disks as it
5131 needs them. Media volumes don't have to correspond to archive
5132 files---a multi-volume archive can be started in the middle of a
5133 tape that already contains the end of another multi-volume archive.
5134 The @code{restore} script prompts for media by its archive volume,
5135 so to avoid an error message you should keep track of which tape
5136 (or disk) contains which volume of the archive. @FIXME{There is
5137 no such restore script!} @FIXME-xref{Scripted Restoration}
5138 @FIXME{Have file names changed?}
5139
5140 The backup scripts write two files on the file system. The first is a
5141 record file in @file{/etc/tar-backup/}, which is used by the scripts
5142 to store and retrieve information about which files were dumped. This
5143 file is not meant to be read by humans, and should not be deleted by
5144 them. @FIXME-xref{incremental and listed-incremental, for a more
5145 detailed explanation of this file.}
5146
5147 The second file is a log file containing the names of the file systems
5148 and files dumped, what time the backup was made, and any error
5149 messages that were generated, as well as how much space was left in
5150 the media volume after the last volume of the archive was written.
5151 You should check this log file after every backup. The file name is
5152 @file{log-@var{mmm-ddd-yyyy}-level-1} or
5153 @file{log-@var{mmm-ddd-yyyy}-full}.
5154
5155 The script also prints the name of each system being dumped to the
5156 standard output.
5157
5158 @node Scripted Restoration
5159 @section Using the Restore Script
5160 @UNREVISED
5161
5162 @ifset PUBLISH
5163
5164 The @command{tar} distribution does not provide restoring scripts.
5165
5166 @end ifset
5167
5168 @ifclear PUBLISH
5169
5170 @quotation
5171 @strong{Warning:} The @acronym{GNU} @command{tar} distribution does @emph{not}
5172 provide any such @code{restore} script yet. This section is only
5173 listed here for documentation maintenance purposes. In any case,
5174 all contents is subject to change as things develop.
5175 @end quotation
5176
5177 @FIXME{A section on non-scripted restore may be a good idea.}
5178
5179 To restore files that were archived using a scripted backup, use the
5180 @code{restore} script. The syntax for the script is:
5181
5182 where ***** are the file systems to restore from, and
5183 ***** is a regular expression which specifies which files to
5184 restore. If you specify --all, the script restores all the files
5185 in the file system.
5186
5187 You should start the restore script with the media containing the
5188 first volume of the archive mounted. The script will prompt for other
5189 volumes as they are needed. If the archive is on tape, you don't need
5190 to rewind the tape to to its beginning---if the tape head is
5191 positioned past the beginning of the archive, the script will rewind
5192 the tape as needed. @FIXME-xref{Media, for a discussion of tape
5193 positioning.}
5194
5195 If you specify @samp{--all} as the @var{files} argument, the
5196 @code{restore} script extracts all the files in the archived file
5197 system into the active file system.
5198
5199 @quotation
5200 @strong{Warning:} The script will delete files from the active file
5201 system if they were not in the file system when the archive was made.
5202 @end quotation
5203
5204 @value{xref-incremental}, and @value{ref-listed-incremental},
5205 for an explanation of how the script makes that determination.
5206
5207 @FIXME{this may be an option, not a given}
5208
5209 @end ifclear
5210
5211 @node Choosing
5212 @chapter Choosing Files and Names for @command{tar}
5213 @UNREVISED
5214
5215 @FIXME{Melissa (still) Doesn't Really Like This ``Intro'' Paragraph!!!}
5216
5217 Certain options to @command{tar} enable you to specify a name for your
5218 archive. Other options let you decide which files to include or exclude
5219 from the archive, based on when or whether files were modified, whether
5220 the file names do or don't match specified patterns, or whether files
5221 are in specified directories.
5222
5223 @menu
5224 * file:: Choosing the Archive's Name
5225 * Selecting Archive Members::
5226 * files:: Reading Names from a File
5227 * exclude:: Excluding Some Files
5228 * Wildcards::
5229 * after:: Operating Only on New Files
5230 * recurse:: Descending into Directories
5231 * one:: Crossing Filesystem Boundaries
5232 @end menu
5233
5234 @node file
5235 @section Choosing and Naming Archive Files
5236 @cindex Naming an archive
5237 @cindex Archive Name
5238 @cindex Directing output
5239 @cindex Choosing an archive file
5240 @cindex Where is the archive?
5241 @UNREVISED
5242
5243 @FIXME{should the title of this section actually be, "naming an
5244 archive"?}
5245
5246 By default, @command{tar} uses an archive file name that was compiled when
5247 it was built on the system; usually this name refers to some physical
5248 tape drive on the machine. However, the person who installed @command{tar}
5249 on the system may not set the default to a meaningful value as far as
5250 most users are concerned. As a result, you will usually want to tell
5251 @command{tar} where to find (or create) the archive. The @value{op-file}
5252 option allows you to either specify or name a file to use as the archive
5253 instead of the default archive file location.
5254
5255 @table @kbd
5256 @item --file=@var{archive-name}
5257 @itemx -f @var{archive-name}
5258 Name the archive to create or operate on. Use in conjunction with
5259 any operation.
5260 @end table
5261
5262 For example, in this @command{tar} command,
5263
5264 @example
5265 $ @kbd{tar -cvf collection.tar blues folk jazz}
5266 @end example
5267
5268 @noindent
5269 @file{collection.tar} is the name of the archive. It must directly
5270 follow the @samp{-f} option, since whatever directly follows @samp{-f}
5271 @emph{will} end up naming the archive. If you neglect to specify an
5272 archive name, you may end up overwriting a file in the working directory
5273 with the archive you create since @command{tar} will use this file's name
5274 for the archive name.
5275
5276 An archive can be saved as a file in the file system, sent through a
5277 pipe or over a network, or written to an I/O device such as a tape,
5278 floppy disk, or CD write drive.
5279
5280 @cindex Writing new archives
5281 @cindex Archive creation
5282 If you do not name the archive, @command{tar} uses the value of the
5283 environment variable @env{TAPE} as the file name for the archive. If
5284 that is not available, @command{tar} uses a default, compiled-in archive
5285 name, usually that for tape unit zero (ie. @file{/dev/tu00}).
5286 @command{tar} always needs an archive name.
5287
5288 If you use @file{-} as an @var{archive-name}, @command{tar} reads the
5289 archive from standard input (when listing or extracting files), or
5290 writes it to standard output (when creating an archive). If you use
5291 @file{-} as an @var{archive-name} when modifying an archive,
5292 @command{tar} reads the original archive from its standard input and
5293 writes the entire new archive to its standard output.
5294
5295 @FIXME{might want a different example here; this is already used in
5296 "notable tar usages".}
5297
5298 @example
5299 $ @kbd{cd sourcedir; tar -cf - . | (cd targetdir; tar -xf -)}
5300 @end example
5301
5302 @FIXME{help!}
5303
5304 @cindex Standard input and output
5305 @cindex tar to standard input and output
5306 To specify an archive file on a device attached to a remote machine,
5307 use the following:
5308
5309 @example
5310 @kbd{--file=@var{hostname}:/@var{dev}/@var{file name}}
5311 @end example
5312
5313 @noindent
5314 @command{tar} will complete the remote connection, if possible, and
5315 prompt you for a username and password. If you use
5316 @samp{--file=@@@var{hostname}:/@var{dev}/@var{file name}}, @command{tar}
5317 will complete the remote connection, if possible, using your username
5318 as the username on the remote machine.
5319
5320 If the archive file name includes a colon (@samp{:}), then it is assumed
5321 to be a file on another machine. If the archive file is
5322 @samp{@var{user}@@@var{host}:@var{file}}, then @var{file} is used on the
5323 host @var{host}. The remote host is accessed using the @command{rsh}
5324 program, with a username of @var{user}. If the username is omitted
5325 (along with the @samp{@@} sign), then your user name will be used.
5326 (This is the normal @command{rsh} behavior.) It is necessary for the
5327 remote machine, in addition to permitting your @command{rsh} access, to
5328 have the @file{/usr/ucb/rmt} program installed. If you need to use a
5329 file whose name includes a colon, then the remote tape drive behavior
5330 can be inhibited by using the @value{op-force-local} option.
5331
5332 @FIXME{i know we went over this yesterday, but bob (and now i do again,
5333 too) thinks it's out of the middle of nowhere. it doesn't seem to tie
5334 into what came before it well enough <<i moved it now, is it better
5335 here?>>. bob also comments that if Amanda isn't free software, we
5336 shouldn't mention it..}
5337
5338 When the archive is being created to @file{/dev/null}, @acronym{GNU}
5339 @command{tar} tries to minimize input and output operations. The
5340 Amanda backup system, when used with @acronym{GNU} @command{tar}, has
5341 an initial sizing pass which uses this feature.
5342
5343 @node Selecting Archive Members
5344 @section Selecting Archive Members
5345 @cindex Specifying files to act on
5346 @cindex Specifying archive members
5347
5348 @dfn{File Name arguments} specify which files in the file system
5349 @command{tar} operates on, when creating or adding to an archive, or which
5350 archive members @command{tar} operates on, when reading or deleting from
5351 an archive. @xref{Operations}.
5352
5353 To specify file names, you can include them as the last arguments on
5354 the command line, as follows:
5355 @smallexample
5356 @kbd{tar} @var{operation} [@var{option1} @var{option2} @dots{}] [@var{file name-1} @var{file name-2} @dots{}]
5357 @end smallexample
5358
5359 If you specify a directory name as a file name argument, all the files
5360 in that directory are operated on by @command{tar}.
5361
5362 If you do not specify files when @command{tar} is invoked with
5363 @value{op-create}, @command{tar} operates on all the non-directory files in
5364 the working directory. If you specify either @value{op-list} or
5365 @value{op-extract}, @command{tar} operates on all the archive members in the
5366 archive. If you specify any operation other than one of these three,
5367 @command{tar} does nothing.
5368
5369 By default, @command{tar} takes file names from the command line. However,
5370 there are other ways to specify file or member names, or to modify the
5371 manner in which @command{tar} selects the files or members upon which to
5372 operate. @FIXME{add xref here}In general, these methods work both for
5373 specifying the names of files and archive members.
5374
5375 @node files
5376 @section Reading Names from a File
5377 @UNREVISED
5378
5379 @cindex Reading file names from a file
5380 @cindex Lists of file names
5381 @cindex File Name arguments, alternatives
5382 Instead of giving the names of files or archive members on the command
5383 line, you can put the names into a file, and then use the
5384 @value{op-files-from} option to @command{tar}. Give the name of the file
5385 which contains the list of files to include as the argument to
5386 @samp{--files-from}. In the list, the file names should be separated by
5387 newlines. You will frequently use this option when you have generated
5388 the list of files to archive with the @command{find} utility.
5389
5390 @table @kbd
5391 @item --files-from=@var{file name}
5392 @itemx -T @var{file name}
5393 Get names to extract or create from file @var{file name}.
5394 @end table
5395
5396 If you give a single dash as a file name for @samp{--files-from}, (i.e.,
5397 you specify either @samp{--files-from=-} or @samp{-T -}), then the file
5398 names are read from standard input.
5399
5400 Unless you are running @command{tar} with @samp{--create}, you can not use
5401 both @samp{--files-from=-} and @samp{--file=-} (@samp{-f -}) in the same
5402 command.
5403
5404 @FIXME{add bob's example, from his message on 2-10-97}
5405
5406 The following example shows how to use @command{find} to generate a list of
5407 files smaller than 400K in length and put that list into a file
5408 called @file{small-files}. You can then use the @samp{-T} option to
5409 @command{tar} to specify the files from that file, @file{small-files}, to
5410 create the archive @file{little.tgz}. (The @samp{-z} option to
5411 @command{tar} compresses the archive with @command{gzip}; @pxref{gzip} for
5412 more information.)
5413
5414 @example
5415 $ @kbd{find . -size -400 -print > small-files}
5416 $ @kbd{tar -c -v -z -T small-files -f little.tgz}
5417 @end example
5418
5419 @noindent
5420 @FIXME{say more here to conclude the example/section?}
5421
5422 @menu
5423 * nul::
5424 @end menu
5425
5426 @node nul
5427 @subsection @kbd{NUL} Terminated File Names
5428
5429 @cindex File names, terminated by @kbd{NUL}
5430 @cindex @kbd{NUL} terminated file names
5431 The @value{op-null} option causes @value{op-files-from} to read file
5432 names terminated by a @code{NUL} instead of a newline, so files whose
5433 names contain newlines can be archived using @samp{--files-from}.
5434
5435 @table @kbd
5436 @item --null
5437 Only consider @kbd{NUL} terminated file names, instead of files that
5438 terminate in a newline.
5439 @end table
5440
5441 The @samp{--null} option is just like the one in @acronym{GNU}
5442 @command{xargs} and @command{cpio}, and is useful with the
5443 @samp{-print0} predicate of @acronym{GNU} @command{find}. In
5444 @command{tar}, @samp{--null} also causes @value{op-directory} options
5445 to be treated as file names to archive, in case there are any files
5446 out there called @file{-C}.
5447
5448 This example shows how to use @command{find} to generate a list of files
5449 larger than 800K in length and put that list into a file called
5450 @file{long-files}. The @samp{-print0} option to @command{find} just just
5451 like @samp{-print}, except that it separates files with a @kbd{NUL}
5452 rather than with a newline. You can then run @command{tar} with both the
5453 @samp{--null} and @samp{-T} options to specify that @command{tar} get the
5454 files from that file, @file{long-files}, to create the archive
5455 @file{big.tgz}. The @samp{--null} option to @command{tar} will cause
5456 @command{tar} to recognize the @kbd{NUL} separator between files.
5457
5458 @example
5459 $ @kbd{find . -size +800 -print0 > long-files}
5460 $ @kbd{tar -c -v --null --files-from=long-files --file=big.tar}
5461 @end example
5462
5463 @FIXME{say anything else here to conclude the section?}
5464
5465 @node exclude
5466 @section Excluding Some Files
5467 @cindex File names, excluding files by
5468 @cindex Excluding files by name and pattern
5469 @cindex Excluding files by file system
5470 @UNREVISED
5471
5472 To avoid operating on files whose names match a particular pattern,
5473 use the @value{op-exclude} or @value{op-exclude-from} options.
5474
5475 @table @kbd
5476 @item --exclude=@var{pattern}
5477 Causes @command{tar} to ignore files that match the @var{pattern}.
5478 @end table
5479
5480 @findex exclude
5481 The @value{op-exclude} option prevents any file or member whose name
5482 matches the shell wildcard (@var{pattern}) from being operated on.
5483 For example, to create an archive with all the contents of the directory
5484 @file{src} except for files whose names end in @file{.o}, use the
5485 command @samp{tar -cf src.tar --exclude='*.o' src}.
5486
5487 You may give multiple @samp{--exclude} options.
5488
5489 @table @kbd
5490 @item --exclude-from=@var{file}
5491 @itemx -X @var{file}
5492 Causes @command{tar} to ignore files that match the patterns listed in
5493 @var{file}.
5494 @end table
5495
5496 @findex exclude-from
5497 Use the @samp{--exclude-from=@var{file-of-patterns}} option to read a
5498 list of patterns, one per line, from @var{file}; @command{tar} will
5499 ignore files matching those patterns. Thus if @command{tar} is
5500 called as @w{@samp{tar -c -X foo .}} and the file @file{foo} contains a
5501 single line @file{*.o}, no files whose names end in @file{.o} will be
5502 added to the archive.
5503
5504 @FIXME{do the exclude options files need to have stuff separated by
5505 newlines the same as the files-from option does?}
5506
5507 @menu
5508 * controlling pattern-patching with exclude::
5509 * problems with exclude::
5510 @end menu
5511
5512 @node controlling pattern-patching with exclude
5513 @unnumberedsubsec Controlling Pattern-Matching with the @code{exclude} Options
5514
5515 Normally, a pattern matches a name if an initial subsequence of the
5516 name's components matches the pattern, where @samp{*}, @samp{?}, and
5517 @samp{[...]} are the usual shell wildcards, @samp{\} escapes wildcards,
5518 and wildcards can match @samp{/}.
5519
5520 Other than optionally stripping leading @samp{/} from names
5521 (@pxref{absolute}), patterns and names are used as-is. For
5522 example, trailing @samp{/} is not trimmed from a user-specified name
5523 before deciding whether to exclude it.
5524
5525 However, this matching procedure can be altered by the options listed
5526 below. These options accumulate. For example:
5527
5528 @example
5529 --ignore-case --exclude='makefile' --no-ignore-case ---exclude='readme'
5530 @end example
5531
5532 ignores case when excluding @samp{makefile}, but not when excluding
5533 @samp{readme}.
5534
5535 @table @option
5536 @item --anchored
5537 @itemx --no-anchored
5538 If anchored (the default), a pattern must match an initial subsequence
5539 of the name's components. Otherwise, the pattern can match any subsequence.
5540
5541 @item --ignore-case
5542 @itemx --no-ignore-case
5543 When ignoring case, upper-case patterns match lower-case names and vice versa.
5544 When not ignoring case (the default), matching is case-sensitive.
5545
5546 @item --wildcards
5547 @itemx --no-wildcards
5548 When using wildcards (the default), @samp{*}, @samp{?}, and @samp{[...]}
5549 are the usual shell wildcards, and @samp{\} escapes wildcards.
5550 Otherwise, none of these characters are special, and patterns must match
5551 names literally.
5552
5553 @item --wildcards-match-slash
5554 @itemx --no-wildcards-match-slash
5555 When wildcards match slash (the default), a wildcard like @samp{*} in
5556 the pattern can match a @samp{/} in the name. Otherwise, @samp{/} is
5557 matched only by @samp{/}.
5558
5559 @end table
5560
5561 The @option{--recursion} and @option{--no-recursion} options
5562 (@pxref{recurse}) also affect how exclude patterns are interpreted. If
5563 recursion is in effect, a pattern excludes a name if it matches any of
5564 the name's parent directories.
5565
5566 @node problems with exclude
5567 @unnumberedsubsec Problems with Using the @code{exclude} Options
5568
5569 Some users find @samp{exclude} options confusing. Here are some common
5570 pitfalls:
5571
5572 @itemize @bullet
5573 @item
5574 The main operating mode of @command{tar} does not act on a path name
5575 explicitly listed on the command line if one of its file name
5576 components is excluded. In the example above, if
5577 you create an archive and exclude files that end with @samp{*.o}, but
5578 explicitly name the file @samp{dir.o/foo} after all the options have been
5579 listed, @samp{dir.o/foo} will be excluded from the archive.
5580
5581 @item
5582 You can sometimes confuse the meanings of @value{op-exclude} and
5583 @value{op-exclude-from}. Be careful: use @value{op-exclude} when files
5584 to be excluded are given as a pattern on the command line. Use
5585 @samp{--exclude-from=@var{file-of-patterns}} to introduce the name of a
5586 file which contains a list of patterns, one per line; each of these
5587 patterns can exclude zero, one, or many files.
5588
5589 @item
5590 When you use @value{op-exclude}, be sure to quote the @var{pattern}
5591 parameter, so @acronym{GNU} @command{tar} sees wildcard characters
5592 like @samp{*}. If you do not do this, the shell might expand the
5593 @samp{*} itself using files at hand, so @command{tar} might receive a
5594 list of files instead of one pattern, or none at all, making the
5595 command somewhat illegal. This might not correspond to what you want.
