3 @setfilename coreutils.info
5 @settitle GNU Coreutils @value{VERSION}
6 @documentencoding UTF-8
7 @set txicodequoteundirected
8 @set txicodequotebacktick
13 @include constants.texi
15 @c Define new indices.
19 @c Put everything in one index (arbitrarily chosen to be the concept index).
29 * Coreutils: (coreutils). Core GNU (file, text, shell) utilities.
30 * Common options: (coreutils)Common options.
31 * File permissions: (coreutils)File permissions. Access modes.
32 * Date input formats: (coreutils)Date input formats.
35 @c FIXME: the following need documentation
36 @c * [: (coreutils)[ invocation. File/string tests.
37 @c * pinky: (coreutils)pinky invocation. FIXME.
39 @dircategory Individual utilities
41 * arch: (coreutils)arch invocation. Print machine hardware name.
42 * b2sum: (coreutils)b2sum invocation. Print or check BLAKE2 digests.
43 * base32: (coreutils)base32 invocation. Base32 encode/decode data.
44 * base64: (coreutils)base64 invocation. Base64 encode/decode data.
45 * basename: (coreutils)basename invocation. Strip directory and suffix.
46 * basenc: (coreutils)basenc invocation. Encoding/decoding of data.
47 * cat: (coreutils)cat invocation. Concatenate and write files.
48 * chcon: (coreutils)chcon invocation. Change SELinux CTX of files.
49 * chgrp: (coreutils)chgrp invocation. Change file groups.
50 * chmod: (coreutils)chmod invocation. Change access permissions.
51 * chown: (coreutils)chown invocation. Change file owners and groups.
52 * chroot: (coreutils)chroot invocation. Specify the root directory.
53 * cksum: (coreutils)cksum invocation. Print POSIX CRC checksum.
54 * comm: (coreutils)comm invocation. Compare sorted files by line.
55 * cp: (coreutils)cp invocation. Copy files.
56 * csplit: (coreutils)csplit invocation. Split by context.
57 * cut: (coreutils)cut invocation. Print selected parts of lines.
58 * date: (coreutils)date invocation. Print/set system date and time.
59 * dd: (coreutils)dd invocation. Copy and convert a file.
60 * df: (coreutils)df invocation. Report file system usage.
61 * dir: (coreutils)dir invocation. List directories briefly.
62 * dircolors: (coreutils)dircolors invocation. Color setup for ls.
63 * dirname: (coreutils)dirname invocation. Strip last file name component.
64 * du: (coreutils)du invocation. Report file usage.
65 * echo: (coreutils)echo invocation. Print a line of text.
66 * env: (coreutils)env invocation. Modify the environment.
67 * expand: (coreutils)expand invocation. Convert tabs to spaces.
68 * expr: (coreutils)expr invocation. Evaluate expressions.
69 * factor: (coreutils)factor invocation. Print prime factors
70 * false: (coreutils)false invocation. Do nothing, unsuccessfully.
71 * fmt: (coreutils)fmt invocation. Reformat paragraph text.
72 * fold: (coreutils)fold invocation. Wrap long input lines.
73 * groups: (coreutils)groups invocation. Print group names a user is in.
74 * head: (coreutils)head invocation. Output the first part of files.
75 * hostid: (coreutils)hostid invocation. Print numeric host identifier.
76 * hostname: (coreutils)hostname invocation. Print or set system name.
77 * id: (coreutils)id invocation. Print user identity.
78 * install: (coreutils)install invocation. Copy files and set attributes.
79 * join: (coreutils)join invocation. Join lines on a common field.
80 * kill: (coreutils)kill invocation. Send a signal to processes.
81 * link: (coreutils)link invocation. Make hard links between files.
82 * ln: (coreutils)ln invocation. Make links between files.
83 * logname: (coreutils)logname invocation. Print current login name.
84 * ls: (coreutils)ls invocation. List directory contents.
85 * md5sum: (coreutils)md5sum invocation. Print or check MD5 digests.
86 * mkdir: (coreutils)mkdir invocation. Create directories.
87 * mkfifo: (coreutils)mkfifo invocation. Create FIFOs (named pipes).
88 * mknod: (coreutils)mknod invocation. Create special files.
89 * mktemp: (coreutils)mktemp invocation. Create temporary files.
90 * mv: (coreutils)mv invocation. Rename files.
91 * nice: (coreutils)nice invocation. Modify niceness.
92 * nl: (coreutils)nl invocation. Number lines and write files.
93 * nohup: (coreutils)nohup invocation. Immunize to hangups.
94 * nproc: (coreutils)nproc invocation. Print the number of processors.
95 * numfmt: (coreutils)numfmt invocation. Reformat numbers.
96 * od: (coreutils)od invocation. Dump files in octal, etc.
97 * paste: (coreutils)paste invocation. Merge lines of files.
98 * pathchk: (coreutils)pathchk invocation. Check file name portability.
99 * pinky: (coreutils)pinky invocation. Print information about users.
100 * pr: (coreutils)pr invocation. Paginate or columnate files.
101 * printenv: (coreutils)printenv invocation. Print environment variables.
102 * printf: (coreutils)printf invocation. Format and print data.
103 * ptx: (coreutils)ptx invocation. Produce permuted indexes.
104 * pwd: (coreutils)pwd invocation. Print working directory.
105 * readlink: (coreutils)readlink invocation. Print referent of a symlink.
106 * realpath: (coreutils)realpath invocation. Print resolved file names.
107 * rm: (coreutils)rm invocation. Remove files.
108 * rmdir: (coreutils)rmdir invocation. Remove empty directories.
109 * runcon: (coreutils)runcon invocation. Run in specified SELinux CTX.
110 * seq: (coreutils)seq invocation. Print numeric sequences
111 * sha1sum: (coreutils)sha1sum invocation. Print or check SHA-1 digests.
112 * sha2: (coreutils)sha2 utilities. Print or check SHA-2 digests.
113 * shred: (coreutils)shred invocation. Remove files more securely.
114 * shuf: (coreutils)shuf invocation. Shuffling text files.
115 * sleep: (coreutils)sleep invocation. Delay for a specified time.
116 * sort: (coreutils)sort invocation. Sort text files.
117 * split: (coreutils)split invocation. Split into pieces.
118 * stat: (coreutils)stat invocation. Report file(system) status.
119 * stdbuf: (coreutils)stdbuf invocation. Modify stdio buffering.
120 * stty: (coreutils)stty invocation. Print/change terminal settings.
121 * sum: (coreutils)sum invocation. Print traditional checksum.
122 * sync: (coreutils)sync invocation. Sync files to stable storage.
123 * tac: (coreutils)tac invocation. Reverse files.
124 * tail: (coreutils)tail invocation. Output the last part of files.
125 * tee: (coreutils)tee invocation. Redirect to multiple files.
126 * test: (coreutils)test invocation. File/string tests.
127 * timeout: (coreutils)timeout invocation. Run with time limit.
128 * touch: (coreutils)touch invocation. Change file timestamps.
129 * tr: (coreutils)tr invocation. Translate characters.
130 * true: (coreutils)true invocation. Do nothing, successfully.
131 * truncate: (coreutils)truncate invocation. Shrink/extend size of a file.
132 * tsort: (coreutils)tsort invocation. Topological sort.
133 * tty: (coreutils)tty invocation. Print terminal name.
134 * uname: (coreutils)uname invocation. Print system information.
135 * unexpand: (coreutils)unexpand invocation. Convert spaces to tabs.
136 * uniq: (coreutils)uniq invocation. Uniquify files.
137 * unlink: (coreutils)unlink invocation. Removal via unlink(2).
138 * uptime: (coreutils)uptime invocation. Print uptime and load.
139 * users: (coreutils)users invocation. Print current user names.
140 * vdir: (coreutils)vdir invocation. List directories verbosely.
141 * wc: (coreutils)wc invocation. Line, word, and byte counts.
142 * who: (coreutils)who invocation. Print who is logged in.
143 * whoami: (coreutils)whoami invocation. Print effective user ID.
144 * yes: (coreutils)yes invocation. Print a string indefinitely.
148 This manual documents version @value{VERSION} of the GNU core
149 utilities, including the standard programs for text and file manipulation.
151 Copyright @copyright{} 1994--2024 Free Software Foundation, Inc.
154 Permission is granted to copy, distribute and/or modify this document
155 under the terms of the GNU Free Documentation License, Version 1.3 or
156 any later version published by the Free Software Foundation; with no
157 Invariant Sections, with no Front-Cover Texts, and with no Back-Cover
158 Texts. A copy of the license is included in the section entitled ``GNU
159 Free Documentation License''.
164 @title GNU @code{Coreutils}
165 @subtitle Core GNU utilities
166 @subtitle for version @value{VERSION}, @value{UPDATED}
167 @author David MacKenzie et al.
170 @vskip 0pt plus 1filll
183 @cindex core utilities
184 @cindex text utilities
185 @cindex shell utilities
186 @cindex file utilities
189 * Introduction:: Caveats, overview, and authors
190 * Common options:: Common options
191 * Output of entire files:: cat tac nl od base32 base64 basenc
192 * Formatting file contents:: fmt pr fold
193 * Output of parts of files:: head tail split csplit
194 * Summarizing files:: wc sum cksum b2sum md5sum sha1sum sha2
195 * Operating on sorted files:: sort shuf uniq comm ptx tsort
196 * Operating on fields:: cut paste join
197 * Operating on characters:: tr expand unexpand
198 * Directory listing:: ls dir vdir dircolors
199 * Basic operations:: cp dd install mv rm shred
200 * Special file types:: mkdir rmdir unlink mkfifo mknod ln link readlink
201 * Changing file attributes:: chgrp chmod chown touch
202 * File space usage:: df du stat sync truncate
203 * Printing text:: echo printf yes
204 * Conditions:: false true test expr
206 * File name manipulation:: dirname basename pathchk mktemp realpath
207 * Working context:: pwd stty printenv tty
208 * User information:: id logname whoami groups users who
209 * System context:: date arch nproc uname hostname hostid uptime
210 * SELinux context:: chcon runcon
211 * Modified command invocation:: chroot env nice nohup stdbuf timeout
212 * Process control:: kill
214 * Numeric operations:: factor numfmt seq
215 * File permissions:: Access modes
216 * File timestamps:: File timestamp issues
217 * Date input formats:: Specifying date strings
218 * Version sort ordering:: Details on version-sort algorithm
219 * Opening the software toolbox:: The software tools philosophy
220 * GNU Free Documentation License:: Copying and sharing this manual
221 * Concept index:: General index
224 --- The Detailed Node Listing ---
228 * Exit status:: Indicating program success or failure
229 * Backup options:: Backup options
230 * Block size:: Block size
231 * Floating point:: Floating point number representation
232 * Signal specifications:: Specifying signals
233 * Disambiguating names and IDs:: chgrp, chown, chroot, id: user and group syntax
234 * Random sources:: Sources of random data
235 * Target directory:: Target directory
236 * Trailing slashes:: Trailing slashes
237 * Traversing symlinks:: Traversing symlinks to directories
238 * Treating / specially:: Treating / specially
239 * Standards conformance:: Standards conformance
240 * Multi-call invocation:: Multi-call program invocation
242 Output of entire files
244 * cat invocation:: Concatenate and write files
245 * tac invocation:: Concatenate and write files in reverse
246 * nl invocation:: Number lines and write files
247 * od invocation:: Write files in octal or other formats
248 * base32 invocation:: Transform data into printable data
249 * base64 invocation:: Transform data into printable data
250 * basenc invocation:: Transform data into printable data
252 Formatting file contents
254 * fmt invocation:: Reformat paragraph text
255 * pr invocation:: Paginate or columnate files for printing
256 * fold invocation:: Wrap input lines to fit in specified width
258 Output of parts of files
260 * head invocation:: Output the first part of files
261 * tail invocation:: Output the last part of files
262 * split invocation:: Split a file into fixed-size pieces
263 * csplit invocation:: Split a file into context-determined pieces
267 * wc invocation:: Print newline, word, and byte counts
268 * sum invocation:: Print checksum and block counts
269 * cksum invocation:: Print CRC checksum and byte counts
270 * md5sum invocation:: Print or check MD5 digests
271 * b2sum invocation:: Print or check BLAKE2 digests
272 * sha1sum invocation:: Print or check SHA-1 digests
273 * sha2 utilities:: Print or check SHA-2 digests
275 Operating on sorted files
277 * sort invocation:: Sort text files
278 * shuf invocation:: Shuffle text files
279 * uniq invocation:: Uniquify files
280 * comm invocation:: Compare two sorted files line by line
281 * ptx invocation:: Produce a permuted index of file contents
282 * tsort invocation:: Topological sort
284 @command{ptx}: Produce permuted indexes
286 * General options in ptx:: Options which affect general program behavior
287 * Charset selection in ptx:: Underlying character set considerations
288 * Input processing in ptx:: Input fields, contexts, and keyword selection
289 * Output formatting in ptx:: Types of output format, and sizing the fields
290 * Compatibility in ptx:: The GNU extensions to @command{ptx}
294 * cut invocation:: Print selected parts of lines
295 * paste invocation:: Merge lines of files
296 * join invocation:: Join lines on a common field
298 Operating on characters
300 * tr invocation:: Translate, squeeze, and/or delete characters
301 * expand invocation:: Convert tabs to spaces
302 * unexpand invocation:: Convert spaces to tabs
304 @command{tr}: Translate, squeeze, and/or delete characters
306 * Character arrays:: Specifying arrays of characters
307 * Translating:: Changing one set of characters to another
308 * Squeezing and deleting:: Removing characters
312 * ls invocation:: List directory contents
313 * dir invocation:: Briefly list directory contents
314 * vdir invocation:: Verbosely list directory contents
315 * dircolors invocation:: Color setup for @command{ls}
317 @command{ls}: List directory contents
319 * Which files are listed:: Which files are listed
320 * What information is listed:: What information is listed
321 * Sorting the output:: Sorting the output
322 * General output formatting:: General output formatting
323 * Formatting the file names:: Formatting the file names
327 * cp invocation:: Copy files and directories
328 * dd invocation:: Convert and copy a file
329 * install invocation:: Copy files and set attributes
330 * mv invocation:: Move (rename) files
331 * rm invocation:: Remove files or directories
332 * shred invocation:: Remove files more securely
336 * link invocation:: Make a hard link via the link syscall
337 * ln invocation:: Make links between files
338 * mkdir invocation:: Make directories
339 * mkfifo invocation:: Make FIFOs (named pipes)
340 * mknod invocation:: Make block or character special files
341 * readlink invocation:: Print value of a symlink or canonical file name
342 * rmdir invocation:: Remove empty directories
343 * unlink invocation:: Remove files via unlink syscall
345 Changing file attributes
347 * chown invocation:: Change file owner and group
348 * chgrp invocation:: Change group ownership
349 * chmod invocation:: Change access permissions
350 * touch invocation:: Change file timestamps
354 * df invocation:: Report file system space usage
355 * du invocation:: Estimate file space usage
356 * stat invocation:: Report file or file system status
357 * sync invocation:: Synchronize cached writes to persistent storage
358 * truncate invocation:: Shrink or extend the size of a file
362 * echo invocation:: Print a line of text
363 * printf invocation:: Format and print data
364 * yes invocation:: Print a string until interrupted
368 * false invocation:: Do nothing, unsuccessfully
369 * true invocation:: Do nothing, successfully
370 * test invocation:: Check file types and compare values
371 * expr invocation:: Evaluate expressions
373 @command{test}: Check file types and compare values
375 * File type tests:: File type tests
376 * Access permission tests:: Access permission tests
377 * File characteristic tests:: File characteristic tests
378 * String tests:: String tests
379 * Numeric tests:: Numeric tests
381 @command{expr}: Evaluate expression
383 * String expressions:: @code{+ : match substr index length}
384 * Numeric expressions:: @code{+ - * / %}
385 * Relations for expr:: @code{| & < <= = == != >= >}
386 * Examples of expr:: Examples of using @command{expr}
390 * tee invocation:: Redirect output to multiple files or processes
392 File name manipulation
394 * basename invocation:: Strip directory and suffix from a file name
395 * dirname invocation:: Strip last file name component
396 * pathchk invocation:: Check file name validity and portability
397 * mktemp invocation:: Create temporary file or directory
398 * realpath invocation:: Print resolved file names
402 * pwd invocation:: Print working directory
403 * stty invocation:: Print or change terminal characteristics
404 * printenv invocation:: Print all or some environment variables
405 * tty invocation:: Print file name of terminal on standard input
407 @command{stty}: Print or change terminal characteristics
409 * Control:: Control settings
410 * Input:: Input settings
411 * Output:: Output settings
412 * Local:: Local settings
413 * Combination:: Combination settings
414 * Characters:: Special characters
415 * Special:: Special settings
419 * id invocation:: Print user identity
420 * logname invocation:: Print current login name
421 * whoami invocation:: Print effective user ID
422 * groups invocation:: Print group names a user is in
423 * users invocation:: Print login names of users currently logged in
424 * who invocation:: Print who is currently logged in
425 * pinky invocation:: Print information about users
429 * arch invocation:: Print machine hardware name
430 * date invocation:: Print or set system date and time
431 * nproc invocation:: Print the number of processors
432 * uname invocation:: Print system information
433 * hostname invocation:: Print or set system name
434 * hostid invocation:: Print numeric host identifier
435 * uptime invocation:: Print system uptime and load
437 @command{date}: Print or set system date and time
439 * Time conversion specifiers:: %[HIklMNpPrRsSTXzZ]
440 * Date conversion specifiers:: %[aAbBcCdDeFgGhjmuUVwWxyY]
441 * Literal conversion specifiers:: %[%nt]
442 * Padding and other flags:: Pad with zeros, spaces, etc.
443 * Setting the time:: Changing the system clock
444 * Options for date:: Instead of the current time
445 * Date input formats:: Specifying date strings
446 * Examples of date:: Examples
450 * chcon invocation:: Change SELinux context of file
451 * runcon invocation:: Run a command in specified SELinux context
453 Modified command invocation
455 * chroot invocation:: Run a command with a different root directory
456 * env invocation:: Run a command in a modified environment
457 * nice invocation:: Run a command with modified niceness
458 * nohup invocation:: Run a command immune to hangups
459 * stdbuf invocation:: Run a command with modified I/O buffering
460 * timeout invocation:: Run a command with a time limit
464 * kill invocation:: Sending a signal to processes.
468 * sleep invocation:: Delay for a specified time
472 * factor invocation:: Print prime factors
473 * numfmt invocation:: Reformat numbers
474 * seq invocation:: Print numeric sequences
479 * File timestamps:: File timestamp issues
483 * Mode Structure:: Structure of file mode bits
484 * Symbolic Modes:: Mnemonic representation of file mode bits
485 * Numeric Modes:: File mode bits as octal numbers
486 * Directory Setuid and Setgid:: Set-user-ID and set-group-ID on directories
490 * General date syntax:: Common rules
491 * Calendar date items:: @samp{14 Nov 2022}
492 * Time of day items:: @samp{9:02pm}
493 * Time zone items:: @samp{UTC}, @samp{-0700}, @samp{+0900}, @dots{}
494 * Combined date and time of day items:: @samp{2022-11-14T21:02:42,000000-0500}
495 * Day of week items:: @samp{Monday} and others
496 * Relative items in date strings:: @samp{next tuesday, 2 years ago}
497 * Pure numbers in date strings:: @samp{20221114}, @samp{2102}
498 * Seconds since the Epoch:: @samp{@@1668477762}
499 * Specifying time zone rules:: @samp{TZ="America/New_York"}, @samp{TZ="UTC0"}
500 * Authors of parse_datetime:: Bellovin, Eggert, Salz, Berets, et al.
502 Version sorting order
504 * Version sort overview::
505 * Version sort implementation::
506 * Differences from Debian version sort::
507 * Advanced version sort topics::
509 Opening the software toolbox
511 * Toolbox introduction:: Toolbox introduction
512 * I/O redirection:: I/O redirection
513 * The who command:: The @command{who} command
514 * The cut command:: The @command{cut} command
515 * The sort command:: The @command{sort} command
516 * The uniq command:: The @command{uniq} command
517 * Putting the tools together:: Putting the tools together
521 * GNU Free Documentation License:: Copying and sharing this manual
528 @chapter Introduction
530 This manual is a work in progress: many sections make no attempt to explain
531 basic concepts in a way suitable for novices. Thus, if you are interested,
532 please get involved in improving this manual. The entire GNU community
536 The GNU utilities documented here are mostly compatible with the
538 @cindex bugs, reporting
540 Please report bugs to @email{bug-coreutils@@gnu.org}.
541 Include the version number, machine architecture, input files, and
542 any other information needed to reproduce the bug: your input, what you
543 expected, what you got, and why it is wrong.
545 If you have a problem with @command{sort} or @command{date}, try using the
546 @option{--debug} option, as it can often help find and fix problems without
547 having to wait for an answer to a bug report. If the debug output
548 does not suffice to fix the problem on your own, please compress and
549 attach it to the rest of your bug report.
551 Although diffs are welcome,
552 please include a description of the problem as well, since this is
553 sometimes difficult to infer. @xref{Bugs, , , gcc, Using and Porting GNU CC}.
559 @cindex MacKenzie, D.
562 This manual was originally derived from the Unix man pages in the
563 distributions, which were written by David MacKenzie and updated by Jim
564 Meyering. What you are reading now is the authoritative documentation
565 for these utilities; the man pages are no longer being maintained. The
566 original @command{fmt} man page was written by Ross Paterson. Fran@,{c}ois
567 Pinard did the initial conversion to Texinfo format. Karl Berry did the
568 indexing, some reorganization, and editing of the results. Brian
569 Youmans of the Free Software Foundation office staff combined the
570 manuals for textutils, fileutils, and sh-utils to produce the present
571 omnibus manual. Richard Stallman contributed his usual invaluable
572 insights to the overall process.
575 @chapter Common options
579 @itemx --backup[=@var{method}]
582 @vindex VERSION_CONTROL
583 @cindex backups, making
584 @xref{Backup options}.
585 Make a backup of each file that would otherwise be overwritten or removed.
588 @macro optBackupSuffix
589 @item -S @var{suffix}
590 @itemx --suffix=@var{suffix}
593 Append @var{suffix} to each backup file made with @option{-b}.
594 @xref{Backup options}.
597 @macro optTargetDirectory
598 @item -t @var{directory}
599 @itemx --target-directory=@var{directory}
601 @opindex --target-directory
602 @cindex target directory
603 @cindex destination directory
604 Specify the destination @var{directory}.
605 @xref{Target directory}.
608 @macro optNoTargetDirectory
610 @itemx --no-target-directory
612 @opindex --no-target-directory
613 @cindex target directory
614 @cindex destination directory
615 Do not treat the last operand specially when it is a directory or a
616 symbolic link to a directory. @xref{Target directory}.
620 @cindex output NUL-byte-terminated lines
621 Output a zero byte (ASCII NUL) at the end of each line,
622 rather than a newline. This option enables other programs to parse the
623 output even when that output would contain data with embedded newlines.
642 @macro optZeroTerminated
644 @itemx --zero-terminated
646 @opindex --zero-terminated
647 @cindex process zero-terminated items
648 Delimit items with a zero byte rather than a newline (ASCII LF).
649 I.e., treat input as items separated by ASCII NUL
650 and terminate output items with ASCII NUL.
651 This option can be useful in conjunction with @samp{perl -0} or
652 @samp{find -print0} and @samp{xargs -0} which do the same in order to
653 reliably handle arbitrary file names (even those containing blanks
654 or other special characters).
661 Append an SI-style abbreviation to each size, such as @samp{M} for
662 megabytes. Powers of 1000 are used, not 1024; @samp{M} stands for
663 1,000,000 bytes. This option is equivalent to
664 @option{--block-size=si}. Use the @option{-h} or
665 @option{--human-readable} option if
666 you prefer powers of 1024.
669 @macro optHumanReadable
671 @itemx --human-readable
673 @opindex --human-readable
674 @cindex human-readable output
675 Append a size letter to each size, such as @samp{M} for mebibytes.
676 Powers of 1024 are used, not 1000; @samp{M} stands for 1,048,576 bytes.
677 This option is equivalent to @option{--block-size=human-readable}.
678 Use the @option{--si} option if you prefer powers of 1000.
681 @macro optStripTrailingSlashes
682 @item --strip-trailing-slashes
683 @opindex --strip-trailing-slashes
684 @cindex stripping trailing slashes
685 Remove any trailing slashes from each @var{source} argument.
686 @xref{Trailing slashes}.
689 @macro mayConflictWithShellBuiltIn{cmd}
690 @cindex conflicts with shell built-ins
691 @cindex built-in shell commands, conflicts with
692 Due to shell aliases and built-in @command{\cmd\} functions, using an
693 unadorned @command{\cmd\} interactively or in a script may get you
694 different functionality than that described here. Invoke it via
695 @command{env} (i.e., @code{env \cmd\ @dots{}}) to avoid interference
700 @macro multiplierSuffixes{varName}
701 @var{\varName\} may be, or may be an integer optionally followed by,
702 one of the following multiplicative suffixes:
704 @samp{b} => 512 ("blocks")
705 @samp{KB} => 1000 (KiloBytes)
706 @samp{K} => 1024 (KibiBytes)
707 @samp{MB} => 1000*1000 (MegaBytes)
708 @samp{M} => 1024*1024 (MebiBytes)
709 @samp{GB} => 1000*1000*1000 (GigaBytes)
710 @samp{G} => 1024*1024*1024 (GibiBytes)
712 and so on for @samp{T}, @samp{P}, @samp{E}, @samp{Z}, @samp{Y},
713 @samp{R}, and @samp{Q}.
714 Binary prefixes can be used, too: @samp{KiB}=@samp{K}, @samp{MiB}=@samp{M},
718 @c FIXME: same as above, but no ``blocks'' line.
719 @macro multiplierSuffixesNoBlocks{varName}
720 @var{\varName\} may be, or may be an integer optionally followed by,
721 one of the following multiplicative suffixes:
723 @samp{KB} => 1000 (KiloBytes)
724 @samp{K} => 1024 (KibiBytes)
725 @samp{MB} => 1000*1000 (MegaBytes)
726 @samp{M} => 1024*1024 (MebiBytes)
727 @samp{GB} => 1000*1000*1000 (GigaBytes)
728 @samp{G} => 1024*1024*1024 (GibiBytes)
730 and so on for @samp{T}, @samp{P}, @samp{E}, @samp{Z}, @samp{Y},
731 @samp{R}, and @samp{Q}.
732 Binary prefixes can be used, too: @samp{KiB}=@samp{K}, @samp{MiB}=@samp{M},
736 @cindex common options
738 Certain options are available in all of these programs. Rather than
739 writing identical descriptions for each of the programs, they are
740 described here. (In fact, every GNU program accepts (or should accept)
743 @vindex POSIXLY_CORRECT
744 Normally options and operands can appear in any order, and programs act
745 as if all the options appear before any operands. For example,
746 @samp{sort -r passwd -t :} acts like @samp{sort -r -t : passwd}, since
747 @samp{:} is an option-argument of @option{-t}. However, if the
748 @env{POSIXLY_CORRECT} environment variable is set, options must appear
749 before operands, unless otherwise specified for a particular command.
751 A few programs can usefully have trailing operands with leading
752 @samp{-}. With such a program, options must precede operands even if
753 @env{POSIXLY_CORRECT} is not set, and this fact is noted in the
754 program description. For example, the @command{env} command's options
755 must appear before its operands, since in some cases the operands
756 specify a command that itself contains options.
758 Most programs that accept long options recognize unambiguous
759 abbreviations of those options. For example, @samp{rmdir
760 --ignore-fail-on-non-empty} can be invoked as @samp{rmdir
761 --ignore-fail} or even @samp{rmdir --i}. Ambiguous options, such as
762 @samp{ls --h}, are identified as such.
764 Some of these programs recognize the @option{--help} and @option{--version}
765 options only when one of them is the sole command line argument. For
766 these programs, abbreviations of the long options are not always recognized.
773 Print a usage message listing all available options, then exit successfully.
777 @cindex version number, finding
778 Print the version number, then exit successfully.
782 @cindex option delimiter
783 Delimit the option list. Later arguments, if any, are treated as
784 operands even if they begin with @samp{-}. For example, @samp{sort --
785 -r} reads from the file named @file{-r}.
789 @cindex standard input
790 @cindex standard output
791 A single @samp{-} operand is not really an option, though it looks like one. It
792 stands for a file operand, and some tools treat it as standard input, or as
793 standard output if that is clear from the context. For example, @samp{sort -}
794 reads from standard input, and is equivalent to plain @samp{sort}. Unless
795 otherwise specified, a @samp{-} can appear as any operand that requires a file
799 Items shared between some programs:
801 * Backup options:: @option{-b} @option{-S}.
802 * Block size:: BLOCK_SIZE and @option{--block-size}.
803 * Signal specifications:: Specifying signals with @option{--signal}.
804 * Disambiguating names and IDs:: chgrp, chown, chroot, id: user and group syntax
805 * Random sources:: @option{--random-source}.
806 * Target directory:: Specifying a target directory.
807 * Trailing slashes:: @option{--strip-trailing-slashes}.
808 * Traversing symlinks:: @option{-H}, @option{-L}, or @option{-P}.
809 * Treating / specially:: @option{--preserve-root} and the converse.
810 * Special built-in utilities:: @command{break}, @command{:}, @dots{}
812 Items applicable to all programs:
814 * Exit status:: Indicating program success or failure.
815 * Floating point:: Floating point number representation.
816 * Standards conformance:: Conformance to the POSIX standard.
817 * Multi-call invocation:: Multi-call program invocation.
822 @section Backup options
824 @cindex backup options
826 Some GNU programs (at least @command{cp}, @command{install},
827 @command{ln}, and @command{mv}) optionally make backups of files
828 before writing new versions.
829 These options control the details of these backups. The options are also
830 briefly mentioned in the descriptions of the particular programs.
835 @itemx --backup[=@var{method}]
838 @vindex VERSION_CONTROL
839 @cindex backups, making
840 Make a backup of each file that would otherwise be overwritten or removed.
841 Without this option, the original versions are destroyed.
842 Use @var{method} to determine the type of backups to make.
843 When this option is used but @var{method} is not specified,
844 then the value of the @env{VERSION_CONTROL}
845 environment variable is used. And if @env{VERSION_CONTROL} is not set,
846 the default backup type is @samp{existing}.
848 Using @option{-b} is equivalent to using @option{--backup=existing};
849 @option{-b} does not accept any argument.
851 @vindex version-control @r{Emacs variable}
852 This option corresponds to the Emacs variable @samp{version-control};
853 the values for @var{method} are the same as those used in Emacs.
854 This option also accepts more descriptive names.
855 The valid @var{method}s are (unique abbreviations are accepted):
860 @opindex none @r{backup method}
865 @opindex numbered @r{backup method}
866 Always make numbered backups.
870 @opindex existing @r{backup method}
871 Make numbered backups of files that already have them, simple backups
876 @opindex simple @r{backup method}
877 Always make simple backups. Do not confuse @samp{never} with @samp{none}.
881 @item -S @var{suffix}
882 @itemx --suffix=@var{suffix}
885 @cindex backup suffix
886 @vindex SIMPLE_BACKUP_SUFFIX
887 Append @var{suffix} to each backup file made with @option{-b}. If this
888 option is not specified, the value of the @env{SIMPLE_BACKUP_SUFFIX}
889 environment variable is used. And if @env{SIMPLE_BACKUP_SUFFIX} is not
890 set, the default is @samp{~}, just as in Emacs.
899 Some GNU programs (at least @command{df}, @command{du}, and
900 @command{ls}) display sizes in ``blocks''. You can adjust the block size
901 and method of display to make sizes easier to read. The block size
902 used for display is independent of any file system block size.
903 Fractional block counts are rounded up to the nearest integer.
905 @opindex --block-size=@var{size}
908 @vindex DF_BLOCK_SIZE
909 @vindex DU_BLOCK_SIZE
910 @vindex LS_BLOCK_SIZE
911 @vindex POSIXLY_CORRECT@r{, and block size}
913 The default block size is chosen by examining the following environment
914 variables in turn; the first one that is set determines the block size.
919 This specifies the default block size for the @command{df} command.
920 Similarly, @env{DU_BLOCK_SIZE} specifies the default for @command{du} and
921 @env{LS_BLOCK_SIZE} for @command{ls}.
924 This specifies the default block size for all three commands, if the
925 above command-specific environment variables are not set.
928 This specifies the default block size for all values that are normally
929 printed as blocks, if neither @env{BLOCK_SIZE} nor the above
930 command-specific environment variables are set. Unlike the other
931 environment variables, @env{BLOCKSIZE} does not affect values that are
932 normally printed as byte counts, e.g., the file sizes contained in
935 @item POSIXLY_CORRECT
936 If neither @env{@var{command}_BLOCK_SIZE}, nor @env{BLOCK_SIZE}, nor
937 @env{BLOCKSIZE} is set, but this variable is set, the block size
942 If none of the above environment variables are set, the block size
943 currently defaults to 1024 bytes in most contexts, but this number may
944 change in the future. For @command{ls} file sizes, the block size
947 @cindex human-readable output
950 A block size specification can be a positive integer specifying the number
951 of bytes per block, or it can be @code{human-readable} or @code{si} to
952 select a human-readable format. Integers may be followed by suffixes
953 that are upward compatible with the
954 @uref{http://www.bipm.org/en/publications/si-brochure/chapter3.html,
956 for decimal multiples and with the
957 @uref{https://physics.nist.gov/cuu/Units/binary.html, ISO/IEC 80000-13
958 (formerly IEC 60027-2) prefixes} for binary multiples.
960 With human-readable formats, output sizes are followed by a size letter
961 such as @samp{M} for megabytes. @code{BLOCK_SIZE=human-readable} uses
962 powers of 1024; @samp{M} stands for 1,048,576 bytes.
963 @code{BLOCK_SIZE=si} is similar, but uses powers of 1000 and appends
964 @samp{B}; @samp{MB} stands for 1,000,000 bytes.
967 A block size specification preceded by @samp{'} causes output sizes to
968 be displayed with thousands separators. The @env{LC_NUMERIC} locale
969 specifies the thousands separator and grouping. For example, in an
970 American English locale, @samp{--block-size="'1kB"} would cause a size
971 of 1234000 bytes to be displayed as @samp{1,234}. In the default C
972 locale, there is no thousands separator so a leading @samp{'} has no
975 An integer block size can be followed by a suffix to specify a
976 multiple of that size. A bare size letter,
977 or one followed by @samp{iB}, specifies
978 a multiple using powers of 1024. A size letter followed by @samp{B}
979 specifies powers of 1000 instead. For example, @samp{1M} and
980 @samp{1MiB} are equivalent to @samp{1048576}, whereas @samp{1MB} is
981 equivalent to @samp{1000000}.
983 A plain suffix without a preceding integer acts as if @samp{1} were
984 prepended, except that it causes a size indication to be appended to
985 the output. For example, @samp{--block-size="kB"} displays 3000 as
988 The following suffixes are defined. Large sizes like @code{1Q}
989 may be rejected by your computer due to limitations of its arithmetic.
993 @cindex kilobyte, definition of
994 kilobyte: @math{10^3 = 1000}.
998 @cindex kibibyte, definition of
999 kibibyte: @math{2^{10} = 1024}. @samp{K} is special: the SI prefix is
1000 @samp{k} and the ISO/IEC 80000-13 prefix is @samp{Ki}, but tradition and
1001 POSIX use @samp{k} to mean @samp{KiB}.
1003 @cindex megabyte, definition of
1004 megabyte: @math{10^6 = 1,000,000}.
1007 @cindex mebibyte, definition of
1008 mebibyte: @math{2^{20} = 1,048,576}.
1010 @cindex gigabyte, definition of
1011 gigabyte: @math{10^9 = 1,000,000,000}.
1014 @cindex gibibyte, definition of
1015 gibibyte: @math{2^{30} = 1,073,741,824}.
1017 @cindex terabyte, definition of
1018 terabyte: @math{10^{12} = 1,000,000,000,000}.
1021 @cindex tebibyte, definition of
1022 tebibyte: @math{2^{40} = 1,099,511,627,776}.
1024 @cindex petabyte, definition of
1025 petabyte: @math{10^{15} = 1,000,000,000,000,000}.
1028 @cindex pebibyte, definition of
1029 pebibyte: @math{2^{50} = 1,125,899,906,842,624}.
1031 @cindex exabyte, definition of
1032 exabyte: @math{10^{18} = 1,000,000,000,000,000,000}.
1035 @cindex exbibyte, definition of
1036 exbibyte: @math{2^{60} = 1,152,921,504,606,846,976}.
1038 @cindex zettabyte, definition of
1039 zettabyte: @math{10^{21} = 1,000,000,000,000,000,000,000}
1042 zebibyte: @math{2^{70} = 1,180,591,620,717,411,303,424}.
1044 @cindex yottabyte, definition of
1045 yottabyte: @math{10^{24} = 1,000,000,000,000,000,000,000,000}.
1048 yobibyte: @math{2^{80} = 1,208,925,819,614,629,174,706,176}.
1050 @cindex ronnabyte, definition of
1051 ronnabyte: @math{10^{27} = 1,000,000,000,000,000,000,000,000,000}.
1054 robibyte: @math{2^{90} = 1,237,940,039,285,380,274,899,124,224}.
1056 @cindex quettabyte, definition of
1057 quettabyte: @math{10^{30} = 1,000,000,000,000,000,000,000,000,000,000}.
1060 quebibyte: @math{2^{100} = 1,267,650,600,228,229,401,496,703,205,376}.
1065 @opindex --block-size
1066 @opindex --human-readable
1069 Block size defaults can be overridden by an explicit
1070 @option{--block-size=@var{size}} option. The @option{-k}
1071 option is equivalent to @option{--block-size=1K}, which
1072 is the default unless the @env{POSIXLY_CORRECT} environment variable is
1073 set. The @option{-h} or @option{--human-readable} option is equivalent to
1074 @option{--block-size=human-readable}. The @option{--si} option is
1075 equivalent to @option{--block-size=si}. Note for @command{ls}
1076 the @option{-k} option does not control the display of the
1077 apparent file sizes, whereas the @option{--block-size} option does.
1079 @node Signal specifications
1080 @section Signal specifications
1081 @cindex signals, specifying
1083 A @var{signal} may be a signal name like @samp{HUP}, or a signal
1084 number like @samp{1}, or an exit status of a process terminated by the
1085 signal. A signal name can be given in canonical form or prefixed by
1086 @samp{SIG}@. The case of the letters is ignored. The following signal names
1087 and numbers are supported on all POSIX compliant systems:
1093 2. Terminal interrupt.
1099 9. Kill (cannot be caught or ignored).
1107 Other supported signal names have system-dependent corresponding
1108 numbers. All systems conforming to POSIX 1003.1-2001 also
1109 support the following signals:
1113 Access to an undefined portion of a memory object.
1115 Child process terminated, stopped, or continued.
1117 Continue executing, if stopped.
1119 Erroneous arithmetic operation.
1121 Illegal Instruction.
1123 Write on a pipe with no one to read it.
1125 Invalid memory reference.
1127 Stop executing (cannot be caught or ignored).
1131 Background process attempting read.
1133 Background process attempting write.
1135 High bandwidth data is available at a socket.
1137 User-defined signal 1.
1139 User-defined signal 2.
1143 POSIX 1003.1-2001 systems that support the XSI extension
1144 also support the following signals:
1150 Profiling timer expired.
1154 Trace/breakpoint trap.
1156 Virtual timer expired.
1158 CPU time limit exceeded.
1160 File size limit exceeded.
1164 POSIX 1003.1-2001 systems that support the XRT extension
1165 also support at least eight real-time signals called @samp{RTMIN},
1166 @samp{RTMIN+1}, @dots{}, @samp{RTMAX-1}, @samp{RTMAX}.
1168 @node Disambiguating names and IDs
1169 @section chown, chgrp, chroot, id: Disambiguating user names and IDs
1170 @cindex user names, disambiguating
1171 @cindex user IDs, disambiguating
1172 @cindex group names, disambiguating
1173 @cindex group IDs, disambiguating
1174 @cindex disambiguating group names and IDs
1176 Since the @var{user} and @var{group} arguments to these commands
1177 may be specified as names or numeric IDs, there is an
1179 What if a user or group @emph{name} is a string of digits?
1180 Should the command interpret it as a user name or as an ID@?
1181 (Using a number as a user name is common in some environments.)
1182 POSIX requires that these commands
1183 first attempt to resolve the specified string as a name, and
1184 only once that fails, then try to interpret it as an ID@.
1185 This is troublesome when you want to specify a numeric ID, say 42,
1186 and it must work even in a pathological situation where
1187 @samp{42} is a user name that maps to some other user ID, say 1000.
1188 Simply invoking @code{chown 42 F}, will set @file{F}s owner ID to
1189 1000 -- not what you intended.
1191 GNU @command{chown}, @command{chgrp}, @command{chroot}, and @command{id}
1192 provide a way to work around this, that at the same time may result in a
1193 significant performance improvement by eliminating a database look-up.
1194 Simply precede each numeric user ID and/or group ID with a @samp{+},
1195 in order to force its interpretation as an integer:
1199 chgrp +$numeric_group_id another-file
1203 The name look-up process is skipped for each @samp{+}-prefixed string,
1204 because a string containing @samp{+} is never a valid user or group name.
1205 This syntax is accepted on most common Unix systems, but not on Solaris 10.
1207 @node Random sources
1208 @section Sources of random data
1210 @cindex random sources
1212 The @command{shuf}, @command{shred}, and @command{sort} commands
1213 sometimes need random data to do their work. For example, @samp{sort
1214 -R} must choose a hash function at random, and it needs random data to
1215 make this selection.
1217 By default these commands use an internal pseudo-random generator
1218 initialized by a small amount of entropy, but can be directed to use
1219 an external source with the @option{--random-source=@var{file}} option.
1220 An error is reported if @var{file} does not contain enough bytes.
1222 For example, the device file @file{/dev/urandom} could be used as the
1223 source of random data. Typically, this device gathers environmental
1224 noise from device drivers and other sources into an entropy pool, and
1225 uses the pool to generate random bits. If the pool is short of data,
1226 the device reuses the internal pool to produce more bits, using a
1227 cryptographically secure pseudo-random number generator. But be aware
1228 that this device is not designed for bulk random data generation
1229 and is relatively slow.
1231 @file{/dev/urandom} suffices for most practical uses, but applications
1232 requiring high-value or long-term protection of private data may
1233 require an alternate data source like @file{/dev/random} or
1234 @file{/dev/arandom}. The set of available sources depends on your
1237 To reproduce the results of an earlier invocation of a command, you
1238 can save some random data into a file and then use that file as the
1239 random source in earlier and later invocations of the command.
1241 Rather than depending on a file, one can generate a reproducible
1242 arbitrary amount of pseudo-random data given a seed value, using
1249 openssl enc -aes-256-ctr -pass pass:"$seed" -nosalt \
1250 </dev/zero 2>/dev/null
1253 shuf -i1-100 --random-source=<(get_seeded_random 42)
1256 @node Target directory
1257 @section Target directory
1259 @cindex target directory
1261 The @command{cp}, @command{install}, @command{ln}, and @command{mv}
1262 commands normally treat the last operand specially when it is a
1263 directory or a symbolic link to a directory. For example, @samp{cp
1264 source dest} is equivalent to @samp{cp source dest/source} if
1265 @file{dest} is a directory. Sometimes this behavior is not exactly
1266 what is wanted, so these commands support the following options to
1267 allow more fine-grained control:
1272 @itemx --no-target-directory
1273 @opindex --no-target-directory
1274 @cindex target directory
1275 @cindex destination directory
1276 Do not treat the last operand specially when it is a directory or a
1277 symbolic link to a directory. This can help avoid race conditions in
1278 programs that operate in a shared area. For example, when the command
1279 @samp{mv /tmp/source /tmp/dest} succeeds, there is no guarantee that
1280 @file{/tmp/source} was renamed to @file{/tmp/dest}: it could have been
1281 renamed to @file{/tmp/dest/source} instead, if some other process
1282 created @file{/tmp/dest} as a directory. However, if @file{mv
1283 -T /tmp/source /tmp/dest} succeeds, there is no
1284 question that @file{/tmp/source} was renamed to @file{/tmp/dest}.
1286 In the opposite situation, where you want the last operand to be
1287 treated as a directory and want a diagnostic otherwise, you can use
1288 the @option{--target-directory} (@option{-t}) option.
1290 @item -t @var{directory}
1291 @itemx --target-directory=@var{directory}
1292 @opindex --target-directory
1293 @cindex target directory
1294 @cindex destination directory
1295 Use @var{directory} as the directory component of each destination
1298 The interface for most programs is that after processing options and a
1299 finite (possibly zero) number of fixed-position arguments, the remaining
1300 argument list is either expected to be empty, or is a list of items
1301 (usually files) that will all be handled identically. The @command{xargs}
1302 program is designed to work well with this convention.
1304 The commands in the @command{mv}-family are unusual in that they take
1305 a variable number of arguments with a special case at the @emph{end}
1306 (namely, the target directory). This makes it nontrivial to perform some
1307 operations, e.g., ``move all files from here to ../d/'', because
1308 @code{mv * ../d/} might exhaust the argument space, and @code{ls | xargs ...}
1309 doesn't have a clean way to specify an extra final argument for each
1310 invocation of the subject command. (It can be done by going through a
1311 shell command, but that requires more human labor and brain power than
1314 The @option{--target-directory} (@option{-t}) option allows the @command{cp},
1315 @command{install}, @command{ln}, and @command{mv} programs to be used
1316 conveniently with @command{xargs}. For example, you can move the files
1317 from the current directory to a sibling directory, @code{d} like this:
1320 ls | xargs mv -t ../d --
1323 However, this doesn't move files whose names begin with @samp{.}.
1324 If you use the GNU @command{find} program, you can move those
1325 files too, with this command:
1328 find . -mindepth 1 -maxdepth 1 \
1332 But both of the above approaches fail if there are no files in the
1333 current directory, or if any file has a name containing a blank or
1334 some other special characters.
1335 The following example removes those limitations and requires both
1336 GNU @command{find} and GNU @command{xargs}:
1339 find . -mindepth 1 -maxdepth 1 -print0 \
1340 | xargs --null --no-run-if-empty \
1347 The @option{--target-directory} (@option{-t}) and
1348 @option{--no-target-directory} (@option{-T})
1349 options cannot be combined.
1351 @node Trailing slashes
1352 @section Trailing slashes
1354 @cindex trailing slashes
1356 Some GNU programs (at least @command{cp} and @command{mv}) allow you to
1357 remove any trailing slashes from each @var{source} argument before
1358 operating on it. The @option{--strip-trailing-slashes} option enables
1361 This is useful when a @var{source} argument may have a trailing slash and
1362 @c FIXME: mv's behavior in this case is system-dependent
1363 specify a symbolic link to a directory. This scenario is in fact rather
1364 common because some shells can automatically append a trailing slash when
1365 performing file name completion on such symbolic links. Without this
1366 option, @command{mv}, for example, (via the system's rename function) must
1367 interpret a trailing slash as a request to dereference the symbolic link
1368 and so must rename the indirectly referenced @emph{directory} and not
1369 the symbolic link. Although it may seem surprising that such behavior
1370 be the default, it is required by POSIX and is consistent with
1371 other parts of that standard.
1373 @node Traversing symlinks
1374 @section Traversing symlinks
1376 @cindex symbolic link to directory, controlling traversal of
1378 @c FIXME: note that 'du' has these options, too, but they have slightly
1379 @c different meaning.
1380 The following options modify how @command {chmod}, @command{chown},
1381 and @command{chgrp} traverse a hierarchy when
1382 the @option{--recursive} (@option{-R}) option is also specified.
1383 If more than one of the following options is specified, only the final
1385 These options specify whether processing a symbolic link to a directory
1386 entails operating on just the symbolic link or on all files in the
1387 hierarchy rooted at that directory.
1389 These options are independent of @option{--dereference} and
1390 @option{--no-dereference} (@option{-h}), which control whether to modify
1391 a symlink or its referent.
1398 @cindex symbolic link to directory, traverse if on the command line
1399 If @option{--recursive} (@option{-R}) is specified and
1400 a command line argument is a symbolic link to a directory, traverse it.
1407 @cindex symbolic link to directory, traverse each that is encountered
1408 In a recursive traversal, traverse every symbolic link to a directory
1409 that is encountered.
1412 @c Append the following warning to -L where appropriate (e.g. chown).
1413 @macro warnOptDerefWithRec
1415 Combining this dereferencing option with the @option{--recursive} option
1416 may create a security risk:
1417 During the traversal of the directory tree, an attacker may be able to
1418 introduce a symlink to an arbitrary target; when the tool reaches that,
1419 the operation will be performed on the target of that symlink,
1420 possibly allowing the attacker to escalate privileges.
1429 @cindex symbolic link to directory, never traverse
1430 Do not traverse any symbolic links.
1435 This is the default if none of @option{-H}, @option{-L},
1436 or @option{-P} is specified.
1443 @node Treating / specially
1444 @section Treating @file{/} specially
1446 Certain commands can operate destructively on entire hierarchies.
1447 For example, if a user with appropriate privileges mistakenly runs
1448 @samp{rm -rf / tmp/junk}, that may remove
1449 all files on the entire system. Since there are so few
1450 legitimate uses for such a command,
1451 GNU @command{rm} normally declines to operate on any directory
1452 that resolves to @file{/}. If you really want to try to remove all
1453 the files on your system, you can use the @option{--no-preserve-root}
1454 option, but the default behavior, specified by the
1455 @option{--preserve-root} option, is safer for most purposes.
1457 The commands @command{chgrp}, @command{chmod} and @command{chown}
1458 can also operate destructively on entire hierarchies, so they too
1459 support these options. Although, unlike @command{rm}, they don't
1460 actually unlink files, these commands are arguably more dangerous
1461 when operating recursively on @file{/}, since they often work much
1462 more quickly, and hence damage more files before an alert user can
1463 interrupt them. Tradition and POSIX require these commands
1464 to operate recursively on @file{/}, so they default to
1465 @option{--no-preserve-root}, but using the @option{--preserve-root}
1466 option makes them safer for most purposes. For convenience you can
1467 specify @option{--preserve-root} in an alias or in a shell function.
1469 The @option{--preserve-root} option also ensures
1470 that @command{chgrp} and @command{chown} do not modify @file{/}
1471 even when dereferencing a symlink pointing to @file{/}.
1473 @node Special built-in utilities
1474 @section Special built-in utilities
1476 Some programs like @command{nice} can invoke other programs; for
1477 example, the command @samp{nice cat file} invokes the program
1478 @command{cat} by executing the command @samp{cat file}. However,
1479 @dfn{special built-in utilities} like @command{exit} cannot be invoked
1480 this way. For example, the command @samp{nice exit} does not have a
1481 well-defined behavior: it may generate an error message instead of
1484 Here is a list of the special built-in utilities that are standardized
1485 by POSIX 1003.1-2004.
1488 @t{.@: : break continue eval exec exit export readonly
1489 return set shift times trap unset}
1492 For example, because @samp{.}, @samp{:}, and @samp{exec} are special,
1493 the commands @samp{nice . foo.sh}, @samp{nice :}, and @samp{nice exec
1494 pwd} do not work as you might expect.
1496 Many shells extend this list. For example, Bash has several extra
1497 special built-in utilities like @command{history}, and
1498 @command{suspend}, and with Bash the command @samp{nice suspend}
1499 generates an error message instead of suspending.
1503 @section Exit status
1506 An exit status of zero indicates success,
1507 and a nonzero value indicates failure.
1510 Nearly every command invocation yields an integral @dfn{exit status}
1511 that can be used to change how other commands work.
1512 For the vast majority of commands, an exit status of zero indicates
1513 success. Failure is indicated by a nonzero value -- typically
1514 @samp{1}, though it may differ on unusual platforms as POSIX
1515 requires only that it be nonzero.
1517 However, some of the programs documented here do produce
1518 other exit status values and a few associate different
1519 meanings with the values @samp{0} and @samp{1}.
1520 Here are the exceptions:
1521 @c You can generate the following list with:
1522 @c grep initialize_exit_failure src/*.c | cut -f1 -d: |
1523 @c sed -n 's|src/\(.*\)\.c|@command{\1},|p' | sort | fmt
1524 @command{chroot}, @command{env}, @command{expr}, @command{ls},
1525 @command{nice}, @command{nohup}, @command{numfmt}, @command{printenv},
1526 @command{runcon}, @command{sort}, @command{stdbuf}, @command{test},
1527 @command{timeout}, @command{tty}.
1529 @node Floating point
1530 @section Floating point numbers
1531 @cindex floating point
1532 @cindex IEEE floating point
1534 Commands that accept or produce floating point numbers employ the
1535 floating point representation of the underlying system, and suffer
1536 from rounding error, overflow, and similar floating-point issues.
1537 Almost all modern systems use IEEE-754 floating point, and it is
1538 typically portable to assume IEEE-754 behavior these days. IEEE-754
1539 has positive and negative infinity, distinguishes positive from
1540 negative zero, and uses special values called NaNs to represent
1541 invalid computations such as dividing zero by itself. For more
1542 information, please see David Goldberg's paper
1543 @uref{https://@/docs.oracle.com/@/cd/@/E19957-01/@/806-3568/@/ncg_goldberg.html,
1544 What Every Computer Scientist Should Know About Floating-Point Arithmetic}.
1546 Commands that accept floating point numbers as options, operands or
1547 input use the standard C functions @code{strtod} and @code{strtold} to
1548 convert from text to floating point numbers. These floating point
1549 numbers therefore can use scientific notation like @code{1.0e-34} and
1550 @code{-10e100}. Commands that parse floating point also understand
1551 case-insensitive @code{inf}, @code{infinity}, and @code{NaN}, although
1552 whether such values are useful depends on the command in question.
1553 Modern C implementations also accept hexadecimal floating point
1554 numbers such as @code{-0x.ep-3}, which stands for @minus{}14/16 times
1555 @math{2^-3}, which equals @minus{}0.109375. @xref{Parsing of
1556 Floats,,, libc, The GNU C Library Reference Manual}.
1559 Normally the @env{LC_NUMERIC} locale determines the decimal-point
1560 character. However, some commands' descriptions specify that they
1561 accept numbers in either the current or the C locale; for example,
1562 they treat @samp{3.14} like @samp{3,14} if the current locale uses
1563 comma as a decimal point.