5596
5597 For example, write:
5598
5599 @example
5600 $ @kbd{tar -c -f @var{archive.tar} --exclude '*.o' @var{directory}}
5601 @end example
5602
5603 @noindent
5604 rather than:
5605
5606 @example
5607 $ @kbd{tar -c -f @var{archive.tar} --exclude *.o @var{directory}}
5608 @end example
5609
5610 @item
5611 You must use use shell syntax, or globbing, rather than @code{regexp}
5612 syntax, when using exclude options in @command{tar}. If you try to use
5613 @code{regexp} syntax to describe files to be excluded, your command
5614 might fail.
5615
5616 @item
5617 In earlier versions of @command{tar}, what is now the
5618 @samp{--exclude-from=@var{file-of-patterns}} option was called
5619 @samp{--exclude=@var{pattern}} instead. Now,
5620 @samp{--exclude=@var{pattern}} applies to patterns listed on the command
5621 line and @samp{--exclude-from=@var{file-of-patterns}} applies to
5622 patterns listed in a file.
5623
5624 @end itemize
5625
5626 @node Wildcards
5627 @section Wildcards Patterns and Matching
5628
5629 @dfn{Globbing} is the operation by which @dfn{wildcard} characters,
5630 @samp{*} or @samp{?} for example, are replaced and expanded into all
5631 existing files matching the given pattern. However, @command{tar} often
5632 uses wildcard patterns for matching (or globbing) archive members instead
5633 of actual files in the filesystem. Wildcard patterns are also used for
5634 verifying volume labels of @command{tar} archives. This section has the
5635 purpose of explaining wildcard syntax for @command{tar}.
5636
5637 @FIXME{the next few paragraphs need work.}
5638
5639 A @var{pattern} should be written according to shell syntax, using wildcard
5640 characters to effect globbing. Most characters in the pattern stand
5641 for themselves in the matched string, and case is significant: @samp{a}
5642 will match only @samp{a}, and not @samp{A}. The character @samp{?} in the
5643 pattern matches any single character in the matched string. The character
5644 @samp{*} in the pattern matches zero, one, or more single characters in
5645 the matched string. The character @samp{\} says to take the following
5646 character of the pattern @emph{literally}; it is useful when one needs to
5647 match the @samp{?}, @samp{*}, @samp{[} or @samp{\} characters, themselves.
5648
5649 The character @samp{[}, up to the matching @samp{]}, introduces a character
5650 class. A @dfn{character class} is a list of acceptable characters
5651 for the next single character of the matched string. For example,
5652 @samp{[abcde]} would match any of the first five letters of the alphabet.
5653 Note that within a character class, all of the ``special characters''
5654 listed above other than @samp{\} lose their special meaning; for example,
5655 @samp{[-\\[*?]]} would match any of the characters, @samp{-}, @samp{\},
5656 @samp{[}, @samp{*}, @samp{?}, or @samp{]}. (Due to parsing constraints,
5657 the characters @samp{-} and @samp{]} must either come @emph{first} or
5658 @emph{last} in a character class.)
5659
5660 @cindex Excluding characters from a character class
5661 @cindex Character class, excluding characters from
5662 If the first character of the class after the opening @samp{[}
5663 is @samp{!} or @samp{^}, then the meaning of the class is reversed.
5664 Rather than listing character to match, it lists those characters which
5665 are @emph{forbidden} as the next single character of the matched string.
5666
5667 Other characters of the class stand for themselves. The special
5668 construction @samp{[@var{a}-@var{e}]}, using an hyphen between two
5669 letters, is meant to represent all characters between @var{a} and
5670 @var{e}, inclusive.
5671
5672 @FIXME{need to add a sentence or so here to make this clear for those
5673 who don't have dan around.}
5674
5675 Periods (@samp{.}) or forward slashes (@samp{/}) are not considered
5676 special for wildcard matches. However, if a pattern completely matches
5677 a directory prefix of a matched string, then it matches the full matched
5678 string: excluding a directory also excludes all the files beneath it.
5679
5680 @node after
5681 @section Operating Only on New Files
5682 @cindex Excluding file by age
5683 @cindex Modification time, excluding files by
5684 @cindex Age, excluding files by
5685 @UNREVISED
5686
5687 The @value{op-after-date} option causes @command{tar} to only work on files
5688 whose modification or inode-changed times are newer than the @var{date}
5689 given. If @var{date} starts with @samp{/} or @samp{.}, it is taken to
5690 be a file name; the last-modified time of that file is used as the date.
5691 If you use this option when creating or appending to an archive,
5692 the archive will only include new files. If you use @samp{--after-date}
5693 when extracting an archive, @command{tar} will only extract files newer
5694 than the @var{date} you specify.
5695
5696 If you only want @command{tar} to make the date comparison based on
5697 modification of the actual contents of the file (rather than inode
5698 changes), then use the @value{op-newer-mtime} option.
5699
5700 You may use these options with any operation. Note that these options
5701 differ from the @value{op-update} operation in that they allow you to
5702 specify a particular date against which @command{tar} can compare when
5703 deciding whether or not to archive the files.
5704
5705 @table @kbd
5706 @item --after-date=@var{date}
5707 @itemx --newer=@var{date}
5708 @itemx -N @var{date}
5709 Only store files newer than @var{date}.
5710
5711 Acts on files only if their modification or inode-changed times are
5712 later than @var{date}. Use in conjunction with any operation.
5713
5714 If @var{date} starts with @samp{/} or @samp{.}, it is taken to be a file
5715 name; the last-modified time of that file is used as the date.
5716
5717 @item --newer-mtime=@var{date}
5718 Acts like @value{op-after-date}, but only looks at modification times.
5719 @end table
5720
5721 These options limit @command{tar} to only operating on files which have
5722 been modified after the date specified. A file is considered to have
5723 changed if the contents have been modified, or if the owner,
5724 permissions, and so forth, have been changed. (For more information on
5725 how to specify a date, see @ref{Date input formats}; remember that the
5726 entire date argument must be quoted if it contains any spaces.)
5727
5728 Gurus would say that @value{op-after-date} tests both the @code{mtime}
5729 (time the contents of the file were last modified) and @code{ctime}
5730 (time the file's status was last changed: owner, permissions, etc)
5731 fields, while @value{op-newer-mtime} tests only @code{mtime} field.
5732
5733 To be precise, @value{op-after-date} checks @emph{both} @code{mtime} and
5734 @code{ctime} and processes the file if either one is more recent than
5735 @var{date}, while @value{op-newer-mtime} only checks @code{mtime} and
5736 disregards @code{ctime}. Neither uses @code{atime} (the last time the
5737 contents of the file were looked at).
5738
5739 Date specifiers can have embedded spaces. Because of this, you may need
5740 to quote date arguments to keep the shell from parsing them as separate
5741 arguments.
5742
5743 @FIXME{Need example of --newer-mtime with quoted argument.}
5744
5745 @quotation
5746 @strong{Please Note:} @value{op-after-date} and @value{op-newer-mtime}
5747 should not be used for incremental backups. Some files (such as those
5748 in renamed directories) are not selected properly by these options.
5749 @xref{incremental and listed-incremental}.
5750 @end quotation
5751
5752 @noindent
5753 @FIXME{which tells -- need to fill this in!}
5754
5755 @node recurse
5756 @section Descending into Directories
5757 @cindex Avoiding recursion in directories
5758 @cindex Descending directories, avoiding
5759 @cindex Directories, avoiding recursion
5760 @cindex Recursion in directories, avoiding
5761 @UNREVISED
5762
5763 @FIXME{arrggh! this is still somewhat confusing to me. :-< }
5764
5765 @FIXME{show dan bob's comments, from 2-10-97}
5766
5767 Usually, @command{tar} will recursively explore all directories (either
5768 those given on the command line or through the @value{op-files-from}
5769 option) for the various files they contain. However, you may not always
5770 want @command{tar} to act this way.
5771
5772 The @value{op-no-recursion} option inhibits @command{tar}'s recursive descent
5773 into specified directories. If you specify @samp{--no-recursion}, you can
5774 use the @command{find} utility for hunting through levels of directories to
5775 construct a list of file names which you could then pass to @command{tar}.
5776 @command{find} allows you to be more selective when choosing which files to
5777 archive; see @ref{files} for more information on using @command{find} with
5778 @command{tar}, or look.
5779
5780 @table @kbd
5781 @item --no-recursion
5782 Prevents @command{tar} from recursively descending directories.
5783
5784 @item --recursion
5785 Requires @command{tar} to recursively descend directories.
5786 This is the default.
5787 @end table
5788
5789 When you use @samp{--no-recursion}, @acronym{GNU} @command{tar} grabs
5790 directory entries themselves, but does not descend on them
5791 recursively. Many people use @command{find} for locating files they
5792 want to back up, and since @command{tar} @emph{usually} recursively
5793 descends on directories, they have to use the @samp{@w{! -d}} option
5794 to @command{find} @FIXME{needs more explanation or a cite to another
5795 info file}as they usually do not want all the files in a directory.
5796 They then use the @value{op-files-from} option to archive the files
5797 located via @command{find}.
5798
5799 The problem when restoring files archived in this manner is that the
5800 directories themselves are not in the archive; so the
5801 @value{op-same-permissions} option does not affect them---while users
5802 might really like it to. Specifying @value{op-no-recursion} is a way to
5803 tell @command{tar} to grab only the directory entries given to it, adding
5804 no new files on its own.
5805
5806 The @value{op-no-recursion} option also applies when extracting: it
5807 causes @command{tar} to extract only the matched directory entries, not
5808 the files under those directories.
5809
5810 The @value{op-no-recursion} option also affects how exclude patterns
5811 are interpreted (@pxref{controlling pattern-patching with exclude}).
5812
5813 The @option{--no-recursion} and @option{--recursion} options apply to
5814 later options and operands, and can be overridden by later occurrences
5815 of @option{--no-recursion} and @option{--recursion}. For example:
5816
5817 @example
5818 $ @kbd{tar -cf jams.tar --norecursion grape --recursion grape/concord}
5819 @end example
5820
5821 @noindent
5822 creates an archive with one entry for @file{grape}, and the recursive
5823 contents of @file{grape/concord}, but no entries under @file{grape}
5824 other than @file{grape/concord}.
5825
5826 @node one
5827 @section Crossing Filesystem Boundaries
5828 @cindex File system boundaries, not crossing
5829 @UNREVISED
5830
5831 @command{tar} will normally automatically cross file system boundaries in
5832 order to archive files which are part of a directory tree. You can
5833 change this behavior by running @command{tar} and specifying
5834 @value{op-one-file-system}. This option only affects files that are
5835 archived because they are in a directory that is being archived;
5836 @command{tar} will still archive files explicitly named on the command line
5837 or through @value{op-files-from}, regardless of where they reside.
5838
5839 @table @kbd
5840 @item --one-file-system
5841 @itemx -l
5842 Prevents @command{tar} from crossing file system boundaries when
5843 archiving. Use in conjunction with any write operation.
5844 @end table
5845
5846 The @samp{--one-file-system} option causes @command{tar} to modify its
5847 normal behavior in archiving the contents of directories. If a file in
5848 a directory is not on the same filesystem as the directory itself, then
5849 @command{tar} will not archive that file. If the file is a directory
5850 itself, @command{tar} will not archive anything beneath it; in other words,
5851 @command{tar} will not cross mount points.
5852
5853 It is reported that using this option, the mount point is is archived,
5854 but nothing under it.
5855
5856 This option is useful for making full or incremental archival backups of
5857 a file system. If this option is used in conjunction with
5858 @value{op-verbose}, files that are excluded are mentioned by name on the
5859 standard error.
5860
5861 @menu
5862 * directory:: Changing Directory
5863 * absolute:: Absolute File Names
5864 @end menu
5865
5866 @node directory
5867 @subsection Changing the Working Directory
5868
5869 @FIXME{need to read over this node now for continuity; i've switched
5870 things around some.}
5871
5872 @cindex Changing directory mid-stream
5873 @cindex Directory, changing mid-stream
5874 @cindex Working directory, specifying
5875 @UNREVISED
5876
5877 To change the working directory in the middle of a list of file names,
5878 either on the command line or in a file specified using
5879 @value{op-files-from}, use @value{op-directory}. This will change the
5880 working directory to the directory @var{directory} after that point in
5881 the list.
5882
5883 @table @kbd
5884 @item --directory=@var{directory}
5885 @itemx -C @var{directory}
5886 Changes the working directory in the middle of a command line.
5887 @end table
5888
5889 For example,
5890
5891 @example
5892 $ @kbd{tar -c -f jams.tar grape prune -C food cherry}
5893 @end example
5894
5895 @noindent
5896 will place the files @file{grape} and @file{prune} from the current
5897 directory into the archive @file{jams.tar}, followed by the file
5898 @file{cherry} from the directory @file{food}. This option is especially
5899 useful when you have several widely separated files that you want to
5900 store in the same archive.
5901
5902 Note that the file @file{cherry} is recorded in the archive under the
5903 precise name @file{cherry}, @emph{not} @file{food/cherry}. Thus, the
5904 archive will contain three files that all appear to have come from the
5905 same directory; if the archive is extracted with plain @samp{tar
5906 --extract}, all three files will be written in the current directory.
5907
5908 Contrast this with the command,
5909
5910 @example
5911 $ @kbd{tar -c -f jams.tar grape prune -C food red/cherry}
5912 @end example
5913
5914 @noindent
5915 which records the third file in the archive under the name
5916 @file{red/cherry} so that, if the archive is extracted using
5917 @samp{tar --extract}, the third file will be written in a subdirectory
5918 named @file{orange-colored}.
5919
5920 You can use the @samp{--directory} option to make the archive
5921 independent of the original name of the directory holding the files.
5922 The following command places the files @file{/etc/passwd},
5923 @file{/etc/hosts}, and @file{/lib/libc.a} into the archive
5924 @file{foo.tar}:
5925
5926 @example
5927 $ @kbd{tar -c -f foo.tar -C /etc passwd hosts -C /lib libc.a}
5928 @end example
5929
5930 @noindent
5931 However, the names of the archive members will be exactly what they were
5932 on the command line: @file{passwd}, @file{hosts}, and @file{libc.a}.
5933 They will not appear to be related by file name to the original
5934 directories where those files were located.
5935
5936 Note that @samp{--directory} options are interpreted consecutively. If
5937 @samp{--directory} specifies a relative file name, it is interpreted
5938 relative to the then current directory, which might not be the same as
5939 the original current working directory of @command{tar}, due to a previous
5940 @samp{--directory} option.
5941
5942 @FIXME{dan: does this mean that you *can* use the short option form, but
5943 you can *not* use the long option form with --files-from? or is this
5944 totally screwed?}
5945
5946 When using @samp{--files-from} (@pxref{files}), you can put @samp{-C}
5947 options in the file list. Unfortunately, you cannot put
5948 @samp{--directory} options in the file list. (This interpretation can
5949 be disabled by using the @value{op-null} option.)
5950
5951 @node absolute
5952 @subsection Absolute File Names
5953 @UNREVISED
5954
5955 @table @kbd
5956 @item -P
5957 @itemx --absolute-names
5958 Do not strip leading slashes from file names, and permit file names
5959 containing a @file{..} file name component.
5960 @end table
5961
5962 By default, @acronym{GNU} @command{tar} drops a leading @samp{/} on
5963 input or output, and complains about file names containing a @file{..}
5964 component. This option turns off this behavior.
5965
5966 When @command{tar} extracts archive members from an archive, it strips any
5967 leading slashes (@samp{/}) from the member name. This causes absolute
5968 member names in the archive to be treated as relative file names. This
5969 allows you to have such members extracted wherever you want, instead of
5970 being restricted to extracting the member in the exact directory named
5971 in the archive. For example, if the archive member has the name
5972 @file{/etc/passwd}, @command{tar} will extract it as if the name were
5973 really @file{etc/passwd}.
5974
5975 File names containing @file{..} can cause problems when extracting, so
5976 @command{tar} normally warns you about such files when creating an
5977 archive, and rejects attempts to extracts such files.
5978
5979 Other @command{tar} programs do not do this. As a result, if you
5980 create an archive whose member names start with a slash, they will be
5981 difficult for other people with a non-@acronym{GNU} @command{tar}
5982 program to use. Therefore, @acronym{GNU} @command{tar} also strips
5983 leading slashes from member names when putting members into the
5984 archive. For example, if you ask @command{tar} to add the file
5985 @file{/bin/ls} to an archive, it will do so, but the member name will
5986 be @file{bin/ls}.
5987
5988 If you use the @value{op-absolute-names} option, @command{tar} will do
5989 none of these transformations.
5990
5991 To archive or extract files relative to the root directory, specify
5992 the @value{op-absolute-names} option.
5993
5994 Normally, @command{tar} acts on files relative to the working
5995 directory---ignoring superior directory names when archiving, and
5996 ignoring leading slashes when extracting.
5997
5998 When you specify @value{op-absolute-names}, @command{tar} stores file names
5999 including all superior directory names, and preserves leading slashes.
6000 If you only invoked @command{tar} from the root directory you would never
6001 need the @value{op-absolute-names} option, but using this option may be
6002 more convenient than switching to root.
6003
6004 @FIXME{Should be an example in the tutorial/wizardry section using this
6005 to transfer files between systems.}
6006
6007 @FIXME{Is write access an issue?}
6008
6009 @table @kbd
6010 @item --absolute-names
6011 Preserves full file names (including superior directory names) when
6012 archiving files. Preserves leading slash when extracting files.
6013
6014 @end table
6015
6016 @FIXME{this is still horrible; need to talk with dan on monday.}
6017
6018 @command{tar} prints out a message about removing the @samp{/} from
6019 file names. This message appears once per @acronym{GNU} @command{tar}
6020 invocation. It represents something which ought to be told; ignoring
6021 what it means can cause very serious surprises, later.
6022
6023 Some people, nevertheless, do not want to see this message. Wanting to
6024 play really dangerously, one may of course redirect @command{tar} standard
6025 error to the sink. For example, under @command{sh}:
6026
6027 @example
6028 $ @kbd{tar -c -f archive.tar /home 2> /dev/null}
6029 @end example
6030
6031 @noindent
6032 Another solution, both nicer and simpler, would be to change to
6033 the @file{/} directory first, and then avoid absolute notation.
6034 For example:
6035
6036 @example
6037 $ @kbd{(cd / && tar -c -f archive.tar home)}
6038 $ @kbd{tar -c -f archive.tar -C / home}
6039 @end example
6040
6041 @include getdate.texi
6042
6043 @node Formats
6044 @chapter Controlling the Archive Format
6045
6046 @FIXME{need an intro here}
6047
6048 @menu
6049 * Portability:: Making @command{tar} Archives More Portable
6050 * Compression:: Using Less Space through Compression
6051 * Attributes:: Handling File Attributes
6052 * Standard:: The Standard Format
6053 * Extensions:: @acronym{GNU} Extensions to the Archive Format
6054 * cpio:: Comparison of @command{tar} and @command{cpio}
6055 @end menu
6056
6057 @node Portability
6058 @section Making @command{tar} Archives More Portable
6059
6060 Creating a @command{tar} archive on a particular system that is meant to be
6061 useful later on many other machines and with other versions of @command{tar}
6062 is more challenging than you might think. @command{tar} archive formats
6063 have been evolving since the first versions of Unix. Many such formats
6064 are around, and are not always compatible with each other. This section
6065 discusses a few problems, and gives some advice about making @command{tar}
6066 archives more portable.
6067
6068 One golden rule is simplicity. For example, limit your @command{tar}
6069 archives to contain only regular files and directories, avoiding
6070 other kind of special files. Do not attempt to save sparse files or
6071 contiguous files as such. Let's discuss a few more problems, in turn.
6072
6073 @menu
6074 * Portable Names:: Portable Names
6075 * dereference:: Symbolic Links
6076 * old:: Old V7 Archives
6077 * posix:: @sc{posix} archives
6078 * Checksumming:: Checksumming Problems
6079 * Large or Negative Values:: Large files, negative time stamps, etc.
6080 @end menu
6081
6082 @node Portable Names
6083 @subsection Portable Names
6084
6085 Use portable file and member names. A name is portable if it contains
6086 only ASCII letters and digits, @samp{/}, @samp{.}, @samp{_}, and
6087 @samp{-}; it cannot be empty, start with @samp{-} or @samp{//}, or
6088 contain @samp{/-}. Avoid deep directory nesting. For portability to
6089 old Unix hosts, limit your file name components to 14 characters or
6090 less.
6091
6092 If you intend to have your @command{tar} archives to be read under
6093 MSDOS, you should not rely on case distinction for file names, and you
6094 might use the @acronym{GNU} @command{doschk} program for helping you
6095 further diagnosing illegal MSDOS names, which are even more limited
6096 than System V's.
6097
6098 @node dereference
6099 @subsection Symbolic Links
6100 @cindex File names, using symbolic links
6101 @cindex Symbolic link as file name
6102
6103 Normally, when @command{tar} archives a symbolic link, it writes a
6104 block to the archive naming the target of the link. In that way, the
6105 @command{tar} archive is a faithful record of the filesystem contents.
6106 @value{op-dereference} is used with @value{op-create}, and causes
6107 @command{tar} to archive the files symbolic links point to, instead of
6108 the links themselves. When this option is used, when @command{tar}
6109 encounters a symbolic link, it will archive the linked-to file,
6110 instead of simply recording the presence of a symbolic link.
6111
6112 The name under which the file is stored in the file system is not
6113 recorded in the archive. To record both the symbolic link name and
6114 the file name in the system, archive the file under both names. If
6115 all links were recorded automatically by @command{tar}, an extracted file
6116 might be linked to a file name that no longer exists in the file
6117 system.
6118
6119 If a linked-to file is encountered again by @command{tar} while creating
6120 the same archive, an entire second copy of it will be stored. (This
6121 @emph{might} be considered a bug.)
6122
6123 So, for portable archives, do not archive symbolic links as such,
6124 and use @value{op-dereference}: many systems do not support
6125 symbolic links, and moreover, your distribution might be unusable if
6126 it contains unresolved symbolic links.
6127
6128 @node old
6129 @subsection Old V7 Archives
6130 @cindex Format, old style
6131 @cindex Old style format
6132 @cindex Old style archives
6133
6134 Certain old versions of @command{tar} cannot handle additional
6135 information recorded by newer @command{tar} programs. To create an
6136 archive in V7 format (not ANSI), which can be read by these old
6137 versions, specify the @value{op-old-archive} option in
6138 conjunction with the @value{op-create}. @command{tar} also
6139 accepts @samp{--portability} for this option. When you specify it,
6140 @command{tar} leaves out information about directories, pipes, fifos,
6141 contiguous files, and device files, and specifies file ownership by
6142 group and user IDs instead of group and user names.
6143
6144 When updating an archive, do not use @value{op-old-archive}
6145 unless the archive was created with using this option.
6146
6147 In most cases, a @emph{new} format archive can be read by an @emph{old}
6148 @command{tar} program without serious trouble, so this option should
6149 seldom be needed. On the other hand, most modern @command{tar}s are
6150 able to read old format archives, so it might be safer for you to
6151 always use @value{op-old-archive} for your distributions.
6152
6153 @node posix
6154 @subsection @acronym{GNU} @command{tar} and @sc{posix} @command{tar}
6155
6156 @acronym{GNU} @command{tar} was based on an early draft of the
6157 @sc{posix} 1003.1 @code{ustar} standard. @acronym{GNU} extensions to
6158 @command{tar}, such as the support for file names longer than 100
6159 characters, use portions of the @command{tar} header record which were
6160 specified in that @sc{posix} draft as unused. Subsequent changes in
6161 @sc{posix} have allocated the same parts of the header record for
6162 other purposes. As a result, @acronym{GNU} @command{tar} is
6163 incompatible with the current @sc{posix} spec, and with @command{tar}
6164 programs that follow it.
6165
6166 We plan to reimplement these @acronym{GNU} extensions in a new way which is
6167 upward compatible with the latest @sc{posix} @command{tar} format, but we
6168 don't know when this will be done.
6169
6170 In the mean time, there is simply no telling what might happen if you
6171 read a @acronym{GNU} @command{tar} archive, which uses the
6172 @acronym{GNU} extensions, using some other @command{tar} program. So
6173 if you want to read the archive with another @command{tar} program, be
6174 sure to write it using the @samp{--old-archive} option (@samp{-o}).
6175
6176 @FIXME{is there a way to tell which flavor of tar was used to write a
6177 particular archive before you try to read it?}
6178
6179 Traditionally, old @command{tar}s have a limit of 100 characters.
6180 @acronym{GNU} @command{tar} attempted two different approaches to
6181 overcome this limit, using and extending a format specified by a draft
6182 of some P1003.1. The first way was not that successful, and involved
6183 @file{@@MaNgLeD@@} file names, or such; while a second approach used
6184 @file{././@@LongLink} and other tricks, yielding better success. In
6185 theory, @acronym{GNU} @command{tar} should be able to handle file
6186 names of practically unlimited length. So, if @acronym{GNU}
6187 @command{tar} fails to dump and retrieve files having more than 100
6188 characters, then there is a bug in @acronym{GNU} @command{tar},
6189 indeed.
6190
6191 But, being strictly @sc{posix}, the limit was still 100 characters.
6192 For various other purposes, @acronym{GNU} @command{tar} used areas
6193 left unassigned in the @sc{posix} draft. @sc{posix} later revised
6194 P1003.1 @code{ustar} format by assigning previously unused header
6195 fields, in such a way that the upper limit for file name length was
6196 raised to 256 characters. However, the actual @sc{posix} limit
6197 oscillates between 100 and 256, depending on the precise location of
6198 slashes in full file name (this is rather ugly). Since @acronym{GNU}
6199 @command{tar} use the same fields for quite other purposes, it became
6200 incompatible with the latest @sc{posix} standards.
6201
6202 For longer or non-fitting file names, we plan to use yet another set
6203 of @acronym{GNU} extensions, but this time, complying with the
6204 provisions @sc{posix} offers for extending the format, rather than
6205 conflicting with it. Whenever an archive uses old @acronym{GNU}
6206 @command{tar} extension format or @sc{posix} extensions, would it be
6207 for very long file names or other specialities, this archive becomes
6208 non-portable to other @command{tar} implementations. In fact,
6209 anything can happen. The most forgiving @command{tar}s will merely
6210 unpack the file using a wrong name, and maybe create another file
6211 named something like @file{@@LongName}, with the true file name in it.
6212 @command{tar}s not protecting themselves may segment violate!
6213
6214 Compatibility concerns make all this thing more difficult, as we will
6215 have to support @emph{all} these things together, for a while.
6216 @acronym{GNU} @command{tar} should be able to produce and read true
6217 @sc{posix} format files, while being able to detect old @acronym{GNU}
6218 @command{tar} formats, besides old V7 format, and process them
6219 conveniently. It would take years before this whole area
6220 stabilizes@dots{}
6221
6222 There are plans to raise this 100 limit to 256, and yet produce
6223 @sc{posix} conforming archives. Past 256, I do not know yet if
6224 @acronym{GNU} @command{tar} will go non-@sc{posix} again, or merely
6225 refuse to archive the file.
6226
6227 There are plans so @acronym{GNU} @command{tar} support more fully the
6228 latest @sc{posix} format, while being able to read old V7 format,
6229 @acronym{GNU} (semi-@sc{posix} plus extension), as well as full
6230 @sc{posix}. One may ask if there is part of the @sc{posix} format
6231 that we still cannot support. This simple question has a complex
6232 answer. Maybe that, on intimate look, some strong limitations will
6233 pop up, but until now, nothing sounds too difficult (but see below).
6234 I only have these few pages of @sc{posix} telling about ``Extended tar
6235 Format'' (P1003.1-1990 -- section 10.1.1), and there are references to
6236 other parts of the standard I do not have, which should normally
6237 enforce limitations on stored file names (I suspect things like fixing
6238 what @kbd{/} and @kbd{@key{NUL}} means). There are also some points
6239 which the standard does not make clear, Existing practice will then
6240 drive what I should do.
6241
6242 @sc{posix} mandates that, when a file name cannot fit within 100 to
6243 256 characters (the variance comes from the fact a @kbd{/} is ideally
6244 needed as the 156'th character), or a link name cannot fit within 100
6245 characters, a warning should be issued and the file @emph{not} be
6246 stored. Unless some @value{op-posix} option is given (or
6247 @env{POSIXLY_CORRECT} is set), I suspect that @acronym{GNU}
6248 @command{tar} should disobey this specification, and automatically
6249 switch to using @acronym{GNU} extensions to overcome file name or link
6250 name length limitations.
6251
6252 There is a problem, however, which I did not intimately studied yet.
6253 Given a truly @sc{posix} archive with names having more than 100
6254 characters, I guess that @acronym{GNU} @command{tar} up to 1.11.8 will
6255 process it as if it were an old V7 archive, and be fooled by some
6256 fields which are coded differently. So, the question is to decide if
6257 the next generation of @acronym{GNU} @command{tar} should produce
6258 @sc{posix} format by default, whenever possible, producing archives
6259 older versions of @acronym{GNU} @command{tar} might not be able to
6260 read correctly. I fear that we will have to suffer such a choice one
6261 of these days, if we want @acronym{GNU} @command{tar} to go closer to
6262 @sc{posix}. We can rush it. Another possibility is to produce the
6263 current @acronym{GNU} @command{tar} format by default for a few years,
6264 but have @acronym{GNU} @command{tar} versions from some 1.@var{POSIX}
6265 and up able to recognize all three formats, and let older
6266 @acronym{GNU} @command{tar} fade out slowly. Then, we could switch to
6267 producing @sc{posix} format by default, with not much harm to those
6268 still having (very old at that time) @acronym{GNU} @command{tar}
6269 versions prior to 1.@var{POSIX}.
6270
6271 @sc{posix} format cannot represent very long names, volume headers,
6272 splitting of files in multi-volumes, sparse files, and incremental
6273 dumps; these would be all disallowed if @value{op-posix} or
6274 @env{POSIXLY_CORRECT}. Otherwise, if @command{tar} is given long
6275 names, or @samp{-[VMSgG]}, then it should automatically go non-@sc{posix}.
6276 I think this is easily granted without much discussion.
6277
6278 Another point is that only @code{mtime} is stored in @sc{posix}
6279 archives, while @acronym{GNU} @command{tar} currently also store
6280 @code{atime} and @code{ctime}. If we want @acronym{GNU} @command{tar}
6281 to go closer to @sc{posix}, my choice would be to drop @code{atime}
6282 and @code{ctime} support on average. On the other hand, I perceive
6283 that full dumps or incremental dumps need @code{atime} and
6284 @code{ctime} support, so for those special applications, @sc{posix}
6285 has to be avoided altogether.
6286
6287 A few users requested that @value{op-sparse} be always active by
6288 default, I think that before replying to them, we have to decide if we
6289 want @acronym{GNU} @command{tar} to go closer to @sc{posix} on
6290 average, while producing files. My choice would be to go closer to
6291 @sc{posix} in the long run. Besides possible double reading, I do not
6292 see any point of not trying to save files as sparse when creating
6293 archives which are neither @sc{posix} nor old-V7, so the actual
6294 @value{op-sparse} would become selected by default when producing such
6295 archives, whatever the reason is. So, @value{op-sparse} alone might
6296 be redefined to force @acronym{GNU}-format archives, and recover its
6297 previous meaning from this fact.
6298
6299 @acronym{GNU}-format as it exists now can easily fool other @sc{posix}
6300 @command{tar}, as it uses fields which @sc{posix} considers to be part
6301 of the file name prefix. I wonder if it would not be a good idea, in
6302 the long run, to try changing @acronym{GNU}-format so any added field
6303 (like @code{ctime}, @code{atime}, file offset in subsequent volumes,
6304 or sparse file descriptions) be wholly and always pushed into an
6305 extension block, instead of using space in the @sc{posix} header
6306 block. I could manage to do that portably between future
6307 @acronym{GNU} @command{tar}s. So other @sc{posix} @command{tar}s
6308 might be at least able to provide kind of correct listings for the
6309 archives produced by @acronym{GNU} @command{tar}, if not able to
6310 process them otherwise.
6311
6312 Using these projected extensions might induce older @command{tar}s to
6313 fail. We would use the same approach as for @sc{posix}. I'll put out
6314 a @command{tar} capable of reading @sc{posix}ier, yet extended
6315 archives, but will not produce this format by default, in
6316 @acronym{GNU} mode. In a few years, when newer @acronym{GNU}
6317 @command{tar}s will have flooded out @command{tar} 1.11.X and
6318 previous, we could switch to producing @sc{posix}ier extended
6319 archives, with no real harm to users, as almost all existing
6320 @acronym{GNU} @command{tar}s will be ready to read @sc{posix}ier
6321 format. In fact, I'll do both changes at the same time, in a few
6322 years, and just prepare @command{tar} for both changes, without
6323 effecting them, from 1.@var{POSIX}. (Both changes: 1---using
6324 @sc{posix} convention for getting over 100 characters; 2---avoiding
6325 mangling @sc{posix} headers for @acronym{GNU} extensions, using only
6326 @sc{posix} mandated extension techniques).
6327
6328 So, a future @command{tar} will have a @value{op-posix} flag forcing
6329 the usage of truly @sc{posix} headers, and so, producing archives
6330 previous @acronym{GNU} @command{tar} will not be able to read. So,
6331 @emph{once} pretest will announce that feature, it would be
6332 particularly useful that users test how exchangeable will be archives
6333 between @acronym{GNU} @command{tar} with @value{op-posix} and other
6334 @sc{posix} @command{tar}.
6335
6336 In a few years, when @acronym{GNU} @command{tar} will produce
6337 @sc{posix} headers by default, @value{op-posix} will have a strong
6338 meaning and will disallow @acronym{GNU} extensions. But in the
6339 meantime, for a long while, @value{op-posix} in @acronym{GNU} tar will
6340 not disallow @acronym{GNU} extensions like @value{op-label},
6341 @value{op-multi-volume}, @value{op-sparse}, or very long file or link
6342 names. However, @value{op-posix} with @acronym{GNU} extensions will
6343 use @sc{posix} headers with reserved-for-users extensions to headers,
6344 and I will be curious to know how well or bad @sc{posix}
6345 @command{tar}s will react to these.
6346
6347 @acronym{GNU} @command{tar} prior to 1.@var{POSIX}, and after
6348 1.@var{POSIX} without @value{op-posix}, generates and checks
6349 @samp{ustar@w{ }@w{ }}, with two suffixed spaces. This is sufficient
6350 for older @acronym{GNU} @command{tar} not to recognize @sc{posix}
6351 archives, and consequently, wrongly decide those archives are in old
6352 V7 format. It is a useful bug for me, because @acronym{GNU}
6353 @command{tar} has other @sc{posix} incompatibilities, and I need to
6354 segregate @acronym{GNU} @command{tar} semi-@sc{posix} archives from
6355 truly @sc{posix} archives, for @acronym{GNU} @command{tar} should be
6356 somewhat compatible with itself, while migrating closer to latest
6357 @sc{posix} standards. So, I'll be very careful about how and when I
6358 will do the correction.
6359
6360 @node Checksumming
6361 @subsection Checksumming Problems
6362
6363 SunOS and HP-UX @command{tar} fail to accept archives created using
6364 @acronym{GNU} @command{tar} and containing non-ASCII file names, that
6365 is, file names having characters with the eight bit set, because they
6366 use signed checksums, while @acronym{GNU} @command{tar} uses unsigned
6367 checksums while creating archives, as per @sc{posix} standards. On
6368 reading, @acronym{GNU} @command{tar} computes both checksums and
6369 accept any. It is somewhat worrying that a lot of people may go
6370 around doing backup of their files using faulty (or at least
6371 non-standard) software, not learning about it until it's time to
6372 restore their missing files with an incompatible file extractor, or
6373 vice versa.
6374
6375 @acronym{GNU} @command{tar} compute checksums both ways, and accept
6376 any on read, so @acronym{GNU} tar can read Sun tapes even with their
6377 wrong checksums. @acronym{GNU} @command{tar} produces the standard
6378 checksum, however, raising incompatibilities with Sun. That is to
6379 say, @acronym{GNU} @command{tar} has not been modified to
6380 @emph{produce} incorrect archives to be read by buggy @command{tar}'s.
6381 I've been told that more recent Sun @command{tar} now read standard
6382 archives, so maybe Sun did a similar patch, after all?
6383
6384 The story seems to be that when Sun first imported @command{tar}
6385 sources on their system, they recompiled it without realizing that
6386 the checksums were computed differently, because of a change in
6387 the default signing of @code{char}'s in their compiler. So they
6388 started computing checksums wrongly. When they later realized their
6389 mistake, they merely decided to stay compatible with it, and with
6390 themselves afterwards. Presumably, but I do not really know, HP-UX
6391 has chosen that their @command{tar} archives to be compatible with Sun's.
6392 The current standards do not favor Sun @command{tar} format. In any
6393 case, it now falls on the shoulders of SunOS and HP-UX users to get
6394 a @command{tar} able to read the good archives they receive.
6395
6396 @node Large or Negative Values
6397 @subsection Large or Negative Values
6398 @cindex large values
6399 @cindex future time stamps
6400 @cindex negative time stamps
6401
6402 @sc{posix} @command{tar} format uses fixed-sized unsigned octal strings
6403 to represent numeric values. User and group IDs and device major and
6404 minor numbers have unsigned 21-bit representations, and file sizes and
6405 times have unsigned 33-bit representations. @acronym{GNU} @command{tar}
6406 generates @sc{posix} representations when possible, but for values
6407 outside the @sc{posix} range it generates two's-complement base-256
6408 strings: uids, gids, and device numbers have signed 57-bit
6409 representations, and file sizes and times have signed 89-bit
6410 representations. These representations are an extension to @sc{posix}
6411 @command{tar} format, so they are not universally portable.
6412
6413 The most common portability problems with out-of-range numeric values
6414 are large files and future or negative time stamps.
6415
6416 Portable archives should avoid members of 8 GB or larger, as @sc{posix}
6417 @command{tar} format cannot represent them.