1566 @node Standards conformance
1567 @section Standards conformance
1569 @vindex POSIXLY_CORRECT
1570 In a few cases, the GNU utilities' default behavior is
1571 incompatible with the POSIX standard. To suppress these
1572 incompatibilities, define the @env{POSIXLY_CORRECT} environment
1573 variable. Unless you are checking for POSIX conformance, you
1574 probably do not need to define @env{POSIXLY_CORRECT}.
1576 Newer versions of POSIX are occasionally incompatible with older
1577 versions. For example, older versions of POSIX required the
1578 command @samp{sort +1} to sort based on the second and succeeding
1579 fields in each input line, but in POSIX 1003.1-2001
1580 the same command is required to sort the file named @file{+1}, and you
1581 must instead use the command @samp{sort -k 2} to get the field-based
1582 sort. To complicate things further, POSIX 1003.1-2008 allows an
1583 implementation to have either the old or the new behavior.
1585 @vindex _POSIX2_VERSION
1586 The GNU utilities normally conform to the version of POSIX
1587 that is standard for your system. To cause them to conform to a
1588 different version of POSIX, define the @env{_POSIX2_VERSION}
1589 environment variable to a value of the form @var{yyyymm} specifying
1590 the year and month the standard was adopted. Three values are currently
1591 supported for @env{_POSIX2_VERSION}: @samp{199209} stands for
1592 POSIX 1003.2-1992, @samp{200112} stands for POSIX
1593 1003.1-2001, and @samp{200809} stands for POSIX 1003.1-2008.
1594 For example, if you have a POSIX 1003.1-2001 system but are running software
1595 containing traditional usage like @samp{sort +1} or @samp{tail +10},
1596 you can work around the compatibility problems by setting
1597 @samp{_POSIX2_VERSION=200809} in your environment.
1599 @c This node is named "Multi-call invocation", not the usual
1600 @c "coreutils invocation", so that shell commands like
1601 @c 'info coreutils "touch invocation"' work as expected.
1602 @node Multi-call invocation
1603 @section @command{coreutils}: Multi-call program
1607 @cindex calling combined multi-call program
1609 The @command{coreutils} command invokes an individual utility, either
1610 implicitly selected by the last component of the name used to invoke
1611 @command{coreutils}, or explicitly with the
1612 @option{--coreutils-prog} option. Synopsis:
1615 coreutils @option{--coreutils-prog=PROGRAM} @dots{}
1618 The @command{coreutils} command is not installed by default, so
1619 portable scripts should not rely on its existence.
1621 @node Output of entire files
1622 @chapter Output of entire files
1624 @cindex output of entire files
1625 @cindex entire files, output of
1627 These commands read and write entire files, possibly transforming them
1631 * cat invocation:: Concatenate and write files.
1632 * tac invocation:: Concatenate and write files in reverse.
1633 * nl invocation:: Number lines and write files.
1634 * od invocation:: Write files in octal or other formats.
1635 * base32 invocation:: Transform data into printable data.
1636 * base64 invocation:: Transform data into printable data.
1637 * basenc invocation:: Transform data into printable data.
1640 @node cat invocation
1641 @section @command{cat}: Concatenate and write files
1644 @cindex concatenate and write files
1645 @cindex copying files
1647 @command{cat} copies each @var{file} (@samp{-} means standard input), or
1648 standard input if none are given, to standard output. Synopsis:
1651 cat [@var{option}] [@var{file}]@dots{}
1654 The program accepts the following options. Also see @ref{Common options}.
1662 Equivalent to @option{-vET}.
1665 @itemx --number-nonblank
1667 @opindex --number-nonblank
1668 Number all nonempty output lines, starting with 1.
1672 Equivalent to @option{-vE}.
1677 @opindex --show-ends
1678 Display a @samp{$} after the end of each line.
1679 The @code{\r\n} combination is shown as @samp{^M$}.
1685 Number all output lines, starting with 1. This option is ignored
1686 if @option{-b} is in effect.
1689 @itemx --squeeze-blank
1691 @opindex --squeeze-blank
1692 @cindex squeezing empty lines
1693 @cindex squeezing blank lines
1694 Suppress repeated adjacent blank lines; output just one empty line
1699 Equivalent to @option{-vT}.
1704 @opindex --show-tabs
1705 Display TAB characters as @samp{^I}.
1709 Ignored; for POSIX compatibility.
1712 @itemx --show-nonprinting
1714 @opindex --show-nonprinting
1715 Display control characters except for LFD and TAB using
1716 @samp{^} notation and precede characters that have the high bit set with
1721 On systems like MS-DOS that distinguish between text and binary files,
1722 @command{cat} normally reads and writes in binary mode. However,
1723 @command{cat} reads in text mode if one of the options
1724 @option{-bensAE} is used or if @command{cat} is reading from standard
1725 input and standard input is a terminal. Similarly, @command{cat}
1726 writes in text mode if one of the options @option{-bensAE} is used or
1727 if standard output is a terminal.
1734 # Output f's contents, then standard input, then g's contents.
1737 # Copy standard input to standard output.
1742 @node tac invocation
1743 @section @command{tac}: Concatenate and write files in reverse
1746 @cindex reversing files
1748 @command{tac} copies each @var{file} (@samp{-} means standard input), or
1749 standard input if none are given, to standard output, reversing the
1750 records (lines by default) in each separately. Synopsis:
1753 tac [@var{option}]@dots{} [@var{file}]@dots{}
1756 @dfn{Records} are separated by instances of a string (newline by
1757 default). By default, this separator string is attached to the end of
1758 the record that it follows in the file.
1760 The program accepts the following options. Also see @ref{Common options}.
1768 The separator is attached to the beginning of the record that it
1769 precedes in the file.
1775 Treat the separator string as a regular expression.
1777 @item -s @var{separator}
1778 @itemx --separator=@var{separator}
1780 @opindex --separator
1781 Use @var{separator} as the record separator, instead of newline.
1782 Note an empty @var{separator} is treated as a zero byte.
1783 I.e., input and output items are delimited with ASCII NUL.
1787 On systems like MS-DOS that distinguish between text and binary files,
1788 @command{tac} reads and writes in binary mode.
1795 # Reverse a file character by character.
1801 @section @command{nl}: Number lines and write files
1804 @cindex numbering lines
1805 @cindex line numbering
1807 @command{nl} writes each @var{file} (@samp{-} means standard input), or
1808 standard input if none are given, to standard output, with line numbers
1809 added to some or all of the lines. Synopsis:
1812 nl [@var{option}]@dots{} [@var{file}]@dots{}
1815 @cindex logical pages, numbering on
1816 @command{nl} decomposes its input into (logical) page sections;
1817 by default, the line number is reset to 1 at each logical page section.
1818 @command{nl} treats all of the input files as a single document;
1819 it does not reset line numbers or logical pages between files.
1821 @cindex headers, numbering
1822 @cindex body, numbering
1823 @cindex footers, numbering
1824 A logical page consists of three sections: header, body, and footer.
1825 Any of the sections can be empty. Each can be numbered in a different
1826 style from the others.
1828 The beginnings of the sections of logical pages are indicated in the
1829 input file by a line containing exactly one of these delimiter strings:
1840 The characters from which these strings are made can be changed from
1841 @samp{\} and @samp{:} via options (see below), but the pattern
1842 of each string cannot be changed.
1844 A section delimiter is replaced by an empty line on output. Any text
1845 that comes before the first section delimiter string in the input file
1846 is considered to be part of a body section, so @command{nl} treats a
1847 file that contains no section delimiters as a single body section.
1849 The program accepts the following options. Also see @ref{Common options}.
1853 @item -b @var{style}
1854 @itemx --body-numbering=@var{style}
1856 @opindex --body-numbering
1857 Select the numbering style for lines in the body section of each
1858 logical page. When a line is not numbered, the current line number
1859 is not incremented, but the line number separator character is still
1860 prepended to the line. The styles are:
1866 number only nonempty lines (default for body),
1868 do not number lines (default for header and footer),
1870 number only lines that contain a match for the basic regular
1871 expression @var{bre}.
1872 @xref{Regular Expressions, , Regular Expressions, grep, The GNU Grep Manual}.
1876 @itemx --section-delimiter=@var{cd}
1878 @opindex --section-delimiter
1879 @cindex section delimiters of pages
1880 Set the section delimiter characters to @var{cd}; default is
1881 @samp{\:}. If only @var{c} is given, the second remains @samp{:}.
1882 As a GNU extension more than two characters can be specified,
1883 and also if @var{cd} is empty (@option{-d ''}), then section
1884 matching is disabled.
1885 (Remember to protect @samp{\} or other metacharacters from shell
1886 expansion with quotes or extra backslashes.)
1888 @item -f @var{style}
1889 @itemx --footer-numbering=@var{style}
1891 @opindex --footer-numbering
1892 Analogous to @option{--body-numbering}.
1894 @item -h @var{style}
1895 @itemx --header-numbering=@var{style}
1897 @opindex --header-numbering
1898 Analogous to @option{--body-numbering}.
1900 @item -i @var{number}
1901 @itemx --line-increment=@var{number}
1903 @opindex --line-increment
1904 Increment line numbers by @var{number} (default 1).
1905 @var{number} can be negative to decrement.
1907 @item -l @var{number}
1908 @itemx --join-blank-lines=@var{number}
1910 @opindex --join-blank-lines
1911 @cindex empty lines, numbering
1912 @cindex blank lines, numbering
1913 Consider @var{number} (default 1) consecutive empty lines to be one
1914 logical line for numbering, and only number the last one. Where fewer
1915 than @var{number} consecutive empty lines occur, do not number them.
1916 An empty line is one that contains no characters, not even spaces
1919 @item -n @var{format}
1920 @itemx --number-format=@var{format}
1922 @opindex --number-format
1923 Select the line numbering format (default is @code{rn}):
1927 @opindex ln @r{format for @command{nl}}
1928 left justified, no leading zeros;
1930 @opindex rn @r{format for @command{nl}}
1931 right justified, no leading zeros;
1933 @opindex rz @r{format for @command{nl}}
1934 right justified, leading zeros.
1938 @itemx --no-renumber
1940 @opindex --no-renumber
1941 Do not reset the line number at the start of a logical page.
1943 @item -s @var{string}
1944 @itemx --number-separator=@var{string}
1946 @opindex --number-separator
1947 Separate the line number from the text line in the output with
1948 @var{string} (default is the TAB character).
1950 @item -v @var{number}
1951 @itemx --starting-line-number=@var{number}
1953 @opindex --starting-line-number
1954 Set the initial line number on each logical page to @var{number} (default 1).
1955 The starting @var{number} can be negative.
1957 @item -w @var{number}
1958 @itemx --number-width=@var{number}
1960 @opindex --number-width
1961 Use @var{number} characters for line numbers (default 6).
1969 @section @command{od}: Write files in octal or other formats
1972 @cindex octal dump of files
1973 @cindex hex dump of files
1974 @cindex ASCII dump of files
1975 @cindex file contents, dumping unambiguously
1977 @command{od} writes an unambiguous representation of each @var{file}
1978 (@samp{-} means standard input), or standard input if none are given.
1982 od [@var{option}]@dots{} [@var{file}]@dots{}
1983 od [-abcdfilosx]@dots{} [@var{file}] [[+]@var{offset}[.][b]]
1984 od [@var{option}]@dots{} --traditional [@var{file}]@c
1985 [[+]@var{offset}[.][b] [[+]@var{label}[.][b]]]
1988 Each line of output consists of the offset in the input, followed by
1989 groups of data from the file. By default, @command{od} prints the offset in
1990 octal, and each group of file data is a C @code{short int}'s worth of input
1991 printed as a single octal number.
1993 If @var{offset} is given, it specifies how many input bytes to skip
1994 before formatting and writing. By default, it is interpreted as an
1995 octal number, but the optional trailing decimal point causes it to be
1996 interpreted as decimal. If no decimal is specified and the offset
1997 begins with @samp{0x} or @samp{0X} it is interpreted as a hexadecimal
1998 number. If there is a trailing @samp{b}, the number of bytes skipped
1999 will be @var{offset} multiplied by 512.
2001 If a command is of both the first and second forms, the second form is
2002 assumed if the last operand begins with @samp{+} or (if there are two
2003 operands) a digit. For example, in @samp{od foo 10} and @samp{od +10}
2004 the @samp{10} is an offset, whereas in @samp{od 10} the @samp{10} is a
2007 The program accepts the following options. Also see @ref{Common options}.
2011 @item -A @var{radix}
2012 @itemx --address-radix=@var{radix}
2014 @opindex --address-radix
2015 @cindex radix for file offsets
2016 @cindex file offset radix
2017 Select the base in which file offsets are printed. @var{radix} can
2018 be one of the following:
2028 none (do not print offsets).
2031 The default is octal.
2033 @item --endian=@var{order}
2035 @cindex byte-swapping
2037 Reorder input bytes, to handle inputs with differing byte orders,
2038 or to provide consistent output independent of the endian convention
2039 of the current system. Swapping is performed according to the
2040 specified @option{--type} size and endian @var{order}, which can be
2041 @samp{little} or @samp{big}.
2043 @item -j @var{bytes}
2044 @itemx --skip-bytes=@var{bytes}
2046 @opindex --skip-bytes
2047 Skip @var{bytes} input bytes before formatting and writing. If
2048 @var{bytes} begins with @samp{0x} or @samp{0X}, it is interpreted in
2049 hexadecimal; otherwise, if it begins with @samp{0}, in octal; otherwise,
2051 @multiplierSuffixes{bytes}
2053 @item -N @var{bytes}
2054 @itemx --read-bytes=@var{bytes}
2056 @opindex --read-bytes
2057 Output at most @var{bytes} bytes of the input. Prefixes and suffixes on
2058 @code{bytes} are interpreted as for the @option{-j} option.
2060 @item -S @var{bytes}
2061 @itemx --strings[=@var{bytes}]
2064 @cindex string constants, outputting
2065 Instead of the normal output, output only @dfn{string constants}: at
2066 least @var{bytes} consecutive printable characters,
2067 followed by a zero byte (ASCII NUL).
2068 Prefixes and suffixes on @var{bytes} are interpreted as for the
2071 If @var{bytes} is omitted with @option{--strings}, the default is 3.
2074 @itemx --format=@var{type}
2077 Select the format in which to output the file data. @var{type} is a
2078 string of one or more of the below type indicator characters. If you
2079 include more than one type indicator character in a single @var{type}
2080 string, or use this option more than once, @command{od} writes one copy
2081 of each output line using each of the data types that you specified,
2082 in the order that you specified.
2084 Adding a trailing ``z'' to any type specification appends a display
2085 of the single byte character representation of the printable characters
2086 to the output line generated by the type specification.
2090 named character, ignoring high-order bit
2092 printable single byte character, C backslash escape
2093 or a 3 digit octal sequence
2097 floating point (@pxref{Floating point})
2106 The type @code{a} outputs things like @samp{sp} for space, @samp{nl} for
2107 newline, and @samp{nul} for a zero byte. Only the least significant
2108 seven bits of each byte is used; the high-order bit is ignored.
2109 Type @code{c} outputs
2110 @samp{ }, @samp{\n}, and @code{\0}, respectively.
2113 Except for types @samp{a} and @samp{c}, you can specify the number
2114 of bytes to use in interpreting each number in the given data type
2115 by following the type indicator character with a decimal integer.
2116 Alternately, you can specify the size of one of the C compiler's
2117 built-in data types by following the type indicator character with
2118 one of the following characters. For integers (@samp{d}, @samp{o},
2119 @samp{u}, @samp{x}):
2132 For floating point (@code{f}):
2136 @uref{https://en.wikipedia.org/wiki/Bfloat16_floating-point_format,
2139 @uref{https://en.wikipedia.org/wiki/Half-precision_floating-point_format,
2140 half precision float}
2150 @itemx --output-duplicates
2152 @opindex --output-duplicates
2153 Output consecutive lines that are identical. By default, when two or
2154 more consecutive output lines would be identical, @command{od} outputs only
2155 the first line, and puts just an asterisk on the following line to
2156 indicate the elision.
2159 @itemx --width[=@var{n}]
2162 Dump @code{n} input bytes per output line. This must be a multiple of
2163 the least common multiple of the sizes associated with the specified
2166 If this option is not given at all, the default is 16. If @var{n} is
2167 omitted, the default is 32.
2171 The next several options are shorthands for format specifications.
2172 GNU @command{od} accepts any combination of shorthands and format
2173 specification options. These options accumulate.
2179 Output as named characters. Equivalent to @samp{-t a}.
2183 Output as octal bytes. Equivalent to @samp{-t o1}.
2187 Output as printable single byte characters, C backslash escapes
2188 or 3 digit octal sequences. Equivalent to @samp{-t c}.
2192 Output as unsigned decimal two-byte units. Equivalent to @samp{-t u2}.
2196 Output as floats. Equivalent to @samp{-t fF}.
2200 Output as decimal ints. Equivalent to @samp{-t dI}.
2204 Output as decimal long ints. Equivalent to @samp{-t dL}.
2208 Output as octal two-byte units. Equivalent to @option{-t o2}.
2212 Output as decimal two-byte units. Equivalent to @option{-t d2}.
2216 Output as hexadecimal two-byte units. Equivalent to @samp{-t x2}.
2219 @opindex --traditional
2220 Recognize the non-option label argument that traditional @command{od}
2221 accepted. The following syntax:
2224 od --traditional [@var{file}] [[+]@var{offset}[.][b] [[+]@var{label}[.][b]]]
2228 can be used to specify at most one file and optional arguments
2229 specifying an offset and a pseudo-start address, @var{label}.
2230 The @var{label} argument is interpreted
2231 just like @var{offset}, but it specifies an initial pseudo-address. The
2232 pseudo-addresses are displayed in parentheses following any normal
2240 @node base32 invocation
2241 @section @command{base32}: Transform data into printable data
2244 @cindex base32 encoding
2246 @command{base32} transforms data read from a file, or standard input,
2247 into (or from) base32 encoded form. The base32 encoded form uses
2248 printable ASCII characters to represent binary data.
2249 The usage and options of this command are precisely the
2250 same as for @command{base64}. @xref{base64 invocation}.
2251 For more general encoding functionality see @ref{basenc invocation}.
2254 @node base64 invocation
2255 @section @command{base64}: Transform data into printable data
2258 @cindex base64 encoding
2260 @command{base64} transforms data read from a file, or standard input,
2261 into (or from) base64 encoded form. The base64 encoded form uses
2262 printable ASCII characters to represent binary data.
2266 base64 [@var{option}]@dots{} [@var{file}]
2267 base64 --decode [@var{option}]@dots{} [@var{file}]
2270 The base64 encoding expands data to roughly 133% of the original.
2271 The base32 encoding expands data to roughly 160% of the original.
2272 The format conforms to
2273 @uref{https://datatracker.ietf.org/doc/rfc4648/, RFC 4648}.
2275 For more general encoding functionality see @ref{basenc invocation}.
2277 The program accepts the following options. Also see @ref{Common options}.
2282 @itemx --wrap=@var{cols}
2286 @cindex column to wrap data after
2287 During encoding, wrap lines after @var{cols} characters. This must be
2290 The default is to wrap after 76 characters. Use the value 0 to
2291 disable line wrapping altogether.
2297 @cindex Decode base64 data
2298 @cindex Base64 decoding
2299 Change the mode of operation, from the default of encoding data, to
2300 decoding data. Input is expected to be base64 encoded data, and the
2301 output will be the original data.
2304 @itemx --ignore-garbage
2306 @opindex --ignore-garbage
2307 @cindex Ignore garbage in base64 stream
2308 When decoding, newlines are always accepted.
2309 During decoding, ignore unrecognized bytes,
2310 to permit distorted data to be decoded.
2316 @node basenc invocation
2317 @section @command{basenc}: Transform data into printable data
2320 @cindex base32 encoding
2322 @command{basenc} transforms data read from a file, or standard input,
2323 into (or from) various common encoding forms. The encoded form uses
2324 printable ASCII characters to represent binary data.
2329 basenc @var{encoding} [@var{option}]@dots{} [@var{file}]
2330 basenc @var{encoding} --decode [@var{option}]@dots{} [@var{file}]
2333 The @var{encoding} argument is required. If @var{file} is omitted,
2334 @command{basenc} reads from standard input.
2335 The @option{-w/--wrap},@option{-i/--ignore-garbage},
2336 @option{-d/--decode} options of this command are precisely the same as
2337 for @command{base64}. @xref{base64 invocation}.
2340 Supported @var{encoding}s are:
2346 Encode into (or decode from with @option{-d/--decode}) base64 form.
2347 The format conforms to
2348 @uref{https://datatracker.ietf.org/doc/html/rfc4648#section-4, RFC 4648#4}.
2349 Equivalent to the @command{base64} command.
2352 @opindex --base64url
2353 Encode into (or decode from with @option{-d/--decode}) file-and-url-safe
2354 base64 form (using @samp{_} and @samp{-} instead of @samp{+} and @samp{/}).
2355 The format conforms to
2356 @uref{https://datatracker.ietf.org/doc/html/rfc4648#section-5, RFC 4648#5}.
2360 Encode into (or decode from with @option{-d/--decode}) base32 form.
2361 The encoded data uses the @samp{ABCDEFGHIJKLMNOPQRSTUVWXYZ234567=} characters.
2362 The format conforms to
2363 @uref{https://datatracker.ietf.org/doc/html/rfc4648#section-6, RFC 4648#6}.
2364 Equivalent to the @command{base32} command.
2367 @opindex --base32hex
2368 Encode into (or decode from with @option{-d/--decode}) Extended Hex Alphabet
2369 base32 form. The encoded data uses the
2370 @samp{0123456789ABCDEFGHIJKLMNOPQRSTUV=} characters. The format conforms to
2371 @uref{https://datatracker.ietf.org/doc/html/rfc4648#section-7, RFC 4648#7}.
2375 Encode into (or decode from with @option{-d/--decode}) base16 (hexadecimal)
2376 form. The encoded data uses the @samp{0123456789ABCDEF} characters. The format
2378 @uref{https://datatracker.ietf.org/doc/html/rfc4648#section-8, RFC 4648#8}.
2381 @opindex --base2lsbf
2382 Encode into (or decode from with @option{-d/--decode}) binary string form
2383 (@samp{0} and @samp{1}) with the @emph{least} significant bit of every byte
2387 @opindex --base2msbf
2388 Encode into (or decode from with @option{-d/--decode}) binary string form
2389 (@samp{0} and @samp{1}) with the @emph{most} significant bit of every byte
2394 Encode into (or decode from with @option{-d/--decode}) Z85 form
2395 (a modified Ascii85 form). The encoded data uses the
2396 @samp{0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTU@
2397 VWXYZ.-:+=^!/*?&<>()[]@{@}@@%$#}.
2398 characters. The format conforms to
2399 @uref{https://rfc.zeromq.org/spec:32/Z85/, ZeroMQ spec:32/Z85}.
2401 When encoding with @option{--z85}, input length must be a multiple of 4;
2402 when decoding with @option{--z85}, input length must be a multiple of 5.
2408 Encoding/decoding examples:
2411 $ printf '\376\117\202' | basenc --base64
2414 $ printf '\376\117\202' | basenc --base64url
2417 $ printf '\376\117\202' | basenc --base32
2420 $ printf '\376\117\202' | basenc --base32hex
2423 $ printf '\376\117\202' | basenc --base16
2426 $ printf '\376\117\202' | basenc --base2lsbf
2427 011111111111001001000001
2429 $ printf '\376\117\202' | basenc --base2msbf
2430 111111100100111110000010
2432 $ printf '\376\117\202\000' | basenc --z85
2435 $ printf 01010100 | basenc --base2msbf --decode
2438 $ printf 01010100 | basenc --base2lsbf --decode
2444 @node Formatting file contents
2445 @chapter Formatting file contents
2447 @cindex formatting file contents
2449 These commands reformat the contents of files.
2452 * fmt invocation:: Reformat paragraph text.
2453 * pr invocation:: Paginate or columnate files for printing.
2454 * fold invocation:: Wrap input lines to fit in specified width.
2458 @node fmt invocation
2459 @section @command{fmt}: Reformat paragraph text
2462 @cindex reformatting paragraph text
2463 @cindex paragraphs, reformatting
2464 @cindex text, reformatting
2466 @command{fmt} fills and joins lines to produce output lines of (at most)
2467 a given number of characters (75 by default). Synopsis:
2470 fmt [@var{option}]@dots{} [@var{file}]@dots{}
2473 @command{fmt} reads from the specified @var{file} arguments (or standard
2474 input if none are given), and writes to standard output.
2476 By default, blank lines, spaces between words, and indentation are
2477 preserved in the output; successive input lines with different
2478 indentation are not joined; tabs are expanded on input and introduced on
2481 @cindex line-breaking
2482 @cindex sentences and line-breaking
2483 @cindex Knuth, Donald E.
2484 @cindex Plass, Michael F.
2485 @command{fmt} prefers breaking lines at the end of a sentence, and tries to
2486 avoid line breaks after the first word of a sentence or before the last
2487 word of a sentence. A @dfn{sentence break} is defined as either the end
2488 of a paragraph or a word ending in any of @samp{.?!}, followed by two
2489 spaces or end of line, ignoring any intervening parentheses or quotes.
2490 Like @TeX{}, @command{fmt} reads entire ``paragraphs'' before choosing line
2491 breaks; the algorithm is a variant of that given by Donald E. Knuth
2492 and Michael F. Plass in ``Breaking Paragraphs Into Lines'',
2493 @cite{Software: Practice & Experience} @b{11}, 11 (November 1981),
2496 The program accepts the following options. Also see @ref{Common options}.
2501 @itemx --crown-margin
2503 @opindex --crown-margin
2504 @cindex crown margin
2505 @dfn{Crown margin} mode: preserve the indentation of the first two
2506 lines within a paragraph, and align the left margin of each subsequent
2507 line with that of the second line.
2510 @itemx --tagged-paragraph
2512 @opindex --tagged-paragraph
2513 @cindex tagged paragraphs
2514 @dfn{Tagged paragraph} mode: like crown margin mode, except that if
2515 indentation of the first line of a paragraph is the same as the
2516 indentation of the second, the first line is treated as a one-line
2522 @opindex --split-only
2523 Split lines only. Do not join short lines to form longer ones. This
2524 prevents sample lines of code, and other such ``formatted'' text from
2525 being unduly combined.
2528 @itemx --uniform-spacing
2530 @opindex --uniform-spacing
2531 Uniform spacing. Reduce spacing between words to one space, and spacing
2532 between sentences to two spaces.
2535 @itemx -w @var{width}
2536 @itemx --width=@var{width}
2537 @opindex -@var{width}
2540 Fill output lines up to @var{width} characters (default 75 or @var{goal}
2541 plus 10, if @var{goal} is provided).
2544 @itemx --goal=@var{goal}
2547 @command{fmt} initially tries to make lines @var{goal} characters wide.
2548 By default, this is 7% shorter than @var{width}.
2550 @item -p @var{prefix}
2551 @itemx --prefix=@var{prefix}
2552 Only lines beginning with @var{prefix} (possibly preceded by whitespace)
2553 are subject to formatting. The prefix and any preceding whitespace are
2554 stripped for the formatting and then re-attached to each formatted output
2555 line. One use is to format certain kinds of program comments, while
2556 leaving the code unchanged.
2563 @section @command{pr}: Paginate or columnate files for printing
2566 @cindex printing, preparing files for
2567 @cindex multicolumn output, generating
2568 @cindex merging files in parallel
2570 @command{pr} writes each @var{file} (@samp{-} means standard input), or
2571 standard input if none are given, to standard output, paginating and
2572 optionally outputting in multicolumn format; optionally merges all
2573 @var{file}s, printing all in parallel, one per column. Synopsis:
2576 pr [@var{option}]@dots{} [@var{file}]@dots{}
2580 By default, a 5-line header is printed at each page: two blank lines;
2581 a line with the date, the file name, and the page count; and two more
2582 blank lines. A footer of five blank lines is also printed.
2583 The default @var{page_length} is 66
2584 lines. The default number of text lines is therefore 56.
2585 The text line of the header takes the form
2586 @samp{@var{date} @var{string} @var{page}}, with spaces inserted around
2587 @var{string} so that the line takes up the full @var{page_width}. Here,
2588 @var{date} is the date (see the @option{-D} or @option{--date-format}
2589 option for details), @var{string} is the centered header string, and
2590 @var{page} identifies the page number. The @env{LC_MESSAGES} locale
2591 category affects the spelling of @var{page}; in the default C locale, it
2592 is @samp{Page @var{number}} where @var{number} is the decimal page
2595 Form feeds in the input cause page breaks in the output. Multiple form
2596 feeds produce empty pages.
2598 Columns are of equal width, separated by an optional string (default
2599 is @samp{space}). For multicolumn output, lines will always be truncated to
2600 @var{page_width} (default 72), unless you use the @option{-J} option.
2602 column output no line truncation occurs by default. Use @option{-W} option to
2603 truncate lines in that case.
2605 The program accepts the following options. Also see @ref{Common options}.
2609 @item +@var{first_page}[:@var{last_page}]
2610 @itemx --pages=@var{first_page}[:@var{last_page}]
2611 @c The two following @opindex lines evoke warnings because they contain ':'
2612 @c The 'info' spec does not permit that. If we use those lines, we end
2613 @c up with truncated index entries that don't work.
2614 @c @opindex +@var{first_page}[:@var{last_page}]
2615 @c @opindex --pages=@var{first_page}[:@var{last_page}]
2616 @opindex +@var{page_range}
2617 @opindex --pages=@var{page_range}
2618 Begin printing with page @var{first_page} and stop with @var{last_page}.
2619 Missing @samp{:@var{last_page}} implies end of file. While estimating
2620 the number of skipped pages each form feed in the input file results
2621 in a new page. Page counting with and without @samp{+@var{first_page}}
2622 is identical. By default, counting starts with the first page of input
2623 file (not first page printed). Line numbering may be altered by @option{-N}
2627 @itemx --columns=@var{column}
2628 @opindex -@var{column}
2630 @cindex down columns
2631 With each single @var{file}, produce @var{column} columns of output
2632 (default is 1) and print columns down, unless @option{-a} is used. The
2633 column width is automatically decreased as @var{column} increases; unless
2634 you use the @option{-W/-w} option to increase @var{page_width} as well.
2635 This option might well cause some lines to be truncated. The number of
2636 lines in the columns on each page are balanced. The options @option{-e}
2637 and @option{-i} are on for multiple text-column output. Together with
2638 @option{-J} option column alignment and line truncation is turned off.
2639 Since spaces are converted to TABs in multicolumn output, they can be converted
2640 back by further processing through @command{pr -t -e} or @command{expand}.
2641 Lines of full length are joined in a free field format and @option{-S}
2642 option may set field separators. @option{-@var{column}} may not be used
2643 with the @option{-m} option.
2649 @cindex across columns
2650 With each single @var{file}, print columns across rather than down. The
2651 @option{-@var{column}} option must be given with @var{column} greater than one.
2652 If a line is too long to fit in a column, it is truncated.
2655 @itemx --show-control-chars
2657 @opindex --show-control-chars
2658 Print control characters using hat notation (e.g., @samp{^G}); print
2659 other nonprinting characters in octal backslash notation. By default,
2660 nonprinting characters are not changed.
2663 @itemx --double-space
2665 @opindex --double-space
2666 @cindex double spacing
2667 Double space the output.
2669 @item -D @var{format}
2670 @itemx --date-format=@var{format}
2671 @cindex time formats
2672 @cindex formatting times
2673 Format header dates using @var{format}, using the same conventions as
2674 for the command @samp{date +@var{format}}. @xref{date invocation}.
2675 Except for directives, which start with
2676 @samp{%}, characters in @var{format} are printed unchanged. You can use
2677 this option to specify an arbitrary string in place of the header date,
2678 e.g., @option{--date-format="Monday morning"}.
2680 @vindex POSIXLY_CORRECT
2682 The default date format is @samp{%Y-%m-%d %H:%M} (for example,
2683 @samp{2020-07-09 23:59});
2684 but if the @env{POSIXLY_CORRECT} environment variable is set
2685 and the @env{LC_TIME} locale category specifies the POSIX
2686 locale, the default is @samp{%b %e %H:%M %Y} (for example,
2687 @samp{Jul@ @ 9 23:59 2020}.
2690 Timestamps are listed according to the time zone rules specified by
2691 the @env{TZ} environment variable, or by the system default rules if
2692 @env{TZ} is not set. @xref{TZ Variable,, Specifying the Time Zone
2693 with @env{TZ}, libc, The GNU C Library Reference Manual}.
2695 @item -e[@var{in-tabchar}[@var{in-tabwidth}]]
2696 @itemx --expand-tabs[=@var{in-tabchar}[@var{in-tabwidth}]]
2698 @opindex --expand-tabs
2700 Expand @var{tab}s to spaces on input. Optional argument @var{in-tabchar} is
2701 the input tab character (default is the TAB character). Second optional
2702 argument @var{in-tabwidth} is the input tab character's width (default
2710 @opindex --form-feed
2711 Use a form feed instead of newlines to separate output pages. This does
2712 not alter the default page length of 66 lines.
2714 @item -h @var{header}
2715 @itemx --header=@var{header}
2718 Replace the file name in the header with the centered string @var{header}.
2719 When using the shell, @var{header} should be quoted and should be
2720 separated from @option{-h} by a space.
2722 @item -i[@var{out-tabchar}[@var{out-tabwidth}]]
2723 @itemx --output-tabs[=@var{out-tabchar}[@var{out-tabwidth}]]
2725 @opindex --output-tabs
2727 Replace spaces with @var{tab}s on output. Optional argument @var{out-tabchar}
2728 is the output tab character (default is the TAB character). Second optional
2729 argument @var{out-tabwidth} is the output tab character's width (default
2735 @opindex --join-lines
2736 Merge lines of full length. Used together with the column options
2737 @option{-@var{column}}, @option{-a -@var{column}} or @option{-m}. Turns off
2738 @option{-W/-w} line truncation;
2739 no column alignment used; may be used with
2740 @option{--sep-string[=@var{string}]}. @option{-J} has been introduced
2741 (together with @option{-W} and @option{--sep-string})
2742 to disentangle the old (POSIX-compliant) options @option{-w} and
2743 @option{-s} along with the three column options.
2746 @item -l @var{page_length}
2747 @itemx --length=@var{page_length}
2750 Set the page length to @var{page_length} (default 66) lines, including
2751 the lines of the header [and the footer]. If @var{page_length} is less
2752 than or equal to 10, the header and footer are omitted, as if the
2753 @option{-t} option had been given.
2759 Merge and print all @var{file}s in parallel, one in each column. If a
2760 line is too long to fit in a column, it is truncated, unless the @option{-J}
2761 option is used. @option{--sep-string[=@var{string}]} may be used.
2763 some @var{file}s (form feeds set) produce empty columns, still marked
2764 by @var{string}. The result is a continuous line numbering and column
2765 marking throughout the whole merged file. Completely empty merged pages
2766 show no separators or line numbers. The default header becomes
2767 @samp{@var{date} @var{page}} with spaces inserted in the middle; this
2768 may be used with the @option{-h} or @option{--header} option to fill up
2769 the middle blank part.
2771 @item -n[@var{number-separator}[@var{digits}]]
2772 @itemx --number-lines[=@var{number-separator}[@var{digits}]]
2774 @opindex --number-lines
2775 Provide @var{digits} digit line numbering (default for @var{digits} is
2776 5). With multicolumn output the number occupies the first @var{digits}
2777 column positions of each text column or only each line of @option{-m}
2778 output. With single column output the number precedes each line just as
2779 @option{-m} does. Default counting of the line numbers starts with the
2780 first line of the input file (not the first line printed, compare the
2781 @option{--page} option and @option{-N} option).
2782 Optional argument @var{number-separator} is the character appended to
2783 the line number to separate it from the text followed. The default
2784 separator is the TAB character. In a strict sense a TAB is always
2785 printed with single column output only. The TAB width varies
2786 with the TAB position, e.g., with the left @var{margin} specified
2787 by @option{-o} option. With multicolumn output priority is given to
2788 @samp{equal width of output columns} (a POSIX specification).
2789 The TAB width is fixed to the value of the first column and does
2790 not change with different values of left @var{margin}. That means a
2791 fixed number of spaces is always printed in the place of the
2792 @var{number-separator} TAB@. The tabification depends upon the output
2795 @item -N @var{line_number}
2796 @itemx --first-line-number=@var{line_number}
2798 @opindex --first-line-number
2799 Start line counting with the number @var{line_number} at first line of
2800 first page printed (in most cases not the first line of the input file).
2802 @item -o @var{margin}
2803 @itemx --indent=@var{margin}
2806 @cindex indenting lines
2808 Indent each line with a margin @var{margin} spaces wide (default is zero).
2809 The total page width is the size of the margin plus the @var{page_width}
2810 set with the @option{-W/-w} option. A limited overflow may occur with
2811 numbered single column output (compare @option{-n} option).
2814 @itemx --no-file-warnings
2816 @opindex --no-file-warnings
2817 Do not print a warning message when an argument @var{file} cannot be
2818 opened. (The exit status will still be nonzero, however.)
2820 @item -s[@var{char}]
2821 @itemx --separator[=@var{char}]
2823 @opindex --separator
2824 Separate columns by a single character @var{char}. The default for
2825 @var{char} is the TAB character without @option{-w} and @samp{no
2826 character} with @option{-w}. Without @option{-s} the default separator
2827 @samp{space} is set. @option{-s[char]} turns off line truncation of all
2828 three column options (@option{-COLUMN}|@option{-a -COLUMN}|@option{-m}) unless
2829 @option{-w} is set. This is a POSIX-compliant formulation.
2832 @item -S[@var{string}]
2833 @itemx --sep-string[=@var{string}]
2835 @opindex --sep-string
2836 Use @var{string} to separate output columns. The @option{-S} option doesn't
2837 affect the @option{-W/-w} option, unlike the @option{-s} option which does. It
2838 does not affect line truncation or column alignment.
2839 Without @option{-S}, and with @option{-J}, @command{pr} uses the default output
2841 Without @option{-S} or @option{-J}, @command{pr} uses a @samp{space}
2842 (same as @option{-S"@w{ }"}).
2843 If no @samp{@var{string}} argument is specified, @samp{""} is assumed.
2846 @itemx --omit-header
2848 @opindex --omit-header
2849 Do not print the usual header [and footer] on each page, and do not fill
2850 out the bottom of pages (with blank lines or a form feed). No page
2851 structure is produced, but form feeds set in the input files are retained.
2852 The predefined pagination is not changed. @option{-t} or @option{-T} may be
2853 useful together with other options; e.g.: @option{-t -e4}, expand TAB characters
2854 in the input file to 4 spaces but don't make any other changes. Use of
2855 @option{-t} overrides @option{-h}.
2858 @itemx --omit-pagination
2860 @opindex --omit-pagination
2861 Do not print header [and footer]. In addition eliminate all form feeds
2862 set in the input files.
2865 @itemx --show-nonprinting
2867 @opindex --show-nonprinting
2868 Print nonprinting characters in octal backslash notation.
2870 @item -w @var{page_width}
2871 @itemx --width=@var{page_width}
2874 Set page width to @var{page_width} characters for multiple text-column
2875 output only (default for @var{page_width} is 72). The specified
2876 @var{page_width} is rounded down so that columns have equal width.
2877 @option{-s[CHAR]} turns off the default page width and any line truncation
2878 and column alignment.
2879 Lines of full length are merged, regardless of the column options
2880 set. No @var{page_width} setting is possible with single column output.
2881 A POSIX-compliant formulation.
2883 @item -W @var{page_width}
2884 @itemx --page_width=@var{page_width}
2886 @opindex --page_width
2887 Set the page width to @var{page_width} characters, honored with and
2888 without a column option. With a column option, the specified @var{page_width}
2889 is rounded down so that columns have equal width. Text lines are truncated,
2890 unless @option{-J} is used. Together with one of the three column options
2891 (@option{-@var{column}}, @option{-a -@var{column}} or @option{-m}) column
2892 alignment is always used. The separator options @option{-S} or @option{-s}
2893 don't disable the @option{-W} option. Default is 72 characters. Without
2894 @option{-W @var{page_width}} and without any of the column options NO line
2895 truncation is used (defined to keep downward compatibility and to meet
2896 most frequent tasks). That's equivalent to @option{-W 72 -J}@. The header
2897 line is never truncated.
2904 @node fold invocation
2905 @section @command{fold}: Wrap input lines to fit in specified width
2908 @cindex wrapping long input lines
2909 @cindex folding long input lines
2911 @command{fold} writes each @var{file} (@option{-} means standard input), or
2912 standard input if none are given, to standard output, breaking long
2916 fold [@var{option}]@dots{} [@var{file}]@dots{}
2919 By default, @command{fold} breaks lines wider than 80 columns. The output
2920 is split into as many lines as necessary.
2922 @cindex screen columns
2923 @command{fold} counts screen columns by default; thus, a tab may count more
2924 than one column, backspace decreases the column count, and carriage
2925 return sets the column to zero.
2927 The program accepts the following options. Also see @ref{Common options}.
2935 Count bytes rather than columns, so that tabs, backspaces, and carriage
2936 returns are each counted as taking up one column, just like other
2943 Break at word boundaries: the line is broken after the last blank before
2944 the maximum line length. If the line contains no such blanks, the line
2945 is broken at the maximum line length as usual.
2947 @item -w @var{width}
2948 @itemx --width=@var{width}
2951 Use a maximum line length of @var{width} columns instead of 80.
2953 For compatibility @command{fold} supports an obsolete option syntax
2954 @option{-@var{width}}. New scripts should use @option{-w @var{width}}
2962 @node Output of parts of files
2963 @chapter Output of parts of files
2965 @cindex output of parts of files
2966 @cindex parts of files, output of
2968 These commands output pieces of the input.
2971 * head invocation:: Output the first part of files.
2972 * tail invocation:: Output the last part of files.
2973 * split invocation:: Split a file into pieces.
2974 * csplit invocation:: Split a file into context-determined pieces.
2977 @node head invocation
2978 @section @command{head}: Output the first part of files
2981 @cindex initial part of files, outputting
2982 @cindex first part of files, outputting
2984 @command{head} prints the first part (10 lines by default) of each
2985 @var{file}; it reads from standard input if no files are given or
2986 when given a @var{file} of @option{-}. Synopsis:
2989 head [@var{option}]@dots{} [@var{file}]@dots{}
2992 If more than one @var{file} is specified, @command{head} prints a
2993 one-line header consisting of:
2996 ==> @var{file name} <==
3000 before the output for each @var{file}.
3002 The program accepts the following options. Also see @ref{Common options}.
3006 @item -c [-]@var{num}
3007 @itemx --bytes=[-]@var{num}
3010 Print the first @var{num} bytes, instead of initial lines.
3011 However, if @var{num} is prefixed with a @samp{-},
3012 print all but the last @var{num} bytes of each file.
3013 @multiplierSuffixes{num}
3015 @item -n [-]@var{num}
3016 @itemx --lines=[-]@var{num}
3019 Output the first @var{num} lines.
3020 However, if @var{num} is prefixed with a @samp{-},
3021 print all but the last @var{num} lines of each file.
3022 Size multiplier suffixes are the same as with the @option{-c} option.
3030 Never print file name headers.
3036 Always print file name headers.
3042 For compatibility @command{head} also supports an obsolete option syntax
3043 @option{-[@var{num}][bkm][cqv]}, which is recognized only if it is
3044 specified first. @var{num} is a decimal number optionally followed
3045 by a size letter (@samp{b}, @samp{k}, @samp{m}) as in @option{-c}, or
3046 @samp{l} to mean count by lines, or other option letters (@samp{cqv}).
3047 Scripts intended for standard hosts should use @option{-c @var{num}}
3048 or @option{-n @var{num}} instead. If your script must also run on
3049 hosts that support only the obsolete syntax, it is usually simpler to
3050 avoid @command{head}, e.g., by using @samp{sed 5q} instead of
3056 @node tail invocation
3057 @section @command{tail}: Output the last part of files
3060 @cindex last part of files, outputting
3062 @command{tail} prints the last part (10 lines by default) of each
3063 @var{file}; it reads from standard input if no files are given or
3064 when given a @var{file} of @samp{-}. Synopsis:
3067 tail [@var{option}]@dots{} [@var{file}]@dots{}
3070 If more than one @var{file} is specified, @command{tail} prints a
3071 one-line header before the output for each @var{file}, consisting of:
3074 ==> @var{file name} <==
3077 For further processing of tail output, it can be useful to convert the
3078 file headers to line prefixes, which can be done like:
3083 /^==> .* <==$/ @{prefix=substr($0,5,length-8)":"; next@}
3088 @cindex BSD @command{tail}
3089 GNU @command{tail} can output any amount of data (some other versions of
3090 @command{tail} cannot). It also has no @option{-r} option (print in
3091 reverse), since reversing a file is really a different job from printing
3092 the end of a file; BSD @command{tail} (which is the one with @option{-r}) can
3093 only reverse files that are at most as large as its buffer, which is
3094 typically 32 KiB@. A more reliable and versatile way to reverse files is
3095 the GNU @command{tac} command.
3097 The program accepts the following options. Also see @ref{Common options}.
3101 @item -c [+]@var{num}
3102 @itemx --bytes=[+]@var{num}
3105 Output the last @var{num} bytes, instead of final lines.
3106 If @var{num} is prefixed with a @samp{+}, start printing with
3107 byte @var{num} from the start of each file. For example to skip the first byte
3108 use @code{tail -c +2}, while to skip all but the last byte use @code{tail -c 1}.
3109 @multiplierSuffixes{num}
3112 @itemx --follow[=@var{how}]
3115 @cindex growing files
3116 @vindex name @r{follow option}
3117 @vindex descriptor @r{follow option}
3118 Loop forever trying to read more characters at the end of the file,
3119 presumably because the file is growing.
3120 If more than one file is given, @command{tail} prints a header whenever it
3121 gets output from a different file, to indicate which file that output is
3124 There are two ways to specify how you'd like to track files with this option,
3125 but that difference is noticeable only when a followed file is removed or
3127 If you'd like to continue to track the end of a growing file even after
3128 it has been unlinked, use @option{--follow=descriptor}. This is the default
3129 behavior, but it is not useful if you're tracking a log file that may be
3130 rotated (removed or renamed, then reopened). In that case, use
3131 @option{--follow=name} to track the named file, perhaps by reopening it
3132 periodically to see if it has been removed and recreated by some other program.
3133 The inotify-based implementation handles this case without
3134 the need for any periodic reopening.
3136 No matter which method you use, if the tracked file is determined to have
3137 shrunk, @command{tail} prints a message saying the file has been truncated
3138 and resumes tracking from the start of the file, assuming it has been
3139 truncated to 0, which is the usual truncation operation for log files.
3141 When a file is removed, @command{tail}'s behavior depends on whether it is
3142 following the name or the descriptor. When following by name, tail can
3143 detect that a file has been removed and gives a message to that effect,
3144 and if @option{--retry} has been specified it will continue checking
3145 periodically to see if the file reappears.
3146 When following a descriptor, tail does not detect that the file has
3147 been unlinked or renamed and issues no message; even though the file
3148 may no longer be accessible via its original name, it may still be
3151 The option values @samp{descriptor} and @samp{name} may be specified only
3152 with the long form of the option, not with @option{-f}.
3154 The @option{-f} option is ignored if
3155 no @var{file} operand is specified and standard input is a FIFO or a pipe.
3156 Likewise, the @option{-f} option has no effect for any
3157 operand specified as @samp{-}, when standard input is a FIFO or a pipe.
3159 With kernel inotify support, output is triggered by file changes
3160 and is generally very prompt.
3161 Otherwise, @command{tail} sleeps for one second between checks --
3162 use @option{--sleep-interval=@var{n}} to change that default -- which can
3163 make the output appear slightly less responsive or bursty.
3164 When using tail without inotify support, you can make it more responsive
3165 by using a sub-second sleep interval, e.g., via an alias like this:
3168 alias tail='tail -s.1'
3173 This option is the same as @option{--follow=name --retry}. That is, tail
3174 will attempt to reopen a file when it is removed. Should this fail, tail
3175 will keep trying until it becomes accessible again.
3177 @item --max-unchanged-stats=@var{n}
3178 @opindex --max-unchanged-stats
3179 When tailing a file by name, if there have been @var{n} (default
3180 n=@value{DEFAULT_MAX_N_UNCHANGED_STATS_BETWEEN_OPENS}) consecutive
3181 iterations for which the file has not changed, then
3182 @code{open}/@code{fstat} the file to determine if that file name is
3183 still associated with the same device/inode-number pair as before.
3184 When following a log file that is rotated, this is approximately the
3185 number of seconds between when tail prints the last pre-rotation lines
3186 and when it prints the lines that have accumulated in the new log file.
3187 This option is meaningful only when polling (i.e., without inotify)
3188 and when following by name.
3190 @item -n [+]@var{num}
3191 @itemx --lines=[+]@var{}
3194 Output the last @var{num} lines.
3195 If @var{num} is prefixed with a @samp{+}, start printing with
3196 line @var{num} from the start of each file. For example to skip the first line
3197 use @code{tail -n +2}, while to skip all but the last line use @code{tail -n 1}.
3198 Size multiplier suffixes are the same as with the @option{-c} option.
3200 @item --pid=@var{pid}
3202 When following by name or by descriptor, you may specify the process ID,
3203 @var{pid}, of one or more (by repeating @option{--pid}) writers of the
3204 @var{file} arguments. Then, shortly after all the identified
3205 processes terminate, tail will also terminate. This will
3206 work properly only if the writers and the tailing process are running on
3207 the same machine. For example, to save the output of a build in a file
3208 and to watch the file grow, if you invoke @command{make} and @command{tail}
3209 like this then the tail process will stop when your build completes.
3210 Without this option, you would have had to kill the @code{tail -f}
3214 $ make >& makerr & tail --pid=$! -f makerr
3217 If you specify a @var{pid} that is not in use or that does not correspond
3218 to the process that is writing to the tailed files, then @command{tail}
3219 may terminate long before any @var{file}s stop growing or it may not
3220 terminate until long after the real writer has terminated.
3221 On some systems, @option{--pid} is not supported and @command{tail}
3230 Never print file name headers.
3234 Indefinitely try to open the specified file.
3235 This option is useful mainly when following (and otherwise issues a warning).
3237 When following by file descriptor (i.e., with @option{--follow=descriptor}),
3238 this option only affects the initial open of the file, as after a successful
3239 open, @command{tail} will start following the file descriptor.
3241 When following by name (i.e., with @option{--follow=name}), @command{tail}
3242 infinitely retries to re-open the given files until killed.
3244 Without this option, when @command{tail} encounters a file that doesn't
3245 exist or is otherwise inaccessible, it reports that fact and
3246 never checks it again.
3248 @item -s @var{number}
3249 @itemx --sleep-interval=@var{number}
3251 @opindex --sleep-interval
3252 Change the number of seconds to wait between iterations (the default is 1.0).
3253 During one iteration, every specified file is checked to see if it has
3255 When @command{tail} uses inotify, this polling-related option
3256 is usually ignored. However, if you also specify @option{--pid=@var{p}},
3257 @command{tail} checks whether process @var{p} is alive at least
3258 every @var{number} seconds.
3259 The @var{number} must be non-negative and can be a floating-point number
3260 in either the current or the C locale. @xref{Floating point}.
3266 Always print file name headers.
3272 For compatibility @command{tail} also supports an obsolete usage
3273 @samp{tail -[@var{num}][bcl][f] [@var{file}]}, which is recognized
3274 only if it does not conflict with the usage described
3275 above. This obsolete form uses exactly one option and at most one
3276 file. In the option, @var{num} is an optional decimal number optionally
3277 followed by a size letter (@samp{b}, @samp{c}, @samp{l}) to mean count
3278 by 512-byte blocks, bytes, or lines, optionally followed by @samp{f}
3279 which has the same meaning as @option{-f}.
3281 @vindex _POSIX2_VERSION
3282 On systems not conforming to POSIX 1003.1-2001, the leading @samp{-}
3283 can be replaced by @samp{+} in the traditional option syntax with the
3284 same meaning as in counts, and on obsolete systems predating POSIX
3285 1003.1-2001 traditional usage overrides normal usage when the two
3286 conflict. This behavior can be controlled with the
3287 @env{_POSIX2_VERSION} environment variable (@pxref{Standards
3290 Scripts intended for use on standard hosts should avoid traditional
3291 syntax and should use @option{-c @var{num}[b]}, @option{-n
3292 @var{num}}, and/or @option{-f} instead. If your script must also
3293 run on hosts that support only the traditional syntax, you can often
3294 rewrite it to avoid problematic usages, e.g., by using @samp{sed -n
3295 '$p'} rather than @samp{tail -1}. If that's not possible, the script
3296 can use a test like @samp{if tail -c +1 </dev/null >/dev/null 2>&1;
3297 then @dots{}} to decide which syntax to use.
3299 Even if your script assumes the standard behavior, you should still
3300 beware usages whose behaviors differ depending on the POSIX
3301 version. For example, avoid @samp{tail - main.c}, since it might be
3302 interpreted as either @samp{tail main.c} or as @samp{tail -- -
3303 main.c}; avoid @samp{tail -c 4}, since it might mean either @samp{tail
3304 -c4} or @samp{tail -c 10 4}; and avoid @samp{tail +4}, since it might
3305 mean either @samp{tail ./+4} or @samp{tail -n +4}.
3310 @node split invocation
3311 @section @command{split}: Split a file into pieces.
3314 @cindex splitting a file into pieces
3315 @cindex pieces, splitting a file into
3317 @command{split} creates output files containing consecutive or interleaved
3318 sections of @var{input} (standard input if none is given or @var{input}
3319 is @samp{-}). Synopsis:
3322 split [@var{option}] [@var{input} [@var{prefix}]]
3325 By default, @command{split} puts 1000 lines of @var{input} (or whatever is
3326 left over for the last section), into each output file.
3328 @cindex output file name prefix
3329 The output files' names consist of @var{prefix} (@samp{x} by default)
3330 followed by a group of characters (@samp{aa}, @samp{ab}, @dots{} by
3331 default), such that concatenating the output files in traditional
3332 sorted order by file name produces the original input file (except
3333 @option{-nr/@var{n}}). By default split will initially create files
3334 with two generated suffix characters, and will increase this width by two
3335 when the next most significant position reaches the last character.