6418
6419 Portable archives should avoid time stamps from the future. @sc{posix}
6420 @command{tar} format can represent time stamps in the range 1970-01-01
6421 00:00:00 through 2242-03-16 12:56:31 @sc{utc}. However, many current
6422 hosts use a signed 32-bit @code{time_t}, or internal time stamp format,
6423 and cannot represent time stamps after 2038-01-19 03:14:07 @sc{utc}; so
6424 portable archives must avoid these time stamps for many years to come.
6425
6426 Portable archives should also avoid time stamps before 1970. These time
6427 stamps are a common @sc{posix} extension but their @code{time_t}
6428 representations are negative. Many traditional @command{tar}
6429 implementations generate a two's complement representation for negative
6430 time stamps that assumes a signed 32-bit @code{time_t}; hence they
6431 generate archives that are not portable to hosts with differing
6432 @code{time_t} representations. @acronym{GNU} @command{tar} recognizes this
6433 situation when it is run on host with a signed 32-bit @code{time_t}, but
6434 it issues a warning, as these time stamps are nonstandard and unportable.
6435
6436 @node Compression
6437 @section Using Less Space through Compression
6438
6439 @menu
6440 * gzip:: Creating and Reading Compressed Archives
6441 * sparse:: Archiving Sparse Files
6442 @end menu
6443
6444 @node gzip
6445 @subsection Creating and Reading Compressed Archives
6446 @cindex Compressed archives
6447 @cindex Storing archives in compressed format
6448 @UNREVISED
6449
6450 @table @kbd
6451 @item -z
6452 @itemx --gzip
6453 @itemx --ungzip
6454 Filter the archive through @command{gzip}.
6455 @end table
6456
6457 @FIXME{ach; these two bits orig from "compare" (?). where to put?} Some
6458 format parameters must be taken into consideration when modifying an
6459 archive.@FIXME{???} Compressed archives cannot be modified.
6460
6461 You can use @samp{--gzip} and @samp{--gunzip} on physical devices
6462 (tape drives, etc.) and remote files as well as on normal files; data
6463 to or from such devices or remote files is reblocked by another copy
6464 of the @command{tar} program to enforce the specified (or default) record
6465 size. The default compression parameters are used; if you need to
6466 override them, avoid the @value{op-gzip} option and run @command{gzip}
6467 explicitly. (Or set the @env{GZIP} environment variable.)
6468
6469 The @value{op-gzip} option does not work with the @value{op-multi-volume}
6470 option, or with the @value{op-update}, @value{op-append},
6471 @value{op-concatenate}, or @value{op-delete} operations.
6472
6473 It is not exact to say that @acronym{GNU} @command{tar} is to work in concert
6474 with @command{gzip} in a way similar to @command{zip}, say. Surely, it is
6475 possible that @command{tar} and @command{gzip} be done with a single call,
6476 like in:
6477
6478 @example
6479 $ @kbd{tar cfz archive.tar.gz subdir}
6480 @end example
6481
6482 @noindent
6483 to save all of @samp{subdir} into a @code{gzip}'ed archive. Later you
6484 can do:
6485
6486 @example
6487 $ @kbd{tar xfz archive.tar.gz}
6488 @end example
6489
6490 @noindent
6491 to explode and unpack.
6492
6493 The difference is that the whole archive is compressed. With
6494 @command{zip}, archive members are archived individually. @command{tar}'s
6495 method yields better compression. On the other hand, one can view the
6496 contents of a @command{zip} archive without having to decompress it. As
6497 for the @command{tar} and @command{gzip} tandem, you need to decompress the
6498 archive to see its contents. However, this may be done without needing
6499 disk space, by using pipes internally:
6500
6501 @example
6502 $ @kbd{tar tfz archive.tar.gz}
6503 @end example
6504
6505 @cindex corrupted archives
6506 About corrupted compressed archives: @command{gzip}'ed files have no
6507 redundancy, for maximum compression. The adaptive nature of the
6508 compression scheme means that the compression tables are implicitly
6509 spread all over the archive. If you lose a few blocks, the dynamic
6510 construction of the compression tables becomes unsynchronized, and there
6511 is little chance that you could recover later in the archive.
6512
6513 There are pending suggestions for having a per-volume or per-file
6514 compression in @acronym{GNU} @command{tar}. This would allow for viewing the
6515 contents without decompression, and for resynchronizing decompression at
6516 every volume or file, in case of corrupted archives. Doing so, we might
6517 lose some compressibility. But this would have make recovering easier.
6518 So, there are pros and cons. We'll see!
6519
6520 @table @kbd
6521 @item -j
6522 @itemx --bzip2
6523 Filter the archive through @code{bzip2}. Otherwise like @value{op-gzip}.
6524
6525 @item -Z
6526 @itemx --compress
6527 @itemx --uncompress
6528 Filter the archive through @command{compress}. Otherwise like
6529 @value{op-gzip}.
6530
6531 @item --use-compress-program=@var{prog}
6532 Filter through @var{prog} (must accept @samp{-d}).
6533 @end table
6534
6535 @value{op-compress} stores an archive in compressed format. This
6536 option is useful in saving time over networks and space in pipes, and
6537 when storage space is at a premium. @value{op-compress} causes
6538 @command{tar} to compress when writing the archive, or to uncompress when
6539 reading the archive.
6540
6541 To perform compression and uncompression on the archive, @command{tar}
6542 runs the @command{compress} utility. @command{tar} uses the default
6543 compression parameters; if you need to override them, avoid the
6544 @value{op-compress} option and run the @command{compress} utility
6545 explicitly. It is useful to be able to call the @command{compress}
6546 utility from within @command{tar} because the @command{compress} utility by
6547 itself cannot access remote tape drives.
6548
6549 The @value{op-compress} option will not work in conjunction with the
6550 @value{op-multi-volume} option or the @value{op-append}, @value{op-update}
6551 and @value{op-delete} operations. @xref{Operations}, for
6552 more information on these operations.
6553
6554 If there is no compress utility available, @command{tar} will report an error.
6555 @strong{Please note} that the @command{compress} program may be covered by
6556 a patent, and therefore we recommend you stop using it.
6557
6558 @value{op-bzip2} acts like @value{op-compress}, except that it uses
6559 the @code{bzip2} utility.
6560
6561 @table @kbd
6562 @item --compress
6563 @itemx --uncompress
6564 @itemx -z
6565 @itemx -Z
6566 When this option is specified, @command{tar} will compress (when
6567 writing an archive), or uncompress (when reading an archive). Used in
6568 conjunction with the @value{op-create}, @value{op-extract},
6569 @value{op-list} and @value{op-compare} operations.
6570 @end table
6571
6572 You can have archives be compressed by using the @value{op-gzip} option.
6573 This will arrange for @command{tar} to use the @command{gzip} program to be
6574 used to compress or uncompress the archive wren writing or reading it.
6575
6576 To use the older, obsolete, @command{compress} program, use the
6577 @value{op-compress} option. The @acronym{GNU} Project recommends you not use
6578 @command{compress}, because there is a patent covering the algorithm it
6579 uses. You could be sued for patent infringement merely by running
6580 @command{compress}.
6581
6582 I have one question, or maybe it's a suggestion if there isn't a way
6583 to do it now. I would like to use @value{op-gzip}, but I'd also like
6584 the output to be fed through a program like @acronym{GNU}
6585 @command{ecc} (actually, right now that's @samp{exactly} what I'd like
6586 to use :-)), basically adding ECC protection on top of compression.
6587 It seems as if this should be quite easy to do, but I can't work out
6588 exactly how to go about it. Of course, I can pipe the standard output
6589 of @command{tar} through @command{ecc}, but then I lose (though I
6590 haven't started using it yet, I confess) the ability to have
6591 @command{tar} use @command{rmt} for it's I/O (I think).
6592
6593 I think the most straightforward thing would be to let me specify a
6594 general set of filters outboard of compression (preferably ordered,
6595 so the order can be automatically reversed on input operations, and
6596 with the options they require specifiable), but beggars shouldn't be
6597 choosers and anything you decide on would be fine with me.
6598
6599 By the way, I like @command{ecc} but if (as the comments say) it can't
6600 deal with loss of block sync, I'm tempted to throw some time at adding
6601 that capability. Supposing I were to actually do such a thing and
6602 get it (apparently) working, do you accept contributed changes to
6603 utilities like that? (Leigh Clayton @file{loc@@soliton.com}, May 1995).
6604
6605 Isn't that exactly the role of the @value{op-use-compress-prog} option?
6606 I never tried it myself, but I suspect you may want to write a
6607 @var{prog} script or program able to filter stdin to stdout to
6608 way you want. It should recognize the @samp{-d} option, for when
6609 extraction is needed rather than creation.
6610
6611 It has been reported that if one writes compressed data (through the
6612 @value{op-gzip} or @value{op-compress} options) to a DLT and tries to use
6613 the DLT compression mode, the data will actually get bigger and one will
6614 end up with less space on the tape.
6615
6616 @node sparse
6617 @subsection Archiving Sparse Files
6618 @cindex Sparse Files
6619 @UNREVISED
6620
6621 @table @kbd
6622 @item -S
6623 @itemx --sparse
6624 Handle sparse files efficiently.
6625 @end table
6626
6627 This option causes all files to be put in the archive to be tested for
6628 sparseness, and handled specially if they are. The @value{op-sparse}
6629 option is useful when many @code{dbm} files, for example, are being
6630 backed up. Using this option dramatically decreases the amount of
6631 space needed to store such a file.
6632
6633 In later versions, this option may be removed, and the testing and
6634 treatment of sparse files may be done automatically with any special
6635 @acronym{GNU} options. For now, it is an option needing to be specified on
6636 the command line with the creation or updating of an archive.
6637
6638 Files in the filesystem occasionally have ``holes.'' A hole in a file
6639 is a section of the file's contents which was never written. The
6640 contents of a hole read as all zeros. On many operating systems,
6641 actual disk storage is not allocated for holes, but they are counted
6642 in the length of the file. If you archive such a file, @command{tar}
6643 could create an archive longer than the original. To have @command{tar}
6644 attempt to recognize the holes in a file, use @value{op-sparse}. When
6645 you use the @value{op-sparse} option, then, for any file using less
6646 disk space than would be expected from its length, @command{tar} searches
6647 the file for consecutive stretches of zeros. It then records in the
6648 archive for the file where the consecutive stretches of zeros are, and
6649 only archives the ``real contents'' of the file. On extraction (using
6650 @value{op-sparse} is not needed on extraction) any such files have
6651 hols created wherever the continuous stretches of zeros were found.
6652 Thus, if you use @value{op-sparse}, @command{tar} archives won't take
6653 more space than the original.
6654
6655 A file is sparse if it contains blocks of zeros whose existence is
6656 recorded, but that have no space allocated on disk. When you specify
6657 the @value{op-sparse} option in conjunction with the @value{op-create}
6658 operation, @command{tar} tests all files for sparseness while archiving.
6659 If @command{tar} finds a file to be sparse, it uses a sparse representation of
6660 the file in the archive. @value{xref-create}, for more information
6661 about creating archives.
6662
6663 @value{op-sparse} is useful when archiving files, such as dbm files,
6664 likely to contain many nulls. This option dramatically
6665 decreases the amount of space needed to store such an archive.
6666
6667 @quotation
6668 @strong{Please Note:} Always use @value{op-sparse} when performing file
6669 system backups, to avoid archiving the expanded forms of files stored
6670 sparsely in the system.
6671
6672 Even if your system has no sparse files currently, some may be
6673 created in the future. If you use @value{op-sparse} while making file
6674 system backups as a matter of course, you can be assured the archive
6675 will never take more space on the media than the files take on disk
6676 (otherwise, archiving a disk filled with sparse files might take
6677 hundreds of tapes). @FIXME-xref{incremental when node name is set.}
6678 @end quotation
6679
6680 @command{tar} ignores the @value{op-sparse} option when reading an archive.
6681
6682 @table @kbd
6683 @item --sparse
6684 @itemx -S
6685 Files stored sparsely in the file system are represented sparsely in
6686 the archive. Use in conjunction with write operations.
6687 @end table
6688
6689 However, users should be well aware that at archive creation time,
6690 @acronym{GNU} @command{tar} still has to read whole disk file to
6691 locate the @dfn{holes}, and so, even if sparse files use little space
6692 on disk and in the archive, they may sometimes require inordinate
6693 amount of time for reading and examining all-zero blocks of a file.
6694 Although it works, it's painfully slow for a large (sparse) file, even
6695 though the resulting tar archive may be small. (One user reports that
6696 dumping a @file{core} file of over 400 megabytes, but with only about
6697 3 megabytes of actual data, took about 9 minutes on a Sun Sparcstation
6698 ELC, with full CPU utilization.)
6699
6700 This reading is required in all cases and is not related to the fact
6701 the @value{op-sparse} option is used or not, so by merely @emph{not}
6702 using the option, you are not saving time@footnote{Well! We should say
6703 the whole truth, here. When @value{op-sparse} is selected while creating
6704 an archive, the current @command{tar} algorithm requires sparse files to be
6705 read twice, not once. We hope to develop a new archive format for saving
6706 sparse files in which one pass will be sufficient.}.
6707
6708 Programs like @command{dump} do not have to read the entire file; by
6709 examining the file system directly, they can determine in advance
6710 exactly where the holes are and thus avoid reading through them. The
6711 only data it need read are the actual allocated data blocks.
6712 @acronym{GNU} @command{tar} uses a more portable and straightforward
6713 archiving approach, it would be fairly difficult that it does
6714 otherwise. Elizabeth Zwicky writes to @file{comp.unix.internals}, on
6715 1990-12-10:
6716
6717 @quotation
6718 What I did say is that you cannot tell the difference between a hole and an
6719 equivalent number of nulls without reading raw blocks. @code{st_blocks} at
6720 best tells you how many holes there are; it doesn't tell you @emph{where}.
6721 Just as programs may, conceivably, care what @code{st_blocks} is (care
6722 to name one that does?), they may also care where the holes are (I have
6723 no examples of this one either, but it's equally imaginable).
6724
6725 I conclude from this that good archivers are not portable. One can
6726 arguably conclude that if you want a portable program, you can in good
6727 conscience restore files with as many holes as possible, since you can't
6728 get it right.
6729 @end quotation
6730
6731 @node Attributes
6732 @section Handling File Attributes
6733 @UNREVISED
6734
6735 When @command{tar} reads files, this causes them to have the access
6736 times updated. To have @command{tar} attempt to set the access times
6737 back to what they were before they were read, use the
6738 @value{op-atime-preserve} option.
6739
6740 Handling of file attributes
6741
6742 @table @kbd
6743 @item --atime-preserve
6744 Preserve access times on files that are read.
6745 This doesn't work for files that
6746 you don't own, unless you're root, and it doesn't interact with
6747 incremental dumps nicely (@pxref{Backups}), and it can set access or
6748 modification times incorrectly if other programs access the file while
6749 @command{tar} is running; but it is good enough for some purposes.
6750
6751 @item -m
6752 @itemx --touch
6753 Do not extract file modified time.
6754
6755 When this option is used, @command{tar} leaves the modification times
6756 of the files it extracts as the time when the files were extracted,
6757 instead of setting it to the time recorded in the archive.
6758
6759 This option is meaningless with @value{op-list}.
6760
6761 @item --same-owner
6762 Create extracted files with the same ownership they have in the
6763 archive.
6764
6765 This is the default behavior for the superuser,
6766 so this option is meaningful only for non-root users, when @command{tar}
6767 is executed on those systems able to give files away. This is
6768 considered as a security flaw by many people, at least because it
6769 makes quite difficult to correctly account users for the disk space
6770 they occupy. Also, the @code{suid} or @code{sgid} attributes of
6771 files are easily and silently lost when files are given away.
6772
6773 When writing an archive, @command{tar} writes the user id and user name
6774 separately. If it can't find a user name (because the user id is not
6775 in @file{/etc/passwd}), then it does not write one. When restoring,
6776 and doing a @code{chmod} like when you use @value{op-same-permissions},
6777 @FIXME{same-owner?}it tries to look the name (if one was written)
6778 up in @file{/etc/passwd}. If it fails, then it uses the user id
6779 stored in the archive instead.
6780
6781 @item --no-same-owner
6782 Do not attempt to restore ownership when extracting. This is the
6783 default behavior for ordinary users, so this option has an effect
6784 only for the superuser.
6785
6786 @item --numeric-owner
6787 The @value{op-numeric-owner} option allows (ANSI) archives to be written
6788 without user/group name information or such information to be ignored
6789 when extracting. It effectively disables the generation and/or use
6790 of user/group name information. This option forces extraction using
6791 the numeric ids from the archive, ignoring the names.
6792
6793 This is useful in certain circumstances, when restoring a backup from
6794 an emergency floppy with different passwd/group files for example.
6795 It is otherwise impossible to extract files with the right ownerships
6796 if the password file in use during the extraction does not match the
6797 one belonging to the filesystem(s) being extracted. This occurs,
6798 for example, if you are restoring your files after a major crash and
6799 had booted from an emergency floppy with no password file or put your
6800 disk into another machine to do the restore.
6801
6802 The numeric ids are @emph{always} saved into @command{tar} archives.
6803 The identifying names are added at create time when provided by the
6804 system, unless @value{op-old-archive} is used. Numeric ids could be
6805 used when moving archives between a collection of machines using
6806 a centralized management for attribution of numeric ids to users
6807 and groups. This is often made through using the NIS capabilities.
6808
6809 When making a @command{tar} file for distribution to other sites, it
6810 is sometimes cleaner to use a single owner for all files in the
6811 distribution, and nicer to specify the write permission bits of the
6812 files as stored in the archive independently of their actual value on
6813 the file system. The way to prepare a clean distribution is usually
6814 to have some Makefile rule creating a directory, copying all needed
6815 files in that directory, then setting ownership and permissions as
6816 wanted (there are a lot of possible schemes), and only then making a
6817 @command{tar} archive out of this directory, before cleaning
6818 everything out. Of course, we could add a lot of options to
6819 @acronym{GNU} @command{tar} for fine tuning permissions and ownership.
6820 This is not the good way, I think. @acronym{GNU} @command{tar} is
6821 already crowded with options and moreover, the approach just explained
6822 gives you a great deal of control already.
6823
6824 @item -p
6825 @itemx --same-permissions
6826 @itemx --preserve-permissions
6827 Extract all protection information.
6828
6829 This option causes @command{tar} to set the modes (access permissions) of
6830 extracted files exactly as recorded in the archive. If this option
6831 is not used, the current @code{umask} setting limits the permissions
6832 on extracted files.
6833
6834 This option is meaningless with @value{op-list}.
6835
6836 @item --preserve
6837 Same as both @value{op-same-permissions} and @value{op-same-order}.
6838
6839 The @value{op-preserve} option has no equivalent short option name.
6840 It is equivalent to @value{op-same-permissions} plus @value{op-same-order}.
6841
6842 @FIXME{I do not see the purpose of such an option. (Neither I. FP.)}
6843
6844 @end table
6845
6846 @node Standard
6847 @section The Standard Format
6848 @UNREVISED
6849
6850 While an archive may contain many files, the archive itself is a
6851 single ordinary file. Like any other file, an archive file can be
6852 written to a storage device such as a tape or disk, sent through a
6853 pipe or over a network, saved on the active file system, or even
6854 stored in another archive. An archive file is not easy to read or
6855 manipulate without using the @command{tar} utility or Tar mode in
6856 @acronym{GNU} Emacs.
6857
6858 Physically, an archive consists of a series of file entries terminated
6859 by an end-of-archive entry, which consists of 512 zero bytes. A file
6860 entry usually describes one of the files in the archive (an
6861 @dfn{archive member}), and consists of a file header and the contents
6862 of the file. File headers contain file names and statistics, checksum
6863 information which @command{tar} uses to detect file corruption, and
6864 information about file types.
6865
6866 Archives are permitted to have more than one member with the same
6867 member name. One way this situation can occur is if more than one
6868 version of a file has been stored in the archive. For information
6869 about adding new versions of a file to an archive, see @ref{update}.
6870 @FIXME-xref{To learn more about having more than one archive member with the
6871 same name, see -backup node, when it's written.}
6872
6873 In addition to entries describing archive members, an archive may
6874 contain entries which @command{tar} itself uses to store information.
6875 @value{xref-label}, for an example of such an archive entry.
6876
6877 A @command{tar} archive file contains a series of blocks. Each block
6878 contains @code{BLOCKSIZE} bytes. Although this format may be thought
6879 of as being on magnetic tape, other media are often used.
6880
6881 Each file archived is represented by a header block which describes
6882 the file, followed by zero or more blocks which give the contents
6883 of the file. At the end of the archive file there may be a block
6884 filled with binary zeros as an end-of-file marker. A reasonable system
6885 should write a block of zeros at the end, but must not assume that
6886 such a block exists when reading an archive.
6887
6888 The blocks may be @dfn{blocked} for physical I/O operations.
6889 Each record of @var{n} blocks (where @var{n} is set by the
6890 @value{op-blocking-factor} option to @command{tar}) is written with a single
6891 @w{@samp{write ()}} operation. On magnetic tapes, the result of
6892 such a write is a single record. When writing an archive,
6893 the last record of blocks should be written at the full size, with
6894 blocks after the zero block containing all zeros. When reading
6895 an archive, a reasonable system should properly handle an archive
6896 whose last record is shorter than the rest, or which contains garbage
6897 records after a zero block.
6898
6899 The header block is defined in C as follows. In the @acronym{GNU}
6900 @command{tar} distribution, this is part of file @file{src/tar.h}:
6901
6902 @example
6903 @include header.texi
6904 @end example
6905
6906 All characters in header blocks are represented by using 8-bit
6907 characters in the local variant of ASCII. Each field within the
6908 structure is contiguous; that is, there is no padding used within
6909 the structure. Each character on the archive medium is stored
6910 contiguously.
6911
6912 Bytes representing the contents of files (after the header block
6913 of each file) are not translated in any way and are not constrained
6914 to represent characters in any character set. The @command{tar} format
6915 does not distinguish text files from binary files, and no translation
6916 of file contents is performed.
6917
6918 The @code{name}, @code{linkname}, @code{magic}, @code{uname}, and
6919 @code{gname} are null-terminated character strings. All other fields
6920 are zero-filled octal numbers in ASCII. Each numeric field of width
6921 @var{w} contains @var{w} minus 2 digits, a space, and a null, except
6922 @code{size}, and @code{mtime}, which do not contain the trailing null.
6923
6924 The @code{name} field is the file name of the file, with directory names
6925 (if any) preceding the file name, separated by slashes.
6926
6927 @FIXME{how big a name before field overflows?}
6928
6929 The @code{mode} field provides nine bits specifying file permissions
6930 and three bits to specify the Set UID, Set GID, and Save Text
6931 (@dfn{sticky}) modes. Values for these bits are defined above.
6932 When special permissions are required to create a file with a given
6933 mode, and the user restoring files from the archive does not hold such
6934 permissions, the mode bit(s) specifying those special permissions
6935 are ignored. Modes which are not supported by the operating system
6936 restoring files from the archive will be ignored. Unsupported modes
6937 should be faked up when creating or updating an archive; e.g.@: the
6938 group permission could be copied from the @emph{other} permission.
6939
6940 The @code{uid} and @code{gid} fields are the numeric user and group
6941 ID of the file owners, respectively. If the operating system does
6942 not support numeric user or group IDs, these fields should be ignored.
6943
6944 The @code{size} field is the size of the file in bytes; linked files
6945 are archived with this field specified as zero. @FIXME-xref{Modifiers, in
6946 particular the @value{op-incremental} option.}
6947
6948 The @code{mtime} field is the modification time of the file at the time
6949 it was archived. It is the ASCII representation of the octal value of
6950 the last time the file was modified, represented as an integer number of
6951 seconds since January 1, 1970, 00:00 Coordinated Universal Time.
6952
6953 The @code{chksum} field is the ASCII representation of the octal value
6954 of the simple sum of all bytes in the header block. Each 8-bit
6955 byte in the header is added to an unsigned integer, initialized to
6956 zero, the precision of which shall be no less than seventeen bits.
6957 When calculating the checksum, the @code{chksum} field is treated as
6958 if it were all blanks.
6959
6960 The @code{typeflag} field specifies the type of file archived. If a
6961 particular implementation does not recognize or permit the specified
6962 type, the file will be extracted as if it were a regular file. As this
6963 action occurs, @command{tar} issues a warning to the standard error.
6964
6965 The @code{atime} and @code{ctime} fields are used in making incremental
6966 backups; they store, respectively, the particular file's access time
6967 and last inode-change time.
6968
6969 The @code{offset} is used by the @value{op-multi-volume} option, when
6970 making a multi-volume archive. The offset is number of bytes into
6971 the file that we need to restart at to continue the file on the next
6972 tape, i.e., where we store the location that a continued file is
6973 continued at.
6974
6975 The following fields were added to deal with sparse files. A file
6976 is @dfn{sparse} if it takes in unallocated blocks which end up being
6977 represented as zeros, i.e., no useful data. A test to see if a file
6978 is sparse is to look at the number blocks allocated for it versus the
6979 number of characters in the file; if there are fewer blocks allocated
6980 for the file than would normally be allocated for a file of that
6981 size, then the file is sparse. This is the method @command{tar} uses to
6982 detect a sparse file, and once such a file is detected, it is treated
6983 differently from non-sparse files.
6984
6985 Sparse files are often @code{dbm} files, or other database-type files
6986 which have data at some points and emptiness in the greater part of
6987 the file. Such files can appear to be very large when an @samp{ls
6988 -l} is done on them, when in truth, there may be a very small amount
6989 of important data contained in the file. It is thus undesirable
6990 to have @command{tar} think that it must back up this entire file, as
6991 great quantities of room are wasted on empty blocks, which can lead
6992 to running out of room on a tape far earlier than is necessary.
6993 Thus, sparse files are dealt with so that these empty blocks are
6994 not written to the tape. Instead, what is written to the tape is a
6995 description, of sorts, of the sparse file: where the holes are, how
6996 big the holes are, and how much data is found at the end of the hole.
6997 This way, the file takes up potentially far less room on the tape,
6998 and when the file is extracted later on, it will look exactly the way
6999 it looked beforehand. The following is a description of the fields
7000 used to handle a sparse file:
7001
7002 The @code{sp} is an array of @code{struct sparse}. Each @code{struct
7003 sparse} contains two 12-character strings which represent an offset
7004 into the file and a number of bytes to be written at that offset.
7005 The offset is absolute, and not relative to the offset in preceding
7006 array element.
7007
7008 The header can hold four of these @code{struct sparse} at the moment;
7009 if more are needed, they are not stored in the header.
7010
7011 The @code{isextended} flag is set when an @code{extended_header}
7012 is needed to deal with a file. Note that this means that this flag
7013 can only be set when dealing with a sparse file, and it is only set
7014 in the event that the description of the file will not fit in the
7015 allotted room for sparse structures in the header. In other words,
7016 an extended_header is needed.
7017
7018 The @code{extended_header} structure is used for sparse files which
7019 need more sparse structures than can fit in the header. The header can
7020 fit 4 such structures; if more are needed, the flag @code{isextended}
7021 gets set and the next block is an @code{extended_header}.
7022
7023 Each @code{extended_header} structure contains an array of 21
7024 sparse structures, along with a similar @code{isextended} flag
7025 that the header had. There can be an indeterminate number of such
7026 @code{extended_header}s to describe a sparse file.
7027
7028 @table @asis
7029
7030 @item @code{REGTYPE}
7031 @itemx @code{AREGTYPE}
7032 These flags represent a regular file. In order to be compatible
7033 with older versions of @command{tar}, a @code{typeflag} value of
7034 @code{AREGTYPE} should be silently recognized as a regular file.
7035 New archives should be created using @code{REGTYPE}. Also, for
7036 backward compatibility, @command{tar} treats a regular file whose name
7037 ends with a slash as a directory.
7038
7039 @item @code{LNKTYPE}
7040 This flag represents a file linked to another file, of any type,
7041 previously archived. Such files are identified in Unix by each
7042 file having the same device and inode number. The linked-to name is
7043 specified in the @code{linkname} field with a trailing null.
7044
7045 @item @code{SYMTYPE}
7046 This represents a symbolic link to another file. The linked-to name
7047 is specified in the @code{linkname} field with a trailing null.
7048
7049 @item @code{CHRTYPE}
7050 @itemx @code{BLKTYPE}
7051 These represent character special files and block special files
7052 respectively. In this case the @code{devmajor} and @code{devminor}
7053 fields will contain the major and minor device numbers respectively.
7054 Operating systems may map the device specifications to their own
7055 local specification, or may ignore the entry.
7056
7057 @item @code{DIRTYPE}
7058 This flag specifies a directory or sub-directory. The directory
7059 name in the @code{name} field should end with a slash. On systems where
7060 disk allocation is performed on a directory basis, the @code{size} field
7061 will contain the maximum number of bytes (which may be rounded to
7062 the nearest disk block allocation unit) which the directory may
7063 hold. A @code{size} field of zero indicates no such limiting. Systems
7064 which do not support limiting in this manner should ignore the
7065 @code{size} field.
7066
7067 @item @code{FIFOTYPE}
7068 This specifies a FIFO special file. Note that the archiving of a
7069 FIFO file archives the existence of this file and not its contents.
7070
7071 @item @code{CONTTYPE}
7072 This specifies a contiguous file, which is the same as a normal
7073 file except that, in operating systems which support it, all its
7074 space is allocated contiguously on the disk. Operating systems
7075 which do not allow contiguous allocation should silently treat this
7076 type as a normal file.
7077
7078 @item @code{A} @dots{} @code{Z}
7079 These are reserved for custom implementations. Some of these are
7080 used in the @acronym{GNU} modified format, as described below.
7081
7082 @end table
7083
7084 Other values are reserved for specification in future revisions of
7085 the P1003 standard, and should not be used by any @command{tar} program.
7086
7087 The @code{magic} field indicates that this archive was output in
7088 the P1003 archive format. If this field contains @code{TMAGIC},
7089 the @code{uname} and @code{gname} fields will contain the ASCII
7090 representation of the owner and group of the file respectively.
7091 If found, the user and group IDs are used rather than the values in
7092 the @code{uid} and @code{gid} fields.
7093
7094 For references, see ISO/IEC 9945-1:1990 or IEEE Std 1003.1-1990, pages
7095 169-173 (section 10.1) for @cite{Archive/Interchange File Format}; and
7096 IEEE Std 1003.2-1992, pages 380-388 (section 4.48) and pages 936-940
7097 (section E.4.48) for @cite{pax - Portable archive interchange}.
7098
7099 @node Extensions
7100 @section @acronym{GNU} Extensions to the Archive Format
7101 @UNREVISED
7102
7103 The @acronym{GNU} format uses additional file types to describe new types of
7104 files in an archive. These are listed below.
7105
7106 @table @code
7107 @item GNUTYPE_DUMPDIR
7108 @itemx 'D'
7109 This represents a directory and a list of files created by the
7110 @value{op-incremental} option. The @code{size} field gives the total
7111 size of the associated list of files. Each file name is preceded by
7112 either a @samp{Y} (the file should be in this archive) or an @samp{N}.
7113 (The file is a directory, or is not stored in the archive.) Each file
7114 name is terminated by a null. There is an additional null after the
7115 last file name.
7116
7117 @item GNUTYPE_MULTIVOL
7118 @itemx 'M'
7119 This represents a file continued from another volume of a multi-volume
7120 archive created with the @value{op-multi-volume} option. The original
7121 type of the file is not given here. The @code{size} field gives the
7122 maximum size of this piece of the file (assuming the volume does
7123 not end before the file is written out). The @code{offset} field
7124 gives the offset from the beginning of the file where this part of
7125 the file begins. Thus @code{size} plus @code{offset} should equal
7126 the original size of the file.
7127
7128 @item GNUTYPE_SPARSE
7129 @itemx 'S'
7130 This flag indicates that we are dealing with a sparse file. Note
7131 that archiving a sparse file requires special operations to find
7132 holes in the file, which mark the positions of these holes, along
7133 with the number of bytes of data to be found after the hole.
7134
7135 @item GNUTYPE_VOLHDR
7136 @itemx 'V'
7137 This file type is used to mark the volume header that was given with
7138 the @value{op-label} option when the archive was created. The @code{name}
7139 field contains the @code{name} given after the @value{op-label} option.
7140 The @code{size} field is zero. Only the first file in each volume
7141 of an archive should have this type.
7142
7143 @end table
7144
7145 You may have trouble reading a @acronym{GNU} format archive on a
7146 non-@acronym{GNU} system if the options @value{op-incremental},
7147 @value{op-multi-volume}, @value{op-sparse}, or @value{op-label} were
7148 used when writing the archive. In general, if @command{tar} does not
7149 use the @acronym{GNU}-added fields of the header, other versions of
7150 @command{tar} should be able to read the archive. Otherwise, the
7151 @command{tar} program will give an error, the most likely one being a
7152 checksum error.
7153
7154 @node cpio
7155 @section Comparison of @command{tar} and @command{cpio}
7156 @UNREVISED
7157
7158 @FIXME{Reorganize the following material}
7159
7160 The @command{cpio} archive formats, like @command{tar}, do have maximum
7161 pathname lengths. The binary and old ASCII formats have a max path
7162 length of 256, and the new ASCII and CRC ASCII formats have a max
7163 path length of 1024. @acronym{GNU} @command{cpio} can read and write archives
7164 with arbitrary pathname lengths, but other @command{cpio} implementations
7165 may crash unexplainedly trying to read them.
7166
7167 @command{tar} handles symbolic links in the form in which it comes in BSD;
7168 @command{cpio} doesn't handle symbolic links in the form in which it comes
7169 in System V prior to SVR4, and some vendors may have added symlinks
7170 to their system without enhancing @command{cpio} to know about them.
7171 Others may have enhanced it in a way other than the way I did it
7172 at Sun, and which was adopted by AT&T (and which is, I think, also
7173 present in the @command{cpio} that Berkeley picked up from AT&T and put
7174 into a later BSD release---I think I gave them my changes).
7175
7176 (SVR4 does some funny stuff with @command{tar}; basically, its @command{cpio}
7177 can handle @command{tar} format input, and write it on output, and it
7178 probably handles symbolic links. They may not have bothered doing
7179 anything to enhance @command{tar} as a result.)
7180
7181 @command{cpio} handles special files; traditional @command{tar} doesn't.
7182
7183 @command{tar} comes with V7, System III, System V, and BSD source;
7184 @command{cpio} comes only with System III, System V, and later BSD
7185 (4.3-tahoe and later).
7186
7187 @command{tar}'s way of handling multiple hard links to a file can handle
7188 file systems that support 32-bit inumbers (e.g., the BSD file system);
7189 @command{cpio}s way requires you to play some games (in its "binary"
7190 format, i-numbers are only 16 bits, and in its "portable ASCII" format,
7191 they're 18 bits---it would have to play games with the "file system ID"
7192 field of the header to make sure that the file system ID/i-number pairs
7193 of different files were always different), and I don't know which
7194 @command{cpio}s, if any, play those games. Those that don't might get
7195 confused and think two files are the same file when they're not, and
7196 make hard links between them.
7197
7198 @command{tar}s way of handling multiple hard links to a file places only
7199 one copy of the link on the tape, but the name attached to that copy
7200 is the @emph{only} one you can use to retrieve the file; @command{cpio}s
7201 way puts one copy for every link, but you can retrieve it using any
7202 of the names.
7203
7204 @quotation
7205 What type of check sum (if any) is used, and how is this calculated.
7206 @end quotation
7207
7208 See the attached manual pages for @command{tar} and @command{cpio} format.
7209 @command{tar} uses a checksum which is the sum of all the bytes in the
7210 @command{tar} header for a file; @command{cpio} uses no checksum.
7211
7212 @quotation
7213 If anyone knows why @command{cpio} was made when @command{tar} was present
7214 at the unix scene,
7215 @end quotation
7216
7217 It wasn't. @command{cpio} first showed up in PWB/UNIX 1.0; no
7218 generally-available version of UNIX had @command{tar} at the time. I don't
7219 know whether any version that was generally available @emph{within AT&T}
7220 had @command{tar}, or, if so, whether the people within AT&T who did
7221 @command{cpio} knew about it.
7222
7223 On restore, if there is a corruption on a tape @command{tar} will stop at
7224 that point, while @command{cpio} will skip over it and try to restore the
7225 rest of the files.
7226
7227 The main difference is just in the command syntax and header format.
7228
7229 @command{tar} is a little more tape-oriented in that everything is blocked
7230 to start on a record boundary.
7231
7232 @quotation
7233 Is there any differences between the ability to recover crashed
7234 archives between the two of them. (Is there any chance of recovering
7235 crashed archives at all.)
7236 @end quotation
7237
7238 Theoretically it should be easier under @command{tar} since the blocking
7239 lets you find a header with some variation of @samp{dd skip=@var{nn}}.
7240 However, modern @command{cpio}'s and variations have an option to just
7241 search for the next file header after an error with a reasonable chance
7242 of resyncing. However, lots of tape driver software won't allow you to
7243 continue past a media error which should be the only reason for getting
7244 out of sync unless a file changed sizes while you were writing the
7245 archive.
7246
7247 @quotation
7248 If anyone knows why @command{cpio} was made when @command{tar} was present
7249 at the unix scene, please tell me about this too.
7250 @end quotation
7251
7252 Probably because it is more media efficient (by not blocking everything
7253 and using only the space needed for the headers where @command{tar}
7254 always uses 512 bytes per file header) and it knows how to archive
7255 special files.
7256
7257 You might want to look at the freely available alternatives. The
7258 major ones are @command{afio}, @acronym{GNU} @command{tar}, and
7259 @command{pax}, each of which have their own extensions with some
7260 backwards compatibility.
7261
7262 Sparse files were @command{tar}red as sparse files (which you can
7263 easily test, because the resulting archive gets smaller, and
7264 @acronym{GNU} @command{cpio} can no longer read it).
7265
7266 @node Media
7267 @chapter Tapes and Other Archive Media
7268 @UNREVISED
7269
7270 A few special cases about tape handling warrant more detailed
7271 description. These special cases are discussed below.