3336 (@samp{yz}, @samp{zaaa}, @samp{zaab}, @dots{}). In this way an arbitrary
3337 number of output files are supported, which sort as described above,
3338 even in the presence of an @option{--additional-suffix} option.
3339 If the @option{-a} option is specified and the output file names are
3340 exhausted, @command{split} reports an error without deleting the
3341 output files that it did create.
3343 The program accepts the following options. Also see @ref{Common options}.
3347 @item -l @var{lines}
3348 @itemx --lines=@var{lines}
3351 Put @var{lines} lines of @var{input} into each output file.
3352 If @option{--separator} is specified, then @var{lines} determines
3353 the number of records.
3355 For compatibility @command{split} also supports an obsolete
3356 option syntax @option{-@var{lines}}. New scripts should use
3357 @option{-l @var{lines}} instead.
3360 @itemx --bytes=@var{size}
3363 Put @var{size} bytes of @var{input} into each output file.
3364 @multiplierSuffixes{size}
3367 @itemx --line-bytes=@var{size}
3369 @opindex --line-bytes
3370 Put into each output file as many complete lines of @var{input} as
3371 possible without exceeding @var{size} bytes. Individual lines or records
3372 longer than @var{size} bytes are broken into multiple files.
3373 @var{size} has the same format as for the @option{--bytes} option.
3374 If @option{--separator} is specified, then @var{lines} determines
3375 the number of records.
3377 @item --filter=@var{command}
3379 With this option, rather than simply writing to each output file,
3380 write through a pipe to the specified shell @var{command} for each output file.
3381 @var{command} should use the $FILE environment variable, which is set
3382 to a different output file name for each invocation of the command.
3383 For example, imagine that you have a 1TiB compressed file
3384 that, if uncompressed, would be too large to reside on secondary storage,
3385 yet you must split it into individually-compressed pieces
3386 of a more manageable size.
3387 To do that, you might run this command:
3390 xz -dc BIG.xz | split -b200G --filter='xz > $FILE.xz' - big-
3393 Assuming a 10:1 compression ratio, that would create about fifty 20GiB files
3394 with names @file{big-aa.xz}, @file{big-ab.xz}, @file{big-ac.xz}, etc.
3396 @item -n @var{chunks}
3397 @itemx --number=@var{chunks}
3401 Split @var{input} to @var{chunks} output files where @var{chunks} may be:
3404 @var{n} generate @var{n} files based on current size of @var{input}
3405 @var{k}/@var{n} output only @var{k}th of @var{n} to standard output
3406 l/@var{n} generate @var{n} files without splitting lines or records
3407 l/@var{k}/@var{n} likewise but output only @var{k}th of @var{n} to stdout
3408 r/@var{n} like @samp{l} but use round robin distribution
3409 r/@var{k}/@var{n} likewise but output only @var{k}th of @var{n} to stdout
3412 If the input size is not a multiple of @var{n}, early output files are
3413 one byte longer than later output files, to make up the difference.
3414 Any excess bytes appearing after the initial calculation are discarded
3415 (except when using @samp{r} mode).
3417 All @var{n} files are created even if there are fewer than @var{n} lines,
3418 or the @var{input} is truncated.
3420 For @samp{l} mode, chunks are approximately @var{input} size / @var{n}.
3421 Although the @var{input} is still partitioned as before into @var{n} regions
3422 of approximately equal size, if a line @emph{starts} within a partition
3423 it is written completely to the corresponding file. Since lines or records
3424 are not split even if they overlap a partition, the files written
3425 can be larger or smaller than the partition size, and even empty
3426 if a line/record is so long as to completely overlap the partition.
3428 When the input is a pipe or some other special file where the size
3429 cannot easily be determined, there is no trouble for @samp{r} mode
3430 because the size of the input is irrelevant. For other modes, such an
3431 input is first copied to a temporary to determine its size.
3433 @item -a @var{length}
3434 @itemx --suffix-length=@var{length}
3436 @opindex --suffix-length
3437 Use suffixes of length @var{length}. If a @var{length} of 0 is specified,
3438 this is the same as if (any previous) @option{-a} was not specified, and
3439 thus enables the default behavior, which starts the suffix length at 2,
3440 and unless @option{-n} or @option{--numeric-suffixes=@var{from}} is
3441 specified, will auto increase the length by 2 as required.
3444 @itemx --numeric-suffixes[=@var{from}]
3446 @opindex --numeric-suffixes
3447 Use digits in suffixes rather than lower-case letters. The numerical
3448 suffix counts from @var{from} if specified, 0 otherwise.
3450 @var{from} is supported with the long form option, and is used to either set the
3451 initial suffix for a single run, or to set the suffix offset for independently
3452 split inputs, and consequently the auto suffix length expansion described above
3453 is disabled. Therefore you may also want to use option @option{-a} to allow
3454 suffixes beyond @samp{99}. If option @option{--number} is specified and
3455 the number of files is less than @var{from}, a single run is assumed and the
3456 minimum suffix length required is automatically determined.
3459 @itemx --hex-suffixes[=@var{from}]
3461 @opindex --hex-suffixes
3462 Like @option{--numeric-suffixes}, but use hexadecimal numbers (in lower case).
3464 @item --additional-suffix=@var{suffix}
3465 @opindex --additional-suffix
3466 Append an additional @var{suffix} to output file names. @var{suffix}
3467 must not contain slash.
3470 @itemx --elide-empty-files
3472 @opindex --elide-empty-files
3473 Suppress the generation of zero-length output files. This can happen
3474 with the @option{--number} option if a file is (truncated to be) shorter
3475 than the number requested, or if a line is so long as to completely
3476 span a chunk. The output file sequence numbers, always run consecutively
3477 even when this option is specified.
3479 @item -t @var{separator}
3480 @itemx --separator=@var{separator}
3482 @opindex --separator
3483 @cindex line separator character
3484 @cindex record separator character
3485 Use character @var{separator} as the record separator instead of the default
3486 newline character (ASCII LF).
3487 To specify ASCII NUL as the separator, use the two-character string @samp{\0},
3488 e.g., @samp{split -t '\0'}.
3493 @opindex --unbuffered
3494 Immediately copy input to output in @option{--number r/@dots{}} mode,
3495 which is a much slower mode of operation.
3499 Write a diagnostic just before each output file is opened.
3505 Here are a few examples to illustrate how the
3506 @option{--number} (@option{-n}) option works:
3508 Notice how, by default, one line may be split onto two or more:
3511 $ seq -w 6 10 > k; split -n3 k; head xa?
3524 Use the "l/" modifier to suppress that:
3527 $ seq -w 6 10 > k; split -nl/3 k; head xa?
3540 Use the "r/" modifier to distribute lines in a round-robin fashion:
3543 $ seq -w 6 10 > k; split -nr/3 k; head xa?
3556 You can also extract just the Kth chunk.
3557 This extracts and prints just the 7th "chunk" of 33:
3560 $ seq 100 > k; split -nl/7/33 k
3567 @node csplit invocation
3568 @section @command{csplit}: Split a file into context-determined pieces
3571 @cindex context splitting
3572 @cindex splitting a file into pieces by context
3574 @command{csplit} creates zero or more output files containing sections of
3575 @var{input} (standard input if @var{input} is @samp{-}). Synopsis:
3578 csplit [@var{option}]@dots{} @var{input} @var{pattern}@dots{}
3581 The contents of the output files are determined by the @var{pattern}
3582 arguments, as detailed below. An error occurs if a @var{pattern}
3583 argument refers to a nonexistent line of the input file (e.g., if no
3584 remaining line matches a given regular expression). After every
3585 @var{pattern} has been matched, any remaining input is copied into one
3588 By default, @command{csplit} prints the number of bytes written to each
3589 output file after it has been created.
3591 The types of pattern arguments are:
3596 Create an output file containing the input up to but not including line
3597 @var{n} (a positive integer). If followed by a repeat count, also
3598 create an output file containing the next @var{n} lines of the input
3599 file once for each repeat.
3601 @item /@var{regexp}/[@var{offset}]
3602 Create an output file containing the current line up to (but not
3603 including) the next line of the input file that contains a match for
3604 @var{regexp}. The optional @var{offset} is an integer, that can
3605 be preceded by @samp{+} or @samp{-}.
3606 If it is given, the input up to (but not including) the
3607 matching line plus or minus @var{offset} is put into the output file,
3608 and the line after that begins the next section of input.
3609 Lines within a negative offset of a regexp pattern
3610 are not matched in subsequent regexp patterns.
3612 @item %@var{regexp}%[@var{offset}]
3613 Like the previous type, except that it does not create an output
3614 file, so that section of the input file is effectively ignored.
3616 @item @{@var{repeat-count}@}
3617 Repeat the previous pattern @var{repeat-count} additional
3618 times. The @var{repeat-count} can either be a positive integer or an
3619 asterisk, meaning repeat as many times as necessary until the input is
3624 The output files' names consist of a prefix (@samp{xx} by default)
3625 followed by a suffix. By default, the suffix is an ascending sequence
3626 of two-digit decimal numbers from @samp{00} to @samp{99}. In any case,
3627 concatenating the output files in sorted order by file name produces the
3628 original input file, excluding portions skipped with a %@var{regexp}%
3629 pattern or the @option{--suppress-matched} option.
3631 By default, if @command{csplit} encounters an error or receives a hangup,
3632 interrupt, quit, or terminate signal, it removes any output files
3633 that it has created so far before it exits.
3635 The program accepts the following options. Also see @ref{Common options}.
3639 @item -f @var{prefix}
3640 @itemx --prefix=@var{prefix}
3643 @cindex output file name prefix
3644 Use @var{prefix} as the output file name prefix.
3646 @item -b @var{format}
3647 @itemx --suffix-format=@var{format}
3649 @opindex --suffix-format
3650 @cindex output file name suffix
3651 Use @var{format} as the output file name suffix. When this option is
3652 specified, the suffix string must include exactly one
3653 @code{printf(3)}-style conversion specification, possibly including
3654 format specification flags, a field width, a precision specification,
3655 or all of these kinds of modifiers. The format letter must convert a
3656 binary unsigned integer argument to readable form. The format letters
3657 @samp{d} and @samp{i} are aliases for @samp{u}, and the
3658 @samp{u}, @samp{o}, @samp{x}, and @samp{X} conversions are allowed. The
3659 entire @var{format} is given (with the current output file number) to
3660 @code{sprintf(3)} to form the file name suffixes for each of the
3661 individual output files in turn. If this option is used, the
3662 @option{--digits} option is ignored.
3664 @item -n @var{digits}
3665 @itemx --digits=@var{digits}
3668 Use output file names containing numbers that are @var{digits} digits
3669 long instead of the default 2.
3674 @opindex --keep-files
3675 Do not remove output files when errors are encountered.
3677 @item --suppress-matched
3678 @opindex --suppress-matched
3679 Do not output lines matching the specified @var{pattern}.
3680 I.e., suppress the boundary line from the start of the second
3681 and subsequent splits.
3684 @itemx --elide-empty-files
3686 @opindex --elide-empty-files
3687 Suppress the generation of zero-length output files. (In cases where
3688 the section delimiters of the input file are supposed to mark the first
3689 lines of each of the sections, the first output file will generally be a
3690 zero-length file unless you use this option.) The output file sequence
3691 numbers always run consecutively starting from 0, even when this option
3702 Do not print counts of output file sizes.
3708 Here is an example of its usage.
3709 First, create an empty directory for the exercise,
3716 Now, split the sequence of 1..14 on lines that end with 0 or 5:
3719 $ seq 14 | csplit - '/[05]$/' '@{*@}'
3725 Each number printed above is the size of an output
3726 file that csplit has just created.
3727 List the names of those output files:
3734 Use @command{head} to show their contents:
3759 Example of splitting input by empty lines:
3762 $ csplit --suppress-matched @var{input.txt} '/^$/' '@{*@}'
3766 @c TODO: "uniq" already supports "--group".
3767 @c when it gets the "--key" option, uncomment this example.
3769 @c Example of splitting input file, based on the value of column 2:
3772 @c $ cat @var{input.txt} |
3774 @c uniq --group -k2,2 |
3775 @c csplit -m '/^$/' '@{*@}'
3778 @node Summarizing files
3779 @chapter Summarizing files
3781 @cindex summarizing files
3783 These commands generate just a few numbers representing entire
3787 * wc invocation:: Print newline, word, and byte counts.
3788 * sum invocation:: Print checksum and block counts.
3789 * cksum invocation:: Print CRC checksum and byte counts.
3790 * md5sum invocation:: Print or check MD5 digests.
3791 * b2sum invocation:: Print or check BLAKE2 digests.
3792 * sha1sum invocation:: Print or check SHA-1 digests.
3793 * sha2 utilities:: Print or check SHA-2 digests.
3798 @section @command{wc}: Print newline, word, and byte counts
3802 @cindex character count
3806 @command{wc} counts the number of bytes, characters, words, and newlines
3807 in each given @var{file}, or standard input if none are given
3808 or for a @var{file} of @samp{-}. A word is a nonempty sequence of non white
3809 space delimited by white space characters or by start or end of input.
3813 wc [@var{option}]@dots{} [@var{file}]@dots{}
3816 @cindex total counts
3817 @command{wc} prints one line of counts for each file, and if the file was
3818 given as an argument, it prints the file name following the counts. By default
3819 if more than one @var{file} is given, @command{wc} prints a final line
3820 containing the cumulative counts, with the file name @file{total}.
3821 This @samp{total} line can be controlled with the @option{--total} option,
3822 which is a GNU extension.
3823 The counts are printed in this order: newlines, words, characters, bytes,
3824 maximum line length.
3825 Each count is printed right-justified in a field with at least one
3826 space between fields so that the numbers and file names normally line
3827 up nicely in columns. The width of the count fields varies depending
3828 on the inputs, so you should not depend on a particular field width.
3829 However, as a GNU extension, if only one count is printed,
3830 it is guaranteed to be printed without leading spaces.
3832 By default, @command{wc} prints three counts: the newline, words, and byte
3833 counts. Options can specify that only certain counts be printed.
3834 Options do not undo others previously given, so
3841 prints both the byte counts and the word counts.
3843 With the @option{--max-line-length} option, @command{wc} prints the length
3844 of the longest line per file, and if there is more than one file it
3845 prints the maximum (not the sum) of those lengths. The line lengths here
3846 are measured in screen columns, according to the current locale and
3847 assuming tab positions in every 8th column.
3849 The program accepts the following options. Also see @ref{Common options}.
3857 Print only the byte counts.
3863 Print only the character counts, as per the current locale.
3864 Encoding errors are not counted.
3870 Print only the word counts. A word is a nonempty sequence of non white
3871 space delimited by white space characters or by start or end of input.
3872 The current locale determines which characters are white space.
3873 GNU @command{wc} treats encoding errors as non white space.
3875 @vindex POSIXLY_CORRECT
3876 Unless the environment variable @env{POSIXLY_CORRECT} is set,
3877 GNU @command{wc} treats the following Unicode characters as white
3878 space even if the current locale does not: U+00A0 NO-BREAK SPACE,
3879 U+2007 FIGURE SPACE, U+202F NARROW NO-BREAK SPACE, and U+2060 WORD
3886 Print only the newline character counts.
3887 If a file ends in a non-newline character,
3888 its trailing partial line is not counted.
3891 @itemx --max-line-length
3893 @opindex --max-line-length
3894 Print only the maximum display widths.
3895 Tabs are set at every 8th column.
3896 Display widths of wide characters are considered.
3897 Non-printable characters are given 0 width.
3899 @item --total=@var{when}
3900 @opindex --total=@var{when}
3901 Control when and how the final line with cumulative counts is printed.
3902 @var{when} is one of:
3905 @vindex auto @r{total option}
3906 - This is the default mode of @command{wc} when no @option{--total}
3907 option is specified. Output a total line if more than one @var{file}
3910 @vindex always @r{total option}
3911 - Always output a total line, irrespective of the number of files processed.
3913 @vindex only @r{total option}
3914 - Only output total counts. I.e., don't print individual file counts,
3915 suppress any leading spaces, and don't print the @samp{total} word itself,
3916 to simplify subsequent processing.
3918 @vindex none @r{total option}
3919 - Never output a total line.
3922 @macro filesZeroFromOption{cmd,withTotalOption,subListOutput}
3923 @item --files0-from=@var{file}
3924 @opindex --files0-from=@var{file}
3925 @c This is commented out to avoid a texi2dvi failure.
3926 @c texi2dvi (GNU Texinfo 4.11) 1.104
3927 @c @cindex including files from @command{\cmd\}
3928 Disallow processing files named on the command line, and instead process
3929 those named in file @var{file}; each name being terminated by a zero byte
3931 This is useful \withTotalOption\
3932 when the list of file names is so long that it may exceed a command line
3934 In such cases, running @command{\cmd\} via @command{xargs} is undesirable
3935 because it splits the list into pieces and makes @command{\cmd\} print
3936 \subListOutput\ for each sublist rather than for the entire list.
3937 One way to produce a list of ASCII NUL terminated file
3939 @command{find}, using its @option{-print0} predicate.
3940 If @var{file} is @samp{-} then the ASCII NUL terminated
3941 file names are read from standard input.
3943 @filesZeroFromOption{wc,,a total}
3945 For example, to find the length of the longest line in any @file{.c} or
3946 @file{.h} file in the current hierarchy, do this:
3949 find . -name '*.[ch]' -print0 |
3950 wc -L --files0-from=- | tail -n1
3958 @node sum invocation
3959 @section @command{sum}: Print checksum and block counts
3962 @cindex 16-bit checksum
3963 @cindex checksum, 16-bit
3965 @command{sum} computes a 16-bit checksum for each given @var{file}, or
3966 standard input if none are given or for a @var{file} of @samp{-}. Synopsis:
3969 sum [@var{option}]@dots{} [@var{file}]@dots{}
3972 @command{sum} prints the checksum for each @var{file} followed by the
3973 number of blocks in the file (rounded up). If at least one @var{file}
3974 is given, file names are also printed.
3976 By default, GNU @command{sum} computes checksums using an algorithm
3977 compatible with BSD @command{sum} and prints file sizes in units of
3980 The program accepts the following options. Also see @ref{Common options}.
3986 @cindex BSD @command{sum}
3987 Use the default (BSD compatible) algorithm. This option is included for
3988 compatibility with the System V @command{sum}. Unless @option{-s} was also
3989 given, it has no effect.
3995 @cindex System V @command{sum}
3996 Compute checksums using an algorithm compatible with System V
3997 @command{sum}'s default, and print file sizes in units of 512-byte blocks.
4001 @command{sum} is provided for compatibility; the @command{cksum} program (see
4002 next section) is preferable in new applications.
4007 @node cksum invocation
4008 @section @command{cksum}: Print and verify file checksums
4011 @cindex cyclic redundancy check
4012 @cindex CRC checksum
4013 @cindex 32-bit checksum
4014 @cindex checksum, 32-bit
4017 @command{cksum} by default computes a 32-bit cyclic redundancy check (CRC)
4018 checksum for each given @var{file}, or standard input if none are given or for
4019 a @var{file} of @samp{-}.
4021 cksum also supports the @option{-a/--algorithm} option to select the
4022 digest algorithm to use. @command{cksum} is the preferred interface
4023 to these digests, subsuming the other standalone checksumming utilities,
4024 which can be emulated using @code{cksum -a md5 --untagged "$@@"} etc.
4028 cksum [@var{option}]@dots{} [@var{file}]@dots{}
4031 @command{cksum} is typically used to ensure that files have not been corrupted,
4032 by comparing the @command{cksum} output for the received files with the
4033 @command{cksum} output for the original files (typically given in the
4037 * cksum output modes:: Legacy and non Legacy output formats
4038 * cksum general options:: Options supported only by cksum
4039 * cksum common options:: Options supported also by standalone utilities
4042 @node cksum output modes
4043 @subsection cksum output modes
4047 @item Legacy output format
4048 @command{cksum} by default prints the POSIX standard CRC checksum
4049 for each file along with the number of bytes in the file,
4050 and the file name unless no arguments were given.
4051 The 32-bit CRC used is based on the polynomial used
4052 for CRC error checking in the ISO/IEC 8802-3:1996 standard (Ethernet).
4053 Similar output formats are used for the other legacy checksums
4054 selectable with @option{--algorithm=sysv} or @option{--algorithm=bsd},
4055 detailed at @ref{sum invocation}.
4057 @item Tagged output format
4058 With the @option{--algorithm} option selecting non legacy checksums,
4059 the @command{cksum} command defaults to output of the form:
4061 @var{digest_name} (@var{file name}) = @var{digest}
4063 The standalone checksum utilities can select this output
4064 mode by using the @option{--tag} option.
4066 @item Untagged output format
4067 With the @option{--untagged} option and the @option{--algorithm} option
4068 selecting non legacy checksums, the following output format is used.
4069 This is the default output format of the standalone checksum utilities.
4070 For each @var{file}, we print the checksum, a space, a flag indicating
4071 binary or text input mode, and the file name.
4072 Binary mode is indicated with @samp{*}, text mode with @samp{ } (space).
4073 Binary mode is the default on systems where it's significant,
4074 otherwise text mode is the default.
4078 Without @option{--zero}, and with non legacy output formats,
4079 if @var{file} contains a backslash, newline, or carriage return,
4080 the line is started with a backslash, and each problematic character
4081 in the file name is escaped with a backslash, making the output unambiguous
4082 even in the presence of arbitrary file names.
4083 Since the backslash character itself is escaped, any other backslash
4084 escape sequences are reserved for future use.
4086 @node cksum general options
4087 @subsection cksum general options
4094 @opindex --algorithm
4095 @cindex digest algorithm
4096 Compute checksums using the specified digest algorithm.
4098 Supported legacy checksums (which are not supported by @option{--check}):
4100 @samp{sysv} equivalent to @command{sum -s}
4101 @samp{bsd} equivalent to @command{sum -r}
4102 @samp{crc} equivalent to @command{cksum} (the default)
4105 Supported more modern digest algorithms are:
4107 @samp{md5} equivalent to @command{md5sum}
4108 @samp{sha1} equivalent to @command{sha1sum}
4109 @samp{sha224} equivalent to @command{sha224sum}
4110 @samp{sha256} equivalent to @command{sha256sum}
4111 @samp{sha384} equivalent to @command{sha384sum}
4112 @samp{sha512} equivalent to @command{sha512sum}
4113 @samp{blake2b} equivalent to @command{b2sum}
4114 @samp{sm3} only available through @command{cksum}
4119 @cindex base64 checksum encoding
4120 Print base64-encoded digests not hexadecimal.
4121 This option is ignored with @option{--check}.
4122 The format conforms to
4123 @uref{https://datatracker.ietf.org/doc/html/rfc4648#section-4, RFC 4648#4}.
4125 Each base64-encoded digest has zero, one or two trailing padding
4126 (@samp{=}) bytes. The length of that padding is the checksum-bit-length
4127 modulo 3, and the @option{--check} parser requires precisely the same
4128 input digest string as what is output. I.e., removing or adding any
4129 @samp{=} padding renders a digest non-matching.
4133 Output extra information to stderr, like the checksum implementation being used.
4135 @macro cksumLengthOption
4140 @cindex BLAKE2 hash length
4141 Change (shorten) the default digest length.
4142 This is specified in bits and thus must be a multiple of 8.
4143 This option is ignored when @option{--check} is specified,
4144 as the length is automatically determined when checking.
4150 @cindex raw binary checksum
4151 Print only the unencoded raw binary digest for a single input.
4152 Do not output the file name or anything else.
4153 Use network byte order (big endian) where applicable:
4154 for @samp{bsd}, @samp{crc}, and @samp{sysv}.
4155 This option works only with a single input.
4156 Unlike other output formats, @command{cksum} provides no way to
4157 @option{--check} a @option{--raw} checksum.
4161 Output using the original Coreutils format used by the other
4162 standalone checksum utilities like @command{md5sum} for example.
4163 This format has the checksum at the start of the line, and may be
4164 more amenable to further processing by other utilities,
4165 especially in combination with the @option{--zero} option.
4166 This does not identify the digest algorithm used for the checksum.
4167 @xref{cksum output modes} for details of this format.
4170 @node cksum common options
4171 @subsection cksum common options
4179 @cindex binary input files
4180 This option is not supported by the @command{cksum} command,
4181 as it operates in binary mode exclusively.
4182 Treat each input file as binary, by reading it in binary mode and
4183 outputting a @samp{*} flag. This is the inverse of @option{--text}.
4184 On systems like GNU that do not distinguish between binary
4185 and text files, this option merely flags each input mode as binary:
4186 the checksum is unaffected. This option is the default on systems
4187 like MS-DOS that distinguish between binary and text files, except
4188 for reading standard input when standard input is a terminal.
4192 Read file names and checksum information (not data) from each
4193 @var{file} (or from standard input if no @var{file} was specified) and report
4194 whether the checksums match the contents of the named files.
4195 The input to this mode is usually the output of
4196 a prior, checksum-generating run of the command.
4198 Three input formats are supported. Either the default output
4199 format described above, the @option{--tag} output format,
4200 or the BSD reversed mode format which is similar to the default mode,
4201 but doesn't use a character to distinguish binary and text modes.
4203 For the @command{cksum} command, the @option{--check} option
4204 supports auto-detecting the digest algorithm to use,
4205 when presented with checksum information in the @option{--tag} output format.
4207 Also for the @command{cksum} command, the @option{--check} option
4208 auto-detects the digest encoding, accepting both standard hexadecimal
4209 checksums and those generated via @command{cksum} with its
4210 @option{--base64} option.
4212 Output with @option{--zero} enabled is not supported by @option{--check}.
4214 For each such line, @command{cksum} reads the named file and computes its
4215 checksum. Then, if the computed message digest does not match the
4216 one on the line with the file name, the file is noted as having
4217 failed the test. Otherwise, the file passes the test.
4218 By default, for each valid line, one line is written to standard
4219 output indicating whether the named file passed the test.
4220 After all checks have been performed, if there were any failures,
4221 a warning is issued to standard error.
4222 Use the @option{--status} option to inhibit that output.
4223 If any listed file cannot be opened or read, if any valid line has
4224 a checksum inconsistent with the associated file, or if no valid
4225 line is found, @command{cksum} exits with nonzero status. Otherwise,
4226 it exits successfully.
4227 The @command{cksum} command does not support @option{--check}
4228 with the older @samp{sysv}, @samp{bsd}, or @samp{crc} algorithms.
4230 @item --ignore-missing
4231 @opindex --ignore-missing
4232 @cindex verifying checksums
4233 This option is useful only when verifying checksums.
4234 When verifying checksums, don't fail or report any status
4235 for missing files. This is useful when verifying a subset
4236 of downloaded files given a larger list of checksums.
4240 @cindex verifying checksums
4241 This option is useful only when verifying checksums.
4242 When verifying checksums, don't generate an 'OK' message per successfully
4243 checked file. Files that fail the verification are reported in the
4244 default one-line-per-file format. If there is any checksum mismatch,
4245 print a warning summarizing the failures to standard error.
4249 @cindex verifying checksums
4250 This option is useful only when verifying checksums.
4251 When verifying checksums, don't generate the default one-line-per-file
4252 diagnostic and don't output the warning summarizing any failures.
4253 Failures to open or read a file still evoke individual diagnostics to
4255 If all listed files are readable and are consistent with the associated
4256 checksums, exit successfully. Otherwise exit with a status code
4257 indicating there was a failure.
4262 Output BSD style checksums, which indicate the checksum algorithm used.
4263 As a GNU extension, if @option{--zero} is not used, file names with problematic
4264 characters are escaped as described above, using the same escaping indicator of
4265 @samp{\} at the start of the line, as used with the other output format.
4266 The @option{--tag} option implies binary mode, and is disallowed with
4267 @option{--text} mode as supporting that would unnecessarily complicate
4268 the output format, while providing little benefit.
4269 @xref{cksum output modes} for details of this format.
4270 The @command{cksum} command, uses @option{--tag} as its default output format.
4276 @cindex text input files
4277 This option is not supported by the @command{cksum} command.
4278 Treat each input file as text, by reading it in text mode and
4279 outputting a @samp{ } flag. This is the inverse of @option{--binary}.
4280 This option is the default on systems like GNU that do not
4281 distinguish between binary and text files. On other systems, it is
4282 the default for reading standard input when standard input is a
4283 terminal. This mode is never defaulted to if @option{--tag} is used.
4289 @cindex verifying checksums
4290 When verifying checksums, warn about improperly formatted checksum lines.
4291 This option is useful only if all but a few lines in the checked input
4296 @cindex verifying checksums
4297 When verifying checksums,
4298 if one or more input line is invalid,
4299 exit nonzero after all warnings have been issued.
4302 Also file name escaping is not used.
4305 @node md5sum invocation
4306 @section @command{md5sum}: Print or check MD5 digests
4310 @cindex 128-bit checksum
4311 @cindex checksum, 128-bit
4312 @cindex fingerprint, 128-bit
4313 @cindex message-digest, 128-bit
4315 @command{md5sum} computes a 128-bit checksum (or @dfn{fingerprint} or
4316 @dfn{message-digest}) for each specified @var{file}.
4318 @macro weakHash{hash}
4319 The \hash\ digest is more reliable than a simple CRC (provided by
4320 the @command{cksum} command) for detecting accidental file corruption,
4321 as the chances of accidentally having two files with identical \hash\
4322 are vanishingly small. However, it should not be considered secure
4323 against malicious tampering: although finding a file with a given \hash\
4324 fingerprint is considered infeasible at the moment, it is known how
4325 to modify certain files, including digital certificates, so that they
4326 appear valid when signed with an \hash\ digest. For more secure hashes,
4327 consider using SHA-2 or @command{b2sum}.
4328 @xref{sha2 utilities}. @xref{b2sum invocation}.
4332 @macro checksumUsage{command}
4333 If a @var{file} is specified as @samp{-} or if no files are given
4334 @command{\command\} computes the checksum for the standard input.
4335 @command{\command\} can also determine whether a file and checksum are
4336 consistent. Synopsis:
4339 \command\ [@var{option}]@dots{} [@var{file}]@dots{}
4342 @command{\command\} uses the @samp{Untagged output format}
4343 for each specified file, as described at @ref{cksum output modes}.
4345 The program accepts @ref{cksum common options}. Also see @ref{Common options}.
4347 @checksumUsage{md5sum}
4352 @node b2sum invocation
4353 @section @command{b2sum}: Print or check BLAKE2 digests
4357 @cindex 512-bit checksum
4358 @cindex checksum, 512-bit
4359 @cindex fingerprint, 512-bit
4360 @cindex message-digest, 512-bit
4362 @command{b2sum} computes a 512-bit checksum for each specified
4365 @checksumUsage{b2sum}
4367 In addition @command{b2sum} supports the following options.
4374 @node sha1sum invocation
4375 @section @command{sha1sum}: Print or check SHA-1 digests
4379 @cindex 160-bit checksum
4380 @cindex checksum, 160-bit
4381 @cindex fingerprint, 160-bit
4382 @cindex message-digest, 160-bit
4384 @command{sha1sum} computes a 160-bit checksum for each specified @var{file}.
4388 @checksumUsage{sha1sum}
4390 @node sha2 utilities
4391 @section sha2 utilities: Print or check SHA-2 digests
4398 @cindex 224-bit checksum
4399 @cindex 256-bit checksum
4400 @cindex 384-bit checksum
4401 @cindex 512-bit checksum
4402 @cindex checksum, 224-bit
4403 @cindex checksum, 256-bit
4404 @cindex checksum, 384-bit
4405 @cindex checksum, 512-bit
4406 @cindex fingerprint, 224-bit
4407 @cindex fingerprint, 256-bit
4408 @cindex fingerprint, 384-bit
4409 @cindex fingerprint, 512-bit
4410 @cindex message-digest, 224-bit
4411 @cindex message-digest, 256-bit
4412 @cindex message-digest, 384-bit
4413 @cindex message-digest, 512-bit
4415 The commands @command{sha224sum}, @command{sha256sum},
4416 @command{sha384sum} and @command{sha512sum} compute checksums of
4417 various lengths (respectively 224, 256, 384 and 512 bits),
4418 collectively known as the SHA-2 hashes.
4420 @checksumUsage{sha???sum}
4423 @node Operating on sorted files
4424 @chapter Operating on sorted files
4426 @cindex operating on sorted files
4427 @cindex sorted files, operations on
4429 These commands work with (or produce) sorted files.
4432 * sort invocation:: Sort text files.
4433 * shuf invocation:: Shuffle text files.
4434 * uniq invocation:: Uniquify files.
4435 * comm invocation:: Compare two sorted files line by line.
4436 * ptx invocation:: Produce a permuted index of file contents.
4437 * tsort invocation:: Topological sort.
4441 @node sort invocation
4442 @section @command{sort}: Sort text files
4445 @cindex sorting files
4447 @command{sort} sorts, merges, or compares all the lines from the given
4448 files, or standard input if none are given or for a @var{file} of
4449 @samp{-}. By default, @command{sort} writes the results to standard
4453 sort [@var{option}]@dots{} [@var{file}]@dots{}
4456 @cindex sort stability
4457 @cindex sort's last-resort comparison
4458 Many options affect how @command{sort} compares lines; if the results
4459 are unexpected, try the @option{--debug} option to see what happened.
4460 A pair of lines is compared as follows:
4461 @command{sort} compares each pair of fields (see @option{--key}), in the
4462 order specified on the command line, according to the associated
4463 ordering options, until a difference is found or no fields are left.
4464 If no key fields are specified, @command{sort} uses a default key of
4465 the entire line. Finally, as a last resort when all keys compare
4466 equal, @command{sort} compares entire lines as if no ordering options
4467 other than @option{--reverse} (@option{-r}) were specified. The
4468 @option{--stable} (@option{-s}) option disables this @dfn{last-resort
4469 comparison} so that lines in which all fields compare equal are left
4470 in their original relative order. The @option{--unique}
4471 (@option{-u}) option also disables the last-resort comparison.
4475 Unless otherwise specified, all comparisons use the character collating
4476 sequence specified by the @env{LC_COLLATE} locale.@footnote{If you
4477 use a non-POSIX locale (e.g., by setting @env{LC_ALL}
4478 to @samp{en_US}), then @command{sort} may produce output that is sorted
4479 differently than you're accustomed to. In that case, set the @env{LC_ALL}
4480 environment variable to @samp{C}@. Setting only @env{LC_COLLATE}
4481 has two problems. First, it is ineffective if @env{LC_ALL} is also set.
4482 Second, it has undefined behavior if @env{LC_CTYPE} (or @env{LANG}, if
4483 @env{LC_CTYPE} is unset) is set to an incompatible value. For example,
4484 you get undefined behavior if @env{LC_CTYPE} is @code{ja_JP.PCK} but
4485 @env{LC_COLLATE} is @code{en_US.UTF-8}.}
4486 A line's trailing newline is not part of the line for comparison
4487 purposes. If the final byte of an input file is not a newline, GNU
4488 @command{sort} silently supplies one. GNU @command{sort} (as
4489 specified for all GNU utilities) has no limit on input line length or
4490 restrictions on bytes allowed within lines.
4492 @command{sort} has three modes of operation: sort (the default), merge,
4493 and check for order. The following options change the operation
4500 @itemx --check=diagnose-first
4503 @cindex checking whether a file is sorted
4504 Check whether the given file is already sorted: if it is not all
4505 sorted, print a diagnostic containing the first out-of-order line and
4506 exit with a status of 1.
4507 Otherwise, exit successfully.
4508 At most one input file can be given.
4511 @itemx --check=quiet
4512 @itemx --check=silent
4515 @cindex checking whether a file is sorted
4516 Exit successfully if the given file is already sorted, and
4517 exit with status 1 otherwise.
4518 At most one input file can be given.
4519 This is like @option{-c}, except it does not print a diagnostic.
4525 @cindex merging sorted files
4526 Merge the given files by sorting them as a group. Each input file must
4527 always be individually sorted. It always works to sort instead of
4528 merge; merging is provided because it is faster, in the case where it
4533 @cindex exit status of @command{sort}
4537 0 if no error occurred
4538 1 if invoked with @option{-c} or @option{-C} and the input is not sorted
4539 2 if an error occurred
4543 If the environment variable @env{TMPDIR} is set, @command{sort} uses its
4544 value as the directory for temporary files instead of @file{/tmp}. The
4545 @option{--temporary-directory} (@option{-T}) option in turn overrides
4546 the environment variable.
4548 The following options affect the ordering of output lines. They may be
4549 specified globally or as part of a specific key field. If no key
4550 fields are specified, global options apply to comparison of entire
4551 lines; otherwise the global options are inherited by key fields that do
4552 not specify any special options of their own. In pre-POSIX
4553 versions of @command{sort}, global options affect only later key fields,
4554 so portable shell scripts should specify global options first.
4559 @itemx --ignore-leading-blanks
4561 @opindex --ignore-leading-blanks
4562 @cindex blanks, ignoring leading
4564 Ignore leading blanks when finding sort keys in each line.
4565 By default a blank is a space or a tab, but the @env{LC_CTYPE} locale
4566 can change this. Blanks may be ignored by your locale's collating
4567 rules, but without this option they will be significant for character
4568 positions specified in keys with the @option{-k} option.
4571 @itemx --dictionary-order
4573 @opindex --dictionary-order
4574 @cindex dictionary order
4575 @cindex phone directory order
4576 @cindex telephone directory order
4578 Sort in @dfn{phone directory} order: ignore all characters except
4579 letters, digits and blanks when sorting.
4580 By default letters and digits are those of ASCII and a blank
4581 is a space or a tab, but the @env{LC_CTYPE} locale can change this.
4584 @itemx --ignore-case
4586 @opindex --ignore-case
4587 @cindex ignoring case
4588 @cindex case folding
4590 Fold lowercase characters into the equivalent uppercase characters when
4591 comparing so that, for example, @samp{b} and @samp{B} sort as equal.
4592 The @env{LC_CTYPE} locale determines character types.
4593 When used with @option{--unique} those lower case equivalent lines are
4594 thrown away. (There is currently no way to throw away the upper case
4595 equivalent instead. (Any @option{--reverse} given would only affect
4596 the final result, after the throwing away.))
4599 @itemx --general-numeric-sort
4600 @itemx --sort=general-numeric
4602 @opindex --general-numeric-sort
4604 @cindex general numeric sort
4606 Sort numerically, converting a prefix of each line to a long
4607 double-precision floating point number. @xref{Floating point}.
4608 Do not report overflow, underflow, or conversion errors.
4609 Use the following collating sequence:
4613 Lines that do not start with numbers (all considered to be equal).
4615 NaNs (``Not a Number'' values, in IEEE floating point arithmetic)
4616 in a consistent but machine-dependent order.
4620 Finite numbers in ascending numeric order (with @math{-0} and @math{+0} equal).
4625 Use this option only if there is no alternative; it is much slower than
4626 @option{--numeric-sort} (@option{-n}) and it can lose information when
4627 converting to floating point.
4629 You can use this option to sort hexadecimal numbers prefixed with
4630 @samp{0x} or @samp{0X}, where those numbers are not fixed width,
4631 or of varying case. However for hex numbers of consistent case,
4632 and left padded with @samp{0} to a consistent width, a standard
4633 lexicographic sort will be faster.
4636 @itemx --human-numeric-sort
4637 @itemx --sort=human-numeric
4639 @opindex --human-numeric-sort
4641 @cindex human numeric sort
4643 Sort numerically, first by numeric sign (negative, zero, or positive);
4644 then by SI suffix (either empty, or @samp{k} or @samp{K}, or
4645 one of @samp{MGTPEZYRQ}, in that order; @pxref{Block size}); and finally
4646 by numeric value. For example, @samp{1023M} sorts before @samp{1G}
4647 because @samp{M} (mega) precedes @samp{G} (giga) as an SI
4648 suffix. This option sorts values that are consistently scaled to the
4649 nearest suffix, regardless of whether suffixes denote powers of 1000
4650 or 1024, and it therefore sorts the output of any single invocation of
4651 the @command{df}, @command{du}, or @command{ls} commands that are
4652 invoked with their @option{--human-readable} or @option{--si} options.
4653 The syntax for numbers is the same as for the @option{--numeric-sort}
4654 option; the SI suffix must immediately follow the number.
4655 To sort more accurately, you can use the @command{numfmt} command
4656 to reformat numbers to human format @emph{after} the sort.
4659 @itemx --ignore-nonprinting
4661 @opindex --ignore-nonprinting
4662 @cindex nonprinting characters, ignoring
4663 @cindex unprintable characters, ignoring
4665 Ignore nonprinting characters.
4666 The @env{LC_CTYPE} locale determines character types.
4667 This option has no effect if the stronger @option{--dictionary-order}
4668 (@option{-d}) option is also given.
4674 @opindex --month-sort
4676 @cindex months, sorting by
4678 An initial string, consisting of any amount of blanks, followed
4679 by a month name abbreviation, is folded to UPPER case and
4680 compared in the order @samp{JAN} < @samp{FEB} < @dots{} < @samp{DEC}@.
4681 Invalid names compare low to valid names. The @env{LC_TIME} locale
4682 category determines the month spellings.
4683 By default a blank is a space or a tab, but the @env{LC_CTYPE} locale
4687 @itemx --numeric-sort
4688 @itemx --sort=numeric
4690 @opindex --numeric-sort
4692 @cindex numeric sort
4695 Sort numerically. The number begins each line and consists
4696 of optional blanks, an optional @samp{-} sign, and zero or more
4697 digits possibly separated by thousands separators, optionally followed
4698 by a decimal-point character and zero or more digits. An empty
4699 number is treated as @samp{0}. Signs on zeros and leading zeros do
4700 not affect ordering.
4702 Comparison is exact; there is no rounding error.
4704 The @env{LC_CTYPE} locale specifies which characters are blanks and
4705 the @env{LC_NUMERIC} locale specifies the thousands separator and
4706 decimal-point character. In the C locale, spaces and tabs are blanks,
4707 there is no thousands separator, and @samp{.} is the decimal point.
4709 Neither a leading @samp{+} nor exponential notation is recognized.
4710 To compare such strings numerically, use the
4711 @option{--general-numeric-sort} (@option{-g}) option.
4714 @itemx --version-sort
4716 @opindex --version-sort
4717 @cindex version number sort
4718 Sort by version name and number. It behaves like a standard sort,
4719 except that each sequence of decimal digits is treated numerically
4720 as an index/version number. (@xref{Version sort ordering}.)
4726 @cindex reverse sorting
4727 Reverse the result of comparison, so that lines with greater key values
4728 appear earlier in the output instead of later.
4731 @itemx --random-sort
4732 @itemx --sort=random
4734 @opindex --random-sort
4737 Sort by hashing the input keys and then sorting the hash values.
4738 Choose the hash function at random, ensuring that it is free of
4739 collisions so that differing keys have differing hash values. This is
4740 like a random permutation of the inputs (@pxref{shuf invocation}),
4741 except that keys with the same value sort together.
4743 If multiple random sort fields are specified, the same random hash
4744 function is used for all fields. To use different random hash
4745 functions for different fields, you can invoke @command{sort} more
4748 The choice of hash function is affected by the
4749 @option{--random-source} option.
4757 @item --compress-program=@var{prog}
4758 Compress any temporary files with the program @var{prog}.
4760 With no arguments, @var{prog} must compress standard input to standard
4761 output, and when given the @option{-d} option it must decompress
4762 standard input to standard output.
4764 Terminate with an error if @var{prog} exits with nonzero status.
4766 White space and the backslash character should not appear in
4767 @var{prog}; they are reserved for future use.
4769 @filesZeroFromOption{sort,,sorted output}
4771 @item -k @var{pos1}[,@var{pos2}]
4772 @itemx --key=@var{pos1}[,@var{pos2}]
4776 Specify a sort field that consists of the part of the line between
4777 @var{pos1} and @var{pos2} (or the end of the line, if @var{pos2} is
4778 omitted), @emph{inclusive}.
4780 In its simplest form @var{pos} specifies a field number (starting with 1),
4781 with fields being separated by runs of blank characters, and by default
4782 those blanks being included in the comparison at the start of each field.
4783 To adjust the handling of blank characters see the @option{-b} and
4784 @option{-t} options.
4787 each @var{pos} has the form @samp{@var{f}[.@var{c}][@var{opts}]},
4788 where @var{f} is the number of the field to use, and @var{c} is the number
4789 of the first character from the beginning of the field. Fields and character
4790 positions are numbered starting with 1; a character position of zero in
4791 @var{pos2} indicates the field's last character. If @samp{.@var{c}} is
4792 omitted from @var{pos1}, it defaults to 1 (the beginning of the field);
4793 if omitted from @var{pos2}, it defaults to 0 (the end of the field).
4794 @var{opts} are ordering options, allowing individual keys to be sorted
4795 according to different rules; see below for details. Keys can span
4798 Example: To sort on the second field, use @option{--key=2,2}
4799 (@option{-k 2,2}). See below for more notes on keys and more examples.
4800 See also the @option{--debug} option to help determine the part
4801 of the line being used in the sort.
4804 Highlight the portion of each line used for sorting.
4805 Also issue warnings about questionable usage to standard error.
4807 @item --batch-size=@var{nmerge}
4808 @opindex --batch-size
4809 @cindex number of inputs to merge, nmerge
4810 Merge at most @var{nmerge} inputs at once.
4812 When @command{sort} has to merge more than @var{nmerge} inputs,
4813 it merges them in groups of @var{nmerge}, saving the result in
4814 a temporary file, which is then used as an input in a subsequent merge.
4816 A large value of @var{nmerge} may improve merge performance and decrease
4817 temporary storage utilization at the expense of increased memory usage
4818 and I/O@. Conversely a small value of @var{nmerge} may reduce memory
4819 requirements and I/O at the expense of temporary storage consumption and
4822 The value of @var{nmerge} must be at least 2. The default value is
4823 currently 16, but this is implementation-dependent and may change in
4826 The value of @var{nmerge} may be bounded by a resource limit for open
4827 file descriptors. The commands @samp{ulimit -n} or @samp{getconf
4828 OPEN_MAX} may display limits for your systems; these limits may be
4829 modified further if your program already has some files open, or if
4830 the operating system has other limits on the number of open files. If
4831 the value of @var{nmerge} exceeds the resource limit, @command{sort}
4832 silently uses a smaller value.
4834 @item -o @var{output-file}
4835 @itemx --output=@var{output-file}
4838 @cindex overwriting of input, allowed
4839 Write output to @var{output-file} instead of standard output.
4840 Normally, @command{sort} reads all input before opening
4841 @var{output-file}, so you can sort a file in place by using
4842 commands like @code{sort -o F F} and @code{cat F | sort -o F}@.
4843 However, it is often safer to output to an otherwise-unused file, as
4844 data may be lost if the system crashes or @command{sort} encounters
4845 an I/O or other serious error while a file is being sorted in place.
4846 Also, @command{sort} with @option{--merge} (@option{-m}) can open
4847 the output file before reading all input, so a command like @code{cat
4848 F | sort -m -o F - G} is not safe as @command{sort} might start
4849 writing @file{F} before @command{cat} is done reading it.
4851 @vindex POSIXLY_CORRECT
4852 On newer systems, @option{-o} cannot appear after an input file if
4853 @env{POSIXLY_CORRECT} is set, e.g., @samp{sort F -o F}@. Portable
4854 scripts should specify @option{-o @var{output-file}} before any input
4857 @item --random-source=@var{file}
4858 @opindex --random-source
4859 @cindex random source for sorting
4860 Use @var{file} as a source of random data used to determine which
4861 random hash function to use with the @option{-R} option. @xref{Random
4868 @cindex sort stability
4869 @cindex sort's last-resort comparison
4871 Make @command{sort} stable by disabling its last-resort comparison.
4872 This option has no effect if no fields or global ordering options
4873 other than @option{--reverse} (@option{-r}) are specified.
4876 @itemx --buffer-size=@var{size}
4878 @opindex --buffer-size
4879 @cindex size for main memory sorting
4880 Use a main-memory sort buffer of the given @var{size}. By default,
4881 @var{size} is in units of 1024 bytes. Appending @samp{%} causes
4882 @var{size} to be interpreted as a percentage of physical memory.
4883 Appending @samp{K} multiplies @var{size} by 1024 (the default),
4884 @samp{M} by 1,048,576, @samp{G} by 1,073,741,824, and so on for
4885 @samp{T}, @samp{P}, @samp{E}, @samp{Z}, @samp{Y}, @samp{R}, and @samp{Q}@.
4887 @samp{b} causes @var{size} to be interpreted as a byte count, with no
4890 This option can improve the performance of @command{sort} by causing it
4891 to start with a larger or smaller sort buffer than the default.
4892 However, this option affects only the initial buffer size. The buffer
4893 grows beyond @var{size} if @command{sort} encounters input lines larger
4896 @item -t @var{separator}
4897 @itemx --field-separator=@var{separator}
4899 @opindex --field-separator
4900 @cindex field separator character
4901 Use character @var{separator} as the field separator when finding the
4902 sort keys in each line. By default, fields are separated by the empty
4903 string between a non-blank character and a blank character.
4904 By default a blank is a space or a tab, but the @env{LC_CTYPE} locale
4907 That is, given the input line @w{@samp{ foo bar}}, @command{sort} breaks it
4908 into fields @w{@samp{ foo}} and @w{@samp{ bar}}. The field separator is
4909 not considered to be part of either the field preceding or the field
4910 following, so with @samp{sort @w{-t " "}} the same input line has
4911 three fields: an empty field, @samp{foo}, and @samp{bar}.
4912 However, fields that extend to the end of the line,
4913 as @option{-k 2}, or fields consisting of a range, as @option{-k 2,3},
4914 retain the field separators present between the endpoints of the range.
4916 To specify ASCII NUL as the field separator,
4917 use the two-character string @samp{\0}, e.g., @samp{sort -t '\0'}.
4919 @item -T @var{tempdir}
4920 @itemx --temporary-directory=@var{tempdir}
4922 @opindex --temporary-directory
4923 @cindex temporary directory
4925 Use directory @var{tempdir} to store temporary files, overriding the
4926 @env{TMPDIR} environment variable. If this option is given more than
4927 once, temporary files are stored in all the directories given. If you
4928 have a large sort or merge that is I/O-bound, you can often improve
4929 performance by using this option to specify directories on different
4932 @item --parallel=@var{n}
4934 @cindex multithreaded sort
4935 Set the number of sorts run in parallel to @var{n}. By default,
4936 @var{n} is set to the number of available processors, but limited
4937 to 8, as performance gains diminish after that.
4938 Using @var{n} threads increases the memory usage by
4939 a factor of log @var{n}. Also see @ref{nproc invocation}.
4945 @cindex uniquifying output
4947 Normally, output only the first of a sequence of lines that compare
4948 equal. For the @option{--check} (@option{-c} or @option{-C}) option,
4949 check that no pair of consecutive lines compares equal.
4951 This option also disables the default last-resort comparison.
4953 The commands @code{sort -u} and @code{sort | uniq} are equivalent, but
4954 this equivalence does not extend to arbitrary @command{sort} options.
4955 For example, @code{sort -n -u} inspects only the value of the initial
4956 numeric string when checking for uniqueness, whereas @code{sort -n |
4957 uniq} inspects the entire line. @xref{uniq invocation}.
4960 @macro newlineFieldSeparator
4961 With @option{-z} the newline character is treated as a field separator.
4966 Historical (BSD and System V) implementations of @command{sort} have
4967 differed in their interpretation of some options, particularly
4968 @option{-b}, @option{-f}, and @option{-n}.
4969 GNU sort follows the POSIX
4970 behavior, which is usually (but not always!) like the System V behavior.
4971 According to POSIX, @option{-n} no longer implies @option{-b}. For
4972 consistency, @option{-M} has been changed in the same way. This may
4973 affect the meaning of character positions in field specifications in
4974 obscure cases. The only fix is to add an explicit @option{-b}.
4976 A position in a sort field specified with @option{-k} may have any
4977 of the option letters @samp{MbdfghinRrV} appended to it, in which case no
4978 global ordering options are inherited by that particular field. The
4979 @option{-b} option may be independently attached to either or both of
4980 the start and end positions of a field specification, and if it is
4981 inherited from the global options it will be attached to both.
4982 If input lines can contain leading or adjacent blanks and @option{-t}
4983 is not used, then @option{-k} is typically combined with @option{-b} or
4984 an option that implicitly ignores leading blanks (@samp{Mghn}) as otherwise
4985 the varying numbers of leading blanks in fields can cause confusing results.
4987 If the start position in a sort field specifier falls after the end of
4988 the line or after the end field, the field is empty. If the @option{-b}
4989 option was specified, the @samp{.@var{c}} part of a field specification
4990 is counted from the first nonblank character of the field.
4992 @vindex _POSIX2_VERSION
4993 @vindex POSIXLY_CORRECT
4994 On systems not conforming to POSIX 1003.1-2001,
4995 @command{sort} supports a traditional origin-zero
4996 syntax @samp{+@var{pos1} [-@var{pos2}]} for specifying sort keys.
4997 The traditional command @samp{sort +@var{a}.@var{x} -@var{b}.@var{y}}
4998 is equivalent to @samp{sort -k @var{a+1}.@var{x+1},@var{b}} if @var{y}
4999 is @samp{0} or absent, otherwise it is equivalent to @samp{sort -k
5000 @var{a+1}.@var{x+1},@var{b+1}.@var{y}}.
5002 This traditional behavior can be controlled with the
5003 @env{_POSIX2_VERSION} environment variable (@pxref{Standards
5004 conformance}); it can also be enabled when @env{POSIXLY_CORRECT} is
5005 not set by using the traditional syntax with @samp{-@var{pos2}} present.
5007 Scripts intended for use on standard hosts should avoid traditional
5008 syntax and should use @option{-k} instead. For example, avoid
5009 @samp{sort +2}, since it might be interpreted as either @samp{sort
5010 ./+2} or @samp{sort -k 3}. If your script must also run on hosts that
5011 support only the traditional syntax, it can use a test like @samp{if sort
5012 -k 1 </dev/null >/dev/null 2>&1; then @dots{}} to decide which syntax
5015 Here are some examples to illustrate various combinations of options.
5020 Sort in descending (reverse) numeric order.
5027 Run no more than 4 sorts concurrently, using a buffer size of 10M.
5030 sort --parallel=4 -S 10M
5034 Sort alphabetically, omitting the first and second fields
5035 and the blanks at the start of the third field.
5036 This uses a single key composed of the characters beginning
5037 at the start of the first nonblank character in field three
5038 and extending to the end of each line.