7272
7273 Many complexities surround the use of @command{tar} on tape drives. Since
7274 the creation and manipulation of archives located on magnetic tape was
7275 the original purpose of @command{tar}, it contains many features making
7276 such manipulation easier.
7277
7278 Archives are usually written on dismountable media---tape cartridges,
7279 mag tapes, or floppy disks.
7280
7281 The amount of data a tape or disk holds depends not only on its size,
7282 but also on how it is formatted. A 2400 foot long reel of mag tape
7283 holds 40 megabytes of data when formatted at 1600 bits per inch. The
7284 physically smaller EXABYTE tape cartridge holds 2.3 gigabytes.
7285
7286 Magnetic media are re-usable---once the archive on a tape is no longer
7287 needed, the archive can be erased and the tape or disk used over.
7288 Media quality does deteriorate with use, however. Most tapes or disks
7289 should be discarded when they begin to produce data errors. EXABYTE
7290 tape cartridges should be discarded when they generate an @dfn{error
7291 count} (number of non-usable bits) of more than 10k.
7292
7293 Magnetic media are written and erased using magnetic fields, and
7294 should be protected from such fields to avoid damage to stored data.
7295 Sticking a floppy disk to a filing cabinet using a magnet is probably
7296 not a good idea.
7297
7298 @menu
7299 * Device:: Device selection and switching
7300 * Remote Tape Server::
7301 * Common Problems and Solutions::
7302 * Blocking:: Blocking
7303 * Many:: Many archives on one tape
7304 * Using Multiple Tapes:: Using Multiple Tapes
7305 * label:: Including a Label in the Archive
7306 * verify::
7307 * Write Protection::
7308 @end menu
7309
7310 @node Device
7311 @section Device Selection and Switching
7312 @UNREVISED
7313
7314 @table @kbd
7315 @item -f [@var{hostname}:]@var{file}
7316 @itemx --file=[@var{hostname}:]@var{file}
7317 Use archive file or device @var{file} on @var{hostname}.
7318 @end table
7319
7320 This option is used to specify the file name of the archive @command{tar}
7321 works on.
7322
7323 If the file name is @samp{-}, @command{tar} reads the archive from standard
7324 input (when listing or extracting), or writes it to standard output
7325 (when creating). If the @samp{-} file name is given when updating an
7326 archive, @command{tar} will read the original archive from its standard
7327 input, and will write the entire new archive to its standard output.
7328
7329 If the file name contains a @samp{:}, it is interpreted as
7330 @samp{hostname:file name}. If the @var{hostname} contains an @dfn{at}
7331 sign (@kbd{@@}), it is treated as @samp{user@@hostname:file name}. In
7332 either case, @command{tar} will invoke the command @command{rsh} (or
7333 @command{remsh}) to start up an @file{/etc/rmt} on the remote machine. If
7334 you give an alternate login name, it will be given to the @command{rsh}.
7335 Naturally, the remote machine must have an executable @file{/etc/rmt}.
7336 This program is free software from the University of California, and a
7337 copy of the source code can be found with the sources for @command{tar};
7338 it's compiled and installed by default.
7339
7340 If this option is not given, but the environment variable @env{TAPE}
7341 is set, its value is used; otherwise, old versions of @command{tar}
7342 used a default archive name (which was picked when @command{tar} was
7343 compiled). The default is normally set up to be the @dfn{first} tape
7344 drive or other transportable I/O medium on the system.
7345
7346 Starting with version 1.11.5, @acronym{GNU} @command{tar} uses
7347 standard input and standard output as the default device, and I will
7348 not try anymore supporting automatic device detection at installation
7349 time. This was failing really in too many cases, it was hopeless.
7350 This is now completely left to the installer to override standard
7351 input and standard output for default device, if this seems
7352 preferable. Further, I think @emph{most} actual usages of
7353 @command{tar} are done with pipes or disks, not really tapes,
7354 cartridges or diskettes.
7355
7356 Some users think that using standard input and output is running
7357 after trouble. This could lead to a nasty surprise on your screen if
7358 you forget to specify an output file name---especially if you are going
7359 through a network or terminal server capable of buffering large amounts
7360 of output. We had so many bug reports in that area of configuring
7361 default tapes automatically, and so many contradicting requests, that
7362 we finally consider the problem to be portably intractable. We could
7363 of course use something like @samp{/dev/tape} as a default, but this
7364 is @emph{also} running after various kind of trouble, going from hung
7365 processes to accidental destruction of real tapes. After having seen
7366 all this mess, using standard input and output as a default really
7367 sounds like the only clean choice left, and a very useful one too.
7368
7369 @acronym{GNU} @command{tar} reads and writes archive in records, I
7370 suspect this is the main reason why block devices are preferred over
7371 character devices. Most probably, block devices are more efficient
7372 too. The installer could also check for @samp{DEFTAPE} in
7373 @file{<sys/mtio.h>}.
7374
7375 @table @kbd
7376 @item --force-local
7377 Archive file is local even if it contains a colon.
7378
7379 @item --rsh-command=@var{command}
7380 Use remote @var{command} instead of @command{rsh}. This option exists
7381 so that people who use something other than the standard @command{rsh}
7382 (e.g., a Kerberized @command{rsh}) can access a remote device.
7383
7384 When this command is not used, the shell command found when
7385 the @command{tar} program was installed is used instead. This is
7386 the first found of @file{/usr/ucb/rsh}, @file{/usr/bin/remsh},
7387 @file{/usr/bin/rsh}, @file{/usr/bsd/rsh} or @file{/usr/bin/nsh}.
7388 The installer may have overridden this by defining the environment
7389 variable @env{RSH} @emph{at installation time}.
7390
7391 @item -[0-7][lmh]
7392 Specify drive and density.
7393
7394 @item -M
7395 @itemx --multi-volume
7396 Create/list/extract multi-volume archive.
7397
7398 This option causes @command{tar} to write a @dfn{multi-volume} archive---one
7399 that may be larger than will fit on the medium used to hold it.
7400 @xref{Multi-Volume Archives}.
7401
7402 @item -L @var{num}
7403 @itemx --tape-length=@var{num}
7404 Change tape after writing @var{num} x 1024 bytes.
7405
7406 This option might be useful when your tape drivers do not properly
7407 detect end of physical tapes. By being slightly conservative on the
7408 maximum tape length, you might avoid the problem entirely.
7409
7410 @item -F @var{file}
7411 @itemx --info-script=@var{file}
7412 @itemx --new-volume-script=@var{file}
7413 Execute @file{file} at end of each tape. If @file{file} exits with
7414 nonzero status, exit. This implies @value{op-multi-volume}.
7415 @end table
7416
7417 @node Remote Tape Server
7418 @section The Remote Tape Server
7419
7420 @cindex remote tape drive
7421 @pindex rmt
7422 In order to access the tape drive on a remote machine, @command{tar}
7423 uses the remote tape server written at the University of California at
7424 Berkeley. The remote tape server must be installed as @file{/etc/rmt}
7425 on any machine whose tape drive you want to use. @command{tar} calls
7426 @file{/etc/rmt} by running an @command{rsh} or @command{remsh} to the remote
7427 machine, optionally using a different login name if one is supplied.
7428
7429 A copy of the source for the remote tape server is provided. It is
7430 Copyright @copyright{} 1983 by the Regents of the University of
7431 California, but can be freely distributed. Instructions for compiling
7432 and installing it are included in the @file{Makefile}.
7433
7434 @cindex absolute file names
7435 Unless you use the @value{op-absolute-names} option, @acronym{GNU}
7436 @command{tar} will not allow you to create an archive that contains
7437 absolute file names (a file name beginning with @samp{/}.) If you try,
7438 @command{tar} will automatically remove the leading @samp{/} from the
7439 file names it stores in the archive. It will also type a warning
7440 message telling you what it is doing.
7441
7442 When reading an archive that was created with a different
7443 @command{tar} program, @acronym{GNU} @command{tar} automatically
7444 extracts entries in the archive which have absolute file names as if
7445 the file names were not absolute. This is an important feature. A
7446 visitor here once gave a @command{tar} tape to an operator to restore;
7447 the operator used Sun @command{tar} instead of @acronym{GNU}
7448 @command{tar}, and the result was that it replaced large portions of
7449 our @file{/bin} and friends with versions from the tape; needless to
7450 say, we were unhappy about having to recover the file system from
7451 backup tapes.
7452
7453 For example, if the archive contained a file @file{/usr/bin/computoy},
7454 @acronym{GNU} @command{tar} would extract the file to @file{usr/bin/computoy},
7455 relative to the current directory. If you want to extract the files in
7456 an archive to the same absolute names that they had when the archive
7457 was created, you should do a @samp{cd /} before extracting the files
7458 from the archive, or you should either use the @value{op-absolute-names}
7459 option, or use the command @samp{tar -C / @dots{}}.
7460
7461 @cindex Ultrix 3.1 and write failure
7462 Some versions of Unix (Ultrix 3.1 is known to have this problem),
7463 can claim that a short write near the end of a tape succeeded,
7464 when it actually failed. This will result in the -M option not
7465 working correctly. The best workaround at the moment is to use a
7466 significantly larger blocking factor than the default 20.
7467
7468 In order to update an archive, @command{tar} must be able to backspace the
7469 archive in order to reread or rewrite a record that was just read (or
7470 written). This is currently possible only on two kinds of files: normal
7471 disk files (or any other file that can be backspaced with @samp{lseek}),
7472 and industry-standard 9-track magnetic tape (or any other kind of tape
7473 that can be backspaced with the @code{MTIOCTOP} @code{ioctl}.
7474
7475 This means that the @value{op-append}, @value{op-update},
7476 @value{op-concatenate}, and @value{op-delete} commands will not work on any
7477 other kind of file. Some media simply cannot be backspaced, which
7478 means these commands and options will never be able to work on them.
7479 These non-backspacing media include pipes and cartridge tape drives.
7480
7481 Some other media can be backspaced, and @command{tar} will work on them
7482 once @command{tar} is modified to do so.
7483
7484 Archives created with the @value{op-multi-volume}, @value{op-label}, and
7485 @value{op-incremental} options may not be readable by other version
7486 of @command{tar}. In particular, restoring a file that was split over
7487 a volume boundary will require some careful work with @command{dd}, if
7488 it can be done at all. Other versions of @command{tar} may also create
7489 an empty file whose name is that of the volume header. Some versions
7490 of @command{tar} may create normal files instead of directories archived
7491 with the @value{op-incremental} option.
7492
7493 @node Common Problems and Solutions
7494 @section Some Common Problems and their Solutions
7495
7496 @ifclear PUBLISH
7497
7498 @format
7499 errors from system:
7500 permission denied
7501 no such file or directory
7502 not owner
7503
7504 errors from @command{tar}:
7505 directory checksum error
7506 header format error
7507
7508 errors from media/system:
7509 i/o error
7510 device busy
7511 @end format
7512
7513 @end ifclear
7514
7515 @node Blocking
7516 @section Blocking
7517 @UNREVISED
7518
7519 @dfn{Block} and @dfn{record} terminology is rather confused, and it
7520 is also confusing to the expert reader. On the other hand, readers
7521 who are new to the field have a fresh mind, and they may safely skip
7522 the next two paragraphs, as the remainder of this manual uses those
7523 two terms in a quite consistent way.
7524
7525 John Gilmore, the writer of the public domain @command{tar} from which
7526 @acronym{GNU} @command{tar} was originally derived, wrote (June 1995):
7527
7528 @quotation
7529 The nomenclature of tape drives comes from IBM, where I believe
7530 they were invented for the IBM 650 or so. On IBM mainframes, what
7531 is recorded on tape are tape blocks. The logical organization of
7532 data is into records. There are various ways of putting records into
7533 blocks, including @code{F} (fixed sized records), @code{V} (variable
7534 sized records), @code{FB} (fixed blocked: fixed size records, @var{n}
7535 to a block), @code{VB} (variable size records, @var{n} to a block),
7536 @code{VSB} (variable spanned blocked: variable sized records that can
7537 occupy more than one block), etc. The @code{JCL} @samp{DD RECFORM=}
7538 parameter specified this to the operating system.
7539
7540 The Unix man page on @command{tar} was totally confused about this.
7541 When I wrote @code{PD TAR}, I used the historically correct terminology
7542 (@command{tar} writes data records, which are grouped into blocks).
7543 It appears that the bogus terminology made it into @sc{posix} (no surprise
7544 here), and now Fran@,{c}ois has migrated that terminology back
7545 into the source code too.
7546 @end quotation
7547
7548 The term @dfn{physical block} means the basic transfer chunk from or
7549 to a device, after which reading or writing may stop without anything
7550 being lost. In this manual, the term @dfn{block} usually refers to
7551 a disk physical block, @emph{assuming} that each disk block is 512
7552 bytes in length. It is true that some disk devices have different
7553 physical blocks, but @command{tar} ignore these differences in its own
7554 format, which is meant to be portable, so a @command{tar} block is always
7555 512 bytes in length, and @dfn{block} always mean a @command{tar} block.
7556 The term @dfn{logical block} often represents the basic chunk of
7557 allocation of many disk blocks as a single entity, which the operating
7558 system treats somewhat atomically; this concept is only barely used
7559 in @acronym{GNU} @command{tar}.
7560
7561 The term @dfn{physical record} is another way to speak of a physical
7562 block, those two terms are somewhat interchangeable. In this manual,
7563 the term @dfn{record} usually refers to a tape physical block,
7564 @emph{assuming} that the @command{tar} archive is kept on magnetic tape.
7565 It is true that archives may be put on disk or used with pipes,
7566 but nevertheless, @command{tar} tries to read and write the archive one
7567 @dfn{record} at a time, whatever the medium in use. One record is made
7568 up of an integral number of blocks, and this operation of putting many
7569 disk blocks into a single tape block is called @dfn{reblocking}, or
7570 more simply, @dfn{blocking}. The term @dfn{logical record} refers to
7571 the logical organization of many characters into something meaningful
7572 to the application. The term @dfn{unit record} describes a small set
7573 of characters which are transmitted whole to or by the application,
7574 and often refers to a line of text. Those two last terms are unrelated
7575 to what we call a @dfn{record} in @acronym{GNU} @command{tar}.
7576
7577 When writing to tapes, @command{tar} writes the contents of the archive
7578 in chunks known as @dfn{records}. To change the default blocking
7579 factor, use the @value{op-blocking-factor} option. Each record will
7580 then be composed of @var{512-size} blocks. (Each @command{tar} block is
7581 512 bytes. @xref{Standard}.) Each file written to the archive uses
7582 at least one full record. As a result, using a larger record size
7583 can result in more wasted space for small files. On the other hand, a
7584 larger record size can often be read and written much more efficiently.
7585
7586 Further complicating the problem is that some tape drives ignore the
7587 blocking entirely. For these, a larger record size can still improve
7588 performance (because the software layers above the tape drive still
7589 honor the blocking), but not as dramatically as on tape drives that
7590 honor blocking.
7591
7592 When reading an archive, @command{tar} can usually figure out the
7593 record size on itself. When this is the case, and a non-standard
7594 record size was used when the archive was created, @command{tar} will
7595 print a message about a non-standard blocking factor, and then operate
7596 normally. On some tape devices, however, @command{tar} cannot figure
7597 out the record size itself. On most of those, you can specify a
7598 blocking factor (with @value{op-blocking-factor}) larger than the
7599 actual blocking factor, and then use the @value{op-read-full-records}
7600 option. (If you specify a blocking factor with
7601 @value{op-blocking-factor} and don't use the
7602 @value{op-read-full-records} option, then @command{tar} will not
7603 attempt to figure out the recording size itself.) On some devices,
7604 you must always specify the record size exactly with
7605 @value{op-blocking-factor} when reading, because @command{tar} cannot
7606 figure it out. In any case, use @value{op-list} before doing any
7607 extractions to see whether @command{tar} is reading the archive
7608 correctly.
7609
7610 @command{tar} blocks are all fixed size (512 bytes), and its scheme for
7611 putting them into records is to put a whole number of them (one or
7612 more) into each record. @command{tar} records are all the same size;
7613 at the end of the file there's a block containing all zeros, which
7614 is how you tell that the remainder of the last record(s) are garbage.
7615
7616 In a standard @command{tar} file (no options), the block size is 512
7617 and the record size is 10240, for a blocking factor of 20. What the
7618 @value{op-blocking-factor} option does is sets the blocking factor,
7619 changing the record size while leaving the block size at 512 bytes.
7620 20 was fine for ancient 800 or 1600 bpi reel-to-reel tape drives;
7621 most tape drives these days prefer much bigger records in order to
7622 stream and not waste tape. When writing tapes for myself, some tend
7623 to use a factor of the order of 2048, say, giving a record size of
7624 around one megabyte.
7625
7626 If you use a blocking factor larger than 20, older @command{tar}
7627 programs might not be able to read the archive, so we recommend this
7628 as a limit to use in practice. @acronym{GNU} @command{tar}, however,
7629 will support arbitrarily large record sizes, limited only by the
7630 amount of virtual memory or the physical characteristics of the tape
7631 device.
7632
7633 @menu
7634 * Format Variations:: Format Variations
7635 * Blocking Factor:: The Blocking Factor of an Archive
7636 @end menu
7637
7638 @node Format Variations
7639 @subsection Format Variations
7640 @cindex Format Parameters
7641 @cindex Format Options
7642 @cindex Options, archive format specifying
7643 @cindex Options, format specifying
7644 @UNREVISED
7645
7646 Format parameters specify how an archive is written on the archive
7647 media. The best choice of format parameters will vary depending on
7648 the type and number of files being archived, and on the media used to
7649 store the archive.
7650
7651 To specify format parameters when accessing or creating an archive,
7652 you can use the options described in the following sections.
7653 If you do not specify any format parameters, @command{tar} uses
7654 default parameters. You cannot modify a compressed archive.
7655 If you create an archive with the @value{op-blocking-factor} option
7656 specified (@value{pxref-blocking-factor}), you must specify that
7657 blocking-factor when operating on the archive. @xref{Formats}, for other
7658 examples of format parameter considerations.
7659
7660 @node Blocking Factor
7661 @subsection The Blocking Factor of an Archive
7662 @cindex Blocking Factor
7663 @cindex Record Size
7664 @cindex Number of blocks per record
7665 @cindex Number of bytes per record
7666 @cindex Bytes per record
7667 @cindex Blocks per record
7668 @UNREVISED
7669
7670 The data in an archive is grouped into blocks, which are 512 bytes.
7671 Blocks are read and written in whole number multiples called
7672 @dfn{records}. The number of blocks in a record (ie. the size of a
7673 record in units of 512 bytes) is called the @dfn{blocking factor}.
7674 The @value{op-blocking-factor} option specifies the blocking factor of
7675 an archive. The default blocking factor is typically 20 (ie.@:
7676 10240 bytes), but can be specified at installation. To find out
7677 the blocking factor of an existing archive, use @samp{tar --list
7678 --file=@var{archive-name}}. This may not work on some devices.
7679
7680 Records are separated by gaps, which waste space on the archive media.
7681 If you are archiving on magnetic tape, using a larger blocking factor
7682 (and therefore larger records) provides faster throughput and allows you
7683 to fit more data on a tape (because there are fewer gaps). If you are
7684 archiving on cartridge, a very large blocking factor (say 126 or more)
7685 greatly increases performance. A smaller blocking factor, on the other
7686 hand, may be useful when archiving small files, to avoid archiving lots
7687 of nulls as @command{tar} fills out the archive to the end of the record.