5045 Sort numerically on the second field and resolve ties by sorting
5046 alphabetically on the third and fourth characters of field five.
5047 Use @samp{:} as the field delimiter.
5050 sort -t : -k 2,2n -k 5.3,5.4
5053 If you had written @option{-k 2n} instead of @option{-k 2,2n}
5054 @command{sort} would have used all characters beginning in the second field
5055 and extending to the end of the line as the primary @emph{numeric}
5056 key. For the large majority of applications, treating keys spanning
5057 more than one field as numeric will not do what you expect.
5059 Also, the @samp{n} modifier was applied to the field-end
5060 specifier for the first key. It would have been equivalent to
5061 specify @option{-k 2n,2} or @option{-k 2n,2n}. All modifiers except
5062 @samp{b} apply to the associated @emph{field}, regardless of whether
5063 the modifier character is attached to the field-start and/or the
5064 field-end part of the key specifier.
5067 Sort the password file on the fifth field and ignore any
5068 leading blanks. Sort lines with equal values in field five
5069 on the numeric user ID in field three. Fields are separated
5073 sort -t : -k 5b,5 -k 3,3n /etc/passwd
5074 sort -t : -n -k 5b,5 -k 3,3 /etc/passwd
5075 sort -t : -b -k 5,5 -k 3,3n /etc/passwd
5078 These three commands have equivalent effect. The first specifies that
5079 the first key's start position ignores leading blanks and the second
5080 key is sorted numerically. The other two commands rely on global
5081 options being inherited by sort keys that lack modifiers. The inheritance
5082 works in this case because @option{-k 5b,5b} and @option{-k 5b,5} are
5083 equivalent, as the location of a field-end lacking a @samp{.@var{c}}
5084 character position is not affected by whether initial blanks are
5088 Sort a set of log files, primarily by IPv4 address and secondarily by
5089 timestamp. If two lines' primary and secondary keys are identical,
5090 output the lines in the same order that they were input. The log
5091 files contain lines that look like this:
5094 4.150.156.3 - - [01/Apr/2020:06:31:51 +0000] message 1
5095 211.24.3.231 - - [24/Apr/2020:20:17:39 +0000] message 2
5098 Fields are separated by exactly one space. Sort IPv4 addresses
5099 lexicographically, e.g., 212.61.52.2 sorts before 212.129.233.201
5100 because 61 is less than 129.
5103 sort -s -t ' ' -k 4.9n -k 4.5M -k 4.2n -k 4.14,4.21 file*.log |
5104 sort -s -t '.' -k 1,1n -k 2,2n -k 3,3n -k 4,4n
5107 This example cannot be done with a single POSIX @command{sort} invocation,
5108 since IPv4 address components are separated by @samp{.} while dates
5109 come just after a space. So it is broken down into two invocations of
5110 @command{sort}: the first sorts by timestamp and the second by IPv4
5111 address. The timestamp is sorted by year, then month, then day, and
5112 finally by hour-minute-second field, using @option{-k} to isolate each
5113 field. Except for hour-minute-second there's no need to specify the
5114 end of each key field, since the @samp{n} and @samp{M} modifiers sort
5115 based on leading prefixes that cannot cross field boundaries. The
5116 IPv4 addresses are sorted lexicographically. The second sort uses
5117 @samp{-s} so that ties in the primary key are broken by the secondary
5118 key; the first sort uses @samp{-s} so that the combination of the two
5119 sorts is stable. As a GNU extension, the above example could
5120 be achieved in a single @command{sort} invocation by sorting the
5121 IPv4 address field using a @samp{V} version type, like @samp{-k1,1V}.
5124 Generate a tags file in case-insensitive sorted order.
5127 find src -type f -print0 | sort -z -f | xargs -0 etags --append
5130 The use of @option{-print0}, @option{-z}, and @option{-0} in this case means
5131 that file names that contain blanks or other special characters are
5133 by the sort operation.
5135 @c This example is a bit contrived and needs more explanation.
5137 @c Sort records separated by an arbitrary string by using a pipe to convert
5138 @c each record delimiter string to @samp{\0},
5139 @c then using sort's @option{-z} option,
5140 @c and converting each @samp{\0} back to the original record delimiter.
5143 @c printf 'c\n\nb\n\na\n' |
5144 @c perl -0pe 's/\n\n/\n\0/g' |
5146 @c perl -0pe 's/\0/\n/g'
5150 Use the common DSU, Decorate Sort Undecorate idiom to
5151 sort lines according to their length.
5155 awk '@{print length, $0@}' | sort -n | cut -f2- -d' '
5158 In general this technique can be used to sort data that the @command{sort}
5159 command does not support, or is inefficient at, sorting directly.
5162 Use the same DSU idiom as above to sort lines by their last field,
5163 and in this specific example the presented lines are users' full names.
5166 getent passwd | grep -v nologin | cut -d: -f5 | grep ' ' |@/
5167 awk '@{print $NF, $0@}' | sort -k1,1 | cut -f2- -d' '
5171 Shuffle a list of directories, but preserve the order of files within
5172 each directory. For instance, one could use this to generate a music
5173 playlist in which albums are shuffled but the songs of each album are
5177 ls */* | sort -t / -k 1,1R -k 2,2
5183 @node shuf invocation
5184 @section @command{shuf}: Shuffling text
5187 @cindex shuffling files
5189 @command{shuf} shuffles its input by outputting a random permutation
5190 of its input lines. Each output permutation is equally likely.
5194 shuf [@var{option}]@dots{} [@var{file}]
5195 shuf -e [@var{option}]@dots{} [@var{arg}]@dots{}
5196 shuf -i @var{lo}-@var{hi} [@var{option}]@dots{}
5199 @command{shuf} has three modes of operation that affect where it
5200 obtains its input lines. By default, it reads lines from standard
5201 input. The following options change the operation mode:
5209 @cindex command-line operands to shuffle
5210 Treat each command-line operand as an input line.
5212 @item -i @var{lo}-@var{hi}
5213 @itemx --input-range=@var{lo}-@var{hi}
5215 @opindex --input-range
5216 @cindex input range to shuffle
5217 Act as if input came from a file containing the range of unsigned
5218 decimal integers @var{lo}@dots{}@var{hi}, one per line.
5222 @command{shuf}'s other options can affect its behavior in all
5227 @item -n @var{count}
5228 @itemx --head-count=@var{count}
5230 @opindex --head-count
5231 @cindex head of output
5232 Output at most @var{count} lines. By default, all input lines are
5235 @item -o @var{output-file}
5236 @itemx --output=@var{output-file}
5239 @cindex overwriting of input, allowed
5240 Write output to @var{output-file} instead of standard output.
5241 @command{shuf} reads all input before opening
5242 @var{output-file}, so you can safely shuffle a file in place by using
5243 commands like @code{shuf -o F <F} and @code{cat F | shuf -o F}.
5245 @item --random-source=@var{file}
5246 @opindex --random-source
5247 @cindex random source for shuffling
5248 Use @var{file} as a source of random data used to determine which
5249 permutation to generate. @xref{Random sources}.
5255 @cindex repeat output values
5256 Repeat output values, that is, select with replacement. With this
5257 option the output is not a permutation of the input; instead, each
5258 output line is randomly chosen from all the inputs. This option is
5259 typically combined with @option{--head-count}; if
5260 @option{--head-count} is not given, @command{shuf} repeats
5279 might produce the output
5289 Similarly, the command:
5292 shuf -e clubs hearts diamonds spades
5306 and the command @samp{shuf -i 1-4} might output:
5316 The above examples all have four input lines, so @command{shuf} might
5317 produce any of the twenty-four possible permutations of the input. In
5318 general, if there are @var{n} input lines, there are @var{n}! (i.e.,
5319 @var{n} factorial, or @var{n} * (@var{n} - 1) * @dots{} * 1) possible
5320 output permutations.
5323 To output 50 random numbers each in the range 0 through 9, use:
5326 shuf -r -n 50 -i 0-9
5330 To simulate 100 coin flips, use:
5333 shuf -r -n 100 -e Head Tail
5339 @node uniq invocation
5340 @section @command{uniq}: Uniquify files
5343 @cindex uniquify files
5345 @command{uniq} writes the unique lines in the given @file{input}, or
5346 standard input if nothing is given or for an @var{input} name of
5350 uniq [@var{option}]@dots{} [@var{input} [@var{output}]]
5353 By default, @command{uniq} prints its input lines, except that
5354 it discards all but the first of adjacent repeated lines, so that
5355 no output lines are repeated. Optionally, it can instead discard
5356 lines that are not repeated, or all repeated lines.
5358 The input need not be sorted, but repeated input lines are detected
5359 only if they are adjacent. If you want to discard non-adjacent
5360 duplicate lines, perhaps you want to use @code{sort -u}.
5361 @xref{sort invocation}.
5364 Comparisons honor the rules specified by the @env{LC_COLLATE}
5367 If no @var{output} file is specified, @command{uniq} writes to standard
5370 The program accepts the following options. Also see @ref{Common options}.
5375 @itemx --skip-fields=@var{n}
5377 @opindex --skip-fields
5378 Skip @var{n} fields on each line before checking for uniqueness. Use
5379 a null string for comparison if a line has fewer than @var{n} fields.
5380 Fields are a sequence of blank characters followed by non-blank characters.
5381 Field numbers are one based, i.e., @option{-f 1} will skip the first
5382 field (which may optionally have leading blanks).
5384 For compatibility @command{uniq} supports a traditional option syntax
5385 @option{-@var{n}}. New scripts should use @option{-f @var{n}} instead.
5388 @itemx --skip-chars=@var{n}
5390 @opindex --skip-chars
5391 Skip @var{n} characters before checking for uniqueness. Use a null string
5392 for comparison if a line has fewer than @var{n} characters. If you use both
5393 the field and character skipping options, fields are skipped over first.
5395 @vindex _POSIX2_VERSION
5396 On systems not conforming to POSIX 1003.1-2001,
5397 @command{uniq} supports a traditional option syntax
5399 Although this traditional behavior can be controlled with the
5400 @env{_POSIX2_VERSION} environment variable (@pxref{Standards
5401 conformance}), portable scripts should avoid commands whose
5402 behavior depends on this variable.
5403 For example, use @samp{uniq ./+10} or @samp{uniq -s 10} rather than
5404 the ambiguous @samp{uniq +10}.
5410 Print the number of times each line occurred along with the line.
5413 @itemx --ignore-case
5415 @opindex --ignore-case
5416 Ignore differences in case when comparing lines.
5422 @cindex repeated lines, outputting
5423 Discard lines that are not repeated. When used by itself, this option
5424 causes @command{uniq} to print the first copy of each repeated line,
5428 @itemx --all-repeated[=@var{delimit-method}]
5430 @opindex --all-repeated
5431 @cindex all repeated lines, outputting
5432 Do not discard the second and subsequent repeated input lines,
5433 but discard lines that are not repeated.
5434 This option is useful mainly in conjunction with other options e.g.,
5435 to ignore case or to compare only selected fields.
5436 The optional @var{delimit-method}, supported with the long form option,
5437 specifies how to delimit groups of repeated lines, and must be one of the
5443 Do not delimit groups of repeated lines.
5444 This is equivalent to @option{--all-repeated} (@option{-D}).
5447 Output a newline before each group of repeated lines.
5448 @macro nulOutputNote
5449 With @option{--zero-terminated} (@option{-z}), use a zero
5450 byte (ASCII NUL) instead of a newline as the delimiter.
5455 Separate groups of repeated lines with a single newline.
5456 This is the same as using @samp{prepend}, except that
5457 no delimiter is inserted before the first group, and hence
5458 may be better suited for output direct to users.
5462 @macro ambiguousGroupNote
5463 Output is ambiguous when groups are delimited and the input stream
5464 contains empty lines.
5465 To avoid that, filter the input through @samp{tr -s '\\n'} to
5470 This is a GNU extension.
5471 @c FIXME: give an example showing *how* it's useful
5473 @item --group[=@var{delimit-method}]
5475 @cindex all lines, grouping
5476 Output all lines, and delimit each unique group.
5478 The optional @var{delimit-method} specifies how to delimit
5479 groups, and must be one of the following:
5484 Separate unique groups with a single delimiter.
5485 This is the default delimiting method if none is specified,
5486 and better suited for output direct to users.
5489 Output a delimiter before each group of unique items.
5492 Output a delimiter after each group of unique items.
5495 Output a delimiter around each group of unique items.
5500 This is a GNU extension.
5506 @cindex unique lines, outputting
5507 Discard the last line that would be output for a repeated input group.
5508 When used by itself, this option causes @command{uniq} to print unique
5509 lines, and nothing else.
5512 @itemx --check-chars=@var{n}
5514 @opindex --check-chars
5515 Compare at most @var{n} characters on each line (after skipping any specified
5516 fields and characters). By default the entire rest of the lines are
5520 @newlineFieldSeparator
5527 @node comm invocation
5528 @section @command{comm}: Compare two sorted files line by line
5531 @cindex line-by-line comparison
5532 @cindex comparing sorted files
5534 @command{comm} writes to standard output lines that are common, and lines
5535 that are unique, to two input files; a file name of @samp{-} means
5536 standard input. Synopsis:
5539 comm [@var{option}]@dots{} @var{file1} @var{file2}
5543 Before @command{comm} can be used, the input files must be sorted using the
5544 collating sequence specified by the @env{LC_COLLATE} locale.
5545 If an input file ends in a non-newline
5546 character, a newline is silently appended. The @command{sort} command with
5547 no options always outputs a file that is suitable input to @command{comm}.
5549 @cindex differing lines
5550 @cindex common lines
5551 With no options, @command{comm} produces three-column output. Column one
5552 contains lines unique to @var{file1}, column two contains lines unique
5553 to @var{file2}, and column three contains lines common to both files.
5554 Columns are separated by a single TAB character.
5555 @c FIXME: when there's an option to supply an alternative separator
5556 @c string, append "by default" to the above sentence.
5561 The options @option{-1}, @option{-2}, and @option{-3} suppress printing of
5562 the corresponding columns (and separators). Also see @ref{Common options}.
5564 Unlike some other comparison utilities, @command{comm} has an exit
5565 status that does not depend on the result of the comparison.
5566 Upon normal completion @command{comm} produces an exit code of zero.
5567 If there is an error it exits with nonzero status.
5569 @macro checkOrderOption{cmd}
5570 If the @option{--check-order} option is given, unsorted inputs will
5571 cause a fatal error message. If the option @option{--nocheck-order}
5572 is given, unsorted inputs will never cause an error message. If neither
5573 of these options is given, wrongly sorted inputs are diagnosed
5574 only if an input file is found to contain unpairable
5576 lines, and when both input files are non empty.
5578 @ifclear JOIN_COMMAND
5581 If an input file is diagnosed as being unsorted, the @command{\cmd\}
5582 command will exit with a nonzero status (and the output should not be used).
5584 Forcing @command{\cmd\} to process wrongly sorted input files
5585 containing unpairable lines by specifying @option{--nocheck-order} is
5586 not guaranteed to produce any particular output. The output will
5587 probably not correspond with whatever you hoped it would be.
5589 @checkOrderOption{comm}
5594 Fail with an error message if either input file is wrongly ordered.
5596 @item --nocheck-order
5597 Do not check that both input files are in sorted order.
5601 @item --output-delimiter=@var{str}
5602 Print @var{str} between adjacent output columns,
5603 rather than the default of a single TAB character.
5605 The delimiter @var{str} may be empty, in which case
5606 the ASCII NUL character is used to delimit output columns.
5609 Output a summary at the end.
5611 Similar to the regular output,
5612 column one contains the total number of lines unique to @var{file1},
5613 column two contains the total number of lines unique to @var{file2}, and
5614 column three contains the total number of lines common to both files,
5615 followed by the word @samp{total} in the additional column four.
5617 In the following example, @command{comm} omits the regular output
5618 (@option{-123}), thus just printing the summary:
5621 $ printf '%s\n' a b c d e > file1
5622 $ printf '%s\n' b c d e f g > file2
5623 $ comm --total -123 file1 file2
5627 This option is a GNU extension. Portable scripts should use @command{wc} to
5628 get the totals, e.g. for the above example files:
5631 $ comm -23 file1 file2 | wc -l # number of lines only in file1
5633 $ comm -13 file1 file2 | wc -l # number of lines only in file2
5635 $ comm -12 file1 file2 | wc -l # number of lines common to both files
5643 @node ptx invocation
5644 @section @command{ptx}: Produce permuted indexes
5648 @command{ptx} reads a text file and essentially produces a permuted index, with
5649 each keyword in its context. The calling sketch is either one of:
5652 ptx [@var{option} @dots{}] [@var{file} @dots{}]
5653 ptx -G [@var{option} @dots{}] [@var{input} [@var{output}]]
5656 The @option{-G} (or its equivalent: @option{--traditional}) option disables
5657 all GNU extensions and reverts to traditional mode, thus introducing some
5658 limitations and changing several of the program's default option values.
5659 When @option{-G} is not specified, GNU extensions are always enabled.
5660 GNU extensions to @command{ptx} are documented wherever appropriate in this
5661 document. @xref{Compatibility in ptx}, for the full list.
5663 Individual options are explained in the following sections.
5665 When GNU extensions are enabled, there may be zero, one or several
5666 @var{file}s after the options. If there is no @var{file}, the program
5667 reads the standard input. If there is one or several @var{file}s, they
5668 give the name of input files which are all read in turn, as if all the
5669 input files were concatenated. However, there is a full contextual
5670 break between each file and, when automatic referencing is requested,
5671 file names and line numbers refer to individual text input files. In
5672 all cases, the program outputs the permuted index to the standard
5675 When GNU extensions are @emph{not} enabled, that is, when the program
5676 operates in traditional mode, there may be zero, one or two parameters
5677 besides the options. If there are no parameters, the program reads the
5678 standard input and outputs the permuted index to the standard output.
5679 If there is only one parameter, it names the text @var{input} to be read
5680 instead of the standard input. If two parameters are given, they give
5681 respectively the name of the @var{input} file to read and the name of
5682 the @var{output} file to produce. @emph{Be very careful:}
5683 in this case, the contents of file given by the second parameter is
5684 destroyed. This behavior is dictated by System V @command{ptx}
5685 compatibility; GNU Standards normally discourage output parameters not
5686 introduced by an option.
5688 For @emph{any} file named as the value of an option or as an
5689 input text file, a single dash @samp{-} may be used, in which case
5690 standard input is assumed. However, it would not make sense to use this
5691 convention more than once per program invocation.
5694 * General options in ptx:: Options which affect general program behavior.
5695 * Charset selection in ptx:: Underlying character set considerations.
5696 * Input processing in ptx:: Input fields, contexts, and keyword selection.
5697 * Output formatting in ptx:: Types of output format, and sizing the fields.
5698 * Compatibility in ptx::
5702 @node General options in ptx
5703 @subsection General options
5708 @itemx --traditional
5709 As already explained, this option disables all GNU extensions to
5710 @command{ptx} and switches to traditional mode.
5713 Print a short help on standard output, then exit without further
5717 Print the program version on standard output, then exit without further
5725 @node Charset selection in ptx
5726 @subsection Charset selection
5728 As it is set up now, @command{ptx} assumes that the input file is coded
5729 using 8-bit characters, and it may not work well in multibyte locales.
5730 In a single-byte locale, the default regular expression
5731 for a keyword allows foreign or diacriticized letters. Keyword sorting,
5732 however, is still crude; it obeys the underlying character set ordering
5735 The output of @command{ptx} assumes the locale's character encoding.
5736 For example, with @command{ptx}'s @option{-T} option, if the locale
5737 uses the Latin-1 encoding you may need a LaTeX directive like
5738 @samp{\usepackage[latin1]@{inputenc@}} to render non-ASCII characters
5744 @itemx --ignore-case
5746 @opindex --ignore-case
5747 Fold lower case letters to upper case for sorting.
5752 @node Input processing in ptx
5753 @subsection Word selection and input processing
5758 @itemx --break-file=@var{file}
5760 @opindex --break-file
5762 This option provides an alternative (to @option{-W}) method of describing
5763 which characters make up words. It introduces the name of a
5764 file which contains a list of characters which can@emph{not} be part of
5765 one word; this file is called the @dfn{Break file}. Any character which
5766 is not part of the Break file is a word constituent. If both options
5767 @option{-b} and @option{-W} are specified, then @option{-W} has precedence and
5768 @option{-b} is ignored.
5770 When GNU extensions are enabled, the only way to avoid newline as a
5771 break character is to write all the break characters in the file with no
5772 newline at all, not even at the end of the file. When GNU extensions
5773 are disabled, spaces, tabs and newlines are always considered as break
5774 characters even if not included in the Break file.
5777 @itemx --ignore-file=@var{file}
5779 @opindex --ignore-file
5781 The file associated with this option contains a list of words which will
5782 never be taken as keywords in concordance output. It is called the
5783 @dfn{Ignore file}. The file contains exactly one word in each line; the
5784 end of line separation of words is not subject to the value of the
5788 @itemx --only-file=@var{file}
5790 @opindex --only-file
5792 The file associated with this option contains a list of words which will
5793 be retained in concordance output; any word not mentioned in this file
5794 is ignored. The file is called the @dfn{Only file}. The file contains
5795 exactly one word in each line; the end of line separation of words is
5796 not subject to the value of the @option{-S} option.
5798 There is no default for the Only file. When both an Only file and an
5799 Ignore file are specified, a word is considered a keyword only
5800 if it is listed in the Only file and not in the Ignore file.
5805 @opindex --references
5807 On each input line, the leading sequence of non-white space characters will be
5808 taken to be a reference that has the purpose of identifying this input
5809 line in the resulting permuted index.
5810 @xref{Output formatting in ptx},
5811 for more information about reference production.
5812 Using this option changes the default value for option @option{-S}.
5814 Using this option, the program does not try very hard to remove
5815 references from contexts in output, but it succeeds in doing so
5816 @emph{when} the context ends exactly at the newline. If option
5817 @option{-r} is used with @option{-S} default value, or when GNU extensions
5818 are disabled, this condition is always met and references are completely
5819 excluded from the output contexts.
5821 @item -S @var{regexp}
5822 @itemx --sentence-regexp=@var{regexp}
5824 @opindex --sentence-regexp
5826 This option selects which regular expression will describe the end of a
5827 line or the end of a sentence. In fact, this regular expression is not
5828 the only distinction between end of lines or end of sentences, and input
5829 line boundaries have no special significance outside this option. By
5830 default, when GNU extensions are enabled and if @option{-r} option is not
5831 used, end of sentences are used. In this case, this @var{regex} is
5832 imported from GNU Emacs:
5835 [.?!][]\"')@}]*\\($\\|\t\\| \\)[ \t\n]*
5838 Whenever GNU extensions are disabled or if @option{-r} option is used, end
5839 of lines are used; in this case, the default @var{regexp} is just:
5845 Using an empty @var{regexp} is equivalent to completely disabling end of
5846 line or end of sentence recognition. In this case, the whole file is
5847 considered to be a single big line or sentence. The user might want to
5848 disallow all truncation flag generation as well, through option @option{-F
5849 ""}. @xref{Regexps, , Syntax of Regular Expressions, emacs, The GNU Emacs
5852 When the keywords happen to be near the beginning of the input line or
5853 sentence, this often creates an unused area at the beginning of the
5854 output context line; when the keywords happen to be near the end of the
5855 input line or sentence, this often creates an unused area at the end of
5856 the output context line. The program tries to fill those unused areas
5857 by wrapping around context in them; the tail of the input line or
5858 sentence is used to fill the unused area on the left of the output line;
5859 the head of the input line or sentence is used to fill the unused area
5860 on the right of the output line.
5862 As a matter of convenience to the user, many usual backslashed escape
5863 sequences from the C language are recognized and converted to the
5864 corresponding characters by @command{ptx} itself.
5866 @item -W @var{regexp}
5867 @itemx --word-regexp=@var{regexp}
5869 @opindex --word-regexp
5871 This option selects which regular expression will describe each keyword.
5872 By default, if GNU extensions are enabled, a word is a sequence of
5873 letters; the @var{regexp} used is @samp{\w+}. When GNU extensions are
5874 disabled, a word is by default anything which ends with a space, a tab
5875 or a newline; the @var{regexp} used is @samp{[^ \t\n]+}.
5877 An empty @var{regexp} is equivalent to not using this option.
5878 @xref{Regexps, , Syntax of Regular Expressions, emacs, The GNU Emacs
5881 As a matter of convenience to the user, many usual backslashed escape
5882 sequences, as found in the C language, are recognized and converted to
5883 the corresponding characters by @command{ptx} itself.
5888 @node Output formatting in ptx
5889 @subsection Output formatting
5891 Output format is mainly controlled by the @option{-O} and @option{-T} options
5892 described in the table below. When neither @option{-O} nor @option{-T} are
5893 selected, and if GNU extensions are enabled, the program chooses an
5894 output format suitable for a dumb terminal. Each keyword occurrence is
5895 output to the center of one line, surrounded by its left and right
5896 contexts. Each field is properly justified, so the concordance output
5897 can be readily observed. As a special feature, if automatic
5898 references are selected by option @option{-A} and are output before the
5899 left context, that is, if option @option{-R} is @emph{not} selected, then
5900 a colon is added after the reference; this nicely interfaces with GNU
5901 Emacs @code{next-error} processing. In this default output format, each
5902 white space character, like newline and tab, is merely changed to
5903 exactly one space, with no special attempt to compress consecutive
5904 spaces. This might change in the future. Except for those white space
5905 characters, every other character of the underlying set of 256
5906 characters is transmitted verbatim.
5908 Output format is further controlled by the following options.
5912 @item -g @var{number}
5913 @itemx --gap-size=@var{number}
5917 Select the size of the minimum white space gap between the fields on the
5920 @item -w @var{number}
5921 @itemx --width=@var{number}
5925 Select the maximum output width of each final line. If references are
5926 used, they are included or excluded from the maximum output width
5927 depending on the value of option @option{-R}@. If this option is not
5928 selected, that is, when references are output before the left context,
5929 the maximum output width takes into account the maximum length of all
5930 references. If this option is selected, that is, when references are
5931 output after the right context, the maximum output width does not take
5932 into account the space taken by references, nor the gap that precedes
5936 @itemx --auto-reference
5938 @opindex --auto-reference
5940 Select automatic references. Each input line will have an automatic
5941 reference made up of the file name and the line ordinal, with a single
5942 colon between them. However, the file name will be empty when standard
5943 input is being read. If both @option{-A} and @option{-r} are selected, then
5944 the input reference is still read and skipped, but the automatic
5945 reference is used at output time, overriding the input reference.
5948 @itemx --right-side-refs
5950 @opindex --right-side-refs
5952 In the default output format, when option @option{-R} is not used, any
5953 references produced by the effect of options @option{-r} or @option{-A} are
5954 placed to the far right of output lines, after the right context. With
5955 default output format, when the @option{-R} option is specified, references
5956 are rather placed at the beginning of each output line, before the left
5957 context. For any other output format, option @option{-R} is
5958 ignored, with one exception: with @option{-R} the width of references
5959 is @emph{not} taken into account in total output width given by @option{-w}.
5961 This option is automatically selected whenever GNU extensions are
5964 @item -F @var{string}
5965 @itemx --flag-truncation=@var{string}
5967 @opindex --flag-truncation
5969 This option will request that any truncation in the output be reported
5970 using the string @var{string}. Most output fields theoretically extend
5971 towards the beginning or the end of the current line, or current
5972 sentence, as selected with option @option{-S}@. But there is a maximum
5973 allowed output line width, changeable through option @option{-w}, which is
5974 further divided into space for various output fields. When a field has
5975 to be truncated because it cannot extend beyond the beginning or the end of
5976 the current line to fit in, then a truncation occurs. By default,
5977 the string used is a single slash, as in @option{-F /}.
5979 @var{string} may have more than one character, as in @option{-F @dots{}}.
5980 Also, in the particular case when @var{string} is empty (@option{-F ""}),
5981 truncation flagging is disabled, and no truncation marks are appended in
5984 As a matter of convenience to the user, many usual backslashed escape
5985 sequences, as found in the C language, are recognized and converted to
5986 the corresponding characters by @command{ptx} itself.
5988 @item -M @var{string}
5989 @itemx --macro-name=@var{string}
5991 @opindex --macro-name
5993 Select another @var{string} to be used instead of @samp{xx}, while
5994 generating output suitable for @command{nroff}, @command{troff} or @TeX{}.
5997 @itemx --format=roff
5999 @opindex --format=roff
6001 Choose an output format suitable for @command{nroff} or @command{troff}
6002 processing. Each output line will look like:
6005 .xx "@var{tail}" "@var{before}" "@var{keyword_and_after}"@c
6006 "@var{head}" "@var{ref}"
6009 so it will be possible to write a @samp{.xx} roff macro to take care of
6010 the output typesetting. This is the default output format when GNU
6011 extensions are disabled. Option @option{-M} can be used to change
6012 @samp{xx} to another macro name.
6014 In this output format, each non-graphical character, like newline and
6015 tab, is merely changed to exactly one space, with no special attempt to
6016 compress consecutive spaces. Each quote character @samp{"} is doubled
6017 so it will be correctly processed by @command{nroff} or @command{troff}.
6022 @opindex --format=tex
6024 Choose an output format suitable for @TeX{} processing. Each output
6025 line will look like:
6028 \xx @{@var{tail}@}@{@var{before}@}@{@var{keyword}@}@c
6029 @{@var{after}@}@{@var{head}@}@{@var{ref}@}
6033 so it will be possible to write a @code{\xx} definition to take care of
6034 the output typesetting. When references are not being
6035 produced, that is, neither option @option{-A} nor option @option{-r} is
6036 selected, the last parameter of each @code{\xx} call is inhibited.
6037 Option @option{-M} can be used to change @samp{xx} to another macro
6040 In this output format, some special characters, like @samp{$}, @samp{%},
6041 @samp{&}, @samp{#} and @samp{_} are automatically protected with a
6042 backslash. Curly brackets @samp{@{}, @samp{@}} are protected with a
6043 backslash and a pair of dollar signs (to force mathematical mode). The
6044 backslash itself produces the sequence @code{\backslash@{@}}.
6045 Circumflex and tilde diacritical marks produce the sequence @code{^\@{ @}} and
6046 @code{~\@{ @}} respectively. Other diacriticized characters of the
6047 underlying character set produce an appropriate @TeX{} sequence as far
6048 as possible. The other non-graphical characters, like newline and tab,
6049 and all other characters which are not part of ASCII, are merely
6050 changed to exactly one space, with no special attempt to compress
6051 consecutive spaces. Let me know how to improve this special character
6052 processing for @TeX{}.
6057 @node Compatibility in ptx
6058 @subsection The GNU extensions to @command{ptx}
6060 This version of @command{ptx} contains a few features which do not exist in
6061 System V @command{ptx}. These extra features are suppressed by using the
6062 @option{-G} command line option, unless overridden by other command line
6063 options. Some GNU extensions cannot be recovered by overriding, so the
6064 simple rule is to avoid @option{-G} if you care about GNU extensions.
6065 Here are the differences between this program and System V @command{ptx}.
6070 This program can read many input files at once, it always writes the
6071 resulting concordance on standard output. On the other hand, System V
6072 @command{ptx} reads only one file and sends the result to standard output
6073 or, if a second @var{file} parameter is given on the command, to that
6076 Having output parameters not introduced by options is a dangerous
6077 practice which GNU avoids as far as possible. So, for using @command{ptx}
6078 portably between GNU and System V, you should always use it with a
6079 single input file, and always expect the result on standard output. You
6080 might also want to automatically configure in a @option{-G} option to
6081 @command{ptx} calls in products using @command{ptx}, if the configurator finds
6082 that the installed @command{ptx} accepts @option{-G}.
6085 The only options available in System V @command{ptx} are options @option{-b},
6086 @option{-f}, @option{-g}, @option{-i}, @option{-o}, @option{-r}, @option{-t} and
6087 @option{-w}. All other options are GNU extensions and are not repeated in
6088 this enumeration. Moreover, some options have a slightly different
6089 meaning when GNU extensions are enabled, as explained below.
6092 By default, concordance output is not formatted for @command{troff} or
6093 @command{nroff}. It is rather formatted for a dumb terminal. @command{troff}
6094 or @command{nroff} output may still be selected through option @option{-O}.
6097 Unless @option{-R} option is used, the maximum reference width is
6098 subtracted from the total output line width. With GNU extensions
6099 disabled, width of references is not taken into account in the output
6100 line width computations.
6103 All 256 bytes, even ASCII NUL bytes, are always read and
6104 processed from input file with no adverse effect, even if GNU extensions
6105 are disabled. However, System V @command{ptx} does not accept 8-bit
6106 characters, a few control characters are rejected, and the tilde
6107 @samp{~} is also rejected.
6110 Input line length is only limited by available memory, even if GNU
6111 extensions are disabled. However, System V @command{ptx} processes only
6112 the first 200 characters in each line.
6115 The break (non-word) characters default to be every character except all
6116 letters of the underlying character set, diacriticized or not. When GNU
6117 extensions are disabled, the break characters default to space, tab and
6121 The program makes better use of output line width. If GNU extensions
6122 are disabled, the program rather tries to imitate System V @command{ptx},
6123 but still, there are some slight disposition glitches this program does
6124 not completely reproduce.
6127 The user can specify both an Ignore file and an Only file. This is not
6128 allowed with System V @command{ptx}.
6133 @node tsort invocation
6134 @section @command{tsort}: Topological sort
6137 @cindex topological sort
6139 @command{tsort} performs a topological sort on the given @var{file}, or
6140 standard input if no input file is given or for a @var{file} of
6141 @samp{-}. For more details and some history, see @ref{tsort background}.
6145 tsort [@var{option}] [@var{file}]
6148 @command{tsort} reads its input as pairs of strings, separated by blanks,
6149 indicating a partial ordering. The output is a total ordering that
6150 corresponds to the given partial ordering.
6164 will produce the output
6175 Consider a more realistic example.
6176 You have a large set of functions all in one file, and they may all be
6177 declared static except one. Currently that one (say @code{main}) is the
6178 first function defined in the file, and the ones it calls directly follow
6179 it, followed by those they call, etc. Let's say that you are determined
6180 to take advantage of prototypes, so you have to choose between declaring
6181 all of those functions (which means duplicating a lot of information from
6182 the definitions) and rearranging the functions so that as many as possible
6183 are defined before they are used. One way to automate the latter process
6184 is to get a list for each function of the functions it calls directly.
6185 Many programs can generate such lists. They describe a call graph.
6186 Consider the following list, in which a given line indicates that the
6187 function on the left calls the one on the right directly.
6193 tail_file pretty_name
6194 tail_file write_header
6196 tail_forever recheck
6197 tail_forever pretty_name
6198 tail_forever write_header
6199 tail_forever dump_remainder
6202 tail_lines start_lines
6203 tail_lines dump_remainder
6204 tail_lines file_lines
6205 tail_lines pipe_lines
6207 tail_bytes start_bytes
6208 tail_bytes dump_remainder
6209 tail_bytes pipe_bytes
6210 file_lines dump_remainder
6214 then you can use @command{tsort} to produce an ordering of those
6215 functions that satisfies your requirement.
6218 example$ tsort call-graph | tac
6238 @command{tsort} detects any cycles in the input and writes the first cycle
6239 encountered to standard error.
6241 For a given partial ordering, generally there is no unique
6242 total ordering. In the context of the call graph above, the function
6243 @code{parse_options} may be placed anywhere in the list as long as it
6244 precedes @code{main}.
6246 The only options are @option{--help} and @option{--version}. @xref{Common
6252 * tsort background:: Where tsort came from.
6255 @node tsort background
6256 @subsection @command{tsort}: Background
6258 @command{tsort} exists because very early versions of the Unix linker processed
6259 an archive file exactly once, and in order. As @command{ld} read each object
6260 in the archive, it decided whether it was needed in the program based on
6261 whether it defined any symbols which were undefined at that point in
6264 This meant that dependencies within the archive had to be handled
6265 specially. For example, @code{scanf} probably calls @code{read}. That means
6266 that in a single pass through an archive, it was important for @code{scanf.o}
6267 to appear before read.o, because otherwise a program which calls
6268 @code{scanf} but not @code{read} might end up with an unexpected unresolved
6269 reference to @code{read}.
6271 The way to address this problem was to first generate a set of
6272 dependencies of one object file on another. This was done by a shell
6273 script called @command{lorder}. The GNU tools don't provide a version of
6274 lorder, as far as I know, but you can still find it in BSD
6277 Then you ran @command{tsort} over the @command{lorder} output, and you used the
6278 resulting sort to define the order in which you added objects to the archive.
6280 This whole procedure has been obsolete since about 1980, because
6281 Unix archives now contain a symbol table (traditionally built by
6282 @command{ranlib}, now generally built by @command{ar} itself), and the Unix
6283 linker uses the symbol table to effectively make multiple passes over
6286 Anyhow, that's where tsort came from. To solve an old problem with
6287 the way the linker handled archive files, which has since been solved
6291 @node Operating on fields
6292 @chapter Operating on fields
6295 * cut invocation:: Print selected parts of lines.
6296 * paste invocation:: Merge lines of files.
6297 * join invocation:: Join lines on a common field.
6301 @node cut invocation
6302 @section @command{cut}: Print selected parts of lines
6305 @command{cut} writes to standard output selected parts of each line of each
6306 input file, or standard input if no files are given or for a file name of
6310 cut @var{option}@dots{} [@var{file}]@dots{}
6313 In the table which follows, the @var{byte-list}, @var{character-list},
6314 and @var{field-list} are one or more numbers or ranges (two numbers
6315 separated by a dash) separated by commas. Bytes, characters, and
6316 fields are numbered starting at 1. Incomplete ranges may be
6317 given: @option{-@var{m}} means @samp{1-@var{m}}; @samp{@var{n}-} means
6318 @samp{@var{n}} through end of line or last field. The list elements
6319 can be repeated, can overlap, and can be specified in any order; but
6320 the selected input is written in the same order that it is read, and
6321 is written exactly once.
6323 The program accepts the following options. Also see @ref{Common
6328 @item -b @var{byte-list}
6329 @itemx --bytes=@var{byte-list}
6332 Select for printing only the bytes in positions listed in
6333 @var{byte-list}. Tabs and backspaces are treated like any other
6334 character; they take up 1 byte. If an output delimiter is specified,
6335 (see the description of @option{--output-delimiter}), then output that
6336 string between ranges of selected bytes.
6338 @item -c @var{character-list}
6339 @itemx --characters=@var{character-list}
6341 @opindex --characters
6342 Select for printing only the characters in positions listed in
6343 @var{character-list}. The same as @option{-b} for now, but
6344 internationalization will change that. Tabs and backspaces are
6345 treated like any other character; they take up 1 character. If an
6346 output delimiter is specified, (see the description of
6347 @option{--output-delimiter}), then output that string between ranges
6350 @item -f @var{field-list}
6351 @itemx --fields=@var{field-list}
6354 Select for printing only the fields listed in @var{field-list}.
6355 Fields are separated by a TAB character by default. Also print any
6356 line that contains no delimiter character, unless the
6357 @option{--only-delimited} (@option{-s}) option is specified.
6359 The @command{awk} command supports more sophisticated field processing,
6360 like reordering fields, and handling fields aligned with blank characters.
6361 By default @command{awk} uses (and discards) runs of blank characters
6362 to separate fields, and ignores leading and trailing blanks.
6365 awk '{print $2}' # print the second field
6366 awk '{print $(NF-1)}' # print the penultimate field
6367 awk '{print $2,$1}' # reorder the first two fields
6370 While @command{cut} accepts field specifications in
6371 arbitrary order, output is always in the order encountered in the file.
6373 In the unlikely event that @command{awk} is unavailable,
6374 one can use the @command{join} command, to process blank
6375 characters as @command{awk} does above.
6378 join -a1 -o 1.2 - /dev/null # print the second field
6379 join -a1 -o 1.2,1.1 - /dev/null # reorder the first two fields
6383 @item -d @var{input_delim_byte}
6384 @itemx --delimiter=@var{input_delim_byte}
6386 @opindex --delimiter
6387 With @option{-f}, use the first byte of @var{input_delim_byte} as
6388 the input fields separator (default is TAB).
6392 Do not split multi-byte characters (no-op for now).
6395 @itemx --only-delimited
6397 @opindex --only-delimited
6398 For @option{-f}, do not print lines that do not contain the field separator
6399 character. Normally, any line without a field separator is printed verbatim.
6401 @item --output-delimiter=@var{output_delim_string}
6402 @opindex --output-delimiter
6403 With @option{-f}, output fields are separated by @var{output_delim_string}.
6404 The default with @option{-f} is to use the input delimiter.
6405 When using @option{-b} or @option{-c} to select ranges of byte or
6406 character offsets (as opposed to ranges of fields),
6407 output @var{output_delim_string} between non-overlapping
6408 ranges of selected bytes.
6411 @opindex --complement
6412 This option is a GNU extension.
6413 Select for printing the complement of the bytes, characters or fields
6414 selected with the @option{-b}, @option{-c} or @option{-f} options.
6415 In other words, do @emph{not} print the bytes, characters or fields
6416 specified via those options. This option is useful when you have
6417 many fields and want to print all but a few of them.
6426 @node paste invocation
6427 @section @command{paste}: Merge lines of files
6430 @cindex merging files
6432 @command{paste} writes to standard output lines consisting of sequentially
6433 corresponding lines of each given file, separated by a TAB character.
6434 Standard input is used for a file name of @samp{-} or if no input files
6440 paste [@var{option}]@dots{} [@var{file}]@dots{}
6454 Take lines sequentially from each file:
6462 Duplicate lines from a file:
6464 $ paste num2 let3 num2
6470 Intermix lines from standard input:
6472 $ paste - let3 - < num2
6478 Join consecutive lines with a space:
6480 $ seq 4 | paste -d ' ' - -
6485 The program accepts the following options. Also see @ref{Common options}.
6493 Paste the lines of one file at a time rather than one line from each
6494 file. Using the above example data:
6497 $ paste -s num2 let3
6502 @item -d @var{delim-list}
6503 @itemx --delimiters=@var{delim-list}
6505 @opindex --delimiters
6506 Consecutively use the characters in @var{delim-list} instead of
6507 TAB to separate merged lines. When @var{delim-list} is
6508 exhausted, start again at its beginning. Using the above example data:
6511 $ paste -d '%_' num2 let3 num2
6524 @node join invocation
6525 @section @command{join}: Join lines on a common field
6528 @cindex common field, joining on
6530 @command{join} writes to standard output a line for each pair of input
6531 lines that have identical join fields. Synopsis:
6534 join [@var{option}]@dots{} @var{file1} @var{file2}
6537 Either @var{file1} or @var{file2} (but not both) can be @samp{-},
6538 meaning standard input. @var{file1} and @var{file2} should be
6539 sorted on the join fields.
6561 @command{join}'s default behavior (when no options are given):
6563 @item the join field is the first field in each line;
6564 @item fields in the input are separated by one or more blanks, with leading
6565 blanks on the line ignored;
6566 @item fields in the output are separated by a space;
6567 @item each output line consists of the join field, the remaining
6568 fields from @var{file1}, then the remaining fields from @var{file2}.
6573 * General options in join:: Options which affect general program behavior.
6574 * Sorting files for join:: Using @command{sort} before @command{join}.
6575 * Working with fields:: Joining on different fields.
6576 * Paired and unpaired lines:: Controlling @command{join}'s field matching.
6577 * Header lines:: Working with header lines in files.
6578 * Set operations:: Union, Intersection and Difference of files.
6581 @node General options in join
6582 @subsection General options
6583 The program accepts the following options. Also see @ref{Common options}.
6587 @item -a @var{file-number}
6589 Print a line for each unpairable line in file @var{file-number} (either
6590 @samp{1} or @samp{2}), in addition to the normal output.
6593 Fail with an error message if either input file is wrongly ordered.
6595 @item --nocheck-order
6596 Do not check that both input files are in sorted order. This is the default.
6598 @item -e @var{string}
6600 Replace those output fields that are missing in the input with @var{string}.
6601 I.e., missing fields specified with the @option{-12jo} options.
6605 Treat the first line of each input file as a header line. The header lines
6606 will be joined and printed as the first output line. If @option{-o} is used to
6607 specify output format, the header line will be printed according to the
6608 specified format. The header lines will not be checked for ordering even if
6609 @option{--check-order} is specified. Also if the header lines from each file
6610 do not match, the heading fields from the first file will be used.
6613 @itemx --ignore-case
6615 @opindex --ignore-case
6616 Ignore differences in case when comparing keys.
6617 With this option, the lines of the input files must be ordered in the same way.
6618 Use @samp{sort -f} to produce this ordering.
6620 @item -1 @var{field}
6622 Join on field @var{field} (a positive integer) of file 1.
6624 @item -2 @var{field}
6626 Join on field @var{field} (a positive integer) of file 2.
6628 @item -j @var{field}
6629 Equivalent to @option{-1 @var{field} -2 @var{field}}.
6631 @item -o @var{field-list}
6633 If the keyword @samp{auto} is specified, infer the output format from
6634 the first line in each file. This is the same as the default output format
6635 but also ensures the same number of fields are output for each line.
6636 Missing fields are replaced with the @option{-e} option and extra fields
6639 Otherwise, construct each output line according to the format in
6640 @var{field-list}. Each element in @var{field-list} is either the single
6641 character @samp{0} or has the form @var{m.n} where the file number, @var{m},
6642 is @samp{1} or @samp{2} and @var{n} is a positive field number.
6644 A field specification of @samp{0} denotes the join field.
6645 In most cases, the functionality of the @samp{0} field spec
6646 may be reproduced using the explicit @var{m.n} that corresponds
6647 to the join field. However, when printing unpairable lines
6648 (using either of the @option{-a} or @option{-v} options), there is no way
6649 to specify the join field using @var{m.n} in @var{field-list}
6650 if there are unpairable lines in both files.
6651 To give @command{join} that functionality, POSIX invented the @samp{0}
6652 field specification notation.
6654 The elements in @var{field-list}
6655 are separated by commas or blanks.
6656 Blank separators typically need to be quoted for the shell. For
6657 example, the commands @samp{join -o 1.2,2.2} and @samp{join -o '1.2
6658 2.2'} are equivalent.
6660 All output lines -- including those printed because of any @option{-a}
6661 or @option{-v} option -- are subject to the specified @var{field-list}.
6664 Use character @var{char} as the input and output field separator.
6665 Treat as significant each occurrence of @var{char} in the input file.
6666 Use @samp{sort -t @var{char}}, without the @option{-b} option of
6667 @samp{sort}, to produce this ordering. If @samp{join -t ''} is specified,
6668 the whole line is considered, matching the default operation of sort.
6669 If @samp{-t '\0'} is specified then the ASCII NUL
6670 character is used to delimit the fields.
6672 @item -v @var{file-number}
6673 Print a line for each unpairable line in file @var{file-number}
6674 (either @samp{1} or @samp{2}), instead of the normal output.
6677 @newlineFieldSeparator
6684 @checkOrderOption{join}
6689 @node Sorting files for join
6690 @subsection Pre-sorting
6692 @command{join} requires sorted input files. Each input file should be
6693 sorted according to the key (=field/column number) used in
6694 @command{join}. The recommended sorting option is @samp{sort -k 1b,1}
6695 (assuming the desired key is in the first column).
6697 @noindent Typical usage:
6700 $ sort -k 1b,1 file1 > file1.sorted
6701 $ sort -k 1b,1 file2 > file2.sorted
6702 $ join file1.sorted file2.sorted > file3
6707 Normally, the sort order is that of the
6708 collating sequence specified by the @env{LC_COLLATE} locale. Unless
6709 the @option{-t} option is given, the sort comparison ignores blanks at
6710 the start of the join field, as in @code{sort -b}. If the
6711 @option{--ignore-case} option is given, the sort comparison ignores
6712 the case of characters in the join field, as in @code{sort -f}:
6716 $ sort -k 1bf,1 file1 > file1.sorted
6717 $ sort -k 1bf,1 file2 > file2.sorted
6718 $ join --ignore-case file1.sorted file2.sorted > file3
6722 The @command{sort} and @command{join} commands should use consistent
6723 locales and options if the output of @command{sort} is fed to
6724 @command{join}. You can use a command like @samp{sort -k 1b,1} to
6725 sort a file on its default join field, but if you select a non-default
6726 locale, join field, separator, or comparison options, then you should
6727 do so consistently between @command{join} and @command{sort}.
6729 @noindent To avoid any locale-related issues, it is recommended to use the
6730 @samp{C} locale for both commands:
6734 $ LC_ALL=C sort -k 1b,1 file1 > file1.sorted
6735 $ LC_ALL=C sort -k 1b,1 file2 > file2.sorted
6736 $ LC_ALL=C join file1.sorted file2.sorted > file3
6741 @node Working with fields
6742 @subsection Working with fields
6744 Use @option{-1},@option{-2} to set the key fields for each of the input files.
6745 Ensure the preceding @command{sort} commands operated on the same fields.
6748 The following example joins two files, using the values from seventh field
6749 of the first file and the third field of the second file:
6753 $ sort -k 7b,7 file1 > file1.sorted
6754 $ sort -k 3b,3 file2 > file2.sorted
6755 $ join -1 7 -2 3 file1.sorted file2.sorted > file3
6760 If the field number is the same for both files, use @option{-j}:
6764 $ sort -k4b,4 file1 > file1.sorted
6765 $ sort -k4b,4 file2 > file2.sorted
6766 $ join -j4 file1.sorted file2.sorted > file3
6771 Both @command{sort} and @command{join} operate of whitespace-delimited
6772 fields. To specify a different delimiter, use @option{-t} in @emph{both}:
6776 $ sort -t, -k3b,3 file1 > file1.sorted
6777 $ sort -t, -k3b,3 file2 > file2.sorted
6778 $ join -t, -j3 file1.sorted file2.sorted > file3
6783 To specify a tab (@sc{ascii} 0x09) character instead of whitespace,
6784 use:@footnote{the @code{$'\t'} is supported in most modern shells.
6785 For older shells, use a literal tab.}
6789 $ sort -t$'\t' -k3b,3 file1 > file1.sorted
6790 $ sort -t$'\t' -k3b,3 file2 > file2.sorted
6791 $ join -t$'\t' -j3 file1.sorted file2.sorted > file3
6797 If @samp{join -t ''} is specified then the whole line is considered which
6798 matches the default operation of sort:
6802 $ sort file1 > file1.sorted
6803 $ sort file2 > file2.sorted
6804 $ join -t '' file1.sorted file2.sorted > file3
6809 @node Paired and unpaired lines
6810 @subsection Controlling @command{join}'s field matching
6812 In this section the @command{sort} commands are omitted for brevity.
6813 Sorting the files before joining is still required.
6815 @command{join}'s default behavior is to print only lines common to
6816 both input files. Use @option{-a} and @option{-v} to print unpairable lines
6817 from one or both files.
6820 All examples below use the following two (pre-sorted) input files:
6822 @multitable @columnfractions .5 .5
6839 @c TODO: Find better column widths that work for both HTML and PDF
6840 @c and disable indentation of @example.
6841 @multitable @columnfractions 0.5 0.5
6843 @headitem Command @tab Outcome
6853 (@emph{intersection})
6859 $ join -a 1 file1 file2
6864 common lines @emph{and} unpaired
6865 lines from the first file
6870 $ join -a 2 file1 file2
6875 common lines @emph{and} unpaired lines from the second file
6880 $ join -a 1 -a 2 file1 file2
6886 all lines (paired and unpaired) from both files
6889 see note below regarding @code{-o auto}.
6894 $ join -v 1 file1 file2
6898 unpaired lines from the first file
6904 $ join -v 2 file1 file2
6908 unpaired lines from the second file
6914 $ join -v 1 -v 2 file1 file2
6919 unpaired lines from both files, omitting common lines
6920 (@emph{symmetric difference}).
6926 The @option{-o auto -e X} options are useful when dealing with unpaired lines.
6927 The following example prints all lines (common and unpaired) from both files.
6928 Without @option{-o auto} it is not easy to discern which fields originate from
6932 $ join -a 1 -a 2 file1 file2
6937 $ join -o auto -e X -a 1 -a 2 file1 file2
6944 If the input has no unpairable lines, a GNU extension is
6945 available; the sort order can be any order that considers two fields
6946 to be equal if and only if the sort comparison described above
6947 considers them to be equal. For example:
6970 @subsection Header lines
6972 The @option{--header} option can be used when the files to join
6973 have a header line which is not sorted:
6987 $ join --header -o auto -e NA -a1 -a2 file1 file2
6996 To sort a file with a header line, use GNU @command{sed -u}.
6997 The following example sort the files but keeps the first line of each
7002 $ ( sed -u 1q ; sort -k2b,2 ) < file1 > file1.sorted
7003 $ ( sed -u 1q ; sort -k2b,2 ) < file2 > file2.sorted
7004 $ join --header -o auto -e NA -a1 -a2 file1.sorted file2.sorted > file3
7008 @node Set operations
7009 @subsection Union, Intersection and Difference of files
7011 Combine @command{sort}, @command{uniq} and @command{join} to
7012 perform the equivalent of set operations on files:
7014 @c From https://www.pixelbeat.org/cmdline.html#sets
7015 @multitable @columnfractions 0.5 0.5
7016 @headitem Command @tab outcome
7017 @item @code{sort -u file1 file2}
7018 @tab Union of unsorted files
7020 @item @code{sort file1 file2 | uniq -d}
7021 @tab Intersection of unsorted files
7023 @item @code{sort file1 file1 file2 | uniq -u}
7024 @tab Difference of unsorted files
7026 @item @code{sort file1 file2 | uniq -u}
7027 @tab Symmetric Difference of unsorted files
7029 @item @code{join -t '' -a1 -a2 file1 file2}
7030 @tab Union of sorted files
7032 @item @code{join -t '' file1 file2}
7033 @tab Intersection of sorted files
7035 @item @code{join -t '' -v2 file1 file2}
7036 @tab Difference of sorted files
7038 @item @code{join -t '' -v1 -v2 file1 file2}
7039 @tab Symmetric Difference of sorted files
7043 All examples above operate on entire lines and not on specific fields:
7044 @command{sort} without @option{-k} and @command{join -t ''} both consider
7045 entire lines as the key.
7048 @node Operating on characters
7049 @chapter Operating on characters
7051 @cindex operating on characters
7053 These commands operate on individual characters.
7056 * tr invocation:: Translate, squeeze, and/or delete characters.
7057 * expand invocation:: Convert tabs to spaces.
7058 * unexpand invocation:: Convert spaces to tabs.
7063 @section @command{tr}: Translate, squeeze, and/or delete characters
7070 tr [@var{option}]@dots{} @var{string1} [@var{string2}]
7073 @command{tr} copies standard input to standard output, performing
7074 one of the following operations:
7078 translate, and optionally squeeze repeated characters in the result,
7080 squeeze repeated characters,
7084 delete characters, then squeeze repeated characters from the result.
7087 The @var{string1} and @var{string2} operands define arrays of
7088 characters @var{array1} and @var{array2}. By default @var{array1}
7089 lists input characters that @command{tr} operates on, and @var{array2}
7090 lists corresponding translations. In some cases the second operand is
7093 The program accepts the following options. Also see @ref{Common options}.
7094 Options must precede operands.
7103 @opindex --complement
7104 Instead of @var{array1}, use its complement (all characters not
7105 specified by @var{string1}), in ascending order. Use this option with
7106 caution in multibyte locales where its meaning is not always clear
7107 or portable; see @ref{Character arrays}.
7113 Delete characters in @var{array1}; do not translate.
7116 @itemx --squeeze-repeats
7118 @opindex --squeeze-repeats
7119 Replace each sequence of a repeated character that is listed in
7120 the last specified @var{array}, with a single occurrence of that character.
7123 @itemx --truncate-set1
7125 @opindex --truncate-set1
7126 Truncate @var{array1} to the length of @var{array2}.
7134 * Character arrays:: Specifying arrays of characters.
7135 * Translating:: Changing characters to other characters.
7136 * Squeezing and deleting:: Removing characters.
7140 @node Character arrays
7141 @subsection Specifying arrays of characters
7143 @cindex arrays of characters in @command{tr}
7145 The @var{string1} and @var{string2} operands are not regular
7146 expressions, even though they may look similar. Instead, they
7147 merely represent arrays of characters. As a GNU extension to POSIX,
7148 an empty string operand represents an empty array of characters.
7150 The interpretation of @var{string1} and @var{string2} depends on locale.
7151 GNU @command{tr} fully supports only safe single-byte locales,
7152 where each possible input byte represents a single character.
7153 Unfortunately, this means GNU @command{tr} will not handle commands
7154 like @samp{tr @"o @L{}} the way you might expect,
7155 since (assuming a UTF-8 encoding) this is equivalent to
7156 @samp{tr '\303\266' '\305\201'} and GNU @command{tr} will
7157 simply transliterate all @samp{\303} bytes to @samp{\305} bytes, etc.
7158 POSIX does not clearly specify the behavior of @command{tr} in locales
7159 where characters are represented by byte sequences instead of by
7160 individual bytes, or where data might contain invalid bytes that are
7161 encoding errors. To avoid problems in this area, you can run
7162 @command{tr} in a safe single-byte locale by using a shell command
7163 like @samp{LC_ALL=C tr} instead of plain @command{tr}.
7165 Although most characters simply represent themselves in @var{string1}
7166 and @var{string2}, the strings can contain shorthands listed below,
7167 for convenience. Some shorthands can be used only in @var{string1} or
7168 @var{string2}, as noted below.
7172 @item Backslash escapes
7173 @cindex backslash escapes
7175 The following backslash escape sequences are recognized:
7179 Bell (BEL, Control-G).
7181 Backspace (BS, Control-H).
7183 Form feed (FF, Control-L).
7185 Newline (LF, Control-J).
7187 Carriage return (CR, Control-M).
7189 Tab (HT, Control-I).
7191 Vertical tab (VT, Control-K).
7193 The eight-bit byte with the value given by @var{ooo}, which is the longest
7194 sequence of one to three octal digits following the backslash.
7195 For portability, @var{ooo} should represent a value that fits in eight bits.
7196 As a GNU extension to POSIX, if the value would not fit, then only the
7197 first two digits of @var{ooo} are used, e.g., @samp{\400}
7198 is equivalent to @samp{\0400} and represents a two-byte sequence.
7203 It is an error if no character follows an unescaped backslash.
7204 As a GNU extension, a backslash followed by a character not listed
7205 above is interpreted as that character, removing any special
7206 significance; this can be used to escape the characters
7207 @samp{[} and @samp{-} when they would otherwise be special.
7212 The notation @samp{@var{m}-@var{n}} expands to the characters
7213 from @var{m} through @var{n}, in ascending order. @var{m} should
7214 not collate after @var{n}; if it does, an error results. As an example,
7215 @samp{0-9} is the same as @samp{0123456789}.
7217 GNU @command{tr} does not support the System V syntax that uses square
7218 brackets to enclose ranges. Translations specified in that format
7219 sometimes work as expected, since the brackets are often transliterated
7220 to themselves. However, they should be avoided because they sometimes
7221 behave unexpectedly. For example, @samp{tr -d '[0-9]'} deletes brackets
7224 Many historically common and even accepted uses of ranges are not fully
7225 portable. For example, on EBCDIC hosts using the @samp{A-Z}
7226 range will not do what most would expect because @samp{A} through @samp{Z}
7227 are not contiguous as they are in ASCII@.
7228 One way to work around this is to use character classes (see below).
7229 Otherwise, it is most portable (and most ugly) to enumerate the members
7232 @item Repeated characters
7233 @cindex repeated characters
7235 The notation @samp{[@var{c}*@var{n}]} in @var{string2} expands to @var{n}
7236 copies of character @var{c}. Thus, @samp{[y*6]} is the same as
7237 @samp{yyyyyy}. The notation @samp{[@var{c}*]} in @var{string2} expands
7238 to as many copies of @var{c} as are needed to make @var{array2} as long as
7239 @var{array1}. If @var{n} begins with @samp{0}, it is interpreted in
7240 octal, otherwise in decimal. A zero-valued @var{n} is treated as if
7243 @item Character classes
7244 @cindex character classes
7246 The notation @samp{[:@var{class}:]} expands to all characters in
7247 the (predefined) class @var{class}. When the @option{--delete} (@option{-d})
7248 and @option{--squeeze-repeats} (@option{-s}) options are both given, any
7249 character class can be used in @var{string2}. Otherwise, only the
7250 character classes @code{lower} and @code{upper} are accepted in
7251 @var{string2}, and then only if the corresponding character class
7252 (@code{upper} and @code{lower}, respectively) is specified in the same
7253 relative position in @var{string1}. Doing this specifies case conversion.
7254 Except for case conversion, a class's characters appear in no particular order.
7255 The class names are given below; an error results when an invalid class
7267 Horizontal whitespace.
7276 Printable characters, not including space.
7282 Printable characters, including space.
7285 Punctuation characters.
7288 Horizontal or vertical whitespace.
7297 @item Equivalence classes
7298 @cindex equivalence classes
7300 The syntax @samp{[=@var{c}=]} expands to all characters equivalent to
7301 @var{c}, in no particular order. These equivalence classes are
7302 allowed in @var{string2} only when @option{--delete} (@option{-d}) and
7303 @option{--squeeze-repeats} @option{-s} are both given.
7305 Although equivalence classes are intended to support non-English alphabets,
7306 there seems to be no standard way to define them or determine their
7307 contents. Therefore, they are not fully implemented in GNU @command{tr};
7308 each character's equivalence class consists only of that character,
7309 which is of no particular use.
7315 @subsection Translating
7317 @cindex translating characters
7319 @command{tr} performs translation when @var{string1} and @var{string2} are
7320 both given and the @option{--delete} (@option{-d}) option is not given.
7321 @command{tr} translates each character of its input that is in @var{array1}
7322 to the corresponding character in @var{array2}. Characters not in
7323 @var{array1} are passed through unchanged.
7325 As a GNU extension to POSIX, when a character appears more than once
7326 in @var{array1}, only the final instance is used. For example, these
7327 two commands are equivalent:
7334 A common use of @command{tr} is to convert lowercase characters to
7335 uppercase. This can be done in many ways. Here are three of them:
7338 tr abcdefghijklmnopqrstuvwxyz ABCDEFGHIJKLMNOPQRSTUVWXYZ
7340 tr '[:lower:]' '[:upper:]'
7344 However, ranges like @code{a-z} are not portable outside the C locale.
7346 When @command{tr} is performing translation, @var{array1} and @var{array2}
7347 typically have the same length. If @var{array1} is shorter than
7348 @var{array2}, the extra characters at the end of @var{array2} are ignored.
7350 On the other hand, making @var{array1} longer than @var{array2} is not
7351 portable; POSIX says that the result is undefined. In this situation,
7352 BSD @command{tr} pads @var{array2} to the length of @var{array1} by repeating
7353 the last character of @var{array2} as many times as necessary. System V
7354 @command{tr} truncates @var{array1} to the length of @var{array2}.
7356 By default, GNU @command{tr} handles this case like BSD @command{tr}.
7357 When the @option{--truncate-set1} (@option{-t}) option is given,
7358 GNU @command{tr} handles this case like the System V @command{tr}
7359 instead. This option is ignored for operations other than translation.
7361 Acting like System V @command{tr} in this case breaks the relatively common
7365 tr -cs A-Za-z0-9 '\012'
7369 because it converts only zero bytes (the first element in the
7370 complement of @var{array1}), rather than all non-alphanumerics, to
7374 By the way, the above idiom is not portable because it uses ranges, and
7375 it assumes that the octal code for newline is 012. Here is a better
7379 tr -cs '[:alnum:]' '[\n*]'
7383 @node Squeezing and deleting
7384 @subsection Squeezing repeats and deleting
7386 @cindex squeezing repeat characters
7387 @cindex deleting characters
7388 @cindex removing characters
7390 When given just the @option{--delete} (@option{-d}) option, @command{tr}
7391 removes any input characters that are in @var{array1}.
7393 When given just the @option{--squeeze-repeats} (@option{-s}) option
7394 and not translating, @command{tr} replaces each input sequence of a
7395 repeated character that is in @var{array1} with a single occurrence of
7398 When given both @option{--delete} and @option{--squeeze-repeats}, @command{tr}
7399 first performs any deletions using @var{array1}, then squeezes repeats
7400 from any remaining characters using @var{array2}.
7402 The @option{--squeeze-repeats} option may also be used when translating,
7403 in which case @command{tr} first performs translation, then squeezes
7404 repeats from any remaining characters using @var{array2}.
7406 Here are some examples to illustrate various combinations of options:
7411 Remove all zero bytes:
7418 Put all words on lines by themselves. This converts all
7419 non-alphanumeric characters to newlines, then squeezes each string
7420 of repeated newlines into a single newline:
7423 tr -cs '[:alnum:]' '[\n*]'
7427 Convert each sequence of repeated newlines to a single newline.
7428 I.e., delete empty lines:
7435 Find doubled occurrences of words in a document.
7436 @c Separate the following two "the"s, so typo checkers don't complain.
7437 For example, people often write ``the @w{}the'' with the repeated words
7438 separated by a newline. The Bourne shell script below works first
7439 by converting each sequence of punctuation and blank characters to a
7440 single newline. That puts each ``word'' on a line by itself.
7441 Next it maps all uppercase characters to lower case, and finally it
7442 runs @command{uniq} with the @option{-d} option to print out only the words
7448 | tr -s '[:punct:][:blank:]' '[\n*]' \
7449 | tr '[:upper:]' '[:lower:]' \
7454 Deleting a small set of characters is usually straightforward. For example,
7455 to remove all @samp{a}s, @samp{x}s, and @samp{M}s you would do this:
7461 However, when @samp{-} is one of those characters, it can be tricky because
7462 @samp{-} has special meanings. Performing the same task as above but also
7463 removing all @samp{-} characters, we might try @code{tr -d -axM}, but
7464 that would fail because @command{tr} would try to interpret @option{-a} as
7465 a command-line option. Alternatively, we could try putting the hyphen
7466 inside the string, @code{tr -d a-xM}, but that wouldn't work either because
7467 it would make @command{tr} interpret @code{a-x} as the range of characters
7468 @samp{a}@dots{}@samp{x} rather than the three.
7469 One way to solve the problem is to put the hyphen at the end of the list
7476 Or you can use @samp{--} to terminate option processing:
7485 @node expand invocation
7486 @section @command{expand}: Convert tabs to spaces
7489 @cindex tabs to spaces, converting
7490 @cindex converting tabs to spaces
7492 @command{expand} writes the contents of each given @var{file}, or standard
7493 input if none are given or for a @var{file} of @samp{-}, to standard
7494 output, with tab characters converted to the appropriate number of
7498 expand [@var{option}]@dots{} [@var{file}]@dots{}
7501 By default, @command{expand} converts all tabs to spaces. It preserves
7502 backspace characters in the output; they decrement the column count for
7503 tab calculations. The default action is equivalent to @option{-t 8} (set
7504 tabs every 8 columns).
7506 The program accepts the following options. Also see @ref{Common options}.
7510 @item -t @var{tab1}[,@var{tab2}]@dots{}
7511 @itemx --tabs=@var{tab1}[,@var{tab2}]@dots{}
7514 @cindex tab stops, setting
7515 If only one tab stop is given, set the tabs @var{tab1} spaces apart
7516 (default is 8). Otherwise, set the tabs at columns @var{tab1},
7517 @var{tab2}, @dots{} (numbered from 0), and replace any tabs beyond the
7518 last tab stop given with single spaces.
7519 @macro gnuExpandTabs
7520 Tab stops can be separated by blanks as well as by commas.
7522 As a GNU extension the last @var{tab} specified can be prefixed
7523 with a @samp{/} to indicate a tab size to use for remaining positions.
7524 For example, @option{--tabs=2,4,/8} will set tab stops at position 2 and 4,
7525 and every multiple of 8 after that.
7527 Also the last @var{tab} specified can be prefixed with a @samp{+} to indicate
7528 a tab size to use for remaining positions, offset from the final explicitly
7530 For example, to ignore the 1 character gutter present in diff output,
7531 one can specify a 1 character offset using @option{--tabs=1,+8},
7532 which will set tab stops at positions 1,9,17,@dots{}
7537 For compatibility, GNU @command{expand} also accepts the obsolete
7538 option syntax, @option{-@var{t1}[,@var{t2}]@dots{}}. New scripts
7539 should use @option{-t @var{t1}[,@var{t2}]@dots{}} instead.
7545 @cindex initial tabs, converting
7546 Only convert initial tabs (those that precede all non-space or non-tab
7547 characters) on each line to spaces.
7554 @node unexpand invocation
7555 @section @command{unexpand}: Convert spaces to tabs
7559 @command{unexpand} writes the contents of each given @var{file}, or
7560 standard input if none are given or for a @var{file} of @samp{-}, to
7561 standard output, converting blanks at the beginning of each line into
7562 as many tab characters as needed. In the default POSIX
7563 locale, a @dfn{blank} is a space or a tab; other locales may specify
7564 additional blank characters. Synopsis:
7567 unexpand [@var{option}]@dots{} [@var{file}]@dots{}
7570 By default, @command{unexpand} converts only initial blanks (those
7571 that precede all non-blank characters) on each line. It
7572 preserves backspace characters in the output; they decrement the column
7573 count for tab calculations. By default, tabs are set at every 8th
7576 The program accepts the following options. Also see @ref{Common options}.
7580 @item -t @var{tab1}[,@var{tab2}]@dots{}
7581 @itemx --tabs=@var{tab1}[,@var{tab2}]@dots{}
7584 If only one tab stop is given, set the tabs @var{tab1} columns apart
7585 instead of the default 8. Otherwise, set the tabs at columns
7586 @var{tab1}, @var{tab2}, @dots{} (numbered from 0), and leave blanks
7587 beyond the tab stops given unchanged.
7590 This option implies the @option{-a} option.
7592 For compatibility, GNU @command{unexpand} supports the obsolete option syntax,
7593 @option{-@var{tab1}[,@var{tab2}]@dots{}}, where tab stops must be
7594 separated by commas. (Unlike @option{-t}, this obsolete option does
7595 not imply @option{-a}.) New scripts should use @option{--first-only -t
7596 @var{tab1}[,@var{tab2}]@dots{}} instead.
7602 Also convert all sequences of two or more blanks just before a tab stop,
7603 even if they occur after non-blank characters in a line.
7610 @node Directory listing
7611 @chapter Directory listing
7613 This chapter describes the @command{ls} command and its variants @command{dir}
7614 and @command{vdir}, which list information about files.
7617 * ls invocation:: List directory contents.
7618 * dir invocation:: Briefly ls.
7619 * vdir invocation:: Verbosely ls.
7620 * dircolors invocation:: Color setup for ls, etc.
7625 @section @command{ls}: List directory contents
7628 @cindex directory listing
7630 The @command{ls} program lists information about files (of any type,
7631 including directories). Options and file arguments can be intermixed
7632 arbitrarily, as usual. Later options override earlier options that
7635 For non-option command-line arguments that are directories, by default
7636 @command{ls} lists the contents of directories, not recursively, and
7637 omitting files with names beginning with @samp{.}. For other non-option
7638 arguments, by default @command{ls} lists just the file name. If no
7639 non-option argument is specified, @command{ls} operates on the current
7640 directory, acting as if it had been invoked with a single argument of @samp{.}.
7643 By default, @command{ls} lists each directory's contents alphabetically,
7644 according to the locale
7645 settings in effect.@footnote{If you use a non-POSIX
7646 locale (e.g., by setting @env{LC_ALL} to @samp{en_US}), then @command{ls} may
7647 produce output that is sorted differently than you're accustomed to.
7648 In that case, set the @env{LC_ALL} environment variable to @samp{C}.}
7649 If standard output is
7650 a terminal, the output is in columns (sorted vertically) and control
7651 characters are output as question marks; otherwise, the output is listed
7652 one per line and control characters are output as-is.
7654 Because @command{ls} is such a fundamental program, it has accumulated many
7655 options over the years. They are described in the subsections below;
7656 within each section, options are listed alphabetically (ignoring case).
7657 The division of options into the subsections is not absolute, since some
7658 options affect more than one aspect of @command{ls}'s operation.
7660 @cindex exit status of @command{ls}
7665 1 minor problems (e.g., failure to access a file or directory not
7666 specified as a command line argument. This happens when listing a
7667 directory in which entries are actively being removed or renamed.)
7668 2 serious trouble (e.g., memory exhausted, invalid option, failure
7669 to access a file or directory specified as a command line argument
7670 or a directory loop)
7673 Also see @ref{Common options}.
7676 * Which files are listed::
7677 * What information is listed::
7678 * Sorting the output::
7679 * General output formatting::
7680 * Formatting file timestamps::
7681 * Formatting the file names::
7685 @node Which files are listed
7686 @subsection Which files are listed
7688 These options determine which files @command{ls} lists information for.
7689 By default, @command{ls} lists files and the contents of any
7690 directories on the command line, except that in directories it ignores
7691 files whose names start with @samp{.}.
7699 In directories, do not ignore file names that start with @samp{.}.
7704 @opindex --almost-all
7705 In directories, do not ignore all file names that start with @samp{.};
7706 ignore only @file{.} and @file{..}. The @option{--all} (@option{-a})
7707 option overrides this option.
7710 @itemx --ignore-backups
7712 @opindex --ignore-backups
7713 @cindex backup files, ignoring
7714 In directories, ignore files that end with @samp{~}. This option is
7715 equivalent to @samp{--ignore='*~' --ignore='.*~'}.
7720 @opindex --directory
7721 List just the names of directories, as with other types of files, rather
7722 than listing their contents.
7723 @c The following sentence is the same as the one for -F.
7724 Do not follow symbolic links listed on the
7725 command line unless the @option{--dereference-command-line} (@option{-H}),
7726 @option{--dereference} (@option{-L}), or
7727 @option{--dereference-command-line-symlink-to-dir} options are specified.
7730 @itemx --dereference-command-line
7732 @opindex --dereference-command-line
7733 @cindex symbolic links, dereferencing
7734 If a command line argument specifies a symbolic link, show information
7735 for the file the link references rather than for the link itself.
7737 @item --dereference-command-line-symlink-to-dir
7738 @opindex --dereference-command-line-symlink-to-dir
7739 @cindex symbolic links, dereferencing
7740 Do not dereference symbolic links, with one exception:
7741 if a command line argument specifies a symbolic link that refers to
7742 a directory, show information for that directory rather than for the
7744 This is the default behavior unless long format is being used
7745 or any of the following options is in effect:
7746 @option{--classify} (@option{-F}),
7747 @option{--directory} (@option{-d}),
7748 @option{--dereference} (@option{-L}), or
7749 @option{--dereference-command-line} (@option{-H})).
7751 @item --hide=PATTERN
7752 @opindex --hide=@var{pattern}
7753 In directories, ignore files whose names match the shell pattern
7754 @var{pattern}, unless the @option{--all} (@option{-a}) or
7755 @option{--almost-all} (@option{-A}) is also given. This
7756 option acts like @option{--ignore=@var{pattern}} except that it has no
7757 effect if @option{--all} (@option{-a}) or @option{--almost-all}
7758 (@option{-A}) is also given.
7760 This option can be useful in shell aliases. For example, if
7761 @command{lx} is an alias for @samp{ls --hide='*~'} and @command{ly} is
7762 an alias for @samp{ls --ignore='*~'}, then the command @samp{lx -A}
7763 lists the file @file{README~} even though @samp{ly -A} would not.
7765 @item -I @var{pattern}
7766 @itemx --ignore=@var{pattern}
7768 @opindex --ignore=@var{pattern}
7769 In directories, ignore files whose names match the shell pattern
7770 (not regular expression) @var{pattern}. As
7771 in the shell, an initial @samp{.} in a file name does not match a
7772 wildcard at the start of @var{pattern}. Sometimes it is useful
7773 to give this option several times. For example,
7776 $ ls --ignore='.??*' --ignore='.[^.]' --ignore='#*'
7779 The first option ignores names of length 3 or more that start with @samp{.},
7780 the second ignores all two-character names that start with @samp{.}
7781 except @samp{..}, and the third ignores names that start with @samp{#}.
7784 @itemx --dereference
7786 @opindex --dereference
7787 @cindex symbolic links, dereferencing
7788 When showing file information for a symbolic link, show information
7789 for the file the link references rather than the link itself.
7790 However, even with this option, @command{ls} still prints the name
7791 of the link itself, not the name of the file that the link points to.
7796 @opindex --recursive
7797 @cindex recursive directory listing
7798 @cindex directory listing, recursive
7799 List the contents of all directories recursively.
7804 @node What information is listed
7805 @subsection What information is listed
7807 These options affect the information that @command{ls} displays. By
7808 default, only file names are shown.
7814 @cindex hurd, author, printing
7815 In long format, list each file's author.
7816 In GNU/Hurd, file authors can differ from their owners, but in other
7817 operating systems the two are the same.
7823 @cindex dired Emacs mode support
7824 Print an additional line after the main output:
7827 //DIRED// @var{beg1} @var{end1} @var{beg2} @var{end2} @dots{}
7831 The @var{begn} and @var{endn} are unsigned integers that record the
7832 byte position of the beginning and end of each file name in the output.
7833 This makes it easy for Emacs to find the names, even when they contain
7834 unusual characters such as space or newline, without fancy searching.
7836 If directories are being listed recursively via
7837 @option{--recursive} (@option{-R}), output a similar
7838 line with offsets for each subdirectory name:
7841 //SUBDIRED// @var{beg1} @var{end1} @dots{}
7844 Finally, output a line of the form:
7847 //DIRED-OPTIONS// --quoting-style=@var{word}
7851 where @var{word} is the quoting style (@pxref{Formatting the file names}).
7853 Here is an actual example:
7856 $ mkdir -p a/sub/deeper a/sub2
7858 $ touch a/sub/deeper/file
7859 $ ls -gloRF --dired a
7862 -rw-r--r-- 1 0 Jun 10 12:27 f1
7863 -rw-r--r-- 1 0 Jun 10 12:27 f2
7864 drwxr-xr-x 3 4096 Jun 10 12:27 sub/
7865 drwxr-xr-x 2 4096 Jun 10 12:27 sub2/
7869 drwxr-xr-x 2 4096 Jun 10 12:27 deeper/
7873 -rw-r--r-- 1 0 Jun 10 12:27 file
7877 //DIRED// 48 50 84 86 120 123 158 162 217 223 282 286
7878 //SUBDIRED// 2 3 167 172 228 240 290 296
7879 //DIRED-OPTIONS// --quoting-style=literal
7882 The pairs of offsets on the @samp{//DIRED//} line above delimit
7883 these names: @file{f1}, @file{f2}, @file{sub}, @file{sub2}, @file{deeper},
7885 The offsets on the @samp{//SUBDIRED//} line delimit the following
7886 directory names: @file{a}, @file{a/sub}, @file{a/sub/deeper}, @file{a/sub2}.
7888 Here is an example of how to extract the fifth entry name, @samp{deeper},
7889 corresponding to the pair of offsets, 222 and 228:
7892 $ ls -gloRF --dired a > out
7893 $ dd bs=1 skip=222 count=6 < out 2>/dev/null; echo
7897 Although the listing above includes a trailing slash
7898 for the @samp{deeper} entry, the offsets select the name without
7899 the trailing slash. However, if you invoke @command{ls} with @option{--dired}
7900 (@option{-D}) along with an option like
7901 @option{--escape} (@option{-b}) and operate
7902 on a file whose name contains special characters, the backslash
7907 $ ls -blog --dired 'a b'
7908 -rw-r--r-- 1 0 Jun 10 12:28 a\ b
7910 //DIRED-OPTIONS// --quoting-style=escape
7913 If you use a quoting style like @option{--quoting-style=c} (@option{-Q})
7914 that adds quote marks, then the offsets include the quote marks.
7915 So beware that the user may select the quoting style via the environment
7916 variable @env{QUOTING_STYLE}@. Hence, applications using @option{--dired}
7917 should either specify an explicit @option{--quoting-style=literal}
7918 (@option{-N}) option on the command line, or else be
7919 prepared to parse the escaped names.
7921 The @option{--dired} (@option{-D}) option implies long format output
7922 with hyperlinks disabled, and takes precedence over previously specified
7923 output formats or hyperlink mode.
7926 @opindex --full-time
7927 Produce long format, and list times in full. It is
7928 equivalent to using @option{--format=long} (@option{-l}) with
7929 @option{--time-style=full-iso} (@pxref{Formatting file timestamps}).
7933 Produce long format, but omit owner information.
7939 Inhibit display of group information in long format.
7940 (This is the default in some non-GNU versions of @command{ls}, so we
7941 provide this option for compatibility.)
7949 @cindex inode number, printing
7950 Print the inode number (also called the file serial number and index
7951 number) of each file to the left of the file name. (This number
7952 uniquely identifies each file within a particular file system.)
7955 @itemx --format=long
7956 @itemx --format=verbose
7959 @opindex long ls @r{format}
7960 @opindex verbose ls @r{format}
7961 Produce long format.
7962 In addition to the name of each file, print the file type, file mode bits,
7963 number of hard links, owner name, group name, size, and
7964 timestamp (@pxref{Formatting file timestamps}), normally
7965 the modification timestamp (the mtime, @pxref{File timestamps}).
7966 If the owner or group name cannot be determined, print
7967 the owner or group ID instead, right-justified as a cue
7968 that it is a number rather than a textual name.
7969 Print question marks for other information that
7970 cannot be determined.
7972 For block special files and character special files, the size field is
7973 replaced by the corresponding device major and minor numbers as two decimal
7974 numbers separated by a comma and at least one space.
7976 Normally the size is printed as a byte count without punctuation, but
7977 this can be overridden (@pxref{Block size}).
7978 For example, @option{--human-readable} (@option{-h})
7979 prints an abbreviated, human-readable count, and
7980 @samp{--block-size="'1"} prints a byte count with the thousands
7981 separator of the current locale.
7983 For each directory that is listed, preface the files with a line
7984 @samp{total @var{blocks}}, where @var{blocks} is the file system allocation
7985 for all files in that directory. The block size currently defaults to 1024
7986 bytes, but this can be overridden (@pxref{Block size}).
7987 The @var{blocks} computed counts each hard link separately;
7988 this is arguably a deficiency.
7990 The file type is one of the following characters:
7992 @c The commented-out entries are ones we're not sure about.
8000 character special file
8002 high performance (``contiguous data'') file
8008 @c semaphore, if this is a distinct file type
8012 @c multiplexed file (7th edition Unix; obsolete)
8014 off-line (``migrated'') file (Cray DMF)
8016 network special file (HP-UX)
8022 @c message queue, if this is a distinct file type
8026 @c shared memory object, if this is a distinct file type
8028 @c typed memory object, if this is a distinct file type
8030 @c whiteout (4.4BSD; not implemented)
8032 some other file type
8035 @cindex permissions, output by @command{ls}
8036 The file mode bits listed are similar to symbolic mode specifications
8037 (@pxref{Symbolic Modes}). But @command{ls} combines multiple bits into the
8038 third character of each set of permissions as follows:
8042 If the set-user-ID or set-group-ID bit and the corresponding executable bit
8046 If the set-user-ID or set-group-ID bit is set but the corresponding
8047 executable bit is not set.
8050 If the restricted deletion flag or sticky bit, and the
8051 other-executable bit, are both set. The restricted deletion flag is
8052 another name for the sticky bit. @xref{Mode Structure}.
8055 If the restricted deletion flag or sticky bit is set but the
8056 other-executable bit is not set.
8059 If the executable bit is set and none of the above apply.
8065 Following the file mode bits is a single character that specifies
8066 whether an alternate access method such as an access control list
8067 applies to the file. When the character following the file mode bits is a
8068 space, there is no alternate access method. When it is a printing
8069 character, then there is such a method.
8071 GNU @command{ls} uses a @samp{.} character to indicate a file
8072 with a security context, but no other alternate access method.
8074 A file with any other combination of alternate access methods
8075 is marked with a @samp{+} character.
8078 @itemx --numeric-uid-gid
8080 @opindex --numeric-uid-gid
8081 @cindex numeric uid and gid
8082 @cindex numeric user and group IDs
8083 Produce long format, but
8084 display right-justified numeric user and group IDs
8085 instead of left-justified owner and group names.
8089 Produce long format, but omit group information.
8090 It is equivalent to using @option{--format=long} (@option{-l})
8091 with @option{--no-group} (@option{-G}).
8097 @cindex file system allocation
8098 @cindex size of files, reporting
8099 Print the file system allocation of each file to the left of the file name.
8100 This is the amount of file system space used by the file, which is usually a
8101 bit more than the file's size, but it can be less if the file has holes.
8103 Normally the allocation is printed in units of
8104 1024 bytes, but this can be overridden (@pxref{Block size}).
8106 @cindex NFS mounts from BSD to HP-UX
8107 For files that are NFS-mounted from an HP-UX system to a BSD system,
8108 this option reports sizes that are half the correct values. On HP-UX
8109 systems, it reports sizes that are twice the correct values for files
8110 that are NFS-mounted from BSD systems. This is due to a flaw in HP-UX;
8111 it also affects the HP-UX @command{ls} program.
8120 @cindex security context
8121 Display the SELinux security context or @samp{?} if none is found.
8122 In long format, print the security context to the left of the size column.
8127 @node Sorting the output
8128 @subsection Sorting the output
8130 @cindex sorting @command{ls} output
8132 These options change the order in which @command{ls} outputs
8133 information for the files in a directory.
8134 (Command-line operands are always processed left to right.)
8135 By default, files are sorted alphabetically by name, using the
8136 character collating sequence specified by the @env{LC_COLLATE} locale.
8142 @itemx --time=status
8145 @opindex ctime@r{, printing or sorting by}
8146 @opindex status time@r{, printing or sorting by}
8147 @opindex use time@r{, printing or sorting files by}
8149 print the status change timestamp (the ctime) instead of the mtime.
8150 When sorting by time or when not using long format,
8151 sort according to the ctime. @xref{File timestamps}.
8155 @cindex unsorted directory listing
8156 @cindex directory order, listing by
8157 Do not sort, and list all files.
8158 This is like @option{--sort=none} (@option{-U}) combined
8159 with @option{--all} (@option{-a}).
8161 @item --group-directories-first
8162 @opindex --group-directories-first
8163 When listing a directory's files,
8164 group all subdirectories before non-directories
8165 and then sort the subdirectories and the non-directories separately.
8166 That is, this option specifies a primary sort key,
8167 and the other sorting options specify a secondary key.
8168 However, any use of @option{--sort=none}
8169 (@option{-U}) disables this option altogether.
8175 @cindex reverse sorting
8176 Reverse whatever the sorting method is -- e.g., list files in reverse
8177 alphabetical order, youngest first, smallest first, or whatever.
8178 This option has no effect when @option{--sort=none} (@option{-U})
8185 @opindex size of files@r{, sorting files by}
8186 Sort by file size, largest first.
8192 @opindex modification timestamp@r{, sorting files by}
8193 Sort by modification timestamp (mtime) by default, newest first.
8194 The timestamp to order by can be changed with the @option{--time} option.
8195 @xref{File timestamps}.
8199 @itemx --time=access
8203 @opindex use time@r{, printing or sorting files by}
8204 @opindex atime@r{, printing or sorting files by}
8205 @opindex access timestamp@r{, printing or sorting files by}
8206 In long format, print the last access timestamp (the atime).
8207 When sorting by time or when not using long format,
8208 sort according to the atime.
8209 @xref{File timestamps}.
8212 @itemx --time=modification
8214 @opindex data modification time@r{, printing or sorting files by}
8215 @opindex mtime@r{, printing or sorting files by}
8216 This is the default timestamp display and sorting mode.
8217 In long format, print the last data modification timestamp (the mtime).
8218 When sorting by time or when not using long format,
8219 sort according to the mtime.
8220 @xref{File timestamps}.
8223 @itemx --time=creation
8225 @opindex birth time@r{, printing or sorting files by}
8226 @opindex creation timestamp@r{, printing or sorting files by}
8227 In long format, print the file creation timestamp if available,
8228 falling back to the file modification timestamp (mtime) if not.
8229 When sorting by time or when not using long format,
8230 sort according to the birth time.
8231 @xref{File timestamps}.
8237 @opindex none@r{, sorting option for @command{ls}}
8238 Do not sort; list the files in whatever order they are
8239 stored in the directory. This can be useful when listing large
8240 directories, where sorting can take some time.
8242 Unlike @option{-f}, this option does not imply @option{--all}
8246 @itemx --sort=version
8249 @opindex version@r{, sorting option for @command{ls}}
8250 Sort by version name and number, lowest first. It behaves like a default
8251 sort, except that each sequence of decimal digits is treated numerically
8252 as an index/version number. @xref{Version sort ordering}.
8256 @opindex width@r{, sorting option for @command{ls}}
8257 Sort by printed width of file names.
8258 This can be useful with the @option{--format=vertical} (@option{-C})
8259 output format, to most densely display the listed files.
8262 @itemx --sort=extension
8265 @opindex extension@r{, sorting files by}
8266 Sort directory contents alphabetically by file extension (characters
8267 after the last @samp{.}); files with no extension are sorted first.
8272 @node General output formatting
8273 @subsection General output formatting
8275 These options affect the appearance of the overall output.
8279 @item --format=single-column
8281 @opindex single-column @r{output of files}
8282 List one file name per line, with no other information.
8283 This is the default for @command{ls} when standard
8284 output is not a terminal. See also the @option{--escape} (@option{-b}),
8285 @option{--hide-control-chars} (@option{-q}), and @option{--zero} options
8286 to disambiguate output of file names containing newline characters.
8290 List one file per line. This is like @option{--format=single-column}
8291 except that it has no effect if long format is also in effect.
8294 @itemx --format=vertical
8297 @opindex vertical @r{sorted files in columns}
8298 List files in columns, sorted vertically, with no other information.
8299 This is the default for @command{ls} if standard output is a terminal.
8300 It is always the default for the @command{dir} program.
8301 GNU @command{ls} uses variable width columns to display as many files as
8302 possible in the fewest lines.
8304 @item --color [=@var{when}]
8306 @cindex color, distinguishing file types with
8307 Specify whether to use color for distinguishing file types; @var{when}
8308 may be omitted, or one of:
8311 @vindex none @r{color option}
8312 - Do not use color at all. This is the default.
8314 @vindex auto @r{color option}
8315 @cindex terminal, using color iff
8316 - Only use color if standard output is a terminal.
8318 @vindex always @r{color option}
8321 Specifying @option{--color} and no @var{when} is equivalent to
8322 @option{--color=always}.
8323 If piping a colored listing through a pager like @command{less},
8324 use the pager's @option{-R} option to pass the color codes to the terminal.
8327 @vindex SHELL @r{environment variable, and color}
8328 Using the @option{--color} option may incur a noticeable
8329 performance penalty when run in a large directory,
8330 because the default settings require that @command{ls} @code{stat} every
8331 single file it lists.
8332 However, if you would like most of the file-type coloring
8333 but can live without the other coloring options (e.g.,
8334 executable, orphan, sticky, other-writable, capability), use
8335 @command{dircolors} to set the @env{LS_COLORS} environment variable like this,
8337 eval $(dircolors -p | perl -pe \
8338 's/^((CAP|S[ET]|O[TR]|M|E)\w+).*/$1 00/' | dircolors -)
8340 and on a @code{dirent.d_type}-capable file system, @command{ls}
8341 will perform only one @code{stat} call per command line argument.
8344 @itemx --classify [=@var{when}]
8345 @itemx --indicator-style=classify
8348 @opindex --indicator-style
8349 @cindex file type and executables, marking
8350 @cindex executables and file type, marking
8351 Append a character to each file name indicating the file type. Also,
8352 for regular files that are executable, append @samp{*}. The file type
8353 indicators are @samp{/} for directories, @samp{@@} for symbolic links,
8354 @samp{|} for FIFOs, @samp{=} for sockets, @samp{>} for doors,
8355 and nothing for regular files.
8356 @var{when} may be omitted, or one of:
8359 @vindex none @r{classify option}
8360 - Do not classify. This is the default.
8362 @vindex auto @r{classify option}
8363 @cindex terminal, using classify iff
8364 - Only classify if standard output is a terminal.
8366 @vindex always @r{classify option}
8369 Specifying @option{--classify} and no @var{when} is equivalent to
8370 @option{--classify=always}.
8371 @c The following sentence is the same as the one for -d.
8372 Do not follow symbolic links listed on the
8373 command line unless the @option{--dereference-command-line} (@option{-H}),
8374 @option{--dereference} (@option{-L}), or
8375 @option{--dereference-command-line-symlink-to-dir} options are specified.
8378 @itemx --indicator-style=file-type
8379 @opindex --file-type
8380 @opindex --indicator-style
8381 @cindex file type, marking
8382 Append a character to each file name indicating the file type. This is
8383 like @option{--classify} (@option{-F}, except that executables are not marked.
8385 @item --hyperlink [=@var{when}]
8386 @opindex --hyperlink
8387 @cindex hyperlink, linking to files
8388 Output codes recognized by some terminals to link
8389 to files using the @samp{file://} URI format.
8390 @var{when} may be omitted, or one of:
8393 @vindex none @r{hyperlink option}
8394 - Do not use hyperlinks at all. This is the default.
8396 @vindex auto @r{hyperlink option}
8397 @cindex terminal, using hyperlink iff
8398 - Only use hyperlinks if standard output is a terminal.
8400 @vindex always @r{hyperlink option}
8401 - Always use hyperlinks.
8403 Specifying @option{--hyperlink} and no @var{when} is equivalent to
8404 @option{--hyperlink=always}.
8406 @item --indicator-style=@var{word}
8407 @opindex --indicator-style
8408 Append a character indicator with style @var{word} to file names,
8413 Do not append any character indicator; this is the default.
8415 Append @samp{/} for directories. This is the same as the @option{-p}
8418 Append @samp{/} for directories, @samp{@@} for symbolic links, @samp{|}
8419 for FIFOs, @samp{=} for sockets, and nothing for regular files. This is
8420 the same as the @option{--file-type} option.
8422 Append @samp{*} for executable regular files, otherwise behave as for
8423 @samp{file-type}. This is the same as the @option{--classify}
8424 (@option{-F}) option.
8430 @opindex --kibibytes
8431 Set the default block size to its normal value of 1024 bytes,
8432 overriding any contrary specification in environment variables
8433 (@pxref{Block size}). If @option{--block-size},
8434 @option{--human-readable} (@option{-h}), or @option{--si} options are used,
8435 they take precedence even if @option{--kibibytes} (@option{-k}) is placed after
8437 The @option{--kibibytes} (@option{-k}) option affects the
8438 per-directory block count written in long format,
8439 and the file system allocation written by the @option{--size} (@option{-s})
8440 option. It does not affect the file size in bytes that is written in
8444 @itemx --format=commas
8447 @opindex commas@r{, outputting between files}
8448 List files horizontally, with as many as will fit on each line,
8449 separated by @samp{, } (a comma and a space),
8450 and with no other information.
8453 @itemx --indicator-style=slash
8455 @opindex --indicator-style
8456 @cindex file type, marking
8457 Append a @samp{/} to directory names.
8460 @itemx --format=across
8461 @itemx --format=horizontal
8464 @opindex across@r{, listing files}
8465 @opindex horizontal@r{, listing files}
8466 List the files in columns, sorted horizontally.
8469 @itemx --tabsize=@var{cols}
8472 Assume that each tab stop is @var{cols} columns wide. The default is 8.
8473 @command{ls} uses tabs where possible in the output, for efficiency. If
8474 @var{cols} is zero, do not use tabs at all.
8476 Some terminal emulators might not properly align columns to the right of a
8477 TAB following a non-ASCII byte. You can avoid that issue by using the
8478 @option{-T0} option or put @code{TABSIZE=0} in your environment, to tell
8479 @command{ls} to align using spaces, not tabs.
8481 If you set a terminal's hardware tabs to anything other than the default,
8482 you should also use a @command{--tabsize} option or @env{TABSIZE}
8483 environment variable either to match the hardware tabs, or to disable
8484 the use of hardware tabs. Otherwise, the output of @command{ls} may
8485 not line up. For example, if you run the shell command @samp{tabs -4}
8486 to set hardware tabs to every four columns, you should also run
8487 @samp{export TABSIZE=4} or @samp{export TABSIZE=0}, or use the
8488 corresponding @option{--tabsize} options.
8491 @itemx --width=@var{cols}
8495 Assume the screen is @var{cols} columns wide. The default is taken
8496 from the terminal settings if possible; otherwise the environment
8497 variable @env{COLUMNS} is used if it is set; otherwise the default
8498 is 80. With a @var{cols} value of @samp{0}, there is no limit on
8499 the length of the output line, and that single output line will
8500 be delimited with spaces, not tabs.
8505 This option is incompatible with the @option{--dired} (@option{-D}) option.
8506 This option also implies the options @option{--show-control-chars},
8507 @option{-1}, @option{--color=none}, and
8508 @option{--quoting-style=literal} (@option{-N}).
8513 @node Formatting file timestamps
8514 @subsection Formatting file timestamps
8516 By default, file timestamps are listed in abbreviated form, using
8517 a date like @samp{Mar 30@ @ 2020} for non-recent timestamps, and a
8518 date-without-year and time like @samp{Mar 30 23:45} for recent timestamps.
8519 This format can change depending on the current locale as detailed below.
8522 A timestamp is considered to be @dfn{recent} if it is less than six
8523 months old, and is not dated in the future. If a timestamp dated
8524 today is not listed in recent form, the timestamp is in the future,
8525 which means you probably have clock skew problems which may break
8526 programs like @command{make} that rely on file timestamps.
8527 @xref{File timestamps}.
8530 Timestamps are listed according to the time zone rules specified by
8531 the @env{TZ} environment variable, or by the system default rules if
8532 @env{TZ} is not set. @xref{TZ Variable,, Specifying the Time Zone
8533 with @env{TZ}, libc, The GNU C Library Reference Manual}.
8535 The following option changes how file timestamps are printed.
8538 @item --time-style=@var{style}
8539 @opindex --time-style
8541 List timestamps in style @var{style}. The @var{style} should
8542 be one of the following:
8547 List timestamps using @var{format}, where @var{format} is interpreted
8548 like the format argument of @command{date} (@pxref{date invocation}).
8549 For example, @option{--time-style="+%Y-%m-%d %H:%M:%S"} causes
8550 @command{ls} to list timestamps like @samp{2020-03-30 23:45:56}. As
8551 with @command{date}, @var{format}'s interpretation is affected by the
8552 @env{LC_TIME} locale category.
8554 If @var{format} contains two format strings separated by a newline,
8555 the former is used for non-recent files and the latter for recent
8556 files; if you want output columns to line up, you may need to insert
8557 spaces in one of the two formats.
8560 List timestamps in full using ISO 8601-like date, time, and time zone
8561 components with nanosecond precision, e.g., @samp{2020-07-21
8562 23:45:56.477817180 -0400}. This style is equivalent to
8563 @samp{+%Y-%m-%d %H:%M:%S.%N %z}.
8565 This is useful because the time output includes all the information that
8566 is available from the operating system. For example, this can help
8567 explain @command{make}'s behavior, since GNU @command{make}
8568 uses the full timestamp to determine whether a file is out of date.
8571 List ISO 8601 date and time components with minute precision, e.g.,
8572 @samp{2020-03-30 23:45}. These timestamps are shorter than
8573 @samp{full-iso} timestamps, and are usually good enough for everyday
8574 work. This style is equivalent to @samp{+%Y-%m-%d %H:%M}.
8577 List ISO 8601 dates for non-recent timestamps (e.g.,
8578 @samp{2020-03-30@ }), and ISO 8601-like month, day, hour, and
8579 minute for recent timestamps (e.g., @samp{03-30 23:45}). These
8580 timestamps are uglier than @samp{long-iso} timestamps, but they carry
8581 nearly the same information in a smaller space and their brevity helps
8582 @command{ls} output fit within traditional 80-column output lines.
8583 The following two @command{ls} invocations are equivalent:
8588 ls -l --time-style="+%Y-%m-%d $newline%m-%d %H:%M"
8589 ls -l --time-style="iso"
8594 List timestamps in a locale-dependent form. For example, a French
8595 locale might list non-recent timestamps like @samp{30 mars@ @ @ 2020}
8596 and recent timestamps like @samp{30 mars@ @ 23:45}. Locale-dependent
8597 timestamps typically consume more space than @samp{iso} timestamps and
8598 are harder for programs to parse because locale conventions vary so
8599 widely, but they are easier for many people to read.
8601 The @env{LC_TIME} locale category specifies the timestamp format. The
8602 default POSIX locale uses timestamps like @samp{Mar 30@
8603 @ 2020} and @samp{Mar 30 23:45}; in this locale, the following two
8604 @command{ls} invocations are equivalent:
8609 ls -l --time-style="+%b %e %Y$newline%b %e %H:%M"
8610 ls -l --time-style="locale"
8613 Other locales behave differently. For example, in a German locale,
8614 @option{--time-style="locale"} might be equivalent to
8615 @option{--time-style="+%e. %b %Y $newline%e. %b %H:%M"}
8616 and might generate timestamps like @samp{30. M@"ar 2020@ } and
8617 @samp{30. M@"ar 23:45}.
8619 @item posix-@var{style}
8621 List POSIX-locale timestamps if the @env{LC_TIME} locale
8622 category is POSIX, @var{style} timestamps otherwise. For
8623 example, the @samp{posix-long-iso} style lists
8624 timestamps like @samp{Mar 30@ @ 2020} and @samp{Mar 30 23:45} when in
8625 the POSIX locale, and like @samp{2020-03-30 23:45} otherwise.
8630 You can specify the default value of the @option{--time-style} option
8631 with the environment variable @env{TIME_STYLE}; if @env{TIME_STYLE} is not set
8632 the default style is @samp{locale}. GNU Emacs 21.3 and
8633 later use the @option{--dired} option and therefore can parse any date
8634 format, but if you are using Emacs 21.1 or 21.2 and specify a
8635 non-POSIX locale you may need to set
8636 @samp{TIME_STYLE="posix-long-iso"}.
8638 To avoid certain denial-of-service attacks, timestamps that would be
8639 longer than 1000 bytes may be treated as errors.
8642 @node Formatting the file names
8643 @subsection Formatting the file names
8645 These options change how file names themselves are printed.
8651 @itemx --quoting-style=escape
8654 @opindex --quoting-style
8655 @cindex backslash sequences for file names
8656 Quote nongraphic characters in file names using alphabetic and octal
8657 backslash sequences like those used in C.
8661 @itemx --quoting-style=literal
8664 @opindex --quoting-style
8665 Do not quote file names. However, with @command{ls} nongraphic
8666 characters are still printed as question marks if the output is a
8667 terminal and you do not specify the @option{--show-control-chars}
8671 @itemx --hide-control-chars
8673 @opindex --hide-control-chars
8674 Print question marks instead of nongraphic characters in file names.
8675 This is the default if the output is a terminal and the program is
8680 @itemx --quoting-style=c
8682 @opindex --quote-name
8683 @opindex --quoting-style
8684 Enclose file names in double quotes and quote nongraphic characters as
8687 @item --quoting-style=@var{word}
8688 @opindex --quoting-style
8689 @cindex quoting style
8690 Use style @var{word} to quote file names and other strings that may
8691 contain arbitrary characters. The @var{word} should
8692 be one of the following:
8694 @macro quotingStyles
8697 Output strings as-is; this is the same as the @option{--literal} (@option{-N})
8700 Quote strings for the shell if they contain shell metacharacters or would
8701 cause ambiguous output.
8702 The quoting is suitable for POSIX-compatible shells like
8703 @command{bash}, but it does not always work for incompatible shells
8706 Quote strings for the shell, even if they would normally not require quoting.
8708 Like @samp{shell}, but also quoting non-printable characters using the POSIX
8709 proposed @samp{$''} syntax suitable for most shells.
8710 @item shell-escape-always
8711 Like @samp{shell-escape}, but quote strings even if they would
8712 normally not require quoting.
8714 Quote strings as for C character string literals, including the
8715 surrounding double-quote characters; this is the same as the
8716 @option{--quote-name} (@option{-Q}) option.
8718 Quote strings as for C character string literals, except omit the
8719 surrounding double-quote if no escaping is required.
8721 Quote strings as for C character string literals, except omit the
8722 surrounding double-quote
8723 characters; this is the same as the @option{--escape} (@option{-b}) option.
8725 Quote strings as for C character string literals, except use
8726 surrounding quotation marks appropriate for the
8729 @c Use @t instead of @samp to avoid duplicate quoting in some output styles.
8730 Quote strings as for C character string literals, except use
8731 surrounding quotation marks appropriate for the locale, and quote
8732 @t{'like this'} instead of @t{"like
8733 this"} in the default C locale. This looks nicer on many displays.
8738 You can specify the default value of the @option{--quoting-style} option
8739 with the environment variable @env{QUOTING_STYLE}@. If that environment
8740 variable is not set, the default value is @samp{shell-escape} when the
8741 output is a terminal, and @samp{literal} otherwise.
8743 @item --show-control-chars
8744 @opindex --show-control-chars
8745 Print nongraphic characters as-is in file names.
8746 This is the default unless the output is a terminal and the program is
8752 @node dir invocation
8753 @section @command{dir}: Briefly list directory contents
8756 @cindex directory listing, brief
8758 @command{dir} is equivalent to @code{ls -C
8759 -b}; that is, by default files are listed in columns, sorted vertically,
8760 and special characters are represented by backslash escape sequences.
8762 @xref{ls invocation, @command{ls}}.
8765 @node vdir invocation
8766 @section @command{vdir}: Verbosely list directory contents
8769 @cindex directory listing, verbose
8771 @command{vdir} is equivalent to @code{ls -l
8772 -b}; that is, by default files are listed in long format and special
8773 characters are represented by backslash escape sequences.
8775 @xref{ls invocation, @command{ls}}.
8777 @node dircolors invocation
8778 @section @command{dircolors}: Color setup for @command{ls}
8782 @cindex setup for color
8784 @command{dircolors} outputs a sequence of shell commands to set up the
8785 terminal for color output from @command{ls} (and @command{dir}, etc.).
8789 eval "$(dircolors [@var{option}]@dots{} [@var{file}])"
8792 If @var{file} is specified, @command{dircolors} reads it to determine which
8793 colors to use for which file types and extensions. Otherwise, a
8794 precompiled database is used. For details on the format of these files,
8795 run @samp{dircolors --print-database}.
8797 To make @command{dircolors} read a @file{~/.dircolors} file if it
8798 exists, you can put the following lines in your @file{~/.bashrc} (or
8799 adapt them to your favorite shell):
8803 test -r $d && eval "$(dircolors $d)"
8807 @vindex SHELL @r{environment variable, and color}
8808 The output is a shell command to set the @env{LS_COLORS} environment
8809 variable. You can specify the shell syntax to use on the command line,
8810 or @command{dircolors} will guess it from the value of the @env{SHELL}
8811 environment variable.
8813 The program accepts the following options. Also see @ref{Common options}.
8818 @itemx --bourne-shell
8821 @opindex --bourne-shell
8822 @cindex Bourne shell syntax for color setup
8823 @cindex @command{sh} syntax for color setup
8824 Output Bourne shell commands. This is the default if the @env{SHELL}
8825 environment variable is set and does not end with @samp{csh} or
8834 @cindex C shell syntax for color setup
8835 @cindex @command{csh} syntax for color setup
8836 Output C shell commands. This is the default if @code{SHELL} ends with
8837 @command{csh} or @command{tcsh}.
8840 @itemx --print-database
8842 @opindex --print-database
8843 @cindex color database, printing
8844 @cindex database for color setup, printing
8845 @cindex printing color database
8846 Print the (compiled-in) default color configuration database. This
8847 output is itself a valid configuration file, and is fairly descriptive
8848 of the possibilities.
8850 @item --print-ls-colors
8851 @opindex --print-ls-colors
8852 @cindex printing ls colors
8853 Print the LS_COLORS entries on separate lines,
8854 each colored as per the color they represent.
8861 @node Basic operations
8862 @chapter Basic operations
8864 @cindex manipulating files
8866 This chapter describes the commands for basic file manipulation:
8867 copying, moving (renaming), and deleting (removing).
8870 * cp invocation:: Copy files.
8871 * dd invocation:: Convert and copy a file.
8872 * install invocation:: Copy files and set attributes.
8873 * mv invocation:: Move (rename) files.
8874 * rm invocation:: Remove files or directories.
8875 * shred invocation:: Remove files more securely.
8880 @section @command{cp}: Copy files and directories
8883 @cindex copying files and directories
8884 @cindex files, copying
8885 @cindex directories, copying
8887 @command{cp} copies files (or, optionally, directories). The copy is
8888 completely independent of the original. You can either copy one file to
8889 another, or copy arbitrarily many files to a destination directory.