7688 In general, the ideal record size depends on the size of the
7689 inter-record gaps on the tape you are using, and the average size of the
7690 files you are archiving. @xref{create}, for information on
7691 writing archives.
7692
7693 @FIXME{Need example of using a cartridge with blocking factor=126 or more.}
7694
7695 Archives with blocking factors larger than 20 cannot be read
7696 by very old versions of @command{tar}, or by some newer versions
7697 of @command{tar} running on old machines with small address spaces.
7698 With @acronym{GNU} @command{tar}, the blocking factor of an archive is limited
7699 only by the maximum record size of the device containing the archive,
7700 or by the amount of available virtual memory.
7701
7702 Also, on some systems, not using adequate blocking factors, as sometimes
7703 imposed by the device drivers, may yield unexpected diagnostics. For
7704 example, this has been reported:
7705
7706 @example
7707 Cannot write to /dev/dlt: Invalid argument
7708 @end example
7709
7710 @noindent
7711 In such cases, it sometimes happen that the @command{tar} bundled by
7712 the system is aware of block size idiosyncrasies, while @acronym{GNU}
7713 @command{tar} requires an explicit specification for the block size,
7714 which it cannot guess. This yields some people to consider
7715 @acronym{GNU} @command{tar} is misbehaving, because by comparison,
7716 @cite{the bundle @command{tar} works OK}. Adding @w{@kbd{-b 256}},
7717 for example, might resolve the problem.
7718
7719 If you use a non-default blocking factor when you create an archive, you
7720 must specify the same blocking factor when you modify that archive. Some
7721 archive devices will also require you to specify the blocking factor when
7722 reading that archive, however this is not typically the case. Usually, you
7723 can use @value{op-list} without specifying a blocking factor---@command{tar}
7724 reports a non-default record size and then lists the archive members as
7725 it would normally. To extract files from an archive with a non-standard
7726 blocking factor (particularly if you're not sure what the blocking factor
7727 is), you can usually use the @value{op-read-full-records} option while
7728 specifying a blocking factor larger then the blocking factor of the archive
7729 (ie. @samp{tar --extract --read-full-records --blocking-factor=300}.
7730 @xref{list}, for more information on the @value{op-list}
7731 operation. @xref{Reading}, for a more detailed explanation of that option.
7732
7733 @table @kbd
7734 @item --blocking-factor=@var{number}
7735 @itemx -b @var{number}
7736 Specifies the blocking factor of an archive. Can be used with any
7737 operation, but is usually not necessary with @value{op-list}.
7738 @end table
7739
7740 Device blocking
7741
7742 @table @kbd
7743 @item -b @var{blocks}
7744 @itemx --blocking-factor=@var{blocks}
7745 Set record size to @math{@var{blocks} * 512} bytes.
7746
7747 This option is used to specify a @dfn{blocking factor} for the archive.
7748 When reading or writing the archive, @command{tar}, will do reads and writes
7749 of the archive in records of @math{@var{block}*512} bytes. This is true
7750 even when the archive is compressed. Some devices requires that all
7751 write operations be a multiple of a certain size, and so, @command{tar}
7752 pads the archive out to the next record boundary.
7753
7754 The default blocking factor is set when @command{tar} is compiled, and is
7755 typically 20. Blocking factors larger than 20 cannot be read by very
7756 old versions of @command{tar}, or by some newer versions of @command{tar}
7757 running on old machines with small address spaces.
7758
7759 With a magnetic tape, larger records give faster throughput and fit
7760 more data on a tape (because there are fewer inter-record gaps).
7761 If the archive is in a disk file or a pipe, you may want to specify
7762 a smaller blocking factor, since a large one will result in a large
7763 number of null bytes at the end of the archive.
7764
7765 When writing cartridge or other streaming tapes, a much larger
7766 blocking factor (say 126 or more) will greatly increase performance.
7767 However, you must specify the same blocking factor when reading or
7768 updating the archive.
7769
7770 Apparently, Exabyte drives have a physical block size of 8K bytes.
7771 If we choose our blocksize as a multiple of 8k bytes, then the problem
7772 seems to dissapper. Id est, we are using block size of 112 right
7773 now, and we haven't had the problem since we switched@dots{}
7774
7775 With @acronym{GNU} @command{tar} the blocking factor is limited only
7776 by the maximum record size of the device containing the archive, or by
7777 the amount of available virtual memory.
7778
7779 However, deblocking or reblocking is virtually avoided in a special
7780 case which often occurs in practice, but which requires all the
7781 following conditions to be simultaneously true:
7782 @itemize @bullet
7783 @item
7784 the archive is subject to a compression option,
7785 @item
7786 the archive is not handled through standard input or output, nor
7787 redirected nor piped,
7788 @item
7789 the archive is directly handled to a local disk, instead of any special
7790 device,
7791 @item
7792 @value{op-blocking-factor} is not explicitly specified on the @command{tar}
7793 invocation.
7794 @end itemize
7795
7796 If the output goes directly to a local disk, and not through
7797 stdout, then the last write is not extended to a full record size.
7798 Otherwise, reblocking occurs. Here are a few other remarks on this
7799 topic:
7800
7801 @itemize @bullet
7802
7803 @item
7804 @command{gzip} will complain about trailing garbage if asked to
7805 uncompress a compressed archive on tape, there is an option to turn
7806 the message off, but it breaks the regularity of simply having to use
7807 @samp{@var{prog} -d} for decompression. It would be nice if gzip was
7808 silently ignoring any number of trailing zeros. I'll ask Jean-loup
7809 Gailly, by sending a copy of this message to him.
7810
7811 @item
7812 @command{compress} does not show this problem, but as Jean-loup pointed
7813 out to Michael, @samp{compress -d} silently adds garbage after
7814 the result of decompression, which tar ignores because it already
7815 recognized its end-of-file indicator. So this bug may be safely
7816 ignored.
7817
7818 @item
7819 @samp{gzip -d -q} will be silent about the trailing zeros indeed,
7820 but will still return an exit status of 2 which tar reports in turn.
7821 @command{tar} might ignore the exit status returned, but I hate doing
7822 that, as it weakens the protection @command{tar} offers users against
7823 other possible problems at decompression time. If @command{gzip} was
7824 silently skipping trailing zeros @emph{and} also avoiding setting the
7825 exit status in this innocuous case, that would solve this situation.
7826
7827 @item
7828 @command{tar} should become more solid at not stopping to read a pipe at
7829 the first null block encountered. This inelegantly breaks the pipe.
7830 @command{tar} should rather drain the pipe out before exiting itself.
7831 @end itemize
7832
7833 @item -i
7834 @itemx --ignore-zeros
7835 Ignore blocks of zeros in archive (means EOF).
7836
7837 The @value{op-ignore-zeros} option causes @command{tar} to ignore blocks
7838 of zeros in the archive. Normally a block of zeros indicates the
7839 end of the archive, but when reading a damaged archive, or one which
7840 was created by concatenating several archives together, this option
7841 allows @command{tar} to read the entire archive. This option is not on
7842 by default because many versions of @command{tar} write garbage after
7843 the zeroed blocks.
7844
7845 Note that this option causes @command{tar} to read to the end of the
7846 archive file, which may sometimes avoid problems when multiple files
7847 are stored on a single physical tape.
7848
7849 @item -B
7850 @itemx --read-full-records
7851 Reblock as we read (for reading 4.2BSD pipes).
7852
7853 If @value{op-read-full-records} is used, @command{tar} will not panic if an
7854 attempt to read a record from the archive does not return a full record.
7855 Instead, @command{tar} will keep reading until it has obtained a full
7856 record.
7857
7858 This option is turned on by default when @command{tar} is reading
7859 an archive from standard input, or from a remote machine. This is
7860 because on BSD Unix systems, a read of a pipe will return however
7861 much happens to be in the pipe, even if it is less than @command{tar}
7862 requested. If this option was not used, @command{tar} would fail as
7863 soon as it read an incomplete record from the pipe.
7864
7865 This option is also useful with the commands for updating an archive.
7866
7867 @end table
7868
7869 Tape blocking
7870
7871 @FIXME{Appropriate options should be moved here from elsewhere.}
7872
7873 @cindex blocking factor
7874 @cindex tape blocking
7875
7876 When handling various tapes or cartridges, you have to take care of
7877 selecting a proper blocking, that is, the number of disk blocks you
7878 put together as a single tape block on the tape, without intervening
7879 tape gaps. A @dfn{tape gap} is a small landing area on the tape
7880 with no information on it, used for decelerating the tape to a
7881 full stop, and for later regaining the reading or writing speed.
7882 When the tape driver starts reading a record, the record has to
7883 be read whole without stopping, as a tape gap is needed to stop the
7884 tape motion without loosing information.
7885
7886 @cindex Exabyte blocking
7887 @cindex DAT blocking
7888 Using higher blocking (putting more disk blocks per tape block) will use
7889 the tape more efficiently as there will be less tape gaps. But reading
7890 such tapes may be more difficult for the system, as more memory will be
7891 required to receive at once the whole record. Further, if there is a
7892 reading error on a huge record, this is less likely that the system will
7893 succeed in recovering the information. So, blocking should not be too
7894 low, nor it should be too high. @command{tar} uses by default a blocking of
7895 20 for historical reasons, and it does not really matter when reading or
7896 writing to disk. Current tape technology would easily accommodate higher
7897 blockings. Sun recommends a blocking of 126 for Exabytes and 96 for DATs.
7898 We were told that for some DLT drives, the blocking should be a multiple
7899 of 4Kb, preferably 64Kb (@w{@kbd{-b 128}}) or 256 for decent performance.
7900 Other manufacturers may use different recommendations for the same tapes.
7901 This might also depends of the buffering techniques used inside modern
7902 tape controllers. Some imposes a minimum blocking, or a maximum blocking.
7903 Others request blocking to be some exponent of two.
7904
7905 So, there is no fixed rule for blocking. But blocking at read time
7906 should ideally be the same as blocking used at write time. At one place
7907 I know, with a wide variety of equipment, they found it best to use a
7908 blocking of 32 to guarantee that their tapes are fully interchangeable.
7909
7910 I was also told that, for recycled tapes, prior erasure (by the same
7911 drive unit that will be used to create the archives) sometimes lowers
7912 the error rates observed at rewriting time.
7913
7914 I might also use @samp{--number-blocks} instead of
7915 @samp{--block-number}, so @samp{--block} will then expand to
7916 @samp{--blocking-factor} unambiguously.
7917
7918 @node Many
7919 @section Many Archives on One Tape
7920
7921 @FIXME{Appropriate options should be moved here from elsewhere.}
7922
7923 @findex ntape @r{device}
7924 Most tape devices have two entries in the @file{/dev} directory, or
7925 entries that come in pairs, which differ only in the minor number for
7926 this device. Let's take for example @file{/dev/tape}, which often
7927 points to the only or usual tape device of a given system. There might
7928 be a corresponding @file{/dev/nrtape} or @file{/dev/ntape}. The simpler
7929 name is the @emph{rewinding} version of the device, while the name
7930 having @samp{nr} in it is the @emph{no rewinding} version of the same
7931 device.
7932
7933 A rewinding tape device will bring back the tape to its beginning point
7934 automatically when this device is opened or closed. Since @command{tar}
7935 opens the archive file before using it and closes it afterwards, this
7936 means that a simple:
7937
7938 @example
7939 $ @kbd{tar cf /dev/tape @var{directory}}
7940 @end example
7941
7942 @noindent
7943 will reposition the tape to its beginning both prior and after saving
7944 @var{directory} contents to it, thus erasing prior tape contents and
7945 making it so that any subsequent write operation will destroy what has
7946 just been saved.
7947
7948 @cindex tape positioning
7949 So, a rewinding device is normally meant to hold one and only one file.
7950 If you want to put more than one @command{tar} archive on a given tape, you
7951 will need to avoid using the rewinding version of the tape device. You
7952 will also have to pay special attention to tape positioning. Errors in
7953 positioning may overwrite the valuable data already on your tape. Many
7954 people, burnt by past experiences, will only use rewinding devices and
7955 limit themselves to one file per tape, precisely to avoid the risk of
7956 such errors. Be fully aware that writing at the wrong position on a
7957 tape loses all information past this point and most probably until the
7958 end of the tape, and this destroyed information @emph{cannot} be
7959 recovered.
7960
7961 To save @var{directory-1} as a first archive at the beginning of a
7962 tape, and leave that tape ready for a second archive, you should use:
7963
7964 @example
7965 $ @kbd{mt -f /dev/nrtape rewind}
7966 $ @kbd{tar cf /dev/nrtape @var{directory-1}}
7967 @end example
7968
7969 @cindex tape marks
7970 @dfn{Tape marks} are special magnetic patterns written on the tape
7971 media, which are later recognizable by the reading hardware. These
7972 marks are used after each file, when there are many on a single tape.
7973 An empty file (that is to say, two tape marks in a row) signal the
7974 logical end of the tape, after which no file exist. Usually,
7975 non-rewinding tape device drivers will react to the close request issued
7976 by @command{tar} by first writing two tape marks after your archive, and by
7977 backspacing over one of these. So, if you remove the tape at that time
7978 from the tape drive, it is properly terminated. But if you write
7979 another file at the current position, the second tape mark will be
7980 erased by the new information, leaving only one tape mark between files.
7981
7982 So, you may now save @var{directory-2} as a second archive after the
7983 first on the same tape by issuing the command:
7984
7985 @example
7986 $ @kbd{tar cf /dev/nrtape @var{directory-2}}
7987 @end example
7988
7989 @noindent
7990 and so on for all the archives you want to put on the same tape.
7991
7992 Another usual case is that you do not write all the archives the same
7993 day, and you need to remove and store the tape between two archive
7994 sessions. In general, you must remember how many files are already
7995 saved on your tape. Suppose your tape already has 16 files on it, and
7996 that you are ready to write the 17th. You have to take care of skipping
7997 the first 16 tape marks before saving @var{directory-17}, say, by using
7998 these commands:
7999
8000 @example
8001 $ @kbd{mt -f /dev/nrtape rewind}
8002 $ @kbd{mt -f /dev/nrtape fsf 16}
8003 $ @kbd{tar cf /dev/nrtape @var{directory-17}}
8004 @end example
8005
8006 In all the previous examples, we put aside blocking considerations, but
8007 you should do the proper things for that as well. @xref{Blocking}.
8008
8009 @menu
8010 * Tape Positioning:: Tape Positions and Tape Marks
8011 * mt:: The @command{mt} Utility
8012 @end menu
8013
8014 @node Tape Positioning
8015 @subsection Tape Positions and Tape Marks
8016 @UNREVISED
8017
8018 Just as archives can store more than one file from the file system,
8019 tapes can store more than one archive file. To keep track of where
8020 archive files (or any other type of file stored on tape) begin and
8021 end, tape archive devices write magnetic @dfn{tape marks} on the
8022 archive media. Tape drives write one tape mark between files,
8023 two at the end of all the file entries.
8024
8025 If you think of data as a series of records "rrrr"'s, and tape marks as
8026 "*"'s, a tape might look like the following:
8027
8028 @example
8029 rrrr*rrrrrr*rrrrr*rr*rrrrr**-------------------------
8030 @end example
8031
8032 Tape devices read and write tapes using a read/write @dfn{tape
8033 head}---a physical part of the device which can only access one
8034 point on the tape at a time. When you use @command{tar} to read or
8035 write archive data from a tape device, the device will begin reading
8036 or writing from wherever on the tape the tape head happens to be,
8037 regardless of which archive or what part of the archive the tape
8038 head is on. Before writing an archive, you should make sure that no
8039 data on the tape will be overwritten (unless it is no longer needed).
8040 Before reading an archive, you should make sure the tape head is at
8041 the beginning of the archive you want to read. (The @code{restore}
8042 script will find the archive automatically. @FIXME{There is no such
8043 restore script!}@FIXME-xref{Scripted Restoration}@xref{mt}, for
8044 an explanation of the tape moving utility.
8045
8046 If you want to add new archive file entries to a tape, you should
8047 advance the tape to the end of the existing file entries, backspace
8048 over the last tape mark, and write the new archive file. If you were
8049 to add two archives to the example above, the tape might look like the
8050 following:
8051
8052 @example
8053 rrrr*rrrrrr*rrrrr*rr*rrrrr*rrr*rrrr**----------------
8054 @end example
8055
8056 @node mt
8057 @subsection The @command{mt} Utility
8058 @UNREVISED
8059
8060 @FIXME{Is it true that this only works on non-block devices?
8061 should explain the difference, (fixed or variable).}
8062 @value{xref-blocking-factor}.
8063
8064 You can use the @command{mt} utility to advance or rewind a tape past a
8065 specified number of archive files on the tape. This will allow you
8066 to move to the beginning of an archive before extracting or reading
8067 it, or to the end of all the archives before writing a new one.
8068 @FIXME{Why isn't there an "advance 'til you find two tape marks
8069 together"?}
8070
8071 The syntax of the @command{mt} command is:
8072
8073 @example
8074 @kbd{mt [-f @var{tapename}] @var{operation} [@var{number}]}
8075 @end example
8076
8077 where @var{tapename} is the name of the tape device, @var{number} is
8078 the number of times an operation is performed (with a default of one),
8079 and @var{operation} is one of the following:
8080
8081 @FIXME{is there any use for record operations?}
8082
8083 @table @kbd
8084 @item eof
8085 @itemx weof
8086 Writes @var{number} tape marks at the current position on the tape.
8087
8088 @item fsf
8089 Moves tape position forward @var{number} files.
8090
8091 @item bsf
8092 Moves tape position back @var{number} files.
8093
8094 @item rewind
8095 Rewinds the tape. (Ignores @var{number}).
8096
8097 @item offline
8098 @itemx rewoff1
8099 Rewinds the tape and takes the tape device off-line. (Ignores @var{number}).
8100
8101 @item status
8102 Prints status information about the tape unit.
8103
8104 @end table
8105
8106 @FIXME{Is there a better way to frob the spacing on the list?}
8107
8108 If you don't specify a @var{tapename}, @command{mt} uses the environment
8109 variable @env{TAPE}; if @env{TAPE} is not set, @command{mt} uses the device
8110 @file{/dev/rmt12}.
8111
8112 @command{mt} returns a 0 exit status when the operation(s) were
8113 successful, 1 if the command was unrecognized, and 2 if an operation
8114 failed.
8115
8116 @FIXME{New node on how to find an archive?}
8117
8118 If you use @value{op-extract} with the @value{op-label} option specified,
8119 @command{tar} will read an archive label (the tape head has to be positioned
8120 on it) and print an error if the archive label doesn't match the
8121 @var{archive-name} specified. @var{archive-name} can be any regular
8122 expression. If the labels match, @command{tar} extracts the archive.
8123 @value{xref-label}.
8124 @FIXME-xref{Matching Format Parameters}@FIXME{fix cross
8125 references}@samp{tar --list --label} will cause @command{tar} to print the
8126 label.
8127
8128 @FIXME{Program to list all the labels on a tape?}
8129
8130 @node Using Multiple Tapes
8131 @section Using Multiple Tapes
8132 @UNREVISED
8133
8134 Often you might want to write a large archive, one larger than will fit
8135 on the actual tape you are using. In such a case, you can run multiple
8136 @command{tar} commands, but this can be inconvenient, particularly if you
8137 are using options like @value{op-exclude} or dumping entire filesystems.
8138 Therefore, @command{tar} supports multiple tapes automatically.
8139
8140 Use @value{op-multi-volume} on the command line, and then @command{tar} will,
8141 when it reaches the end of the tape, prompt for another tape, and
8142 continue the archive. Each tape will have an independent archive, and
8143 can be read without needing the other. (As an exception to this, the
8144 file that @command{tar} was archiving when it ran out of tape will usually
8145 be split between the two archives; in this case you need to extract from
8146 the first archive, using @value{op-multi-volume}, and then put in the
8147 second tape when prompted, so @command{tar} can restore both halves of the
8148 file.)
8149
8150 @acronym{GNU} @command{tar} multi-volume archives do not use a truly
8151 portable format. You need @acronym{GNU} @command{tar} at both end to
8152 process them properly.
8153
8154 When prompting for a new tape, @command{tar} accepts any of the following
8155 responses:
8156
8157 @table @kbd
8158 @item ?
8159 Request @command{tar} to explain possible responses
8160 @item q
8161 Request @command{tar} to exit immediately.
8162 @item n @var{file name}
8163 Request @command{tar} to write the next volume on the file @var{file name}.
8164 @item !
8165 Request @command{tar} to run a subshell.
8166 @item y
8167 Request @command{tar} to begin writing the next volume.
8168 @end table
8169
8170 (You should only type @samp{y} after you have changed the tape;
8171 otherwise @command{tar} will write over the volume it just finished.)
8172
8173 If you want more elaborate behavior than this, give @command{tar} the
8174 @value{op-info-script} option. The file @var{script-name} is expected
8175 to be a program (or shell script) to be run instead of the normal
8176 prompting procedure. If the program fails, @command{tar} exits;
8177 otherwise, @command{tar} begins writing the next volume. The behavior
8178 of the
8179 @samp{n} response to the normal tape-change prompt is not available
8180 if you use @value{op-info-script}.
8181
8182 The method @command{tar} uses to detect end of tape is not perfect, and
8183 fails on some operating systems or on some devices. You can use the
8184 @value{op-tape-length} option if @command{tar} can't detect the end of the
8185 tape itself. This option selects @value{op-multi-volume} automatically.
8186 The @var{size} argument should then be the usable size of the tape.
8187 But for many devices, and floppy disks in particular, this option is
8188 never required for real, as far as we know.
8189
8190 The volume number used by @command{tar} in its tape-change prompt
8191 can be changed; if you give the @value{op-volno-file} option, then
8192 @var{file-of-number} should be an unexisting file to be created, or else,
8193 a file already containing a decimal number. That number will be used
8194 as the volume number of the first volume written. When @command{tar} is
8195 finished, it will rewrite the file with the now-current volume number.
8196 (This does not change the volume number written on a tape label, as
8197 per @value{ref-label}, it @emph{only} affects the number used in
8198 the prompt.)
8199
8200 If you want @command{tar} to cycle through a series of tape drives, then
8201 you can use the @samp{n} response to the tape-change prompt. This is
8202 error prone, however, and doesn't work at all with @value{op-info-script}.
8203 Therefore, if you give @command{tar} multiple @value{op-file} options, then
8204 the specified files will be used, in sequence, as the successive volumes
8205 of the archive. Only when the first one in the sequence needs to be
8206 used again will @command{tar} prompt for a tape change (or run the info
8207 script).
8208
8209 Multi-volume archives
8210
8211 With @value{op-multi-volume}, @command{tar} will not abort when it cannot
8212 read or write any more data. Instead, it will ask you to prepare a new
8213 volume. If the archive is on a magnetic tape, you should change tapes
8214 now; if the archive is on a floppy disk, you should change disks, etc.
8215
8216 Each volume of a multi-volume archive is an independent @command{tar}
8217 archive, complete in itself. For example, you can list or extract any
8218 volume alone; just don't specify @value{op-multi-volume}. However, if one
8219 file in the archive is split across volumes, the only way to extract
8220 it successfully is with a multi-volume extract command @samp{--extract
8221 --multi-volume} (@samp{-xM}) starting on or before the volume where
8222 the file begins.
8223
8224 For example, let's presume someone has two tape drives on a system
8225 named @file{/dev/tape0} and @file{/dev/tape1}. For having @acronym{GNU}
8226 @command{tar} to switch to the second drive when it needs to write the
8227 second tape, and then back to the first tape, etc., just do either of:
8228
8229 @smallexample
8230 $ @kbd{tar --create --multi-volume --file=/dev/tape0 --file=/dev/tape1 @var{files}}
8231 $ @kbd{tar cMff /dev/tape0 /dev/tape1 @var{files}}
8232 @end smallexample
8233
8234 @menu
8235 * Multi-Volume Archives:: Archives Longer than One Tape or Disk
8236 * Tape Files:: Tape Files
8237 @end menu
8238
8239 @node Multi-Volume Archives
8240 @subsection Archives Longer than One Tape or Disk
8241 @cindex Multi-volume archives
8242 @UNREVISED
8243
8244 To create an archive that is larger than will fit on a single unit of
8245 the media, use the @value{op-multi-volume} option in conjunction with
8246 the @value{op-create} option (@pxref{create}). A
8247 @dfn{multi-volume} archive can be manipulated like any other archive
8248 (provided the @value{op-multi-volume} option is specified), but is
8249 stored on more than one tape or disk.
8250
8251 When you specify @value{op-multi-volume}, @command{tar} does not report an
8252 error when it comes to the end of an archive volume (when reading), or
8253 the end of the media (when writing). Instead, it prompts you to load
8254 a new storage volume. If the archive is on a magnetic tape, you
8255 should change tapes when you see the prompt; if the archive is on a
8256 floppy disk, you should change disks; etc.
8257
8258 You can read each individual volume of a multi-volume archive as if it
8259 were an archive by itself. For example, to list the contents of one
8260 volume, use @value{op-list}, without @value{op-multi-volume} specified.
8261 To extract an archive member from one volume (assuming it is described
8262 that volume), use @value{op-extract}, again without
8263 @value{op-multi-volume}.
8264
8265 If an archive member is split across volumes (ie. its entry begins on
8266 one volume of the media and ends on another), you need to specify
8267 @value{op-multi-volume} to extract it successfully. In this case, you
8268 should load the volume where the archive member starts, and use
8269 @samp{tar --extract --multi-volume}---@command{tar} will prompt for later
8270 volumes as it needs them. @xref{extracting archives}, for more
8271 information about extracting archives.
8272
8273 @value{op-info-script} is like @value{op-multi-volume}, except that
8274 @command{tar} does not prompt you directly to change media volumes when
8275 a volume is full---instead, @command{tar} runs commands you have stored
8276 in @var{script-name}. For example, this option can be used to eject
8277 cassettes, or to broadcast messages such as @samp{Someone please come
8278 change my tape} when performing unattended backups. When @var{script-name}
8279 is done, @command{tar} will assume that the media has been changed.
8280
8281 Multi-volume archives can be modified like any other archive. To add
8282 files to a multi-volume archive, you need to only mount the last
8283 volume of the archive media (and new volumes, if needed). For all
8284 other operations, you need to use the entire archive.
8285
8286 If a multi-volume archive was labeled using @value{op-label}
8287 (@value{pxref-label}) when it was created, @command{tar} will not
8288 automatically label volumes which are added later. To label subsequent
8289 volumes, specify @value{op-label} again in conjunction with the
8290 @value{op-append}, @value{op-update} or @value{op-concatenate} operation.
8291
8292 @cindex Labeling multi-volume archives
8293 @FIXME{example}
8294
8295 @FIXME{There should be a sample program here, including an exit
8296 before end. Is the exit status even checked in tar? :-(}
8297
8298 @table @kbd
8299 @item --multi-volume
8300 @itemx -M
8301 Creates a multi-volume archive, when used in conjunction with
8302 @value{op-create}. To perform any other operation on a multi-volume
8303 archive, specify @value{op-multi-volume} in conjunction with that
8304 operation.
8305
8306 @item --info-script=@var{program-file}
8307 @itemx -F @var{program-file}
8308 Creates a multi-volume archive via a script. Used in conjunction with
8309 @value{op-create}.
8310 @end table
8311
8312 Beware that there is @emph{no} real standard about the proper way, for
8313 a @command{tar} archive, to span volume boundaries. If you have a
8314 multi-volume created by some vendor's @command{tar}, there is almost
8315 no chance you could read all the volumes with @acronym{GNU}
8316 @command{tar}. The converse is also true: you may not expect
8317 multi-volume archives created by @acronym{GNU} @command{tar} to be
8318 fully recovered by vendor's @command{tar}. Since there is little
8319 chance that, in mixed system configurations, some vendor's
8320 @command{tar} will work on another vendor's machine, and there is a
8321 great chance that @acronym{GNU} @command{tar} will work on most of
8322 them, your best bet is to install @acronym{GNU} @command{tar} on all
8323 machines between which you know exchange of files is possible.
8324
8325 @node Tape Files
8326 @subsection Tape Files
8327 @UNREVISED
8328
8329 To give the archive a name which will be recorded in it, use the
8330 @value{op-label} option. This will write a special block identifying
8331 @var{volume-label} as the name of the archive to the front of the archive
8332 which will be displayed when the archive is listed with @value{op-list}.
8333 If you are creating a multi-volume archive with
8334 @value{op-multi-volume}@FIXME-pxref{Using Multiple Tapes}, then the
8335 volume label will have
8336 @samp{Volume @var{nnn}} appended to the name you give, where @var{nnn} is
8337 the number of the volume of the archive. (If you use the @value{op-label}
8338 option when reading an archive, it checks to make sure the label on the
8339 tape matches the one you give. @value{xref-label}.
8340
8341 When @command{tar} writes an archive to tape, it creates a single
8342 tape file. If multiple archives are written to the same tape, one
8343 after the other, they each get written as separate tape files. When
8344 extracting, it is necessary to position the tape at the right place
8345 before running @command{tar}. To do this, use the @command{mt} command.
8346 For more information on the @command{mt} command and on the organization
8347 of tapes into a sequence of tape files, see @ref{mt}.
8348
8349 People seem to often do:
8350
8351 @example
8352 @kbd{--label="@var{some-prefix} `date +@var{some-format}`"}
8353 @end example
8354
8355 or such, for pushing a common date in all volumes or an archive set.
8356
8357 @node label
8358 @section Including a Label in the Archive
8359 @cindex Labeling an archive
8360 @cindex Labels on the archive media
8361 @UNREVISED
8362
8363 @table @kbd
8364 @item -V @var{name}
8365 @itemx --label=@var{name}
8366 Create archive with volume name @var{name}.
8367 @end table
8368
8369 This option causes @command{tar} to write out a @dfn{volume header} at
8370 the beginning of the archive. If @value{op-multi-volume} is used, each
8371 volume of the archive will have a volume header of @samp{@var{name}
8372 Volume @var{n}}, where @var{n} is 1 for the first volume, 2 for the
8373 next, and so on.
8374
8375 @FIXME{Should the arg to --label be a quoted string?? No.}
8376
8377 To avoid problems caused by misplaced paper labels on the archive
8378 media, you can include a @dfn{label} entry---an archive member which
8379 contains the name of the archive---in the archive itself. Use the
8380 @value{op-label} option in conjunction with the @value{op-create} operation
8381 to include a label entry in the archive as it is being created.
8382
8383 If you create an archive using both @value{op-label} and
8384 @value{op-multi-volume}, each volume of the archive will have an
8385 archive label of the form @samp{@var{archive-label} Volume @var{n}},
8386 where @var{n} is 1 for the first volume, 2 for the next, and so on.
8387 @FIXME-xref{Multi-Volume Archives, for information on creating multiple
8388 volume archives.}
8389
8390 If you list or extract an archive using @value{op-label}, @command{tar} will
8391 print an error if the archive label doesn't match the @var{archive-label}
8392 specified, and will then not list nor extract the archive. In those cases,
8393 @var{archive-label} argument is interpreted as a globbing-style pattern
8394 which must match the actual magnetic volume label. @xref{exclude}, for
8395 a precise description of how match is attempted@footnote{Previous versions
8396 of @command{tar} used full regular expression matching, or before that, only
8397 exact string matching, instead of wildcard matchers. We decided for the
8398 sake of simplicity to use a uniform matching device through @command{tar}.}.
8399 If the switch @value{op-multi-volume} is being used, the volume label
8400 matcher will also suffix @var{archive-label} by @w{@samp{ Volume [1-9]*}}
8401 if the initial match fails, before giving up. Since the volume numbering
8402 is automatically added in labels at creation time, it sounded logical to
8403 equally help the user taking care of it when the archive is being read.
8404
8405 The @value{op-label} was once called @samp{--volume}, but is not available
8406 under that name anymore.
8407
8408 To find out an archive's label entry (or to find out if an archive has
8409 a label at all), use @samp{tar --list --verbose}. @command{tar} will
8410 print the label first, and then print archive member information, as
8411 in the example below:
8412
8413 @example
8414 $ @kbd{tar --verbose --list --file=iamanarchive}
8415 V--------- 0 0 0 1992-03-07 12:01 iamalabel--Volume Header--
8416 -rw-rw-rw- ringo user 40 1990-05-21 13:30 iamafilename
8417 @end example
8418
8419 @table @kbd
8420 @item --label=@var{archive-label}
8421 @itemx -V @var{archive-label}
8422 Includes an @dfn{archive-label} at the beginning of the archive when
8423 the archive is being created, when used in conjunction with the
8424 @value{op-create} option. Checks to make sure the archive label
8425 matches the one specified (when used in conjunction with the
8426 @value{op-extract} option.
8427 @end table
8428
8429 To get a common information on all tapes of a series, use the
8430 @value{op-label} option. For having this information different in each
8431 series created through a single script used on a regular basis, just
8432 manage to get some date string as part of the label. For example:
8433
8434 @example
8435 $ @kbd{tar cfMV /dev/tape "Daily backup for `date +%Y-%m-%d`"}
8436 $ @kbd{tar --create --file=/dev/tape --multi-volume \
8437 --volume="Daily backup for `date +%Y-%m-%d`"}
8438 @end example
8439
8440 Also note that each label has its own date and time, which corresponds
8441 to when @acronym{GNU} @command{tar} initially attempted to write it,
8442 often soon after the operator launches @command{tar} or types the
8443 carriage return telling that the next tape is ready. Comparing date
8444 labels does give an idea of tape throughput only if the delays for
8445 rewinding tapes and the operator switching them were negligible, which
8446 is usually not the case.
8447
8448 @FIXME{was --volume}
8449
8450 @node verify
8451 @section Verifying Data as It is Stored
8452 @cindex Verifying a write operation
8453 @cindex Double-checking a write operation
8454
8455 @table @kbd
8456 @item -W
8457 @itemx --verify
8458 Attempt to verify the archive after writing.
8459 @end table
8460
8461 This option causes @command{tar} to verify the archive after writing it.
8462 Each volume is checked after it is written, and any discrepancies
8463 are recorded on the standard error output.
8464
8465 Verification requires that the archive be on a back-space-able medium.
8466 This means pipes, some cartridge tape drives, and some other devices
8467 cannot be verified.
8468
8469 You can insure the accuracy of an archive by comparing files in the
8470 system with archive members. @command{tar} can compare an archive to the
8471 file system as the archive is being written, to verify a write
8472 operation, or can compare a previously written archive, to insure that
8473 it is up to date.
8474
8475 To check for discrepancies in an archive immediately after it is
8476 written, use the @value{op-verify} option in conjunction with
8477 the @value{op-create} operation. When this option is
8478 specified, @command{tar} checks archive members against their counterparts
8479 in the file system, and reports discrepancies on the standard error.
8480
8481 To verify an archive, you must be able to read it from before the end
8482 of the last written entry. This option is useful for detecting data
8483 errors on some tapes. Archives written to pipes, some cartridge tape
8484 drives, and some other devices cannot be verified.
8485
8486 One can explicitly compare an already made archive with the file system
8487 by using the @value{op-compare} option, instead of using the more automatic
8488 @value{op-verify} option. @value{xref-compare}.
8489
8490 Note that these two options have a slightly different intent. The
8491 @value{op-compare} option how identical are the logical contents of some
8492 archive with what is on your disks, while the @value{op-verify} option is
8493 really for checking if the physical contents agree and if the recording
8494 media itself is of dependable quality. So, for the @value{op-verify}
8495 operation, @command{tar} tries to defeat all in-memory cache pertaining to
8496 the archive, while it lets the speed optimization undisturbed for the
8497 @value{op-compare} option. If you nevertheless use @value{op-compare} for
8498 media verification, you may have to defeat the in-memory cache yourself,
8499 maybe by opening and reclosing the door latch of your recording unit,
8500 forcing some doubt in your operating system about the fact this is really
8501 the same volume as the one just written or read.
8502
8503 The @value{op-verify} option would not be necessary if drivers were indeed
8504 able to detect dependably all write failures. This sometimes require many
8505 magnetic heads, some able to read after the writes occurred. One would
8506 not say that drivers unable to detect all cases are necessarily flawed,
8507 as long as programming is concerned.
8508
8509 The @value{op-verify} option will not work in conjunction with the
8510 @value{op-multi-volume} option or the @value{op-append},
8511 @value{op-update} and @value{op-delete} operations. @xref{Operations},
8512 for more information on these operations.
8513
8514 Also, since @command{tar} normally strips leading @samp{/} from file
8515 names (@pxref{absolute}), a command like @samp{tar --verify -cf
8516 /tmp/foo.tar /etc} will work as desired only if the working directory is
8517 @file{/}, as @command{tar} uses the archive's relative member names
8518 (e.g., @file{etc/motd}) when verifying the archive.
8519
8520 @node Write Protection
8521 @section Write Protection
8522
8523 Almost all tapes and diskettes, and in a few rare cases, even disks can
8524 be @dfn{write protected}, to protect data on them from being changed.
8525 Once an archive is written, you should write protect the media to prevent
8526 the archive from being accidentally overwritten or deleted. (This will
8527 protect the archive from being changed with a tape or floppy drive---it
8528 will not protect it from magnet fields or other physical hazards).
8529
8530 The write protection device itself is usually an integral part of the
8531 physical media, and can be a two position (write enabled/write
8532 disabled) switch, a notch which can be popped out or covered, a ring
8533 which can be removed from the center of a tape reel, or some other
8534 changeable feature.
8535
8536 @node Free Software Needs Free Documentation
8537 @appendix Free Software Needs Free Documentation
8538 @include freemanuals.texi
8539
8540 @node Copying This Manual
8541 @appendix Copying This Manual
8542
8543 @menu
8544 * GNU Free Documentation License:: License for copying this manual
8545 @end menu
8546
8547 @include fdl.texi
8548
8549 @node Index
8550 @appendix Index
8551
8552 @printindex cp
8553
8554 @summarycontents
8555 @contents
8556 @bye
8557
8558 @c Local variables:
8559 @c texinfo-column-for-description: 32
8560 @c End:
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