8893 cp [@var{option}]@dots{} [-T] @var{source} @var{dest}
8894 cp [@var{option}]@dots{} @var{source}@dots{} @var{directory}
8895 cp [@var{option}]@dots{} -t @var{directory} @var{source}@dots{}
8900 If two file names are given, @command{cp} copies the first file to the
8904 If the @option{--target-directory} (@option{-t}) option is given, or
8905 failing that if the last file is a directory and the
8906 @option{--no-target-directory} (@option{-T}) option is not given,
8907 @command{cp} copies each @var{source} file to the specified directory,
8908 using the @var{source}s' names.
8911 Generally, files are written just as they are read. For exceptions,
8912 see the @option{--sparse} option below.
8914 By default, @command{cp} does not copy directories. However, the
8915 @option{-R}, @option{-a}, and @option{-r} options cause @command{cp} to
8916 copy recursively by descending into source directories and copying files
8917 to corresponding destination directories.
8919 When copying from a symbolic link, @command{cp} normally follows the
8920 link only when not copying recursively or when @option{--link}
8921 (@option{-l}) is used. This default can be overridden with the
8922 @option{--archive} (@option{-a}), @option{-d}, @option{--dereference}
8923 (@option{-L}), @option{--no-dereference} (@option{-P}), and
8924 @option{-H} options. If more than one of these options is specified,
8925 the last one silently overrides the others.
8927 When copying to a symbolic link, @command{cp} follows the
8928 link only when it refers to an existing regular file.
8929 However, when copying to a dangling symbolic link, @command{cp}
8930 refuses by default, and fails with a diagnostic, since the operation
8931 is inherently dangerous. This behavior is contrary to historical
8932 practice and to POSIX@.
8933 Set @env{POSIXLY_CORRECT} to make @command{cp} attempt to create
8934 the target of a dangling destination symlink, in spite of the possible risk.
8935 Also, when an option like
8936 @option{--backup} or @option{--link} acts to rename or remove the
8937 destination before copying, @command{cp} renames or removes the
8938 symbolic link rather than the file it points to.
8940 By default, @command{cp} copies the contents of special files only
8941 when not copying recursively. This default can be overridden with the
8942 @option{--copy-contents} option.
8944 @cindex self-backups
8945 @cindex backups, making only
8946 @command{cp} generally refuses to copy a file onto itself, with the
8947 following exception: if @option{--force --backup} is specified with
8948 @var{source} and @var{dest} identical, and referring to a regular file,
8949 @command{cp} will make a backup file, either regular or numbered, as
8950 specified in the usual ways (@pxref{Backup options}). This is useful when
8951 you simply want to make a backup of an existing file before changing it.
8953 The program accepts the following options. Also see @ref{Common options}.
8960 Preserve as much as possible of the structure and attributes of the
8961 original files in the copy (but do not attempt to preserve internal
8962 directory structure; i.e., @samp{ls -U} may list the entries in a copied
8963 directory in a different order).
8964 Try to preserve SELinux security context and extended attributes (xattr),
8965 but ignore any failure to do that and print no corresponding diagnostic.
8966 Equivalent to @option{-dR --preserve=all} with the reduced diagnostics.
8968 @item --attributes-only
8969 @opindex --attributes-only
8970 Copy only the specified attributes of the source file to the destination.
8971 If the destination already exists, do not alter its contents.
8972 See the @option{--preserve} option for controlling which attributes to copy.
8975 @itemx --backup[=@var{method}]
8978 @vindex VERSION_CONTROL
8979 @cindex backups, making
8980 @xref{Backup options}.
8981 Make a backup of each file that would otherwise be overwritten or removed.
8982 As a special case, @command{cp} makes a backup of @var{source} when the force
8983 and backup options are given and @var{source} and @var{dest} are the same
8984 name for an existing, regular file. One useful application of this
8985 combination of options is this tiny Bourne shell script:
8989 # Usage: backup FILE...
8990 # Create a GNU-style backup of each listed FILE.
8993 cp --backup --force --preserve=all -- "$i" "$i" || fail=1
8998 @item --copy-contents
8999 @cindex directories, copying recursively
9000 @cindex copying directories recursively
9001 @cindex recursively copying directories
9002 @cindex non-directories, copying as special files
9003 If copying recursively, copy the contents of any special files (e.g.,
9004 FIFOs and device files) as if they were regular files. This means
9005 trying to read the data in each source file and writing it to the
9006 destination. It is usually a mistake to use this option, as it
9007 normally has undesirable effects on special files like FIFOs and the
9008 ones typically found in the @file{/dev} directory. In most cases,
9009 @code{cp -R --copy-contents} will hang indefinitely trying to read
9010 from FIFOs and special files like @file{/dev/console}, and it will
9011 fill up your destination file system if you use it to copy @file{/dev/zero}.
9012 This option has no effect unless copying recursively, and it does not
9013 affect the copying of symbolic links.
9017 @cindex symbolic links, copying
9018 @cindex hard links, preserving
9019 Copy symbolic links as symbolic links rather than copying the files that
9020 they point to, and preserve hard links between source files in the copies.
9021 Equivalent to @option{--no-dereference --preserve=links}.
9026 @cindex debugging, copying
9027 Print extra information to stdout, explaining how files are copied.
9028 This option implies the @option{--verbose} option.
9036 When copying without this option and an existing destination file cannot
9037 be opened for writing, the copy fails. However, with @option{--force},
9038 when a destination file cannot be opened, @command{cp} then
9039 tries to recreate the file by first removing it. The @option{--force} option
9040 alone will not remove dangling symlinks.
9041 When this option is combined with
9042 @option{--link} (@option{-l}) or @option{--symbolic-link}
9043 (@option{-s}), the destination link is replaced, and unless
9044 @option{--backup} (@option{-b}) is also given there is no brief
9045 moment when the destination does not exist. Also see the
9046 description of @option{--remove-destination}.
9048 This option is independent of the @option{--interactive} or
9049 @option{-i} option: neither cancels the effect of the other.
9051 This option is ignored when the @option{--no-clobber} or @option{-n} option
9056 If a command line argument specifies a symbolic link, then copy the
9057 file it points to rather than the symbolic link itself. However,
9058 copy (preserving its nature) any symbolic link that is encountered
9059 via recursive traversal.
9062 @itemx --interactive
9064 @opindex --interactive
9065 When copying a file other than a directory, prompt whether to
9066 overwrite an existing destination file, and fail if the response
9067 is not affirmative. The @option{-i} option overrides
9068 a previous @option{-n} option.
9074 Make hard links instead of copies of non-directories.
9077 @itemx --dereference
9079 @opindex --dereference
9080 Follow symbolic links when copying from them.
9081 With this option, @command{cp} cannot create a symbolic link.
9082 For example, a symlink (to regular file) in the source tree will be copied to
9083 a regular file in the destination tree.
9088 @opindex --no-clobber
9089 Do not overwrite an existing file; silently skip instead.
9090 This option overrides a previous @option{-i} option.
9091 This option is mutually exclusive with @option{-b} or @option{--backup} option.
9092 This option is deprecated due to having a different exit status from
9093 other platforms. See also the @option{--update} option which will
9094 give more control over how to deal with existing files in the destination,
9095 and over the exit status in particular.
9098 @itemx --no-dereference
9100 @opindex --no-dereference
9101 @cindex symbolic links, copying
9102 Copy symbolic links as symbolic links rather than copying the files that
9103 they point to. This option affects only symbolic links in the source;
9104 symbolic links in the destination are always followed if possible.
9107 @itemx --preserve[=@var{attribute_list}]
9110 @cindex file information, preserving, extended attributes, xattr
9111 Preserve the specified attributes of the original files.
9112 If specified, the @var{attribute_list} must be a comma-separated list
9113 of one or more of the following strings:
9117 @cindex access control lists (ACLs)
9118 Preserve attributes relevant to access permissions,
9119 including file mode bits and (if possible) access control lists (ACLs).
9120 ACL preservation is system-dependent, and ACLs are not necessarily
9121 translated when the source and destination are on file systems with
9122 different ACL formats (e.g., NFSv4 versus POSIX formats).
9125 Preserve the owner and group. On most modern systems,
9126 only users with appropriate privileges may change the owner of a file,
9128 may preserve the group ownership of a file only if they happen to be
9129 a member of the desired group.
9131 Preserve the times of last access and last modification, when possible.
9132 On older systems, it is not possible to preserve these attributes
9133 when the affected file is a symbolic link.
9134 However, many systems now provide the @code{utimensat} function,
9135 which makes it possible even for symbolic links.
9137 Preserve in the destination files
9138 any links between corresponding source files.
9139 With @option{-L} or @option{-H}, this option can convert
9140 symbolic links to hard links. For example,
9142 $ mkdir c; : > a; ln -s a b; cp -aH a b c; ls -i1 c
9147 Although @file{b} is a symlink to regular file @file{a},
9148 the files in the destination directory @file{c/} are hard-linked.
9149 Since @option{-a} implies @option{--no-dereference} it would copy the symlink,
9150 but the later @option{-H} tells @command{cp} to dereference the command line
9151 arguments where it then sees two files with the same inode number.
9152 Then the @option{--preserve=links} option also implied by @option{-a}
9153 will preserve the perceived hard link.
9155 Here is a similar example that exercises @command{cp}'s @option{-L} option:
9157 $ mkdir b c; (cd b; : > a; ln -s a b); cp -aL b c; ls -i1 c/b
9163 Preserve SELinux security context of the file, or fail with full diagnostics.
9165 @cindex access control lists (ACLs)
9166 Preserve extended attributes of the file, or fail with full diagnostics.
9167 If @command{cp} is built without xattr support, ignore this option.
9168 If SELinux context, ACLs or Capabilities are implemented using xattrs,
9169 they are preserved implicitly by this option as well, i.e., even without
9170 specifying @option{--preserve=mode} or @option{--preserve=context}.
9172 Preserve all file attributes.
9173 Equivalent to specifying all of the above, but with the difference
9174 that failure to preserve SELinux security context or extended attributes
9175 does not change @command{cp}'s exit status. In contrast to @option{-a},
9176 all but @samp{Operation not supported} warnings are output.
9179 Using @option{--preserve} with no @var{attribute_list} is equivalent
9180 to @option{--preserve=mode,ownership,timestamps}.
9182 In the absence of this option, the permissions of existing destination
9183 files are unchanged. Each new file is created with the mode of the
9184 corresponding source file minus the set-user-ID, set-group-ID, and
9185 sticky bits as the create mode; the operating system then applies either
9186 the umask or a default ACL, possibly resulting in a more restrictive
9188 @xref{File permissions}.
9190 @item --no-preserve=@var{attribute_list}
9191 @cindex file information, preserving
9192 Do not preserve the specified attributes. The @var{attribute_list}
9193 has the same form as for @option{--preserve}.
9197 @cindex parent directories and @command{cp}
9198 Form the name of each destination file by appending to the target
9199 directory a slash and the specified name of the source file. The last
9200 argument given to @command{cp} must be the name of an existing directory.
9201 For example, the command:
9204 cp --parents a/b/c existing_dir
9208 copies the file @file{a/b/c} to @file{existing_dir/a/b/c}, creating
9209 any missing intermediate directories.
9216 @opindex --recursive
9217 @cindex directories, copying recursively
9218 @cindex copying directories recursively
9219 @cindex recursively copying directories
9220 @cindex non-directories, copying as special files
9221 Copy directories recursively. By default, do not follow symbolic
9222 links in the source unless used together with the @option{--link}
9223 (@option{-l}) option; see the @option{--archive} (@option{-a}), @option{-d},
9224 @option{--dereference} (@option{-L}), @option{--no-dereference}
9225 (@option{-P}), and @option{-H} options. Special files are copied by
9226 creating a destination file of the same type as the source; see the
9227 @option{--copy-contents} option. It is not portable to use
9228 @option{-r} to copy symbolic links or special files. On some
9229 non-GNU systems, @option{-r} implies the equivalent of
9230 @option{-L} and @option{--copy-contents} for historical reasons.
9231 Also, it is not portable to use @option{-R} to copy symbolic links
9232 unless you also specify @option{-P}, as POSIX allows
9233 implementations that dereference symbolic links by default.
9235 @item --reflink[=@var{when}]
9236 @opindex --reflink[=@var{when}]
9239 @cindex copy on write
9240 Perform a lightweight, copy-on-write (COW) copy, if supported by the
9241 file system. Once it has succeeded, beware that the source and destination
9242 files share the same data blocks as long as they remain unmodified.
9243 Thus, if an I/O error affects data blocks of one of the files,
9244 the other suffers the same fate.
9246 The @var{when} value can be one of the following:
9250 If the copy-on-write operation is not supported
9251 then report the failure for each file and exit with a failure status.
9252 Plain @option{--reflink} is equivalent to @option{--reflink=always}.
9255 If the copy-on-write operation is not supported then fall back
9256 to the standard copy behavior.
9257 This is the default if no @option{--reflink} option is given.
9260 Disable copy-on-write operation and use the standard copy behavior.
9263 This option is overridden by the @option{--link}, @option{--symbolic-link}
9264 and @option{--attributes-only} options, thus allowing it to be used
9265 to configure the default data copying behavior for @command{cp}.
9267 @item --remove-destination
9268 @opindex --remove-destination
9269 Remove each existing destination file before attempting to open it
9270 (contrast with @option{-f} above).
9272 @item --sparse=@var{when}
9273 @opindex --sparse=@var{when}
9274 @cindex sparse files, copying
9275 @cindex holes, copying files with
9276 @findex read @r{system call, and holes}
9277 A @dfn{sparse file} contains @dfn{holes} -- a sequence of zero bytes that
9278 does not occupy any file system blocks; the @samp{read} system call
9279 reads these as zeros. This can both save considerable space and
9280 increase speed, since many binary files contain lots of consecutive zero
9281 bytes. By default, @command{cp} detects holes in input source files via a crude
9282 heuristic and makes the corresponding output file sparse as well.
9283 Only regular files may be sparse.
9285 The @var{when} value can be one of the following:
9289 The default behavior: if the input file is sparse, attempt to make
9290 the output file sparse, too. However, if an output file exists but
9291 refers to a non-regular file, then do not attempt to make it sparse.
9294 For each sufficiently long sequence of zero bytes in the input file,
9295 attempt to create a corresponding hole in the output file, even if the
9296 input file does not appear to be sparse.
9297 This is useful when the input file resides on a file system
9298 that does not support sparse files
9299 (for example, @samp{efs} file systems in SGI IRIX 5.3 and earlier),
9300 but the output file is on a type of file system that does support them.
9301 Holes may be created only in regular files, so if the destination file
9302 is of some other type, @command{cp} does not even try to make it sparse.
9305 Never make the output file sparse.
9306 This is useful in creating a file for use with the @command{mkswap} command,
9307 since such a file must not have any holes.
9310 For example, with the following alias, @command{cp} will use the
9311 minimum amount of space supported by the file system.
9312 (Older versions of @command{cp} can also benefit from
9313 @option{--reflink=auto} here.)
9316 alias cp='cp --sparse=always'
9319 @optStripTrailingSlashes
9322 @itemx --symbolic-link
9324 @opindex --symbolic-link
9325 @cindex symbolic links, copying with
9326 Make symbolic links instead of copies of non-directories. All source
9327 file names must be absolute (starting with @samp{/}) unless the
9328 destination files are in the current directory. This option merely
9329 results in an error message on systems that do not support symbolic links.
9335 @optNoTargetDirectory
9338 @itemx --update[=@var{which}]
9340 @opindex --update[=@var{which}]
9341 @cindex newer files, copying only
9342 Do not copy a non-directory that has an existing destination with the
9343 same or newer modification timestamp; instead, silently skip the file
9344 without failing. If timestamps are being preserved,
9345 the comparison is to the source timestamp truncated to the
9346 resolutions of the destination file system and of the system calls
9347 used to update timestamps; this avoids duplicate work if several
9348 @samp{cp -pu} commands are executed with the same source and destination.
9349 This option is ignored if the @option{-n} or @option{--no-clobber}
9350 option is also specified.
9351 Also, if @option{--preserve=links} is also specified (like with @samp{cp -au}
9352 for example), that will take precedence; consequently, depending on the
9353 order that files are processed from the source, newer files in the destination
9354 may be replaced, to mirror hard links in the source.
9357 @var{which} gives more control over which existing files in the
9358 destination are replaced, and its value can be one of the following:
9362 This is the default operation when an @option{--update} option is not specified,
9363 and results in all existing files in the destination being replaced.
9366 This is like the deprecated @option{--no-clobber} option, where no files in the
9367 destination are replaced, and also skipping a file does not induce a failure.
9370 This is similar to @samp{none}, in that no files in the destination
9371 are replaced, but any skipped files are diagnosed and induce a failure.
9374 This is the default operation when @option{--update} is specified, and results
9375 in files being replaced if they're older than the corresponding source file.
9384 Print the name of each file before copying it.
9387 @itemx --one-file-system
9389 @opindex --one-file-system
9390 @cindex file systems, omitting copying to different
9391 Skip subdirectories that are on different file systems from the one that
9392 the copy started on.
9393 However, mount point directories @emph{are} copied.
9397 @itemx --context[=@var{context}]
9400 @cindex SELinux, setting/restoring security context
9401 @cindex security context
9402 Without a specified @var{context}, adjust the SELinux security context according
9403 to the system default type for destination files, similarly to the
9404 @command{restorecon} command.
9405 The long form of this option with a specific context specified,
9406 will set the context for newly created files only.
9407 With a specified context, if both SELinux and SMACK are disabled, a warning is
9411 This option is mutually exclusive with the @option{--preserve=context}
9412 option, and overrides the @option{--preserve=all} and @option{-a} options.
9420 @section @command{dd}: Convert and copy a file
9423 @cindex converting while copying a file
9425 @command{dd} copies input to output with a changeable I/O block size,
9426 while optionally performing conversions on the data. Synopses:
9429 dd [@var{operand}]@dots{}
9433 The only options are @option{--help} and @option{--version}.
9434 @xref{Common options}.
9436 By default, @command{dd} copies standard input to standard output.
9437 To copy, @command{dd} repeatedly does the following steps in order:
9441 Read an input block.
9444 If converting via @samp{sync}, pad as needed to meet the input block size.
9445 Pad with spaces if converting via @samp{block} or @samp{unblock}, NUL
9449 If @samp{bs=} is given and no conversion mentioned in steps (4) or (5)
9450 is given, output the data as a single block and skip all remaining steps.
9453 If the @samp{swab} conversion is given, swap each pair of input bytes.
9454 If the input data length is odd, preserve the last input byte
9455 (since there is nothing to swap it with).
9458 If any of the conversions @samp{swab}, @samp{block}, @samp{unblock},
9459 @samp{lcase}, @samp{ucase}, @samp{ascii}, @samp{ebcdic} and @samp{ibm}
9460 are given, do these conversions. These conversions operate
9461 independently of input blocking, and might deal with records that span
9465 Aggregate the resulting data into output blocks of the specified size,
9466 and output each output block in turn. Do not pad the last output block;
9467 it can be shorter than usual.
9470 @command{dd} accepts the following operands,
9471 whose syntax was inspired by the DD (data definition) statement of
9478 Read from @var{file} instead of standard input.
9482 Write to @var{file} instead of standard output. Unless
9483 @samp{conv=notrunc} is given, truncate @var{file} before writing it.
9485 @item ibs=@var{bytes}
9487 @cindex block size of input
9488 @cindex input block size
9489 Set the input block size to @var{bytes}.
9490 This makes @command{dd} read @var{bytes} per block.
9491 The default is 512 bytes.
9493 @item obs=@var{bytes}
9495 @cindex block size of output
9496 @cindex output block size
9497 Set the output block size to @var{bytes}.
9498 This makes @command{dd} write @var{bytes} per block.
9499 The default is 512 bytes.
9501 @item bs=@var{bytes}
9504 Set both input and output block sizes to @var{bytes}.
9505 This makes @command{dd} read and write @var{bytes} per block,
9506 overriding any @samp{ibs} and @samp{obs} settings.
9507 In addition, if no data-transforming @option{conv} operand is specified,
9508 input is copied to the output as soon as it's read,
9509 even if it is smaller than the block size.
9511 @item cbs=@var{bytes}
9513 @cindex block size of conversion
9514 @cindex conversion block size
9515 @cindex fixed-length records, converting to variable-length
9516 @cindex variable-length records, converting to fixed-length
9517 Set the conversion block size to @var{bytes}.
9518 When converting variable-length records to fixed-length ones
9519 (@option{conv=block}) or the reverse (@option{conv=unblock}),
9520 use @var{bytes} as the fixed record length.
9523 @itemx iseek=@var{n}
9526 Skip @var{n} @samp{ibs}-byte blocks in the input file before copying.
9527 If @var{n} ends in the letter @samp{B}, interpret @var{n}
9528 as a byte count rather than a block count.
9529 (@samp{B} and the @samp{iseek=} spelling are GNU extensions to POSIX.)
9532 @itemx oseek=@var{n}
9535 Skip @var{n} @samp{obs}-byte blocks in the output file before
9536 truncating or copying.
9537 If @var{n} ends in the letter @samp{B}, interpret @var{n}
9538 as a byte count rather than a block count.
9539 (@samp{B} and the @samp{oseek=} spelling are GNU extensions to POSIX.)
9543 Copy @var{n} @samp{ibs}-byte blocks from the input file, instead
9544 of everything until the end of the file.
9545 If @var{n} ends in the letter @samp{B},
9546 interpret @var{n} as a byte count rather than a block count;
9547 this is a GNU extension to POSIX.
9548 If short reads occur, as could be the case
9549 when reading from a pipe for example, @samp{iflag=fullblock}
9550 ensures that @samp{count=} counts complete input blocks
9551 rather than input read operations.
9552 As an extension to POSIX, @samp{count=0} copies zero blocks
9553 instead of copying all blocks.
9555 @item status=@var{level}
9557 Specify the amount of information printed.
9558 If this operand is given multiple times, the last one takes precedence.
9559 The @var{level} value can be one of the following:
9564 @opindex none @r{dd status=}
9565 Do not print any informational or warning messages to standard error.
9566 Error messages are output as normal.
9569 @opindex noxfer @r{dd status=}
9570 Do not print the final transfer rate and volume statistics
9571 that normally make up the last status line.
9574 @opindex progress @r{dd status=}
9575 Print the transfer rate and volume statistics on standard error,
9576 when processing each input block. Statistics are output
9577 on a single line at most once every second, but updates
9578 can be delayed when waiting on I/O.
9582 Transfer information is normally output to standard error upon
9583 receipt of the @samp{INFO} signal or when @command{dd} exits,
9584 and defaults to the following form in the C locale:
9588 116608+0 records out
9589 59703296 bytes (60 MB, 57 MiB) copied, 0.0427974 s, 1.4 GB/s
9592 The notation @samp{@var{w}+@var{p}} stands for @var{w} whole blocks
9593 and @var{p} partial blocks. A partial block occurs when a read or
9594 write operation succeeds but transfers less data than the block size.
9595 An additional line like @samp{1 truncated record} or @samp{10
9596 truncated records} is output after the @samp{records out} line if
9597 @samp{conv=block} processing truncated one or more input records.
9599 The @samp{status=} operand is a GNU extension to POSIX.
9601 @item conv=@var{conversion}[,@var{conversion}]@dots{}
9603 Convert the file as specified by the @var{conversion} argument(s).
9604 (No spaces around any comma(s).)
9611 @opindex ascii@r{, converting to}
9612 Convert EBCDIC to ASCII,
9613 using the conversion table specified by POSIX@.
9614 This provides a 1:1 translation for all 256 bytes.
9615 This implies @samp{conv=unblock}; input is converted to
9616 ASCII before trailing spaces are deleted.
9619 @opindex ebcdic@r{, converting to}
9620 Convert ASCII to EBCDIC@.
9621 This is the inverse of the @samp{ascii} conversion.
9622 This implies @samp{conv=block}; trailing spaces are added
9623 before being converted to EBCDIC@.
9626 @opindex alternate ebcdic@r{, converting to}
9627 This acts like @samp{conv=ebcdic}, except it
9628 uses the alternate conversion table specified by POSIX@.
9629 This is not a 1:1 translation, but reflects common historical practice
9630 for @samp{~}, @samp{[}, and @samp{]}.
9632 The @samp{ascii}, @samp{ebcdic}, and @samp{ibm} conversions are
9633 mutually exclusive. If you use any of these conversions, you should also
9634 use the @samp{cbs=} operand.
9637 @opindex block @r{(space-padding)}
9638 For each line in the input, output @samp{cbs} bytes, replacing the
9639 input newline with a space and truncating or padding input lines with
9640 spaces as necessary.
9644 Remove any trailing spaces in each @samp{cbs}-sized input block,
9645 and append a newline.
9647 The @samp{block} and @samp{unblock} conversions are mutually exclusive.
9648 If you use either of these conversions, you should also use the
9649 @samp{cbs=} operand.
9652 @opindex lcase@r{, converting to}
9653 Change uppercase letters to lowercase.
9656 @opindex ucase@r{, converting to}
9657 Change lowercase letters to uppercase.
9659 The @samp{lcase} and @samp{ucase} conversions are mutually exclusive.
9663 Try to seek rather than write NUL output blocks.
9664 On a file system that supports sparse files, this will create
9665 sparse output when extending the output file.
9666 Be careful when using this conversion in conjunction with
9667 @samp{conv=notrunc} or @samp{oflag=append}.
9668 With @samp{conv=notrunc}, existing data in the output file
9669 corresponding to NUL blocks from the input, will be untouched.
9670 With @samp{oflag=append} the seeks performed will be ineffective.
9671 Similarly, when the output is a device rather than a file,
9672 NUL input blocks are not copied, and therefore this conversion
9673 is most useful with virtual or pre zeroed devices.
9675 The @samp{sparse} conversion is a GNU extension to POSIX.
9678 @opindex swab @r{(byte-swapping)}
9679 @cindex byte-swapping
9680 Swap every pair of input bytes.
9683 @opindex sync @r{(padding with ASCII NULs)}
9684 Pad every input block to size of @samp{ibs} with trailing zero bytes.
9685 When used with @samp{block} or @samp{unblock}, pad with spaces instead of
9690 The following ``conversions'' are really file flags
9691 and don't affect internal processing:
9696 @cindex creating output file, requiring
9697 Fail if the output file already exists; @command{dd} must create the
9702 @cindex creating output file, avoiding
9703 Do not create the output file; the output file must already exist.
9705 The @samp{excl} and @samp{nocreat} conversions are mutually exclusive,
9706 and are GNU extensions to POSIX.
9710 @cindex truncating output file, avoiding
9711 Do not truncate the output file.
9715 @cindex read errors, ignoring
9716 Continue after read errors.
9720 @cindex synchronized data writes, before finishing
9721 Synchronize output data just before finishing,
9722 even if there were write errors.
9723 This forces a physical write of output data,
9724 so that even if power is lost the output data will be preserved.
9725 If neither this nor @samp{fsync} are specified, output is treated as
9726 usual with file systems, i.e., output data and metadata may be cached
9727 in primary memory for some time before the operating system physically
9728 writes it, and thus output data and metadata may be lost if power is lost.
9729 @xref{sync invocation}.
9730 This conversion is a GNU extension to POSIX.
9734 @cindex synchronized data and metadata writes, before finishing
9735 Synchronize output data and metadata just before finishing,
9736 even if there were write errors.
9737 This acts like @samp{fdatasync} except it also preserves output metadata,
9738 such as the last-modified time of the output file; for this reason it
9739 may be a bit slower than @samp{fdatasync} although the performance
9740 difference is typically insignificant for @command{dd}.
9741 This conversion is a GNU extension to POSIX.
9745 @item iflag=@var{flag}[,@var{flag}]@dots{}
9747 Access the input file using the flags specified by the @var{flag}
9748 argument(s). (No spaces around any comma(s).)
9750 @item oflag=@var{flag}[,@var{flag}]@dots{}
9752 Access the output file using the flags specified by the @var{flag}
9753 argument(s). (No spaces around any comma(s).)
9761 @cindex appending to the output file
9762 Write in append mode, so that even if some other process is writing to
9763 this file, every @command{dd} write will append to the current
9764 contents of the file. This flag makes sense only for output.
9765 If you combine this flag with the @samp{of=@var{file}} operand,
9766 you should also specify @samp{conv=notrunc} unless you want the
9767 output file to be truncated before being appended to.
9771 @cindex concurrent I/O
9772 Use concurrent I/O mode for data. This mode performs direct I/O
9773 and drops the POSIX requirement to serialize all I/O to the same file.
9774 A file cannot be opened in CIO mode and with a standard open at the
9780 Use direct I/O for data, avoiding the buffer cache.
9781 The kernel may impose restrictions on read or write buffer sizes.
9782 For example, with an ext4 destination file system and a Linux-based kernel,
9783 using @samp{oflag=direct} will cause writes to fail with @code{EINVAL} if the
9784 output buffer size is not a multiple of 512.
9788 @cindex directory I/O
9790 Fail unless the file is a directory. Most operating systems do not
9791 allow I/O to a directory, so this flag has limited utility.
9795 @cindex synchronized data reads
9796 Use synchronized I/O for data. For the output file, this forces a
9797 physical write of output data on each write. For the input file,
9798 this flag can matter when reading from a remote file that has been
9799 written to synchronously by some other process. Metadata (e.g.,
9800 last-access and last-modified time) is not necessarily synchronized.
9804 @cindex synchronized data and metadata I/O
9805 Use synchronized I/O for both data and metadata.
9809 @cindex discarding file cache
9810 Request to discard the system data cache for a file.
9811 When count=0 all cached data for the file is specified,
9812 otherwise the cache is dropped for the processed
9813 portion of the file. Also when count=0,
9814 failure to discard the cache is diagnosed
9815 and reflected in the exit status.
9817 Because data not already persisted to storage is not discarded from the cache,
9818 the @samp{sync} conversions in the following examples maximize the
9819 effectiveness of the @samp{nocache} flag.
9821 Here are some usage examples:
9824 # Advise to drop cache for whole file
9825 dd if=ifile iflag=nocache count=0
9827 # Ensure drop cache for the whole file
9828 dd of=ofile oflag=nocache conv=notrunc,fdatasync count=0
9830 # Advise to drop cache for part of file
9831 # The kernel will consider only complete and
9832 # already persisted pages.
9833 dd if=ifile iflag=nocache skip=10 count=10 of=/dev/null
9835 # Stream data using just the read-ahead cache.
9836 # See also the @samp{direct} flag.
9837 dd if=ifile of=ofile iflag=nocache oflag=nocache,sync
9842 @cindex nonblocking I/O
9843 Use non-blocking I/O.
9847 @cindex access timestamp
9848 Do not update the file's access timestamp.
9849 @xref{File timestamps}.
9850 Some older file systems silently ignore this flag, so it is a good
9851 idea to test it on your files before relying on it.
9855 @cindex controlling terminal
9856 Do not assign the file to be a controlling terminal for @command{dd}.
9857 This has no effect when the file is not a terminal.
9858 On many hosts (e.g., GNU/Linux hosts), this flag has no effect
9863 @cindex symbolic links, following
9864 Do not follow symbolic links.
9869 Fail if the file has multiple hard links.
9874 Use binary I/O@. This flag has an effect only on nonstandard
9875 platforms that distinguish binary from text I/O.
9880 Use text I/O@. Like @samp{binary}, this flag has no effect on
9885 Accumulate full blocks from input. The @code{read} system call
9886 may return early if a full block is not available.
9887 When that happens, continue calling @code{read} to fill the remainder
9889 This flag can be used only with @code{iflag}.
9890 This flag is useful with pipes for example
9891 as they may return short reads. In that case,
9892 this flag is needed to ensure that a @samp{count=} argument is
9893 interpreted as a block count rather than a count of read operations.
9897 These flags are all GNU extensions to POSIX.
9898 They are not supported on all systems, and @samp{dd} rejects
9899 attempts to use them when they are not supported. When reading from
9900 standard input or writing to standard output, the @samp{nofollow} and
9901 @samp{noctty} flags should not be specified, and the other flags
9902 (e.g., @samp{nonblock}) can affect how other processes behave with the
9903 affected file descriptors, even after @command{dd} exits.
9907 The behavior of @command{dd} is unspecified if operands other than
9908 @samp{conv=}, @samp{iflag=}, @samp{oflag=}, and @samp{status=} are
9909 specified more than once.
9911 @cindex multipliers after numbers
9912 The numeric-valued strings above (@var{n} and @var{bytes})
9913 are unsigned decimal integers that
9914 can be followed by a multiplier: @samp{b}=512, @samp{c}=1,
9915 @samp{w}=2, @samp{x@var{m}}=@var{m}, or any of the
9916 standard block size suffixes like @samp{k}=1024 (@pxref{Block size}).
9917 These multipliers are GNU extensions to POSIX, except that
9918 POSIX allows @var{bytes} to be followed by @samp{k}, @samp{b}, and
9919 @samp{x@var{m}}. An @samp{x@var{m}} can be used more than once in a number.
9920 Block sizes (i.e., specified by @var{bytes} strings) must be nonzero.
9922 Any block size you specify via @samp{bs=}, @samp{ibs=}, @samp{obs=}, @samp{cbs=}
9923 should not be too large -- values larger than a few megabytes
9924 are generally wasteful or (as in the gigabyte..exabyte case) downright
9925 counterproductive or error-inducing.
9927 To process data with offset or size that is not a multiple of the I/O
9928 block size, you can use a numeric string @var{n} that ends in the
9930 For example, the following shell commands copy data
9931 in 1 MiB blocks between a flash drive and a tape, but do not save
9932 or restore a 512-byte area at the start of the flash drive:
9938 # Copy all but the initial 512 bytes from flash to tape.
9939 dd if=$flash iseek=512B bs=1MiB of=$tape
9941 # Copy from tape back to flash, leaving initial 512 bytes alone.
9942 dd if=$tape bs=1MiB of=$flash oseek=512B
9946 @cindex storage devices, failing
9947 For failing storage devices, other tools come with a great variety of extra
9948 functionality to ease the saving of as much data as possible before the
9949 device finally dies, e.g.
9950 @uref{https://www.gnu.org/software/ddrescue/, GNU @command{ddrescue}}.
9951 However, in some cases such a tool is not available or the administrator
9952 feels more comfortable with the handling of @command{dd}.
9953 As a simple rescue method, call @command{dd} as shown in the following
9954 example: the operand @samp{conv=noerror,sync} is used to continue
9955 after read errors and to pad out bad reads with NULs, while
9956 @samp{iflag=fullblock} caters for short reads (which traditionally never
9957 occur on flash or similar devices):
9960 # Rescue data from an (unmounted!) partition of a failing device.
9961 dd conv=noerror,sync iflag=fullblock </dev/sda1 > /mnt/rescue.img
9964 Sending an @samp{INFO} signal (or @samp{USR1} signal where that is unavailable)
9965 to a running @command{dd} process makes it print I/O statistics to
9966 standard error and then resume copying. In the example below,
9967 @command{dd} is run in the background to copy 5GB of data.
9968 The @command{kill} command makes it output intermediate I/O statistics,
9969 and when @command{dd} completes normally or is killed by the
9970 @code{SIGINT} signal, it outputs the final statistics.
9973 # Ignore the signal so we never inadvertently terminate the dd child.
9974 # (This is not needed when SIGINFO is available.)
9977 # Run dd with the fullblock iflag to avoid short reads
9978 # which can be triggered by reception of signals.
9979 dd iflag=fullblock if=/dev/zero of=/dev/null count=5000000 bs=1000 & pid=$!
9981 # Output stats every second.
9982 while kill -s USR1 $pid 2>/dev/null; do sleep 1; done
9985 The above script will output in the following format:
9988 3441325+0 records in
9989 3441325+0 records out
9990 3441325000 bytes (3.4 GB, 3.2 GiB) copied, 1.00036 s, 3.4 GB/s
9991 5000000+0 records in
9992 5000000+0 records out
9993 5000000000 bytes (5.0 GB, 4.7 GiB) copied, 1.44433 s, 3.5 GB/s
9996 The @samp{status=progress} operand periodically updates the last line
9997 of the transfer statistics above.
9999 @vindex POSIXLY_CORRECT
10000 On systems lacking the @samp{INFO} signal @command{dd} responds to the
10001 @samp{USR1} signal instead, unless the @env{POSIXLY_CORRECT}
10002 environment variable is set.
10007 @node install invocation
10008 @section @command{install}: Copy files and set attributes
10011 @cindex copying files and setting attributes
10013 @command{install} copies files while setting their file mode bits and, if
10014 possible, their owner and group. Synopses:
10017 install [@var{option}]@dots{} [-T] @var{source} @var{dest}
10018 install [@var{option}]@dots{} @var{source}@dots{} @var{directory}
10019 install [@var{option}]@dots{} -t @var{directory} @var{source}@dots{}
10020 install [@var{option}]@dots{} -d @var{directory}@dots{}
10025 If two file names are given, @command{install} copies the first file to the
10029 If the @option{--target-directory} (@option{-t}) option is given, or
10030 failing that if the last file is a directory and the
10031 @option{--no-target-directory} (@option{-T}) option is not given,
10032 @command{install} copies each @var{source} file to the specified
10033 directory, using the @var{source}s' names.
10036 If the @option{--directory} (@option{-d}) option is given,
10037 @command{install} creates each @var{directory} and any missing parent
10038 directories. Parent directories are created with mode
10039 @samp{u=rwx,go=rx} (755), regardless of the @option{-m} option or the
10040 current umask. @xref{Directory Setuid and Setgid}, for how the
10041 set-user-ID and set-group-ID bits of parent directories are inherited.
10044 @cindex Makefiles, installing programs in
10045 @command{install} is similar to @command{cp}, but allows you to control the
10046 attributes of destination files. It is typically used in Makefiles to
10047 copy programs into their destination directories. It refuses to copy
10048 files onto themselves.
10050 @cindex extended attributes, xattr
10051 @command{install} never preserves extended attributes (xattr).
10053 The program accepts the following options. Also see @ref{Common options}.
10063 Compare content of source and destination files, and if there would be no
10064 change to the destination content, owner, group, permissions, and possibly
10065 SELinux context, then do not modify the destination at all.
10066 This option is best used in conjunction with @option{--user},
10067 @option{--group} and @option{--mode} options, lest @command{install}
10068 incorrectly determines the default attributes that installed files would have
10069 (as it doesn't consider setgid directories and POSIX default ACLs for example).
10070 This could result in redundant copies or attributes that are not reset to the
10075 Ignored; for compatibility with old Unix versions of @command{install}.
10079 Create any missing parent directories of @var{dest},
10080 then copy @var{source} to @var{dest}.
10081 Explicitly specifying the @option{--target-directory=@var{dir}} will similarly
10082 ensure the presence of that hierarchy before copying @var{source} arguments.
10087 @opindex --directory
10088 @cindex directories, creating with given attributes
10089 @cindex parent directories, creating missing
10090 @cindex leading directories, creating missing
10091 Create any missing parent directories, giving them the default
10092 attributes. Then create each given directory, setting their owner,
10093 group and mode as given on the command line or to the defaults.
10097 @item -g @var{group}
10098 @itemx --group=@var{group}
10101 @cindex group ownership of installed files, setting
10102 Set the group ownership of installed files or directories to
10103 @var{group}. The default is the process's current group. @var{group}
10104 may be either a group name or a numeric group ID.
10106 @item -m @var{mode}
10107 @itemx --mode=@var{mode}
10110 @cindex permissions of installed files, setting
10111 Set the file mode bits for the installed file or directory to @var{mode},
10112 which can be either an octal number, or a symbolic mode as in
10113 @command{chmod}, with @samp{a=} (no access allowed to anyone) as the
10114 point of departure (@pxref{File permissions}).
10115 The default mode is @samp{u=rwx,go=rx,a-s} -- read, write, and
10116 execute for the owner, read and execute for group and other, and with
10117 set-user-ID and set-group-ID disabled.
10118 This default is not quite the same as @samp{755}, since it disables
10119 instead of preserving set-user-ID and set-group-ID on directories.
10120 @xref{Directory Setuid and Setgid}.
10122 @item -o @var{owner}
10123 @itemx --owner=@var{owner}
10126 @cindex ownership of installed files, setting
10127 @cindex appropriate privileges
10128 @vindex root @r{as default owner}
10129 If @command{install} has appropriate privileges (is run as root), set the
10130 ownership of installed files or directories to @var{owner}. The default
10131 is @code{root}. @var{owner} may be either a user name or a numeric user
10134 @item --preserve-context
10135 @opindex --preserve-context
10137 @cindex security context
10138 Preserve the SELinux security context of files and directories.
10139 Failure to preserve the context in all of the files or directories
10140 will result in an exit status of 1. If SELinux is disabled then
10141 print a warning and ignore the option.
10144 @itemx --preserve-timestamps
10146 @opindex --preserve-timestamps
10147 @cindex timestamps of installed files, preserving
10148 Set the time of last access and the time of last modification of each
10149 installed file to match those of each corresponding original file.
10150 When a file is installed without this option, its last access and
10151 last modification timestamps are both set to the time of installation.
10152 This option is useful if you want to use the last modification timestamps
10153 of installed files to keep track of when they were last built as opposed
10154 to when they were last installed.
10160 @cindex symbol table information, stripping
10161 @cindex stripping symbol table information
10162 Strip the symbol tables from installed binary executables.
10164 @item --strip-program=@var{program}
10165 @opindex --strip-program
10166 @cindex symbol table information, stripping, program
10167 Program used to strip binaries.
10171 @optTargetDirectory
10172 Also specifying the @option{-D} option will ensure the directory is present.
10174 @optNoTargetDirectory
10180 Print the name of each file before copying it.
10183 This option is mutually exclusive with the @option{--preserve-context} option.
10191 @node mv invocation
10192 @section @command{mv}: Move (rename) files
10196 @command{mv} moves or renames files (or directories). Synopses:
10199 mv [@var{option}]@dots{} [-T] @var{source} @var{dest}
10200 mv [@var{option}]@dots{} @var{source}@dots{} @var{directory}
10201 mv [@var{option}]@dots{} -t @var{directory} @var{source}@dots{}
10206 If two file names are given, @command{mv} moves the first file to the
10210 If the @option{--target-directory} (@option{-t}) option is given, or
10211 failing that if the last file is a directory and the
10212 @option{--no-target-directory} (@option{-T}) option is not given,
10213 @command{mv} moves each @var{source} file to the specified
10214 directory, using the @var{source}s' names.
10217 To move a file, @command{mv} ordinarily simply renames it.
10218 However, if renaming does not work because the destination's file
10219 system differs, @command{mv} falls back on copying as if by @code{cp -a},
10220 then (assuming the copy succeeded) it removes the original.
10221 If the copy fails, then @command{mv} removes any partially created
10222 copy in the destination. If you were to copy three directories from
10223 one file system to another and the copy of the first
10224 directory succeeded, but the second didn't, the first would be left on
10225 the destination file system and the second and third would be left on the
10226 original file system.
10228 @cindex extended attributes, xattr
10229 @command{mv} always tries to copy extended attributes (xattr), which may
10230 include SELinux context, ACLs or Capabilities.
10231 Upon failure all but @samp{Operation not supported} warnings are output.
10233 @cindex prompting, and @command{mv}
10234 If a destination file exists but is normally unwritable, standard input
10235 is a terminal, and the @option{-f} or @option{--force} option is not given,
10236 @command{mv} prompts the user for whether to replace the file. (You might
10237 own the file, or have write permission on its directory.) If the
10238 response is not affirmative, the file is skipped.
10240 Avoid specifying a source name with a trailing slash,
10241 when it might be a symlink to a directory.
10242 Otherwise, @command{mv} may do something very surprising, since
10243 its behavior depends on the underlying rename system call.
10244 On a system with a modern Linux-based kernel, it fails with
10245 @code{errno=ENOTDIR}@.
10246 However, on other systems (at least FreeBSD 6.1 and Solaris 10) it silently
10247 renames not the symlink but rather the directory referenced by the symlink.
10248 @xref{Trailing slashes}.
10250 The @command{mv} command replaces destination directories only if they
10251 are empty. Conflicting populated directories are skipped with a diagnostic.
10253 The program accepts the following options. Also see @ref{Common options}.
10265 @cindex prompts, omitting
10266 Do not prompt the user before removing a destination file.
10268 If you specify more than one of the @option{-i}, @option{-f}, @option{-n}
10269 options, only the final one takes effect.
10274 @itemx --interactive
10276 @opindex --interactive
10277 @cindex prompts, forcing
10278 Prompt whether to overwrite each existing destination file, regardless
10279 of its permissions, and fail if the response is not affirmative.
10283 @itemx --no-clobber
10285 @opindex --no-clobber
10286 @cindex prompts, omitting
10287 Do not overwrite an existing file; silently fail instead.
10289 This option is mutually exclusive with @option{-b} or @option{--backup} option.
10290 See also the @option{--update=none} option which will
10291 skip existing files but not fail.
10295 @cindex renaming files without copying them
10296 If a file cannot be renamed because the destination file system differs,
10297 fail with a diagnostic instead of copying and then removing the file.
10300 @opindex --exchange
10301 Exchange source and destination instead of renaming source to destination.
10302 Both files must exist; they need not be the same type.
10303 This exchanges all data and metadata.
10305 This option can be used to replace one directory with another.
10306 When used this way, it should be combined with
10307 @code{--no-target-directory} (@option{-T})
10308 to avoid confusion about the destination location.
10309 For example, you might use @samp{mv -T --exchange @var{d1} @var{d2}}
10310 to exchange two directories @var{d1} and @var{d2}.
10312 Exchanges are atomic if the source and destination are both in a
10313 single file system that supports atomic exchange.
10314 Non-atomic exchanges are not yet supported.
10316 If the source and destination might not be on the same file system,
10317 using @code{--no-copy} will prevent future versions of @command{mv}
10318 from implementing the exchange by copying.
10324 @cindex newer files, moving only
10325 Do not move a non-directory that has an existing destination with the
10326 same or newer modification timestamp;
10327 instead, silently skip the file without failing.
10328 If the move is across file system boundaries, the comparison is to the
10329 source timestamp truncated to the resolutions of the destination file
10330 system and of the system calls used to update timestamps; this avoids
10331 duplicate work if several @samp{mv -u} commands are executed with the
10332 same source and destination.
10333 This option is ignored if the @option{-n} or @option{--no-clobber}
10334 option is also specified.
10342 Print the name of each file before moving it.
10344 @item --keep-directory-symlink
10345 @opindex --keep-directory-symlink
10346 Follow existing symlinks to directories when copying.
10347 Use this option only when the destination directory's contents are trusted,
10348 as an attacker can place symlinks in the destination
10349 to cause @command{cp} write to arbitrary target directories.
10351 @optStripTrailingSlashes
10355 @optTargetDirectory
10357 @optNoTargetDirectory
10363 @cindex SELinux, restoring security context
10364 @cindex security context
10365 This option functions similarly to the @command{restorecon} command,
10366 by adjusting the SELinux security context according
10367 to the system default type for destination files and each created directory.
10374 @node rm invocation
10375 @section @command{rm}: Remove files or directories
10378 @cindex removing files or directories
10380 @command{rm} removes each given @var{file}. By default, it does not remove
10381 directories. Synopsis:
10384 rm [@var{option}]@dots{} [@var{file}]@dots{}
10387 @cindex prompting, and @command{rm}
10388 If the @option{-I} or @option{--interactive=once} option is given,
10389 and there are more than three files or the @option{-r}, @option{-R},
10390 or @option{--recursive} are given, then @command{rm} prompts the user
10391 for whether to proceed with the entire operation. If the response is
10392 not affirmative, the entire command is aborted.
10394 Otherwise, if a file is unwritable, standard input is a terminal, and
10395 the @option{-f} or @option{--force} option is not given, or the
10396 @option{-i} or @option{--interactive=always} option @emph{is} given,
10397 @command{rm} prompts the user for whether to remove the file.
10398 If the response is not affirmative, the file is skipped.
10400 Any attempt to remove a file whose last file name component is
10401 @file{.} or @file{..} is rejected without any prompting, as mandated
10404 @emph{Warning}: If you use @command{rm} to remove a file, it is usually
10405 possible to recover the contents of that file. If you want more assurance
10406 that the contents are unrecoverable, consider using @command{shred}.
10408 The program accepts the following options. Also see @ref{Common options}.
10416 @cindex directories, removing
10417 Remove the listed directories if they are empty.
10423 Ignore nonexistent files and missing operands, and never prompt the user.
10424 Ignore any previous @option{--interactive} (@option{-i}) option.
10428 Prompt whether to remove each file.
10429 If the response is not affirmative, silently skip the file without failing.
10430 Ignore any previous @option{--force} (@option{-f}) option.
10431 Equivalent to @option{--interactive=always}.
10435 Prompt once whether to proceed with the command, if more than three
10436 files are named or if a recursive removal is requested. Ignore any
10437 previous @option{--force} (@option{-f}) option. Equivalent to
10438 @option{--interactive=once}.
10440 @item --interactive [=@var{when}]
10441 @opindex --interactive
10442 Specify when to issue an interactive prompt. @var{when} may be
10443 omitted, or one of:
10446 @vindex never @r{interactive option}
10447 - Do not prompt at all.
10449 @vindex once @r{interactive option}
10450 - Prompt once if more than three files are named or if a recursive
10451 removal is requested. Equivalent to @option{-I}.
10453 @vindex always @r{interactive option}
10454 - Prompt for every file being removed. Equivalent to @option{-i}.
10456 @option{--interactive} with no @var{when} is equivalent to
10457 @option{--interactive=always}.
10459 @item --one-file-system
10460 @opindex --one-file-system
10461 @cindex one file system, restricting @command{rm} to
10462 When removing a hierarchy recursively, do not remove any directory that is on a
10463 file system different from that of the corresponding command line argument.
10465 This option is useful when removing a build ``chroot'' hierarchy,
10466 which normally contains no valuable data. However, it is not uncommon
10467 to bind-mount @file{/home} into such a hierarchy, to make it easier to
10468 use one's start-up file. The catch is that it's easy to forget to
10469 unmount @file{/home}. Then, when you use @command{rm -rf} to remove
10470 your normally throw-away chroot, that command will remove everything
10471 under @file{/home}, too.
10472 Use the @option{--one-file-system} option, and it will
10473 diagnose and skip directories on other file systems.
10474 Of course, this will not save your @file{/home} if it and your
10475 chroot happen to be on the same file system.
10476 See also @option{--preserve-root=all} to protect command line arguments
10479 @item --preserve-root [=all]
10480 @opindex --preserve-root
10481 @cindex root directory, disallow recursive destruction
10482 Fail upon any attempt to remove the root directory, @file{/},
10483 when used with the @option{--recursive} option.
10484 This is the default behavior.
10485 @xref{Treating / specially}.
10486 When @samp{all} is specified, reject any command line argument
10487 that is not on the same file system as its parent.
10489 @item --no-preserve-root
10490 @opindex --no-preserve-root
10491 @cindex root directory, allow recursive destruction
10492 Do not treat @file{/} specially when removing recursively.
10493 This option is not recommended unless you really want to
10494 remove all the files on your computer.
10495 @xref{Treating / specially}.
10502 @opindex --recursive
10503 @cindex directories, removing (recursively)
10504 Remove the listed directories and their contents recursively.
10510 Print the name of each file before removing it.
10514 @cindex files beginning with @samp{-}, removing
10515 @cindex @samp{-}, removing files beginning with
10516 One common question is how to remove files whose names begin with a
10517 @samp{-}. GNU @command{rm}, like every program that uses the @code{getopt}
10518 function to parse its arguments, lets you use the @samp{--} option to
10519 indicate that all following arguments are non-options. To remove a file
10520 called @file{-f} in the current directory, you could type either:
10533 @opindex - @r{and Unix @command{rm}}
10534 The Unix @command{rm} program's use of a single @samp{-} for this purpose
10535 predates the development of the @code{getopt} standard syntax.
10540 @node shred invocation
10541 @section @command{shred}: Remove files more securely
10544 @cindex data, erasing
10545 @cindex erasing data
10547 @command{shred} overwrites devices or files, to help prevent even
10548 extensive forensics from recovering the data.
10550 Ordinarily when you remove a file (@pxref{rm invocation}), its data
10551 and metadata are not actually destroyed. Only the file's directory
10552 entry is removed, and the file's storage is reclaimed only when no
10553 process has the file open and no other directory entry links to the
10554 file. And even if file's data and metadata's storage space is freed
10555 for further reuse, there are undelete utilities that will attempt to
10556 reconstruct the file from the data in freed storage, and that can
10557 bring the file back if the storage was not rewritten.
10559 On a busy system with a nearly-full device, space can get reused in a few
10560 seconds. But there is no way to know for sure. And although the
10561 undelete utilities and already-existing processes require insider or
10562 superuser access, you may be wary of the superuser,
10563 of processes running on your behalf, or of attackers
10564 that can physically access the storage device. So if you have sensitive
10565 data, you may want to be sure that recovery is not possible
10566 by plausible attacks like these.
10568 The best way to remove something irretrievably is to destroy the media
10569 it's on with acid, melt it down, or the like. For cheap removable media
10570 this is often the preferred method. However, some storage devices
10571 are expensive or are harder to destroy, so the @command{shred} utility tries
10572 to achieve a similar effect non-destructively, by overwriting the file
10573 with non-sensitive data.
10575 The @command{shred} command relies on a @strong{crucial assumption}:
10576 that the file system and hardware overwrite data in place.
10577 Although this is common and is the traditional
10578 way to do things, many modern file system designs do not satisfy this
10579 assumption. Exceptions include:
10584 Log-structured or journaled file systems, such as ext3/ext4 (in
10585 @code{data=journal} mode), Btrfs, NTFS, ReiserFS, XFS, ZFS, file
10586 systems supplied with AIX and Solaris, etc., when they are configured to
10590 File systems that write redundant data and carry on even if some writes
10591 fail, such as RAID-based file systems.
10594 File systems that make snapshots, such as Network Appliance's NFS server.
10597 File systems that cache in temporary locations, such as NFS version 3
10601 Compressed file systems.
10604 For ext3 and ext4 file systems, @command{shred} is less effective
10605 when the file system is in @code{data=journal}
10606 mode, which journals file data in addition to just metadata. In both
10607 the @code{data=ordered} (default) and @code{data=writeback} modes,
10608 @command{shred} works as usual. The ext3/ext4 journaling modes can be changed
10609 by adding the @code{data=something} option to the mount options for a
10610 particular file system in the @file{/etc/fstab} file, as documented in
10611 the @command{mount} man page (@samp{man mount}). Alternatively, if
10612 you know how large the journal is, you can shred the journal by
10613 shredding enough file data so that the journal cycles around and fills
10614 up with shredded data.
10616 If you are not sure how your file system operates, then you should assume
10617 that it does not overwrite data in place, which means @command{shred} cannot
10618 reliably operate on regular files in your file system.
10620 Generally speaking, it is more reliable to shred a device than a file,
10621 since this bypasses file system design issues mentioned above.
10622 However, devices are also problematic for shredding, for reasons
10623 such as the following:
10628 Solid-state storage devices (SSDs) typically do wear leveling to
10629 prolong service life, and this means writes are distributed to other
10630 blocks by the hardware, so ``overwritten'' data blocks are still
10631 present in the underlying device.
10634 Most storage devices map out bad blocks invisibly to
10635 the application; if the bad blocks contain sensitive data,
10636 @command{shred} won't be able to destroy it.
10639 With some obsolete storage technologies,
10640 it may be possible to take (say) a floppy disk back
10641 to a laboratory and use a lot of sensitive (and expensive) equipment
10642 to look for the faint ``echoes'' of the original data underneath the
10643 overwritten data. With these older technologies, if the file has been
10644 overwritten only once, it's reputedly not even that hard. Luckily,
10645 this kind of data recovery has become difficult, and there is no
10646 public evidence that today's higher-density storage devices can be
10647 analyzed in this way.
10649 The @command{shred} command can use many overwrite passes,
10650 with data patterns chosen to
10651 maximize the damage they do to the old data.
10652 By default the patterns are designed for best effect on hard drives using
10653 now-obsolete technology; for newer devices, a single pass should suffice.
10654 For more details, see the source code and Peter Gutmann's paper
10655 @uref{https://www.cs.auckland.ac.nz/~pgut001/pubs/secure_del.html,
10656 @cite{Secure Deletion of Data from Magnetic and Solid-State Memory}},
10657 from the proceedings of the Sixth USENIX Security Symposium (San Jose,
10658 California, July 22--25, 1996).
10661 @command{shred} makes no attempt to detect or report these problems, just as
10662 it makes no attempt to do anything about backups. However, since it is
10663 more reliable to shred devices than files, @command{shred} by default does
10664 not deallocate or remove the output file. This default is more suitable
10665 for devices, which typically cannot be deallocated and should not be
10668 Finally, consider the risk of backups and mirrors.
10669 File system backups and remote mirrors may contain copies of the
10670 file that cannot be removed, and that will allow a shredded file
10671 to be recovered later. So if you keep any data you may later want
10672 to destroy using @command{shred}, be sure that it is not backed up or mirrored.
10675 shred [@var{option}]@dots{} @var{file}[@dots{}]
10678 The program accepts the following options. Also see @ref{Common options}.
10686 @cindex force deletion
10687 Override file permissions if necessary to allow overwriting.
10689 @item -n @var{number}
10690 @itemx --iterations=@var{number}
10691 @opindex -n @var{number}
10692 @opindex --iterations=@var{number}
10693 @cindex iterations, selecting the number of
10694 By default, @command{shred} uses @value{SHRED_DEFAULT_PASSES} passes of
10695 overwrite. You can reduce this to save time, or increase it if you think it's
10696 appropriate. After 25 passes all of the internal overwrite patterns will have
10697 been used at least once.
10699 @item --random-source=@var{file}
10700 @opindex --random-source
10701 @cindex random source for shredding
10702 Use @var{file} as a source of random data used to overwrite and to
10703 choose pass ordering. @xref{Random sources}.
10705 @item -s @var{bytes}
10706 @itemx --size=@var{bytes}
10707 @opindex -s @var{bytes}
10708 @opindex --size=@var{bytes}
10709 @cindex size of file to shred
10710 Shred the first @var{bytes} bytes of the file. The default is to shred
10711 the whole file. @var{bytes} can be followed by a size specification like
10712 @samp{K}, @samp{M}, or @samp{G} to specify a multiple. @xref{Block size}.
10715 @itemx --remove[=@var{how}]
10718 @opindex --remove=unlink
10719 @opindex --remove=wipe
10720 @opindex --remove=wipesync
10721 @cindex removing files after shredding
10722 After shredding a file, deallocate it (if possible) and then remove it.
10723 If a file has multiple links, only the named links will be removed.
10724 Often the file name is less sensitive than the file data, in which case
10725 the optional @var{how} parameter, supported with the long form option,
10726 gives control of how to more efficiently remove each directory entry.
10727 The @samp{unlink} parameter will just use a standard unlink call,
10728 @samp{wipe} will also first obfuscate bytes in the name, and
10729 @samp{wipesync} will also sync each obfuscated byte in the name to
10731 Although @samp{wipesync} is the default method, it can be expensive,
10732 requiring a sync for every character in every file. This can become
10733 significant with many files, or is redundant if your file system provides
10734 synchronous metadata updates.
10740 Display to standard error all status updates as sterilization proceeds.
10746 By default, @command{shred} rounds the size of a regular file up to the next
10747 multiple of the file system block size to fully erase the slack space in
10748 the last block of the file. This space may contain portions of the current
10749 system memory on some systems for example.
10750 Use @option{--exact} to suppress that behavior.
10751 Thus, by default if you shred a 10-byte regular file on a system with 512-byte
10752 blocks, the resulting file will be 512 bytes long. With this option,
10753 shred does not increase the apparent size of the file.
10759 Normally, the last pass that @command{shred} writes is made up of
10760 random data. If this would be conspicuous on your storage device (for
10761 example, because it looks like encrypted data), or you just think
10762 it's tidier, the @option{--zero} option adds an additional overwrite pass with
10763 all zero bits. This is in addition to the number of passes specified
10764 by the @option{--iterations} option.
10768 You might use the following command to erase the file system you
10769 created on a USB flash drive. This command typically takes several
10770 minutes, depending on the drive's size and write speed. On modern
10771 storage devices a single pass should be adequate, and will take one
10772 third the time of the default three-pass approach.
10775 shred -v -n 1 /dev/sdd1
10778 Similarly, to erase all data on a selected partition of
10779 your device, you could give a command like the following.
10782 # 1 pass, write pseudo-random data; 3x faster than the default
10783 shred -v -n1 /dev/sda5
10786 To be on the safe side, use at least one pass that overwrites using
10787 pseudo-random data. I.e., don't be tempted to use @samp{-n0 --zero},
10788 in case some device controller optimizes the process of writing blocks
10789 of all zeros, and thereby does not clear all bytes in a block.
10790 Some SSDs may do just that.
10792 A @var{file} of @samp{-} denotes standard output.
10793 The intended use of this is to shred a removed temporary file.
10800 echo "Hello, world" >&3
10805 However, the command @samp{shred - >file} does not shred the contents
10806 of @var{file}, since the shell truncates @var{file} before invoking
10807 @command{shred}. Use the command @samp{shred file} or (if using a
10808 Bourne-compatible shell) the command @samp{shred - 1<>file} instead.
10813 @node Special file types
10814 @chapter Special file types
10816 @cindex special file types
10817 @cindex file types, special
10819 This chapter describes commands which create special types of files (and
10820 @command{rmdir}, which removes directories, one special file type).
10822 @cindex special file types
10824 Although Unix-like operating systems have markedly fewer special file
10825 types than others, not @emph{everything} can be treated only as the
10826 undifferentiated byte stream of @dfn{normal files}. For example, when a
10827 file is created or removed, the system must record this information,
10828 which it does in a @dfn{directory} -- a special type of file. Although
10829 you can read directories as normal files, if you're curious, in order
10830 for the system to do its job it must impose a structure, a certain
10831 order, on the bytes of the file. Thus it is a ``special'' type of file.
10833 Besides directories, other special file types include named pipes
10834 (FIFOs), symbolic links, sockets, and so-called @dfn{special files}.
10837 * link invocation:: Make a hard link via the link syscall
10838 * ln invocation:: Make links between files.
10839 * mkdir invocation:: Make directories.
10840 * mkfifo invocation:: Make FIFOs (named pipes).
10841 * mknod invocation:: Make block or character special files.
10842 * readlink invocation:: Print value of a symlink or canonical file name.
10843 * rmdir invocation:: Remove empty directories.
10844 * unlink invocation:: Remove files via the unlink syscall
10848 @node link invocation
10849 @section @command{link}: Make a hard link via the link syscall
10852 @cindex links, creating
10853 @cindex hard links, creating
10854 @cindex creating links (hard only)
10856 @command{link} creates a single hard link at a time.
10857 It is a minimalist interface to the system-provided
10858 @code{link} function. @xref{Hard Links, , , libc,
10859 The GNU C Library Reference Manual}.
10860 It avoids the bells and whistles of the more commonly-used
10861 @command{ln} command (@pxref{ln invocation}).
10865 link @var{filename} @var{linkname}
10868 @var{filename} must specify an existing file, and @var{linkname}
10869 must specify a nonexistent entry in an existing directory.
10870 @command{link} simply calls @code{link (@var{filename}, @var{linkname})}
10871 to create the link.
10873 On a GNU system, this command acts like @samp{ln --directory
10874 --no-target-directory @var{filename} @var{linkname}}. However, the
10875 @option{--directory} and @option{--no-target-directory} options are
10876 not specified by POSIX, and the @command{link} command is
10877 more portable in practice.
10879 If @var{filename} is a symbolic link, it is unspecified whether
10880 @var{linkname} will be a hard link to the symbolic link or to the
10881 target of the symbolic link. Use @command{ln -P} or @command{ln -L}
10882 to specify which behavior is desired.
10887 @node ln invocation
10888 @section @command{ln}: Make links between files
10891 @cindex links, creating
10892 @cindex hard links, creating
10893 @cindex symbolic (soft) links, creating
10894 @cindex creating links (hard or soft)
10896 @cindex file systems and hard links
10897 @command{ln} makes links between files. By default, it makes hard links;
10898 with the @option{-s} option, it makes symbolic (or @dfn{soft}) links.
10902 ln [@var{option}]@dots{} [-T] @var{target} @var{linkname}
10903 ln [@var{option}]@dots{} @var{target}
10904 ln [@var{option}]@dots{} @var{target}@dots{} @var{directory}
10905 ln [@var{option}]@dots{} -t @var{directory} @var{target}@dots{}
10911 If two file names are given, @command{ln} creates a link to the first
10912 file from the second.
10915 If one @var{target} is given, @command{ln} creates a link to that file
10916 in the current directory.
10919 If the @option{--target-directory} (@option{-t}) option is given, or
10920 failing that if the last file is a directory and the
10921 @option{--no-target-directory} (@option{-T}) option is not given,
10922 @command{ln} creates a link to each @var{target} file in the specified
10923 directory, using the @var{target}s' names.
10927 Normally @command{ln} does not replace existing files. Use the
10928 @option{--force} (@option{-f}) option to replace them unconditionally,
10929 the @option{--interactive} (@option{-i}) option to replace them
10930 conditionally, and the @option{--backup} (@option{-b}) option to
10931 rename them. Unless the @option{--backup} (@option{-b}) option is
10932 used there is no brief moment when the destination does not exist;
10933 this is an extension to POSIX.
10935 @cindex hard link, defined
10936 @cindex inode, and hard links
10937 A @dfn{hard link} is another name for an existing file; the link and the
10938 original are indistinguishable. Technically speaking, they share the
10939 same inode, and the inode contains all the information about a
10940 file -- indeed, it is not incorrect to say that the inode @emph{is} the
10941 file. Most systems prohibit making a hard link to
10942 a directory; on those where it is allowed, only the super-user can do
10943 so (and with caution, since creating a cycle will cause problems to many
10944 other utilities). Hard links cannot cross file system boundaries. (These
10945 restrictions are not mandated by POSIX, however.)
10947 @cindex dereferencing symbolic links
10948 @cindex symbolic link, defined
10949 @dfn{Symbolic links} (@dfn{symlinks} for short), on the other hand, are
10950 a special file type (which not all kernels support: System V release 3
10951 (and older) systems lack symlinks) in which the link file actually
10952 refers to a different file, by name. When most operations (opening,
10953 reading, writing, and so on) are passed the symbolic link file, the
10954 kernel automatically @dfn{dereferences} the link and operates on the
10955 target of the link. But some operations (e.g., removing) work on the
10956 link file itself, rather than on its target. The owner and group of a
10957 symlink are not significant to file access performed through
10958 the link, but do have implications on deleting a symbolic link from a
10959 directory with the restricted deletion bit set. On the GNU system,
10960 the mode of a symlink has no significance and cannot be changed, but
10961 on some BSD systems, the mode can be changed and will affect whether
10962 the symlink will be traversed in file name resolution. @xref{Symbolic Links,,,
10963 libc, The GNU C Library Reference Manual}.
10965 Symbolic links can contain arbitrary strings; a @dfn{dangling symlink}
10966 occurs when the string in the symlink does not resolve to a file.
10967 There are no restrictions against creating dangling symbolic links.
10968 There are trade-offs to using absolute or relative symlinks. An
10969 absolute symlink always points to the same file, even if the directory
10970 containing the link is moved. However, if the symlink is visible from
10971 more than one machine (such as on a networked file system), the file
10972 pointed to might not always be the same. A relative symbolic link is
10973 resolved in relation to the directory that contains the link, and is
10974 often useful in referring to files on the same device without regards
10975 to what name that device is mounted on when accessed via networked
10978 When creating a relative symlink in a different location than the
10979 current directory, the resolution of the symlink will be different
10980 than the resolution of the same string from the current directory.
10981 Therefore, many users prefer to first change directories to the
10982 location where the relative symlink will be created, so that
10983 tab-completion or other file resolution will find the same target as
10984 what will be placed in the symlink.
10986 The program accepts the following options. Also see @ref{Common options}.
10997 @opindex --directory
10998 @cindex hard links to directories
10999 Allow users with appropriate privileges to attempt to make hard links
11001 However, this will probably fail due to
11002 system restrictions, even for the super-user.
11008 Remove existing destination files.
11011 @itemx --interactive
11013 @opindex --interactive
11014 @cindex prompting, and @command{ln}
11015 Prompt whether to remove existing destination files,
11016 and fail if the response is not affirmative.
11022 If @option{-s} is not in effect, and the source file is a symbolic
11023 link, create the hard link to the file referred to by the symbolic
11024 link, rather than the symbolic link itself.
11027 @itemx --no-dereference
11029 @opindex --no-dereference
11030 Do not treat the last operand specially when it is a symbolic link to
11031 a directory. Instead, treat it as if it were a normal file.
11033 When the destination is an actual directory (not a symlink to one),
11034 there is no ambiguity. The link is created in that directory.
11035 But when the specified destination is a symlink to a directory,
11036 there are two ways to treat the user's request. @command{ln} can
11037 treat the destination just as it would a normal directory and create
11038 the link in it. On the other hand, the destination can be viewed as a
11039 non-directory -- as the symlink itself. In that case, @command{ln}
11040 must delete or backup that symlink before creating the new link.
11041 The default is to treat a destination that is a symlink to a directory
11042 just like a directory.
11044 This option is weaker than the @option{--no-target-directory}
11045 (@option{-T}) option, so it has no effect if both options are given.
11050 @opindex --physical
11051 If @option{-s} is not in effect, and the source file is a symbolic
11052 link, create the hard link to the symbolic link itself. On platforms
11053 where this is not supported by the kernel, this option creates a
11054 symbolic link with identical contents; since symbolic link contents
11055 cannot be edited, any file name resolution performed through either
11056 link will be the same as if a hard link had been created.
11061 @opindex --relative
11062 Make symbolic links relative to the link location.
11063 This option is only valid with the @option{--symbolic} option.
11068 ln -srv /a/file /tmp
11069 '/tmp/file' -> '../a/file'
11072 Relative symbolic links are generated based on their canonicalized
11073 containing directory, and canonicalized targets. I.e., all symbolic
11074 links in these file names will be resolved.
11075 @xref{realpath invocation}, which gives greater control
11076 over relative file name generation, as demonstrated in the following example:
11081 test "$1" = --no-symlinks && { nosym=$1; shift; }
11083 test -d "$2" && link="$2/." || link="$2"
11084 rtarget="$(realpath $nosym -m "$target" \
11085 --relative-to "$(dirname "$link")")"
11086 ln -s -v "$rtarget" "$link"
11094 @opindex --symbolic
11095 Make symbolic links instead of hard links. This option merely produces
11096 an error message on systems that do not support symbolic links.
11100 @optTargetDirectory
11102 @optNoTargetDirectory
11108 Print the name of each file after linking it successfully.
11112 @cindex hard links to symbolic links
11113 @cindex symbolic links and @command{ln}
11114 If @option{-L} and @option{-P} are both given, the last one takes
11115 precedence. If @option{-s} is also given, @option{-L} and @option{-P}
11116 are silently ignored. If neither option is given, then this
11117 implementation defaults to @option{-P} if the system @code{link} supports
11118 hard links to symbolic links (such as the GNU system), and @option{-L}
11119 if @code{link} follows symbolic links (such as on BSD).
11128 # Create link ../a pointing to a in that directory.
11129 # Not really useful because it points to itself.
11134 # Change to the target before creating symlinks to avoid being confused.
11140 # Hard coded file names don't move well.
11141 ln -s $(pwd)/a /some/dir/
11145 # Relative file names survive directory moves and also
11146 # work across networked file systems.
11147 ln -s afile anotherfile
11148 ln -s ../adir/afile yetanotherfile
11152 @node mkdir invocation
11153 @section @command{mkdir}: Make directories
11156 @cindex directories, creating
11157 @cindex creating directories
11159 @command{mkdir} creates directories with the specified names. Synopsis:
11162 mkdir [@var{option}]@dots{} @var{name}@dots{}
11165 @command{mkdir} creates each directory @var{name} in the order given.
11166 It reports an error if @var{name} already exists, unless the
11167 @option{-p} option is given and @var{name} is a directory.
11169 The program accepts the following options. Also see @ref{Common options}.
11173 @item -m @var{mode}
11174 @itemx --mode=@var{mode}
11177 @cindex modes of created directories, setting
11178 Set the file permission bits of created directories to @var{mode},
11179 which uses the same syntax as
11180 in @command{chmod} and uses @samp{a=rwx} (read, write and execute allowed for
11181 everyone) for the point of the departure. @xref{File permissions}.
11182 This option affects only directories given on the command line;
11183 it does not affect any parents that may be created via the @option{-p} option.
11185 Normally the directory has the desired file mode bits at the moment it
11186 is created. As a GNU extension, @var{mode} may also mention
11187 special mode bits, but in this case there may be a temporary window
11188 during which the directory exists but its special mode bits are
11189 incorrect. @xref{Directory Setuid and Setgid}, for how the
11190 set-user-ID and set-group-ID bits of directories are inherited unless
11191 overridden in this way.
11197 @cindex parent directories, creating
11198 Make any missing parent directories for each argument, setting their
11199 file permission bits to @samp{=rwx,u+wx},
11200 that is, with the umask modified by @samp{u+wx}. Ignore
11201 existing parent directories, and do not change their file permission
11204 If the @option{-m} option is also given, it does not affect
11205 file permission bits of any newly-created parent directories.
11206 To control these bits, set the
11207 umask before invoking @command{mkdir}. For example, if the shell
11208 command @samp{(umask u=rwx,go=rx; mkdir -p P/Q)} creates the parent
11209 @file{P} it sets the parent's file permission bits to @samp{u=rwx,go=rx}.
11210 (The umask must include @samp{u=wx} for this method to work.)
11211 To set a parent's special mode bits as well, you can invoke
11212 @command{chmod} after @command{mkdir}. @xref{Directory Setuid and
11213 Setgid}, for how the set-user-ID and set-group-ID bits of
11214 newly-created parent directories are inherited.
11220 Print a message for each created directory. This is most useful with
11221 @option{--parents}.
11230 @node mkfifo invocation
11231 @section @command{mkfifo}: Make FIFOs (named pipes)
11234 @cindex FIFOs, creating
11235 @cindex named pipes, creating
11236 @cindex creating FIFOs (named pipes)
11238 @command{mkfifo} creates FIFOs (also called @dfn{named pipes}) with the
11239 specified names. Synopsis:
11242 mkfifo [@var{option}] @var{name}@dots{}
11245 A @dfn{FIFO} is a special file type that permits independent processes
11246 to communicate. One process opens the FIFO file for writing, and
11247 another for reading, after which data can flow as with the usual
11248 anonymous pipe in shells or elsewhere.
11250 The program accepts the following options. Also see @ref{Common options}.
11254 @item -m @var{mode}
11255 @itemx --mode=@var{mode}
11258 @cindex modes of created FIFOs, setting
11259 Set the mode of created FIFOs to @var{mode}, which is symbolic as in
11260 @command{chmod} and uses @samp{a=rw} (read and write allowed for everyone)
11261 for the point of departure. @var{mode} should specify only file
11262 permission bits. @xref{File permissions}.
11271 @node mknod invocation
11272 @section @command{mknod}: Make block or character special files
11275 @cindex block special files, creating
11276 @cindex character special files, creating
11278 @command{mknod} creates a FIFO, character special file, or block special
11279 file with the specified name. Synopsis:
11282 mknod [@var{option}]@dots{} @var{name} @var{type} [@var{major} @var{minor}]
11285 @cindex special files
11286 @cindex block special files
11287 @cindex character special files
11288 Unlike the phrase ``special file type'' above, the term @dfn{special
11289 file} has a technical meaning on Unix: something that can generate or
11290 receive data. Usually this corresponds to a physical piece of hardware,
11291 e.g., a printer or a flash drive. (These files are typically created at
11292 system-configuration time.) The @command{mknod} command is what creates
11293 files of this type. Such devices can be read either a character at a
11294 time or a ``block'' (many characters) at a time, hence we say there are
11295 @dfn{block special} files and @dfn{character special} files.
11297 @c mknod is a shell built-in at least with OpenBSD's /bin/sh
11298 @mayConflictWithShellBuiltIn{mknod}
11300 The arguments after @var{name} specify the type of file to make:
11305 @opindex p @r{for FIFO file}
11309 @opindex b @r{for block special file}
11310 for a block special file
11313 @c Don't document the 'u' option -- it's just a synonym for 'c'.
11314 @c Do *any* versions of mknod still use it?
11316 @opindex c @r{for character special file}
11317 @c @opindex u @r{for character special file}
11318 for a character special file
11322 When making a block or character special file, the major and minor
11323 device numbers must be given after the file type.
11324 If a major or minor device number begins with @samp{0x} or @samp{0X},
11325 it is interpreted as hexadecimal; otherwise, if it begins with @samp{0},
11326 as octal; otherwise, as decimal.
11328 The program accepts the following options. Also see @ref{Common options}.
11332 @item -m @var{mode}
11333 @itemx --mode=@var{mode}
11336 Set the mode of created files to @var{mode}, which is symbolic as in
11337 @command{chmod} and uses @samp{a=rw} as the point of departure.
11338 @var{mode} should specify only file permission bits.
11339 @xref{File permissions}.
11348 @node readlink invocation
11349 @section @command{readlink}: Print value of a symlink or canonical file name
11352 @cindex displaying value of a symbolic link
11353 @cindex canonical file name
11354 @cindex canonicalize a file name
11357 @command{readlink} may work in one of two supported modes:
11361 @item Readlink mode
11363 @command{readlink} outputs the value of the given symbolic links.
11364 If @command{readlink} is invoked with an argument other than the name
11365 of a symbolic link, it produces no output and exits with a nonzero exit code.
11367 @item Canonicalize mode
11369 @command{readlink} outputs the absolute name of the given files which contain
11370 no @file{.}, @file{..} components nor any repeated separators
11371 (@file{/}) or symbolic links. The @command{realpath} command is the
11372 preferred command to use for canonicalization. @xref{realpath invocation}.
11377 readlink [@var{option}]@dots{} @var{file}@dots{}
11380 By default, @command{readlink} operates in readlink mode.
11382 The program accepts the following options. Also see @ref{Common options}.
11387 @itemx --canonicalize
11389 @opindex --canonicalize
11390 Activate canonicalize mode.
11391 If any component of the file name except the last one is missing or unavailable,
11392 @command{readlink} produces no output and exits with a nonzero exit
11393 code. A trailing slash is ignored.
11396 @itemx --canonicalize-existing
11398 @opindex --canonicalize-existing
11399 Activate canonicalize mode.
11400 If any component is missing or unavailable, @command{readlink} produces
11401 no output and exits with a nonzero exit code. A trailing slash
11402 requires that the name resolve to a directory.
11405 @itemx --canonicalize-missing
11407 @opindex --canonicalize-missing
11408 Activate canonicalize mode.
11409 If any component is missing or unavailable, @command{readlink} treats it
11413 @itemx --no-newline
11415 @opindex --no-newline
11416 Do not print the output delimiter, when a single @var{file} is specified.
11417 Print a warning if specified along with multiple @var{file}s.
11427 Suppress most error messages. On by default.
11433 Report error messages.
11439 The @command{readlink} utility first appeared in OpenBSD 2.1.
11441 The @command{realpath} command without options, operates like
11442 @command{readlink} in canonicalize mode.
11447 @node rmdir invocation
11448 @section @command{rmdir}: Remove empty directories
11451 @cindex removing empty directories
11452 @cindex directories, removing empty
11454 @command{rmdir} removes empty directories. Synopsis:
11457 rmdir [@var{option}]@dots{} @var{directory}@dots{}
11460 If any @var{directory} argument does not refer to an existing empty
11461 directory, it is an error.
11463 The program accepts the following options. Also see @ref{Common options}.
11467 @item --ignore-fail-on-non-empty
11468 @opindex --ignore-fail-on-non-empty
11469 @cindex directory deletion, ignoring failures
11470 Ignore each failure to remove a directory that is non-empty.
11476 @cindex parent directories, removing
11477 Remove @var{directory}, then try to remove each component of @var{directory}.
11478 So, for example, @samp{rmdir -p a/b/c} is similar to @samp{rmdir a/b/c a/b a}.
11479 As such, it fails if any of those directories turns out not to be empty.
11480 Use the @option{--ignore-fail-on-non-empty} option to make it so such
11481 a failure does not evoke a diagnostic and does not cause @command{rmdir} to
11482 exit unsuccessfully.
11488 @cindex directory deletion, reporting
11489 Give a diagnostic for each successful removal.
11490 @var{directory} is removed.
11494 @xref{rm invocation}, for how to remove non-empty directories recursively.
11496 To remove all empty directories under @var{dirname}, including
11497 directories that become empty because other directories are removed,
11498 you can use either of the following commands:
11501 # This uses GNU extensions.
11502 find @var{dirname} -type d -empty -delete
11504 # This runs on any POSIX platform.
11505 find @var{dirname} -depth -type d -exec rmdir @{@} +
11511 @node unlink invocation
11512 @section @command{unlink}: Remove files via the unlink syscall
11515 @cindex removing files or directories (via the unlink syscall)
11517 @command{unlink} deletes a single specified file name.
11518 It is a minimalist interface to the system-provided
11519 @code{unlink} function. @xref{Deleting Files, , , libc,
11520 The GNU C Library Reference Manual}. Synopsis:
11521 It avoids the bells and whistles of the more commonly-used
11522 @command{rm} command (@pxref{rm invocation}).
11525 unlink @var{filename}
11528 On some systems @code{unlink} can be used to delete the name of a
11529 directory. On others, it can be used that way only by a privileged user.
11530 In the GNU system @code{unlink} can never delete the name of a directory.
11532 The @command{unlink} command honors the @option{--help} and
11533 @option{--version} options. To remove a file whose name begins with
11534 @samp{-}, prefix the name with @samp{./}, e.g., @samp{unlink ./--help}.
11539 @node Changing file attributes
11540 @chapter Changing file attributes
11542 @cindex changing file attributes
11543 @cindex file attributes, changing
11544 @cindex attributes, file
11546 A file is not merely its contents, a name, and a file type
11547 (@pxref{Special file types}). A file also has an owner (a user ID), a
11548 group (a group ID), permissions (what the owner can do with the file,
11549 what people in the group can do, and what everyone else can do), various
11550 timestamps, and other information. Collectively, we call these a file's
11553 These commands change file attributes.
11556 * chown invocation:: Change file owners and groups.
11557 * chgrp invocation:: Change file groups.
11558 * chmod invocation:: Change access permissions.
11559 * touch invocation:: Change file timestamps.
11563 @node chown invocation
11564 @section @command{chown}: Change file owner and group
11567 @cindex file ownership, changing
11568 @cindex group ownership, changing
11569 @cindex changing file ownership
11570 @cindex changing group ownership
11572 @command{chown} changes the user and/or group ownership of each given @var{file}
11573 to @var{new-owner} or to the user and group of an existing reference file.
11577 chown [@var{option}]@dots{} @{@var{new-owner} | --reference=@var{ref_file}@}@c
11581 If used, @var{new-owner} specifies the new owner and/or group as follows
11582 (with no embedded white space):
11585 [@var{owner}] [ : [@var{group}] ]
11592 If only an @var{owner} (a user name or numeric user ID) is given, that
11593 user is made the owner of each given file, and the files' group is not
11596 @item owner@samp{:}group
11597 If the @var{owner} is followed by a colon and a @var{group} (a
11598 group name or numeric group ID), with no spaces between them, the group
11599 ownership of the files is changed as well (to @var{group}).
11601 @item owner@samp{:}
11602 If a colon but no group name follows @var{owner}, that user is
11603 made the owner of the files and the group of the files is changed to
11604 @var{owner}'s login group.
11606 @item @samp{:}group
11607 If the colon and following @var{group} are given, but the owner
11608 is omitted, only the group of the files is changed; in this case,
11609 @command{chown} performs the same function as @command{chgrp}.
11612 If only a colon is given, or if @var{new-owner} is empty, neither the
11613 owner nor the group is changed.
11617 If @var{owner} or @var{group} is intended to represent a numeric user
11618 or group ID, then you may specify it with a leading @samp{+}.
11619 @xref{Disambiguating names and IDs}.
11621 Some older scripts may still use @samp{.} in place of the @samp{:} separator.
11622 POSIX 1003.1-2001 (@pxref{Standards conformance}) does not
11623 require support for that, but for backward compatibility GNU
11624 @command{chown} supports @samp{.} so long as no ambiguity results,
11625 although it issues a warning and support may be removed in future versions.
11626 New scripts should avoid the use of @samp{.} because it is not
11627 portable, and because it has undesirable results if the entire
11628 @var{owner@samp{.}group} happens to identify a user whose name
11631 @macro chownGroupRestrictions
11632 It is system dependent whether a user can change the group to an arbitrary one,
11633 or the more portable behavior of being restricted to setting a group of
11634 which the user is a member.
11636 @chownGroupRestrictions
11638 The @command{chown} command sometimes clears the set-user-ID or
11639 set-group-ID permission bits. This behavior depends on the policy and
11640 functionality of the underlying @code{chown} system call, which may
11641 make system-dependent file mode modifications outside the control of
11642 the @command{chown} command. For example, the @command{chown} command
11643 might not affect those bits when invoked by a user with appropriate
11644 privileges, or when the
11645 bits signify some function other than executable permission (e.g.,
11646 mandatory locking).
11647 When in doubt, check the underlying system behavior.
11649 The program accepts the following options. Also see @ref{Common options}.
11657 @cindex changed owners, verbosely describing
11658 Verbosely describe the action for each @var{file} whose ownership
11667 @cindex error messages, omitting
11668 Do not print error messages about files whose ownership cannot be
11671 @macro chownFromOption{cmd}
11672 @item --from=@var{old-owner}
11674 @cindex symbolic links, changing owner
11675 Change a @var{file}'s ownership only if it has current attributes specified
11676 by @var{old-owner}. @var{old-owner} has the same form as @var{new-owner}
11678 This option is useful primarily from a security standpoint in that
11679 it narrows considerably the window of potential abuse.
11680 For example, to reflect a user ID numbering change for one user's files
11681 without an option like this, @code{root} might run
11684 find / -owner OLDUSER -print0 | xargs -0 \cmd\ -h NEWUSER
11687 But that is dangerous because the interval between when the @command{find}
11688 tests the existing file's owner and when the @command{\cmd\} is actually run
11689 may be quite large.
11690 One way to narrow the gap would be to invoke \cmd\ for each file
11694 find / -owner OLDUSER -exec \cmd\ -h NEWUSER @{@} \\;
11697 But that is very slow if there are many affected files.
11698 With this option, it is safer (the gap is narrower still)
11699 though still not perfect:
11702 \cmd\ -h -R --from=OLDUSER NEWUSER /
11705 @chownFromOption{chown}
11707 @macro symlinkRefOpts
11708 @item --dereference
11709 @opindex --dereference
11710 @cindex symbolic links, changing owner, group
11712 Do not act on symbolic links themselves but rather on what they point to.
11713 This is the default when not operating recursively.
11714 @warnOptDerefWithRec
11717 @itemx --no-dereference
11719 @opindex --no-dereference
11720 @cindex symbolic links, changing owner
11722 Act on symbolic links themselves instead of what they point to.
11723 This mode relies on the @code{lchown} system call.
11724 On systems that do not provide the @code{lchown} system call,
11725 no diagnostic is issued, but see @option{--verbose}.
11729 @item --preserve-root
11730 @opindex --preserve-root
11731 @cindex root directory, disallow recursive modification
11732 Fail upon any attempt to recursively change the root directory, @file{/}.
11733 Without @option{--recursive}, this option has no effect.
11734 @xref{Treating / specially}.
11736 @item --no-preserve-root
11737 @opindex --no-preserve-root
11738 @cindex root directory, allow recursive modification
11739 Cancel the effect of any preceding @option{--preserve-root} option.
11740 @xref{Treating / specially}.
11742 @item --reference=@var{ref_file}
11743 @opindex --reference
11744 Change the user and group of each @var{file} to be the same as those of
11745 @var{ref_file}. If @var{ref_file} is a symbolic link, do not use the
11746 user and group of the symbolic link, but rather those of the file it
11753 Output a diagnostic for every file processed.
11754 If a symbolic link is encountered during a recursive traversal
11755 on a system without the @code{lchown} system call, and @option{--no-dereference}
11756 is in effect, then issue a diagnostic saying neither the symbolic link nor
11757 its referent is being changed.
11762 @opindex --recursive
11763 @cindex recursively changing file ownership
11764 Recursively change ownership of directories and their contents.
11767 @xref{Traversing symlinks}.
11770 @warnOptDerefWithRec
11771 @xref{Traversing symlinks}.
11775 @xref{Traversing symlinks}.
11784 # Change the owner of /u to "root".
11787 # Likewise, but also change its group to "staff".
11788 chown root:staff /u
11790 # Change the owner of /u and subfiles to "root".
11795 @node chgrp invocation
11796 @section @command{chgrp}: Change group ownership
11799 @cindex group ownership, changing
11800 @cindex changing group ownership
11802 @command{chgrp} changes the group ownership of each given @var{file}
11803 to @var{group} (which can be either a group name or a numeric group ID)
11804 or to the group of an existing reference file. @xref{chown invocation}.
11808 chgrp [@var{option}]@dots{} @{@var{group} | --reference=@var{ref_file}@}@c
11812 If @var{group} is intended to represent a
11813 numeric group ID, then you may specify it with a leading @samp{+}.
11814 @xref{Disambiguating names and IDs}.
11816 @chownGroupRestrictions
11818 The program accepts the following options. Also see @ref{Common options}.
11826 @cindex changed files, verbosely describing
11827 Verbosely describe the action for each @var{file} whose group actually
11836 @cindex error messages, omitting
11837 Do not print error messages about files whose group cannot be
11840 @chownFromOption{chgrp}
11844 @item --preserve-root
11845 @opindex --preserve-root
11846 @cindex root directory, disallow recursive modification
11847 Fail upon any attempt to recursively change the root directory, @file{/}.
11848 Without @option{--recursive}, this option has no effect.
11849 @xref{Treating / specially}.
11851 @item --no-preserve-root
11852 @opindex --no-preserve-root
11853 @cindex root directory, allow recursive modification
11854 Cancel the effect of any preceding @option{--preserve-root} option.
11855 @xref{Treating / specially}.
11857 @item --reference=@var{ref_file}
11858 @opindex --reference
11859 Change the group of each @var{file} to be the same as that of
11860 @var{ref_file}. If @var{ref_file} is a symbolic link, do not use the
11861 group of the symbolic link, but rather that of the file it refers to.
11867 Output a diagnostic for every file processed.
11868 If a symbolic link is encountered during a recursive traversal
11869 on a system without the @code{lchown} system call, and @option{--no-dereference}
11870 is in effect, then issue a diagnostic saying neither the symbolic link nor
11871 its referent is being changed.
11876 @opindex --recursive
11877 @cindex recursively changing group ownership
11878 Recursively change the group ownership of directories and their contents.
11881 @xref{Traversing symlinks}.
11884 @warnOptDerefWithRec
11885 @xref{Traversing symlinks}.
11889 @xref{Traversing symlinks}.
11898 # Change the group of /u to "staff".
11901 # Change the group of /u and subfiles to "staff".
11906 @node chmod invocation
11907 @section @command{chmod}: Change access permissions
11910 @cindex changing access permissions
11911 @cindex access permissions, changing
11912 @cindex permissions, changing access
11914 @command{chmod} changes the access permissions of the named files. Synopsis:
11917 chmod [@var{option}]@dots{} @{@var{mode} | --reference=@var{ref_file}@}@c
11921 @cindex symbolic links, permissions of
11922 @command{chmod} doesn't change the permissions of symbolic links, since
11923 the @command{chmod} system call cannot change their permissions on most systems,
11924 and most systems ignore permissions of symbolic links.
11925 However, for each symbolic link listed on the command
11926 line, @command{chmod} changes the permissions of the pointed-to file.
11927 In contrast, @command{chmod} ignores symbolic links encountered during
11928 recursive directory traversals. Options that modify this behavior
11929 are described below.
11931 Only a process whose effective user ID matches the user ID of the file,
11932 or a process with appropriate privileges, is permitted to change the
11933 file mode bits of a file.
11935 A successful use of @command{chmod} clears the set-group-ID bit of a
11936 regular file if the file's group ID does not match the user's
11937 effective group ID or one of the user's supplementary group IDs,
11938 unless the user has appropriate privileges. Additional restrictions
11939 may cause the set-user-ID and set-group-ID bits of @var{mode} or
11940 @var{ref_file} to be ignored. This behavior depends on the policy and
11941 functionality of the underlying @code{chmod} system call. When in
11942 doubt, check the underlying system behavior.
11944 If used, @var{mode} specifies the new file mode bits.
11945 For details, see the section on @ref{File permissions}.
11946 If you really want @var{mode} to have a leading @samp{-}, you should
11947 use @option{--} first, e.g., @samp{chmod -- -w file}. Typically,
11948 though, @samp{chmod a-w file} is preferable, and @command{chmod -w
11949 file} (without the @option{--}) complains if it behaves differently
11950 from what @samp{chmod a-w file} would do.
11952 The program accepts the following options. Also see @ref{Common options}.
11960 Verbosely describe the action for each @var{file} whose permissions
11963 @item --dereference
11964 @opindex --dereference
11965 @cindex symbolic links, changing mode
11966 Do not act on symbolic links themselves but rather on what they point to.
11967 This is the default for command line arguments, but not for
11968 symbolic links encountered when recursing.
11969 @warnOptDerefWithRec
11972 @itemx --no-dereference
11974 @opindex --no-dereference
11975 @cindex symbolic links, changing mode
11976 Act on symbolic links themselves instead of what they point to.
11977 On systems that do not support this, no diagnostic is issued,
11978 but see @option{--verbose}.
11986 @cindex error messages, omitting
11987 Do not print error messages about files whose permissions cannot be
11990 @item --preserve-root
11991 @opindex --preserve-root
11992 @cindex root directory, disallow recursive modification
11993 Fail upon any attempt to recursively change the root directory, @file{/}.
11994 Without @option{--recursive}, this option has no effect.
11995 @xref{Treating / specially}.
11997 @item --no-preserve-root
11998 @opindex --no-preserve-root
11999 @cindex root directory, allow recursive modification
12000 Cancel the effect of any preceding @option{--preserve-root} option.
12001 @xref{Treating / specially}.
12007 Verbosely describe the action or non-action taken for every @var{file}.
12009 @item --reference=@var{ref_file}
12010 @opindex --reference
12011 Change the mode of each @var{file} to be the same as that of @var{ref_file}.
12012 @xref{File permissions}.
12013 If @var{ref_file} is a symbolic link, do not use the mode
12014 of the symbolic link, but rather that of the file it refers to.
12019 @opindex --recursive
12020 @cindex recursively changing access permissions
12021 Recursively change permissions of directories and their contents.
12025 @xref{Traversing symlinks}.
12028 @warnOptDerefWithRec
12029 @xref{Traversing symlinks}.
12032 @xref{Traversing symlinks}.
12041 # Change file permissions of FOO to be world readable
12042 # and user writable, with no other permissions.
12046 # Add user and group execute permissions to FOO.
12050 # Set file permissions of DIR and subsidiary files to
12051 # be the umask default, assuming execute permissions for
12052 # directories and for files already executable.
12053 chmod -R a=,+rwX dir
12057 @node touch invocation
12058 @section @command{touch}: Change file timestamps
12061 @cindex changing file timestamps
12062 @cindex file timestamps, changing
12063 @cindex timestamps, changing file
12065 @command{touch} changes the access and/or modification timestamps of the
12066 specified files. Synopsis:
12069 touch [@var{option}]@dots{} @var{file}@dots{}
12072 @cindex empty files, creating
12073 Any @var{file} argument that does not exist is created empty, unless
12074 option @option{--no-create} (@option{-c}) or @option{--no-dereference}
12075 (@option{-h}) was in effect.
12077 A @var{file} argument string of @samp{-} is handled specially and
12078 causes @command{touch} to change the times of the file associated with
12081 By default, @command{touch} sets file timestamps to the current time.
12082 Because @command{touch} acts on its operands left to right, the
12083 resulting timestamps of earlier and later operands may disagree.
12085 @cindex permissions, for changing file timestamps
12086 When setting file timestamps to the current time, @command{touch} can
12087 change the timestamps for files that the user does not own but has
12088 write permission for. Otherwise, the user must own the files. Some
12089 older systems have a further restriction: the user must own the files
12090 unless both the access and modification timestamps are being set to the
12093 The @command{touch} command cannot set a file's status change timestamp to
12094 a user-specified value, and cannot change the file's birth time (if
12095 supported) at all. Also, @command{touch} has issues similar to those
12096 affecting all programs that update file timestamps. For example,
12097 @command{touch} may set a file's timestamp to a value that differs
12098 slightly from the requested time. @xref{File timestamps}.
12101 Timestamps assume the time zone rules specified by the @env{TZ}
12102 environment variable, or by the system default rules if @env{TZ} is
12103 not set. @xref{TZ Variable,, Specifying the Time Zone with @env{TZ},
12104 libc, The GNU C Library Reference Manual}.
12105 You can avoid ambiguities during
12106 daylight saving transitions by using UTC timestamps.
12108 The program accepts the following options. Also see @ref{Common options}.
12113 @itemx --time=atime
12114 @itemx --time=access
12118 @opindex atime@r{, changing}
12119 @opindex access @r{time, changing}
12120 @opindex use @r{time, changing}
12121 Change the access timestamp only. @xref{File timestamps}.
12126 @opindex --no-create
12127 Do not warn about or create files that do not exist.
12129 @item -d @var{time}
12130 @itemx --date=@var{time}
12134 Use @var{time} instead of the current time. It can contain month names,
12135 time zones, @samp{am} and @samp{pm}, @samp{yesterday}, etc. For
12136 example, @option{--date="2020-07-21 14:19:13.489392193 +0530"}
12137 specifies the instant of time that is 489,392,193 nanoseconds after
12138 July 21, 2020 at 2:19:13 PM in a time zone that is 5 hours and 30
12139 minutes east of UTC@. @xref{Date input formats}.
12140 File systems that do not support high-resolution timestamps
12141 silently ignore any excess precision here.
12145 @cindex BSD @command{touch} compatibility
12146 Ignored; for compatibility with BSD versions of @command{touch}.
12149 @itemx --no-dereference
12151 @opindex --no-dereference
12152 @cindex symbolic links, changing time
12154 Attempt to change the timestamps of a symbolic link, rather than what
12155 the link refers to. When using this option, empty files are not
12156 created, but option @option{-c} must also be used to avoid warning
12157 about files that do not exist. Not all systems support changing the
12158 timestamps of symlinks, since underlying system support for this
12159 action was not required until POSIX 2008. Also, on some
12160 systems, the mere act of examining a symbolic link changes the access
12161 timestamp, such that only changes to the modification timestamp will persist
12162 long enough to be observable. When coupled with option @option{-r}, a
12163 reference timestamp is taken from a symbolic link rather than the file
12167 @itemx --time=mtime
12168 @itemx --time=modify
12171 @opindex mtime@r{, changing}
12172 @opindex modify @r{time, changing}
12173 Change the modification timestamp only.
12175 @item -r @var{file}
12176 @itemx --reference=@var{file}
12178 @opindex --reference
12179 Use the times of the reference @var{file} instead of the current time.
12180 If this option is combined with the @option{--date=@var{time}}
12181 (@option{-d @var{time}}) option, the reference @var{file}'s time is
12182 the origin for any relative @var{time}s given, but is otherwise ignored.
12183 For example, @samp{-r foo -d '-5 seconds'} specifies a timestamp
12184 equal to five seconds before the corresponding timestamp for @file{foo}.
12185 If @var{file} is a symbolic link, the reference timestamp is taken
12186 from the target of the symlink, unless @option{-h} was also in effect.
12188 @item -t [[@var{cc}]@var{yy}]@var{mmddhhmm}[.@var{ss}]
12189 @cindex leap seconds
12190 Use the argument (optional four-digit or two-digit years, months,
12191 days, hours, minutes, optional seconds) instead of the current time.
12192 If the year is specified with only two digits, then @var{cc}
12193 is 20 for years in the range 0 @dots{} 68, and 19 for years in
12194 69 @dots{} 99. If no digits of the year are specified,
12195 the argument is interpreted as a date in the current year.
12196 On the atypical systems that support leap seconds, @var{ss} may be
12201 @vindex _POSIX2_VERSION
12202 On systems predating POSIX 1003.1-2001,
12203 @command{touch} supports an obsolete syntax, as follows.
12204 If no timestamp is given with any of the @option{-d}, @option{-r}, or
12205 @option{-t} options, and if there are two or more @var{file}s and the
12206 first @var{file} is of the form @samp{@var{mmddhhmm}[@var{yy}]} and this
12207 would be a valid argument to the @option{-t} option (if the @var{yy}, if
12208 any, were moved to the front), and if the represented year
12209 is in the range 1969--1999, that argument is interpreted as the time
12210 for the other files instead of as a file name.
12211 Although this obsolete behavior can be controlled with the
12212 @env{_POSIX2_VERSION} environment variable (@pxref{Standards
12213 conformance}), portable scripts should avoid commands whose
12214 behavior depends on this variable.
12215 For example, use @samp{touch ./12312359 main.c} or @samp{touch -t
12216 12312359 main.c} rather than the ambiguous @samp{touch 12312359 main.c}.
12221 @node File space usage
12222 @chapter File space usage
12224 @cindex File space usage
12227 No file system can hold an infinite amount of data. These commands report
12228 how much storage is in use or available, report other file and
12229 file status information, and write buffers to file systems.
12232 * df invocation:: Report file system space usage.
12233 * du invocation:: Estimate file space usage.
12234 * stat invocation:: Report file or file system status.
12235 * sync invocation:: Synchronize cached writes to persistent storage.
12236 * truncate invocation:: Shrink or extend the size of a file.
12240 @node df invocation
12241 @section @command{df}: Report file system space usage
12244 @cindex file system usage
12245 @cindex disk usage by file system
12247 @command{df} reports the amount of space used and available on
12248 file systems. Synopsis:
12251 df [@var{option}]@dots{} [@var{file}]@dots{}
12254 With no arguments, @command{df} reports the space used and available on all
12255 currently mounted file systems (of all types). Otherwise, @command{df}
12256 reports on the file system containing each argument @var{file}.
12258 Normally the space is printed in units of
12259 1024 bytes, but this can be overridden (@pxref{Block size}).
12260 Non-integer quantities are rounded up to the next higher unit.
12262 For bind mounts and without arguments, @command{df} only outputs the statistics
12263 for that device with the shortest mount point name in the list of file systems
12264 (@var{mtab}), i.e., it hides duplicate entries, unless the @option{-a} option is
12267 With the same logic, @command{df} elides a mount entry of a dummy pseudo device
12268 if there is another mount entry of a real block device for that mount point with
12269 the same device number, e.g. the early-boot pseudo file system @samp{rootfs} is
12270 not shown per default when already the real root device has been mounted.
12272 @cindex disk device file
12273 @cindex device file
12274 If an argument @var{file} resolves to a special file containing
12275 a mounted file system, @command{df} shows the space available on that
12276 file system rather than on the file system containing the device node.
12277 GNU @command{df} does not attempt to determine the usage
12278 on unmounted file systems, because on most kinds of systems doing so
12279 requires extremely non-portable intimate knowledge of file system structures.
12281 The program accepts the following options. Also see @ref{Common options}.
12289 @cindex ignore file systems
12290 Include in the listing dummy, duplicate, or inaccessible file systems, which
12291 are omitted by default. Dummy file systems are typically special purpose
12292 pseudo file systems such as @samp{/proc}, with no associated storage.
12293 Duplicate file systems are local or remote file systems that are mounted
12294 at separate locations in the local file hierarchy, or bind mounted locations.
12295 Inaccessible file systems are those which are mounted but subsequently
12296 over-mounted by another file system at that point, or otherwise inaccessible
12297 due to permissions of the mount point etc.
12299 @item -B @var{size}
12300 @itemx --block-size=@var{size}
12302 @opindex --block-size
12303 @cindex file system sizes
12304 Scale sizes by @var{size} before printing them (@pxref{Block size}).
12305 For example, @option{-BG} prints sizes in units of 1,073,741,824 bytes.
12311 Equivalent to @option{--si}.
12317 @cindex inode usage
12318 List inode usage information instead of block usage. An inode (short
12319 for index node) contains information about a file such as its owner,
12320 permissions, timestamps, and location on the file system.
12324 @cindex kibibytes for file system sizes
12325 Print sizes in 1024-byte blocks, overriding the default block size
12326 (@pxref{Block size}).
12327 This option is equivalent to @option{--block-size=1K}.
12333 @cindex file system types, limiting output to certain
12334 Limit the listing to local file systems. By default, remote file systems
12339 @cindex file system space, retrieving old data more quickly
12340 Do not invoke the @code{sync} system call before getting any usage data.
12341 This may make @command{df} run significantly faster on systems with many
12342 file systems, but on some systems (notably Solaris) the results may be slightly
12343 out of date. This is the default.
12346 @itemx --output[=@var{field_list}]
12348 Use the output format defined by @var{field_list}, or print all fields if
12349 @var{field_list} is omitted. In the latter case, the order of the columns
12350 conforms to the order of the field descriptions below.
12352 The use of the @option{--output} together with each of the options @option{-i},
12353 @option{-P}, and @option{-T} is mutually exclusive.
12355 FIELD_LIST is a comma-separated list of columns to be included in @command{df}'s
12356 output and therefore effectively controls the order of output columns.
12357 Each field can thus be used at the place of choice, but yet must only be
12360 Valid field names in the @var{field_list} are:
12363 The source of the mount point, usually a device.
12368 Total number of inodes.
12370 Number of used inodes.
12372 Number of available inodes.
12374 Percentage of @var{iused} divided by @var{itotal}.
12377 Total number of blocks.
12379 Number of used blocks.
12381 Number of available blocks.
12383 Percentage of @var{used} divided by @var{size}.
12386 The file name if specified on the command line.
12391 The fields for block and inodes statistics are affected by the scaling
12392 options like @option{-h} as usual.
12394 The definition of the @var{field_list} can even be split among several
12395 @option{--output} uses.
12399 # Print the TARGET (i.e., the mount point) along with their percentage
12400 # statistic regarding the blocks and the inodes.
12401 df --out=target --output=pcent,ipcent
12403 # Print all available fields.
12409 @itemx --portability
12411 @opindex --portability
12412 @cindex one-line output format
12413 @cindex POSIX output format
12414 @cindex portable output format
12415 @cindex output format, portable
12416 Use the POSIX output format. This is like the default format except
12421 The information about each file system is always printed on exactly
12422 one line; a mount device is never put on a line by itself. This means
12423 that if the mount device name is more than 20 characters long (e.g., for
12424 some network mounts), the columns are misaligned.
12427 The labels in the header output line are changed to conform to POSIX.
12430 The default block size and output format are unaffected by the
12431 @env{DF_BLOCK_SIZE}, @env{BLOCK_SIZE} and @env{BLOCKSIZE} environment
12432 variables. However, the default block size is still affected by
12433 @env{POSIXLY_CORRECT}: it is 512 if @env{POSIXLY_CORRECT} is set, 1024
12434 otherwise. @xref{Block size}.
12441 @cindex file system space, retrieving current data more slowly
12442 Invoke the @code{sync} system call before getting any usage data. On
12443 some systems (notably Solaris), doing this yields more up to date results,
12444 but in general this option makes @command{df} much slower, especially when
12445 there are many or very busy file systems.
12449 @cindex grand total of file system size, usage and available space
12450 Print a grand total of all arguments after all arguments have
12451 been processed. This can be used to find out the total size, usage
12452 and available space of all listed devices. If no arguments are specified
12453 df will try harder to elide file systems insignificant to the total
12454 available space, by suppressing duplicate remote file systems.
12456 For the grand total line, @command{df} prints @samp{"total"} into the
12457 @var{source} column, and @samp{"-"} into the @var{target} column.
12458 If there is no @var{source} column (see @option{--output}), then
12459 @command{df} prints @samp{"total"} into the @var{target} column,
12462 @item -t @var{fstype}
12463 @itemx --type=@var{fstype}
12466 @cindex file system types, limiting output to certain
12467 Limit the listing to file systems of type @var{fstype}. Multiple
12468 file system types can be specified by giving multiple @option{-t} options.
12469 By default, nothing is omitted.
12472 @itemx --print-type
12474 @opindex --print-type
12475 @cindex file system types, printing
12476 Print each file system's type. The types printed here are the same ones
12477 you can include or exclude with @option{-t} and @option{-x}. The particular
12478 types printed are whatever is supported by the system. Here are some of
12479 the common names (this list is certainly not exhaustive):
12484 @cindex NFS file system type
12485 An NFS file system, i.e., one mounted over a network from another
12486 machine. This is the one type name which seems to be used uniformly by
12489 @item ext2@r{, }ext3@r{, }ext4@r{, }xfs@r{, }btrfs@dots{}
12490 @cindex Linux file system types
12491 @cindex local file system types
12492 @opindex ext2 @r{file system type}
12493 @opindex ext3 @r{file system type}
12494 @opindex ext4 @r{file system type}
12495 @opindex xfs @r{file system type}
12496 @opindex btrfs @r{file system type}
12497 A file system on a locally-mounted device. (The system might even
12498 support more than one type here; GNU/Linux does.)
12500 @item iso9660@r{, }cdfs
12501 @cindex CD-ROM file system type
12502 @cindex DVD file system type
12503 @cindex ISO9660 file system type
12504 @opindex iso9660 @r{file system type}
12505 @opindex cdfs @r{file system type}
12506 A file system on a CD or DVD drive. HP-UX uses @samp{cdfs}, most other
12507 systems use @samp{iso9660}.
12510 @cindex NTFS file system
12511 @cindex DOS file system
12512 @cindex MS-DOS file system
12513 @cindex MS-Windows file system
12514 @opindex ntfs @r{file system file}
12515 @opindex fat @r{file system file}
12516 File systems used by MS-Windows / MS-DOS.
12520 @item -x @var{fstype}
12521 @itemx --exclude-type=@var{fstype}
12523 @opindex --exclude-type
12524 Limit the listing to file systems not of type @var{fstype}.
12525 Multiple file system types can be eliminated by giving multiple
12526 @option{-x} options. By default, no file system types are omitted.
12529 Ignored; for compatibility with System V versions of @command{df}.
12533 @command{df} is installed only on systems that have usable mount tables,
12534 so portable scripts should not rely on its existence.
12537 Failure includes the case where no output is generated, so you can
12538 inspect the exit status of a command like @samp{df -t ext3 -t reiserfs
12539 @var{dir}} to test whether @var{dir} is on a file system of type
12540 @samp{ext3} or @samp{reiserfs}.
12542 Since the list of file systems (@var{mtab}) is needed to determine the
12543 file system type, failure includes the cases when that list cannot
12544 be read and one or more of the options @option{-a}, @option{-l}, @option{-t}
12545 or @option{-x} is used together with a file name argument.
12548 @node du invocation
12549 @section @command{du}: Estimate file space usage
12552 @cindex file space usage
12553 @cindex disk usage for files
12555 @command{du} reports the space needed to represent a set of files.
12559 du [@var{option}]@dots{} [@var{file}]@dots{}
12562 With no arguments, @command{du} reports the space needed to represent
12563 the files at or under the current directory.
12564 Normally the space is printed in units of
12565 1024 bytes, but this can be overridden (@pxref{Block size}).
12566 Non-integer quantities are rounded up to the next higher unit.
12568 If two or more hard links point to the same file, only one of the hard
12569 links is counted. The @var{file} argument order affects which links
12570 are counted, and changing the argument order may change the numbers
12571 and entries that @command{du} outputs.
12573 The program accepts the following options. Also see @ref{Common options}.
12583 Show counts for all files, not just directories.
12585 @item --apparent-size
12586 @opindex --apparent-size
12587 Print apparent sizes, rather than file system usage. The apparent size of a
12588 file is the number of bytes reported by @code{wc -c} on regular files,
12589 or more generally, @code{ls -l --block-size=1} or @code{stat --format=%s}.
12590 For example, a file containing the word @samp{zoo} with no newline would,
12591 of course, have an apparent size of 3. Such a small file may require
12592 anywhere from 0 to 16 KiB or more of file system space, depending on
12593 the type and configuration of the file system on which the file resides.
12594 However, a sparse file created with this command:
12597 dd bs=1 seek=2GiB if=/dev/null of=big
12601 has an apparent size of 2 GiB, yet on most modern
12602 file systems, it actually uses almost no space.
12604 Apparent sizes are meaningful only for regular files and symbolic links.
12605 Other file types do not contribute to apparent size.
12607 @item -B @var{size}
12608 @itemx --block-size=@var{size}
12610 @opindex --block-size
12612 Scale sizes by @var{size} before printing them (@pxref{Block size}).
12613 For example, @option{-BG} prints sizes in units of 1,073,741,824 bytes.
12619 Equivalent to @code{--apparent-size --block-size=1}.
12625 @cindex grand total of file system space
12626 Print a grand total of all arguments after all arguments have
12627 been processed. This can be used to find out the total file system usage of
12628 a given set of files or directories.
12631 @itemx --dereference-args
12633 @opindex --dereference-args
12634 Dereference symbolic links that are command line arguments.
12635 Does not affect other symbolic links. This is helpful for finding
12636 out the file system usage of directories, such as @file{/usr/tmp}, which
12637 are often symbolic links.
12639 @item -d @var{depth}
12640 @itemx --max-depth=@var{depth}
12641 @opindex -d @var{depth}
12642 @opindex --max-depth=@var{depth}
12643 @cindex limiting output of @command{du}
12644 Show the total for each directory (and file if @option{--all}) that is at
12645 most MAX_DEPTH levels down from the root of the hierarchy. The root
12646 is at level 0, so @code{du --max-depth=0} is equivalent to @code{du -s}.
12648 @c --files0-from=FILE
12649 @filesZeroFromOption{du,, with the @option{--total} (@option{-c}) option}
12653 Equivalent to @option{--dereference-args} (@option{-D}).
12659 @cindex inode usage, dereferencing in @command{du}
12660 List inode usage information instead of block usage.
12661 This option is useful for finding directories which contain many files, and
12662 therefore eat up most of the inodes space of a file system (see @command{df},
12663 option @option{--inodes}).
12664 It can well be combined with the options @option{-a}, @option{-c},
12665 @option{-h}, @option{-l}, @option{-s}, @option{-S}, @option{-t} and
12666 @option{-x}; however, passing other options regarding the block size, for
12667 example @option{-b}, @option{-m} and @option{--apparent-size}, is ignored.
12671 @cindex kibibytes for file sizes
12672 Print sizes in 1024-byte blocks, overriding the default block size
12673 (@pxref{Block size}).
12674 This option is equivalent to @option{--block-size=1K}.
12677 @itemx --dereference
12679 @opindex --dereference
12680 @cindex symbolic links, dereferencing in @command{du}
12681 Dereference symbolic links (show the file system space used by the file
12682 or directory that the link points to instead of the space used by
12686 @itemx --count-links
12688 @opindex --count-links
12689 @cindex hard links, counting in @command{du}
12690 Count the size of all files, even if they have appeared already (as a
12695 @cindex mebibytes for file sizes
12696 Print sizes in 1,048,576-byte blocks, overriding the default block size
12697 (@pxref{Block size}).
12698 This option is equivalent to @option{--block-size=1M}.
12701 @itemx --no-dereference
12703 @opindex --no-dereference
12704 @cindex symbolic links, dereferencing in @command{du}
12705 For each symbolic link encountered by @command{du},
12706 consider the file system space used by the symbolic link itself.
12709 @itemx --separate-dirs
12711 @opindex --separate-dirs
12712 Normally, in the output of @command{du} (when not using @option{--summarize}),
12713 the size listed next to a directory name, @var{d}, represents the sum
12714 of sizes of all entries beneath @var{d} as well as the size of @var{d} itself.
12715 With @option{--separate-dirs}, the size reported for a directory name,
12716 @var{d}, will exclude the size of any subdirectories.
12723 @opindex --summarize
12724 Display only a total for each argument.
12726 @item -t @var{size}
12727 @itemx --threshold=@var{size}
12729 @opindex --threshold
12730 Exclude entries based on a given @var{size}. The @var{size} refers to used
12731 blocks in normal mode (@pxref{Block size}), or inodes count in conjunction
12732 with the @option{--inodes} option.
12734 If @var{size} is positive, then @command{du} will only print entries with a size
12735 greater than or equal to that.
12737 If @var{size} is negative, then @command{du} will only print entries with a size
12738 smaller than or equal to that.
12740 Although GNU @command{find} can be used to find files of a certain size,
12741 @command{du}'s @option{--threshold} option can be used to also filter
12742 directories based on a given size.
12744 When combined with the @option{--apparent-size} option, the
12745 @option{--threshold} option elides entries based on apparent size.
12746 When combined with the @option{--inodes} option, it elides entries
12747 based on inode counts.
12749 Here's how you would use @option{--threshold} to find directories with a size
12750 greater than or equal to 200 megabytes:
12753 du --threshold=200MB
12756 Here's how you would use @option{--threshold} to find directories and
12757 files -- the @option{-a} -- with an apparent size smaller than or
12758 equal to 500 bytes:
12761 du -a -t -500 --apparent-size
12764 Here's how you would use @option{--threshold} to find directories on the root
12765 file system with more than 20000 inodes used in the directory tree below:
12768 du --inodes -x --threshold=20000 /
12774 @cindex last modified dates, displaying in @command{du}
12775 Show the most recent modification timestamp (mtime) of any file in the
12776 directory, or any of its subdirectories. @xref{File timestamps}.
12779 @itemx --time=status
12782 @opindex ctime@r{, show the most recent}
12783 @opindex status time@r{, show the most recent}
12784 @opindex use time@r{, show the most recent}
12785 Show the most recent status change timestamp (ctime) of any file in
12786 the directory, or any of its subdirectories. @xref{File timestamps}.
12789 @itemx --time=access
12791 @opindex atime@r{, show the most recent}
12792 @opindex access timestamp@r{, show the most recent}
12793 Show the most recent access timestamp (atime) of any file in the
12794 directory, or any of its subdirectories. @xref{File timestamps}.
12796 @item --time-style=@var{style}
12797 @opindex --time-style
12799 List timestamps in style @var{style}. This option has an effect only if
12800 the @option{--time} option is also specified. The @var{style} should
12801 be one of the following:
12804 @item +@var{format}
12806 List timestamps using @var{format}, where @var{format} is interpreted
12807 like the format argument of @command{date} (@pxref{date invocation}).
12808 For example, @option{--time-style="+%Y-%m-%d %H:%M:%S"} causes
12809 @command{du} to list timestamps like @samp{2020-07-21 23:45:56}. As
12810 with @command{date}, @var{format}'s interpretation is affected by the
12811 @env{LC_TIME} locale category.
12814 List timestamps in full using ISO 8601-like date, time, and time zone
12815 components with nanosecond precision, e.g., @samp{2020-07-21
12816 23:45:56.477817180 -0400}. This style is equivalent to
12817 @samp{+%Y-%m-%d %H:%M:%S.%N %z}.
12820 List ISO 8601 date and time components with minute precision, e.g.,
12821 @samp{2020-07-21 23:45}. These timestamps are shorter than
12822 @samp{full-iso} timestamps, and are usually good enough for everyday
12823 work. This style is equivalent to @samp{+%Y-%m-%d %H:%M}.
12826 List ISO 8601 dates for timestamps, e.g., @samp{2020-07-21}.
12827 This style is equivalent to @samp{+%Y-%m-%d}.
12831 You can specify the default value of the @option{--time-style} option
12832 with the environment variable @env{TIME_STYLE}; if @env{TIME_STYLE} is not set
12833 the default style is @samp{long-iso}. For compatibility with @command{ls},
12834 if @env{TIME_STYLE} begins with @samp{+} and contains a newline,
12835 the newline and any later characters are ignored; if @env{TIME_STYLE}
12836 begins with @samp{posix-} the @samp{posix-} is ignored; and if
12837 @env{TIME_STYLE} is @samp{locale} it is ignored.
12839 @item -X @var{file}
12840 @itemx --exclude-from=@var{file}
12841 @opindex -X @var{file}
12842 @opindex --exclude-from=@var{file}
12843 @cindex excluding files from @command{du}
12844 Like @option{--exclude}, except take the patterns to exclude from @var{file},
12845 one per line. If @var{file} is @samp{-}, take the patterns from standard
12848 @item --exclude=@var{pattern}
12849 @opindex --exclude=@var{pattern}
12850 @cindex excluding files from @command{du}
12851 When recursing, skip subdirectories or files matching @var{pattern}.
12852 For example, @code{du --exclude='*.o'} excludes files whose names
12856 @itemx --one-file-system
12858 @opindex --one-file-system
12859 @cindex one file system, restricting @command{du} to
12860 Skip directories that are on different file systems from the one that
12861 the argument being processed is on.
12865 Since @command{du} relies on information reported by the operating
12866 system, its output might not reflect the space consumed in the
12867 underlying devices. For example;
12871 Operating systems normally do not report device space consumed by
12872 duplicate or backup blocks, error correction bits, and so forth.
12873 This causes @command{du} to underestimate the device space actually used.
12876 @cindex copy-on-write and @command{du}
12877 In file systems that use copy-on-write, if two distinct files share
12878 space the output of @command{du} typically counts the space that would
12879 be consumed if all files' non-holes were rewritten, not the space
12880 currently consumed.
12883 @cindex compression and @command{du}
12884 In file systems that use compression, the operating system might
12885 report the uncompressed space. (If it does report the compressed space,
12886 that report might change after one merely overwrites existing file data.)
12889 @cindex networked file systems and @command{du}
12890 Networked file systems historically have had difficulty communicating
12891 accurate file system information from server to client.
12895 For these reasons @command{du} might better be thought of as an
12896 estimate of the size of a @command{tar} or other conventional backup
12897 for a set of files, rather than as a measure of space consumed in the
12898 underlying devices.
12903 @node stat invocation
12904 @section @command{stat}: Report file or file system status
12907 @cindex file status
12908 @cindex file system status
12910 @command{stat} displays information about the specified file(s). Synopsis:
12913 stat [@var{option}]@dots{} [@var{file}]@dots{}
12916 With no option, @command{stat} reports all information about the given files.
12917 But it also can be used to report the information of the file systems the
12918 given files are located on. If the files are links, @command{stat} can
12919 also give information about the files the links point to.
12921 @mayConflictWithShellBuiltIn{stat}
12926 @itemx --dereference
12928 @opindex --dereference
12929 @cindex symbolic links, dereferencing in @command{stat}
12930 Change how @command{stat} treats symbolic links.
12931 With this option, @command{stat} acts on the file referenced
12932 by each symbolic link argument.
12933 Without it, @command{stat} acts on any symbolic link argument directly.
12936 @itemx --file-system
12938 @opindex --file-system
12939 @cindex file systems
12940 Report information about the file systems where the given files are located
12941 instead of information about the files themselves.
12942 This option implies the @option{-L} option.
12944 @item --cached=@var{mode}
12945 @opindex --cached=@var{mode}
12946 @cindex attribute caching
12947 Control how attributes are read from the file system;
12948 if supported by the system. This allows one to
12949 control the trade-off between freshness and efficiency
12950 of attribute access, especially useful with remote file systems.
12955 Always read the already cached attributes if available.
12958 Always synchronize with the latest file system attributes.
12959 This also mounts automounted files.
12962 Leave the caching behavior to the underlying file system.
12967 @itemx --format=@var{format}
12969 @opindex --format=@var{format}
12970 @cindex output format
12971 Use @var{format} rather than the default format.
12972 @var{format} is automatically newline-terminated, so
12973 running a command like the following with two or more @var{file}
12974 operands produces a line of output for each operand:
12976 $ stat --format=%d:%i / /usr
12981 @item --printf=@var{format}
12982 @opindex --printf=@var{format}
12983 @cindex output format
12984 Use @var{format} rather than the default format.
12985 Like @option{--format}, but interpret backslash escapes,
12986 and do not output a mandatory trailing newline.
12987 If you want a newline, include @samp{\n} in the @var{format}.
12988 Here's how you would use @option{--printf} to print the device
12989 and inode numbers of @file{/} and @file{/usr}:
12991 $ stat --printf='%d:%i\n' / /usr
13000 @cindex terse output
13001 Print the information in terse form, suitable for parsing by other programs.
13003 The output of the following commands are identical and the @option{--format}
13004 also identifies the items printed (in fuller form) in the default format.
13005 The format string would include another @samp{%C} at the end with an
13006 active SELinux security context.
13008 $ stat --format="%n %s %b %f %u %g %D %i %h %t %T %X %Y %Z %W %o" ...
13012 The same illustrating terse output in @option{--file-system} mode:
13014 $ stat -f --format="%n %i %l %t %s %S %b %f %a %c %d" ...
13015 $ stat -f --terse ...
13019 The valid @var{format} directives for files with @option{--format} and
13020 @option{--printf} are:
13023 @item %a -- Permission bits in octal (see @samp{#} and @samp{0} printf flags)
13024 @item %A -- Permission bits in symbolic form (similar to @command{ls -ld})
13025 @item %b -- Number of blocks allocated (see @samp{%B})
13026 @item %B -- The size in bytes of each block reported by @samp{%b}
13027 @item %C -- The SELinux security context of a file, if available
13028 @item %d -- Device number in decimal (st_dev)
13029 @item %D -- Device number in hex (st_dev)
13030 @item %Hd -- Major device number in decimal
13031 @item %Ld -- Minor device number in decimal
13032 @item %f -- Raw mode in hex
13033 @item %F -- File type
13034 @item %g -- Group ID of owner
13035 @item %G -- Group name of owner
13036 @item %h -- Number of hard links
13037 @item %i -- Inode number
13038 @item %m -- Mount point (see selow)
13039 @item %n -- File name
13040 @item %N -- Quoted file name with dereference if symbolic link (see below)
13041 @item %o -- Optimal I/O transfer size hint
13042 @item %s -- Total size, in bytes
13043 @item %r -- Device type in decimal (st_rdev)
13044 @item %R -- Device type in hex (st_rdev)
13045 @item %Hr -- Major device type in decimal (see below)
13046 @item %Lr -- Minor device type in decimal (see below)
13047 @item %t -- Major device type in hex (see below)
13048 @item %T -- Minor device type in hex (see below)
13049 @item %u -- User ID of owner
13050 @item %U -- User name of owner
13051 @item %w -- Time of file birth, or @samp{-} if unknown
13052 @item %W -- Time of file birth as seconds since Epoch, or @samp{0}
13053 @item %x -- Time of last access
13054 @item %X -- Time of last access as seconds since Epoch
13055 @item %y -- Time of last data modification
13056 @item %Y -- Time of last data modification as seconds since Epoch
13057 @item %z -- Time of last status change
13058 @item %Z -- Time of last status change as seconds since Epoch
13061 The @samp{%a} format prints the octal mode, and so it is useful
13062 to control the zero padding of the output with the @samp{#} and @samp{0}
13063 printf flags. For example to pad to at least 3 wide while making larger
13064 numbers unambiguously octal, you can use @samp{%#03a}.
13066 The @samp{%N} format can be set with the environment variable
13067 @env{QUOTING_STYLE}@. If that environment variable is not set,
13068 the default value is @samp{shell-escape-always}. Valid quoting styles are:
13071 The @samp{r}, @samp{R}, @samp{%t}, and @samp{%T} formats operate on the st_rdev
13072 member of the stat(2) structure, i.e., the represented device rather than
13073 the containing device, and so are only defined for character and block
13074 special files. On some systems or file types, st_rdev may be used to
13075 represent other quantities.
13077 The @samp{%W}, @samp{%X}, @samp{%Y}, and @samp{%Z} formats accept a
13078 precision preceded by a period to specify the number of digits to
13079 print after the decimal point. For example, @samp{%.3X} outputs the
13080 access timestamp to millisecond precision. If a period is given but no
13081 precision, @command{stat} uses 9 digits, so @samp{%.X} is equivalent to
13082 @samp{%.9X}@. When discarding excess precision, timestamps are truncated
13083 toward minus infinity.
13087 $ stat -c '[%015Y]' /usr
13090 $ stat -c '[%15Y]' /usr
13092 $ stat -c '[%-15Y]' /usr
13095 $ stat -c '[%.3Y]' /usr
13097 $ stat -c '[%.Y]' /usr
13098 [1288929712.114951834]
13101 The mount point printed by @samp{%m} is similar to that output
13102 by @command{df}, except that:
13105 stat does not dereference symlinks by default
13106 (unless @option{-L} is specified)
13108 stat does not search for specified device nodes in the
13109 file system list, instead operating on them directly
13112 stat outputs the alias for a bind mounted file, rather than
13113 the initial mount point of its backing device.
13114 One can recursively call stat until there is no change in output,
13115 to get the current base mount point
13118 When listing file system information (@option{--file-system} (@option{-f})),
13119 you must use a different set of @var{format} directives:
13122 @item %a -- Free blocks available to non-super-user
13123 @item %b -- Total data blocks in file system
13124 @item %c -- Total file nodes in file system
13125 @item %d -- Free file nodes in file system
13126 @item %f -- Free blocks in file system
13127 @item %i -- File System ID in hex
13128 @item %l -- Maximum length of file names
13129 @item %n -- File name
13130 @item %s -- Block size (for faster transfers)
13131 @item %S -- Fundamental block size (for block counts)
13132 @item %t -- Type in hex
13133 @item %T -- Type in human readable form
13137 Timestamps are listed according to the time zone rules specified by
13138 the @env{TZ} environment variable, or by the system default rules if
13139 @env{TZ} is not set. @xref{TZ Variable,, Specifying the Time Zone
13140 with @env{TZ}, libc, The GNU C Library Reference Manual}.
13145 @node sync invocation
13146 @section @command{sync}: Synchronize cached writes to persistent storage
13149 @cindex synchronize file system and memory
13150 @cindex Synchronize cached writes to persistent storage
13152 @command{sync} synchronizes in memory files or file systems to persistent
13156 sync [@var{option}] [@var{file}]@dots{}
13159 @cindex superblock, writing
13160 @cindex inodes, written buffered
13161 @command{sync} writes any data buffered in memory out to the storage device.
13163 include (but is not limited to) modified superblocks, modified inodes,
13164 and delayed reads and writes. This must be implemented by the kernel;
13165 The @command{sync} program does nothing but exercise the @code{sync},
13166 @code{syncfs}, @code{fsync}, and @code{fdatasync} system calls.
13168 @cindex crashes and corruption
13169 The kernel keeps data in memory to avoid doing (relatively slow) device
13170 reads and writes. This improves performance, but if the computer
13171 crashes, data may be lost or the file system corrupted as a
13172 result. The @command{sync} command instructs the kernel to write
13173 data in memory to persistent storage.
13175 If any argument is specified then only those files will be
13176 synchronized using the fsync(2) syscall by default.
13178 If at least one file is specified, it is possible to change the
13179 synchronization method with the following options. Also see
13180 @ref{Common options}.
13186 Use fdatasync(2) to sync only the data for the file,
13187 and any metadata required to maintain file system consistency.
13190 @itemx --file-system
13191 @opindex --file-system
13192 Synchronize all the I/O waiting for the file systems that contain the file,
13193 using the syscall syncfs(2). You would usually @emph{not} specify
13194 this option if passing a device node like @samp{/dev/sda} for example,
13195 as that would sync the containing file system rather than the referenced one.
13196 Depending on the system, passing individual device nodes or files
13197 may have different sync characteristics than using no arguments.
13198 I.e., arguments passed to fsync(2) may provide greater guarantees through
13199 write barriers, than a global sync(2) used when no arguments are provided.
13205 @node truncate invocation
13206 @section @command{truncate}: Shrink or extend the size of a file
13209 @cindex truncating, file sizes
13211 @command{truncate} shrinks or extends the size of each @var{file} to the
13212 specified size. Synopsis:
13215 truncate @var{option}@dots{} @var{file}@dots{}
13218 @cindex files, creating
13219 Any @var{file} that does not exist is created.
13221 @cindex sparse files, creating
13222 @cindex holes, creating files with
13223 If a @var{file} is larger than the specified size, the extra data is lost.
13224 If a @var{file} is shorter, it is extended and the sparse extended part
13225 (or hole) reads as zero bytes.
13227 The program accepts the following options. Also see @ref{Common options}.
13234 @opindex --no-create
13235 Do not create files that do not exist.
13240 @opindex --io-blocks
13241 Treat @var{size} as number of I/O blocks of the @var{file} rather than bytes.
13243 @item -r @var{rfile}
13244 @itemx --reference=@var{rfile}
13246 @opindex --reference
13247 Base the size of each @var{file} on the size of @var{rfile}.
13249 @item -s @var{size}
13250 @itemx --size=@var{size}
13253 Set or adjust the size of each @var{file} according to @var{size}.
13254 @var{size} is in bytes unless @option{--io-blocks} is specified.
13255 @multiplierSuffixesNoBlocks{size}
13257 @var{size} may also be prefixed by one of the following to adjust
13258 the size of each @var{file} based on its current size:
13260 @samp{+} => extend by
13261 @samp{-} => reduce by
13262 @samp{<} => at most
13263 @samp{>} => at least
13264 @samp{/} => round down to multiple of
13265 @samp{%} => round up to multiple of
13273 @node Printing text
13274 @chapter Printing text
13276 @cindex printing text, commands for
13277 @cindex commands for printing text
13279 This section describes commands that display text strings.
13282 * echo invocation:: Print a line of text.
13283 * printf invocation:: Format and print data.
13284 * yes invocation:: Print a string until interrupted.
13288 @node echo invocation
13289 @section @command{echo}: Print a line of text
13292 @cindex displaying text
13293 @cindex printing text
13294 @cindex text, displaying
13295 @cindex arbitrary text, displaying
13297 @command{echo} writes each given @var{string} to standard output, with a
13298 space between each and a newline after the last one. Synopsis:
13301 echo [@var{option}]@dots{} [@var{string}]@dots{}
13304 @mayConflictWithShellBuiltIn{echo}
13306 Due to historical and backwards compatibility reasons, certain bare option-like
13307 strings cannot be passed to @command{echo} as non-option arguments.
13308 It is therefore not advisable to use @command{echo} for printing unknown or
13309 variable arguments. The @command{printf} command is recommended as a more
13310 portable and flexible replacement for tasks historically performed by
13311 @command{echo}. @xref{printf invocation}.
13313 The program accepts the following options. Also see @ref{Common options}.
13314 Options must precede operands, and the normally-special argument
13315 @samp{--} has no special meaning and is treated like any other
13321 Do not output the trailing newline.
13325 @cindex backslash escapes
13326 Enable interpretation of the following backslash-escaped characters in
13335 produce no further output
13351 the eight-bit value that is the octal number @var{nnn}
13352 (zero to three octal digits), if @var{nnn} is
13353 a nine-bit value, the ninth bit is ignored
13355 the eight-bit value that is the octal number @var{nnn}
13356 (one to three octal digits), if @var{nnn} is
13357 a nine-bit value, the ninth bit is ignored
13359 the eight-bit value that is the hexadecimal number @var{hh}
13360 (one or two hexadecimal digits)
13365 @cindex backslash escapes
13366 Disable interpretation of backslash escapes in each @var{string}.
13367 This is the default. If @option{-e} and @option{-E} are both
13368 specified, the last one given takes effect.
13372 @vindex POSIXLY_CORRECT
13373 If the @env{POSIXLY_CORRECT} environment variable is set, then when
13374 @command{echo}'s first argument is not @option{-n} it outputs
13375 option-like arguments instead of treating them as options. For
13376 example, @code{echo -ne hello} outputs @samp{-ne hello} instead of
13377 plain @samp{hello}. Also backslash escapes are always enabled.
13378 To echo the string @samp{-n}, one of the characters
13379 can be escaped in either octal or hexadecimal representation.
13380 For example, @code{echo -e '\x2dn'}.
13382 POSIX does not require support for any options, and says
13383 that the behavior of @command{echo} is implementation-defined if any
13384 @var{string} contains a backslash or if the first argument is @option{-n}.
13385 Portable programs should use the @command{printf} command instead.
13386 @xref{printf invocation}.
13391 @node printf invocation
13392 @section @command{printf}: Format and print data
13395 @command{printf} does formatted printing of text. Synopsis:
13398 printf @var{format} [@var{argument}]@dots{}
13401 @command{printf} prints the @var{format} string, interpreting @samp{%}
13402 directives and @samp{\} escapes to format numeric and string arguments
13403 in a way that is mostly similar to the C @samp{printf} function.
13404 @xref{Output Conversion Syntax,, @command{printf} format directives,
13405 libc, The GNU C Library Reference Manual}, for details.
13406 The differences are listed below.
13408 @mayConflictWithShellBuiltIn{printf}
13413 The @var{format} argument is reused as necessary to convert all the
13414 given @var{argument}s. For example, the command @samp{printf %s a b}
13418 Missing @var{argument}s are treated as null strings or as zeros,
13419 depending on whether the context expects a string or a number. For
13420 example, the command @samp{printf %sx%d} prints @samp{x0}.
13424 An additional escape, @samp{\c}, causes @command{printf} to produce no
13425 further output. For example, the command @samp{printf 'A%sC\cD%sF' B
13426 E} prints @samp{ABC}.
13429 The hexadecimal escape sequence @samp{\x@var{hh}} has at most two
13430 digits, as opposed to C where it can have an unlimited number of
13431 digits. For example, the command @samp{printf '\x07e'} prints two
13432 bytes, whereas the C statement @samp{printf ("\x07e")} prints just
13437 An additional directive @samp{%b}, prints its
13438 argument string with @samp{\} escapes interpreted in the same way as in
13439 the @var{format} string, except that octal escapes are of the form
13440 @samp{\0@var{ooo}} where @var{ooo} is 0 to 3 octal digits. If
13441 @samp{\@var{ooo}} is nine-bit value, ignore the ninth bit.
13442 If a precision is also given, it limits the number of bytes printed
13443 from the converted string.
13447 An additional directive @samp{%q}, prints its argument string
13448 in a format that can be reused as input by most shells.
13449 Non-printable characters are escaped with the POSIX proposed @samp{$''} syntax,
13450 and shell metacharacters are quoted appropriately.
13451 This is an equivalent format to @command{ls --quoting=shell-escape} output.
13454 Numeric arguments must be single C constants, possibly with leading
13455 @samp{+} or @samp{-}. For example, @samp{printf %.4d -3} outputs
13459 @vindex POSIXLY_CORRECT
13460 If the leading character of a numeric argument is @samp{"} or @samp{'}
13461 then its value is the numeric value of the immediately following
13462 character. Any remaining characters are silently ignored if the
13463 @env{POSIXLY_CORRECT} environment variable is set; otherwise, a
13464 warning is printed. For example, @samp{printf "%d" "'a"} outputs
13465 @samp{97} on hosts that use the ASCII character set, since
13466 @samp{a} has the numeric value 97 in ASCII.
13471 A floating point argument is interpreted according to
13472 the @env{LC_NUMERIC} category of either the current or the C locale,
13473 and is printed according to the current locale.
13474 For example, in a locale whose decimal point character is a comma,
13475 the command @samp{printf '%g %g' 2,5 2.5} outputs @samp{2,5 2,5}.
13476 @xref{Floating point}.
13480 @command{printf} interprets @samp{\@var{ooo}} in @var{format} as an octal number
13481 (if @var{ooo} is 1 to 3 octal digits) specifying a byte to print,
13482 and @samp{\x@var{hh}} as a hexadecimal number (if @var{hh} is 1 to 2 hex
13483 digits) specifying a character to print.
13484 However, when @samp{\@var{ooo}} specifies a number larger than 255,
13485 @command{printf} ignores the ninth bit.
13486 For example, @samp{printf '\400'} is equivalent to @samp{printf '\0'}.
13491 @cindex ISO/IEC 10646
13493 @command{printf} interprets two syntax forms for specifying Unicode
13494 (ISO/IEC 10646) characters.
13495 @samp{\u} for 16-bit Unicode characters, specified as
13496 four hexadecimal digits @var{hhhh}, and @samp{\U} for 32-bit Unicode
13497 characters, specified as eight hexadecimal digits @var{hhhhhhhh}.
13498 @command{printf} outputs the Unicode characters
13499 according to the @env{LC_CTYPE} locale. Unicode characters in the range
13500 U+D800@dots{}U+DFFF cannot be specified by this syntax.
13501 This syntax fully supports the universal character subset
13502 introduced in ISO C 99.
13504 The processing of @samp{\u} and @samp{\U} requires a full-featured
13505 @code{iconv} facility. It is activated on systems with glibc 2.2 (or newer),
13506 or when @code{libiconv} is installed prior to this package. Otherwise
13507 @samp{\u} and @samp{\U} will print as-is.
13509 Unicode character syntax is useful for writing strings in a locale
13510 independent way. For example, a string containing the Euro currency symbol
13513 $ env printf '\u20AC 14.95'
13517 will be output correctly in all locales supporting the Euro symbol
13518 (ISO-8859-15, UTF-8, and others). Similarly, a Chinese string
13521 $ env printf '\u4e2d\u6587'
13525 will be output correctly in all Chinese locales (GB2312, BIG5, UTF-8, etc).
13527 In these examples, the @command{printf} command was
13528 invoked via @command{env} to ensure that we run the program found via
13529 your shell's search path, and not a shell alias or a built-in function.
13531 For larger strings, you don't need to look up the hexadecimal code
13532 values of each character one by one. ASCII characters mixed with \u
13533 escape sequences is also known as the JAVA source file encoding. You can
13534 use GNU recode 3.5c (or newer) to convert strings to this encoding. Here
13535 is how to convert a piece of text into a shell script which will output
13536 this text in a locale-independent way:
13539 $ LC_CTYPE=zh_TW.big5 env printf \
13540 '\u4e2d\u6587\n' > sample.txt
13541 $ recode BIG5..JAVA < sample.txt \
13542 | sed -e "s|^|env printf '|" -e "s|%|%%|g" -e "s|$|\\\\n'|" \
13546 The only options are a lone @option{--help} or
13547 @option{--version}. @xref{Common options}.
13548 Options must precede operands.
13553 @node yes invocation
13554 @section @command{yes}: Print a string until interrupted
13557 @cindex repeated output of a string
13559 @command{yes} prints the command line arguments, separated by spaces and
13560 followed by a newline, forever until it is killed. If no arguments are
13561 given, it prints @samp{y} followed by a newline forever until killed.
13563 Upon a write error, @command{yes} exits with status @samp{1}.
13565 The only options are a lone @option{--help} or @option{--version}.
13566 To output an argument that begins with
13567 @samp{-}, precede it with @option{--}, e.g., @samp{yes -- --help}.
13568 @xref{Common options}.
13572 @chapter Conditions
13575 @cindex commands for exit status
13576 @cindex exit status commands
13578 This section describes commands that are primarily useful for their exit
13579 status, rather than their output. Thus, they are often used as the
13580 condition of shell @code{if} statements, or as the last command in a
13584 * false invocation:: Do nothing, unsuccessfully.
13585 * true invocation:: Do nothing, successfully.
13586 * test invocation:: Check file types and compare values.
13587 * expr invocation:: Evaluate expressions.
13591 @node false invocation
13592 @section @command{false}: Do nothing, unsuccessfully
13595 @cindex do nothing, unsuccessfully
13596 @cindex failure exit status
13597 @cindex exit status of @command{false}
13599 @command{false} does nothing except return an exit status of 1, meaning
13600 @dfn{failure}. It can be used as a place holder in shell scripts
13601 where an unsuccessful command is needed.
13602 In most modern shells, @command{false} is a built-in command, so when
13603 you use @samp{false} in a script, you're probably using the built-in
13604 command, not the one documented here.
13606 @command{false} honors the @option{--help} and @option{--version} options.
13608 This version of @command{false} is implemented as a C program, and is thus
13609 more secure and faster than a shell script implementation, and may safely
13610 be used as a dummy shell for the purpose of disabling accounts.
13612 Unlike all other programs mentioned in this manual, @command{false}
13613 always exits unsuccessfully, even when invoked with
13614 @option{--help} or @option{--version}.
13616 Portable programs should not assume that the exit status of
13617 @command{false} is 1, as it is greater than 1 on some
13621 @node true invocation
13622 @section @command{true}: Do nothing, successfully
13625 @cindex do nothing, successfully
13627 @cindex successful exit
13628 @cindex exit status of @command{true}
13630 @command{true} does nothing except return an exit status of 0, meaning
13631 @dfn{success}. It can be used as a place holder in shell scripts
13632 where a successful command is needed, although the shell built-in
13633 command @code{:} (colon) may do the same thing faster.
13634 In most modern shells, @command{true} is a built-in command, so when
13635 you use @samp{true} in a script, you're probably using the built-in
13636 command, not the one documented here.
13638 @command{true} honors the @option{--help} and @option{--version} options.
13640 However, it is possible to cause @command{true}
13641 to exit with nonzero status: with the @option{--help} or @option{--version}
13642 option, and with standard
13643 output already closed or redirected to a file that evokes an I/O error.
13644 For example, using a Bourne-compatible shell:
13647 $ ./true --version >&-
13648 ./true: write error: Bad file number
13649 $ ./true --version > /dev/full
13650 ./true: write error: No space left on device
13653 This version of @command{true} is implemented as a C program, and is thus
13654 more secure and faster than a shell script implementation, and may safely
13655 be used as a dummy shell for the purpose of disabling accounts.
13657 @node test invocation
13658 @section @command{test}: Check file types and compare values
13662 @cindex check file types
13663 @cindex compare values
13664 @cindex expression evaluation
13666 @command{test} returns a status of 0 (true) or 1 (false) depending on the
13667 evaluation of the conditional expression @var{expr}. Each part of the
13668 expression must be a separate argument.
13670 @command{test} has file status checks, string operators, and numeric
13671 comparison operators.
13673 @command{test} has an alternate form that uses opening and closing
13674 square brackets instead a leading @samp{test}. For example, instead
13675 of @samp{test -d /}, you can write @samp{[ -d / ]}. The square
13676 brackets must be separate arguments; for example, @samp{[-d /]} does
13677 not have the desired effect. Since @samp{test @var{expr}} and @samp{[
13678 @var{expr} ]} have the same meaning, only the former form is discussed
13684 test @var{expression}
13686 [ @var{expression} ]
13691 @mayConflictWithShellBuiltIn{test}
13693 If @var{expression} is omitted, @command{test} returns false.
13694 If @var{expression} is a single argument,
13695 @command{test} returns false if the argument is null and true
13696 otherwise. The argument
13697 can be any string, including strings like @samp{-d}, @samp{-1},
13698 @samp{--}, @samp{--help}, and @samp{--version} that most other
13699 programs would treat as options. To get help and version information,
13700 invoke the commands @samp{[ --help} and @samp{[ --version}, without
13701 the usual closing brackets. @xref{Common options}.
13703 @cindex exit status of @command{test}
13707 0 if the expression is true,
13708 1 if the expression is false,
13709 2 if an error occurred.
13713 * File type tests:: @code{-[bcdfhLpSt]}
13714 * Access permission tests:: @code{-[gkruwxOG]}
13715 * File characteristic tests:: @code{-e -s -nt -ot -ef}
13716 * String tests:: @code{-z -n = == !=}
13717 * Numeric tests:: @code{-eq -ne -lt -le -gt -ge}
13718 * Connectives for test:: @code{! -a -o}
13722 @node File type tests
13723 @subsection File type tests
13725 @cindex file type tests
13727 These options test for particular types of files. (Everything's a file,
13728 but not all files are the same!)
13732 @item -b @var{file}
13734 @cindex block special check
13735 True if @var{file} exists and is a block special device.
13737 @item -c @var{file}
13739 @cindex character special check
13740 True if @var{file} exists and is a character special device.
13742 @item -d @var{file}
13744 @cindex directory check
13745 True if @var{file} exists and is a directory.
13747 @item -f @var{file}
13749 @cindex regular file check
13750 True if @var{file} exists and is a regular file.
13752 @item -h @var{file}
13753 @itemx -L @var{file}
13756 @cindex symbolic link check
13757 True if @var{file} exists and is a symbolic link.
13758 Unlike all other file-related tests, this test does not dereference
13759 @var{file} if it is a symbolic link.
13761 @item -p @var{file}
13763 @cindex named pipe check
13764 True if @var{file} exists and is a named pipe.
13766 @item -S @var{file}
13768 @cindex socket check
13769 True if @var{file} exists and is a socket.
13773 @cindex terminal check
13774 True if @var{fd} is a file descriptor that is associated with a
13780 @node Access permission tests
13781 @subsection Access permission tests
13783 @cindex access permission tests
13784 @cindex permission tests
13786 These options test for particular access permissions.
13790 @item -g @var{file}
13792 @cindex set-group-ID check
13793 True if @var{file} exists and has its set-group-ID bit set.
13795 @item -k @var{file}
13797 @cindex sticky bit check
13798 True if @var{file} exists and has its @dfn{sticky} bit set.
13800 @item -r @var{file}
13802 @cindex readable file check
13803 True if @var{file} exists and the user has read access.
13805 @item -u @var{file}
13807 @cindex set-user-ID check
13808 True if @var{file} exists and has its set-user-ID bit set.
13810 @item -w @var{file}
13812 @cindex writable file check
13813 True if @var{file} exists and the user has write access.
13815 @item -x @var{file}
13817 @cindex executable file check
13818 True if @var{file} exists and the user has execute access
13819 (or search permission, if it is a directory).
13821 @item -O @var{file}
13823 @cindex owned by effective user ID check
13824 True if @var{file} exists and is owned by the current effective user ID.
13826 @item -G @var{file}
13828 @cindex owned by effective group ID check
13829 True if @var{file} exists and is owned by the current effective group ID.
13833 @node File characteristic tests
13834 @subsection File characteristic tests
13836 @cindex file characteristic tests
13838 These options test other file characteristics.
13842 @item -e @var{file}
13844 @cindex existence-of-file check
13845 True if @var{file} exists.
13847 @item -s @var{file}
13849 @cindex nonempty file check
13850 True if @var{file} exists and has a size greater than zero.
13852 @item @var{file1} -nt @var{file2}
13854 @cindex newer-than file check
13855 True if @var{file1} is newer (according to modification date) than
13856 @var{file2}, or if @var{file1} exists and @var{file2} does not.
13858 @item @var{file1} -ot @var{file2}
13860 @cindex older-than file check
13861 True if @var{file1} is older (according to modification date) than
13862 @var{file2}, or if @var{file2} exists and @var{file1} does not.
13864 @item @var{file1} -ef @var{file2}
13866 @cindex same file check
13867 @cindex hard link check
13868 True if @var{file1} and @var{file2} have the same device and inode
13869 numbers, i.e., if they are hard links to each other.
13871 @item -N @var{file}
13873 @cindex mtime-greater-atime file check
13874 True if @var{file} exists and has been modified (mtime) since it was
13881 @subsection String tests
13883 @cindex string tests
13885 These options test string characteristics. You may need to quote
13886 @var{string} arguments for the shell. For example:
13892 The quotes here prevent the wrong arguments from being passed to
13893 @command{test} if @samp{$V} is empty or contains special characters.
13897 @item -z @var{string}
13899 @cindex zero-length string check
13900 True if the length of @var{string} is zero.
13902 @item -n @var{string}
13903 @itemx @var{string}
13905 @cindex nonzero-length string check
13906 True if the length of @var{string} is nonzero.
13908 @item @var{string1} = @var{string2}
13910 @cindex equal string check
13911 True if the strings are equal.
13913 @item @var{string1} == @var{string2}
13915 @cindex equal string check
13916 True if the strings are equal (synonym for @samp{=}).
13917 This form is not as portable to other
13918 shells and systems.
13920 @item @var{string1} != @var{string2}
13922 @cindex not-equal string check
13923 True if the strings are not equal.
13928 @node Numeric tests
13929 @subsection Numeric tests
13931 @cindex numeric tests
13932 @cindex arithmetic tests
13934 Numeric relational operators. The arguments must be entirely numeric
13935 (possibly negative), or the special expression @w{@code{-l @var{string}}},
13936 which evaluates to the length of @var{string}.
13940 @item @var{arg1} -eq @var{arg2}
13941 @itemx @var{arg1} -ne @var{arg2}
13942 @itemx @var{arg1} -lt @var{arg2}
13943 @itemx @var{arg1} -le @var{arg2}
13944 @itemx @var{arg1} -gt @var{arg2}
13945 @itemx @var{arg1} -ge @var{arg2}
13952 These arithmetic binary operators return true if @var{arg1} is equal,
13953 not-equal, less-than, less-than-or-equal, greater-than, or
13954 greater-than-or-equal than @var{arg2}, respectively.
13961 test -1 -gt -2 && echo yes
13963 test -l abc -gt 1 && echo yes
13966 @error{} test: integer expression expected before -eq
13970 @node Connectives for test
13971 @subsection Connectives for @command{test}
13973 @cindex logical connectives
13974 @cindex connectives, logical
13976 It is better to use shell logical primitives
13977 rather than these logical connectives internal to @command{test},
13978 because an expression may become ambiguous
13979 depending on the expansion of its parameters.
13981 For example, this becomes ambiguous when @samp{$1}
13982 is set to @samp{'!'} and @samp{$2} to the empty string @samp{''}:
13988 and should be written as:
13991 test "$1" && test "$2"
13994 The shell logical primitives also benefit from
13995 short circuit operation, which can be significant
13996 for file attribute tests.
14002 True if @var{expr} is false.
14003 @samp{!} has lower precedence than all parts of @var{expr}.
14004 The @samp{!} should be specified to the left
14005 of a binary expression, I.e., @samp{! 1 -gt 2}
14006 rather than @samp{1 ! -gt 2}.
14008 @item @var{expr1} -a @var{expr2}
14010 @cindex logical and operator
14011 @cindex and operator
14012 True if both @var{expr1} and @var{expr2} are true.
14013 @samp{-a} is left associative,
14014 and has a higher precedence than @samp{-o}.
14016 @item @var{expr1} -o @var{expr2}
14018 @cindex logical or operator
14019 @cindex or operator
14020 True if either @var{expr1} or @var{expr2} is true.
14021 @samp{-o} is left associative.
14026 @node expr invocation
14027 @section @command{expr}: Evaluate expressions
14030 @cindex expression evaluation
14031 @cindex evaluation of expressions
14033 @command{expr} evaluates an expression and writes the result on standard
14034 output. Each token of the expression must be a separate argument.
14036 Operands are either integers or strings. Integers consist of one or
14037 more decimal digits, with an optional leading @samp{-}.
14038 @command{expr} converts
14039 anything appearing in an operand position to an integer or a string
14040 depending on the operation being applied to it.
14042 Strings are not quoted for @command{expr} itself, though you may need to
14043 quote them to protect characters with special meaning to the shell,
14044 e.g., spaces. However, regardless of whether it is quoted, a string
14045 operand should not be a parenthesis or any of @command{expr}'s
14046 operators like @code{+}, so you cannot safely pass an arbitrary string
14047 @code{$str} to expr merely by quoting it to the shell. One way to
14048 work around this is to use the GNU extension @code{+},
14049 (e.g., @code{+ "$str" = foo}); a more portable way is to use
14050 @code{@w{" $str"}} and to adjust the rest of the expression to take
14051 the leading space into account (e.g., @code{@w{" $str" = " foo"}}).
14053 You should not pass a negative integer or a string with leading
14054 @samp{-} as @command{expr}'s first argument, as it might be
14055 misinterpreted as an option; this can be avoided by parenthesization.
14056 Also, portable scripts should not use a string operand that happens to
14057 take the form of an integer; this can be worked around by inserting
14058 leading spaces as mentioned above.
14060 @cindex parentheses for grouping
14061 Operators may be given as infix symbols or prefix keywords. Parentheses
14062 may be used for grouping in the usual manner. You must quote
14063 parentheses and many operators to avoid the shell evaluating them,
14066 Because @command{expr} uses multiple-precision arithmetic, it works
14067 with integers wider than those of machine registers.
14069 The only options are @option{--help} and @option{--version}. @xref{Common
14070 options}. Options must precede operands.
14072 @cindex exit status of @command{expr}
14076 0 if the expression is neither null nor 0,
14077 1 if the expression is null or 0,
14078 2 if the expression is invalid,
14079 3 if an internal error occurred (e.g., arithmetic overflow).
14083 * String expressions:: @code{+ : match substr index length}
14084 * Numeric expressions:: @code{+ - * / %}
14085 * Relations for expr:: @code{| & < <= = == != >= >}
14086 * Examples of expr:: Examples.
14090 @node String expressions
14091 @subsection String expressions
14093 @cindex string expressions
14094 @cindex expressions, string
14096 @command{expr} supports pattern matching and other string operators. These
14097 have higher precedence than both the numeric and relational operators (in
14098 the next sections).
14102 @item @var{string} : @var{regex}
14103 @cindex pattern matching
14104 @cindex regular expression matching
14105 @cindex matching patterns
14106 Perform pattern matching. The arguments are converted to strings and the
14107 second is considered to be a (basic, a la GNU @code{grep}) regular
14108 expression, with a @code{^} implicitly prepended. The first argument is
14109 then matched against this regular expression.
14111 If @var{regex} does not use @samp{\(} and @samp{\)}, the @code{:}
14112 expression returns the number of characters matched, or 0 if the match
14115 If @var{regex} uses @samp{\(} and @samp{\)}, the @code{:} expression
14116 returns the part of @var{string} that matched the subexpression, or
14117 the null string if the match failed or the subexpression did not
14118 contribute to the match.
14120 @kindex \( @r{regexp operator}
14121 Only the first @samp{\( @dots{} \)} pair is relevant to the return
14122 value; additional pairs are meaningful only for grouping the regular
14123 expression operators.
14125 @kindex \+ @r{regexp operator}
14126 @kindex \? @r{regexp operator}
14127 @kindex \| @r{regexp operator}
14128 In the regular expression, @code{\+}, @code{\?}, and @code{\|} are
14129 operators which respectively match one or more, zero or one, or separate
14130 alternatives. These operators are GNU extensions. @xref{Regular Expressions,,
14131 Regular Expressions, grep, The GNU Grep Manual}, for details of
14132 regular expression syntax. Some examples are in @ref{Examples of expr}.
14134 @item match @var{string} @var{regex}
14136 An alternative way to do pattern matching. This is the same as
14137 @w{@samp{@var{string} : @var{regex}}}.
14139 @item substr @var{string} @var{position} @var{length}
14141 Returns the substring of @var{string} beginning at @var{position}
14142 with length at most @var{length}. If either @var{position} or
14143 @var{length} is negative, zero, or non-numeric, returns the null string.
14145 @item index @var{string} @var{charset}
14147 Returns the first position in @var{string} where the first character in
14148 @var{charset} was found. If no character in @var{charset} is found in
14149 @var{string}, return 0.
14151 @item length @var{string}
14153 Returns the length of @var{string}.
14155 @item + @var{token}
14157 Interpret @var{token} as a string, even if it is a keyword like @var{match}
14158 or an operator like @code{/}.
14159 This makes it possible to test @code{expr length + "$x"} or
14160 @code{expr + "$x" : '.*/\(.\)'} and have it do the right thing even if
14161 the value of @var{$x} happens to be (for example) @code{/} or @code{index}.
14162 This operator is a GNU extension. Portable shell scripts should use
14163 @code{@w{" $token"} : @w{' \(.*\)'}} instead of @code{+ "$token"}.
14167 To make @command{expr} interpret keywords as strings, you must use the
14168 @code{quote} operator.
14171 @node Numeric expressions
14172 @subsection Numeric expressions
14174 @cindex numeric expressions
14175 @cindex expressions, numeric
14177 @command{expr} supports the usual numeric operators, in order of increasing
14178 precedence. These numeric operators have lower precedence than the
14179 string operators described in the previous section, and higher precedence
14180 than the connectives (next section).
14188 @cindex subtraction
14189 Addition and subtraction. Both arguments are converted to integers;
14190 an error occurs if this cannot be done.
14196 @cindex multiplication
14199 Multiplication, division, remainder. Both arguments are converted to
14200 integers; an error occurs if this cannot be done.
14205 @node Relations for expr
14206 @subsection Relations for @command{expr}
14208 @cindex connectives, logical
14209 @cindex logical connectives
14210 @cindex relations, numeric or string
14212 @command{expr} supports the usual logical connectives and relations. These
14213 have lower precedence than the string and numeric operators
14214 (previous sections). Here is the list, lowest-precedence operator first.
14220 @cindex logical or operator
14221 @cindex or operator
14222 Returns its first argument if that is neither null nor zero, otherwise
14223 its second argument if it is neither null nor zero, otherwise 0. It
14224 does not evaluate its second argument if its first argument is neither
14229 @cindex logical and operator
14230 @cindex and operator
14231 Return its first argument if neither argument is null or zero, otherwise
14232 0. It does not evaluate its second argument if its first argument is
14235 @item < <= = == != >= >
14242 @cindex comparison operators
14244 Compare the arguments and return 1 if the relation is true, 0 otherwise.
14245 @code{==} is a synonym for @code{=}. @command{expr} first tries to convert
14246 both arguments to integers and do a numeric comparison; if either
14247 conversion fails, it does a lexicographic comparison using the character
14248 collating sequence specified by the @env{LC_COLLATE} locale.
14253 @node Examples of expr
14254 @subsection Examples of using @command{expr}
14256 @cindex examples of @command{expr}
14257 Here are a few examples, including quoting for shell metacharacters.
14259 To add 1 to the shell variable @code{foo}, in Bourne-compatible shells:
14262 foo=$(expr $foo + 1)
14265 To print the non-directory part of the file name stored in
14266 @code{$fname}, which need not contain a @code{/}:
14269 expr $fname : '.*/\(.*\)' '|' $fname
14272 An example showing that @code{\+} is an operator:
14280 expr abc : 'a\(.\)c'
14282 expr index abcdef cz
14285 @error{} expr: syntax error
14286 expr index + index a
14292 @chapter Redirection
14294 @cindex redirection
14295 @cindex commands for redirection
14297 Unix shells commonly provide several forms of @dfn{redirection} -- ways
14298 to change the input source or output destination of a command. But one
14299 useful redirection is performed by a separate command, not by the shell;
14300 it's described here.
14303 * tee invocation:: Redirect output to multiple files or processes.
14307 @node tee invocation
14308 @section @command{tee}: Redirect output to multiple files or processes
14311 @cindex pipe fitting
14312 @cindex destinations, multiple output
14313 @cindex read from standard input and write to standard output and files
14315 The @command{tee} command copies standard input to standard output and also
14316 to any files given as arguments. This is useful when you want not only
14317 to send some data down a pipe, but also to save a copy. Synopsis:
14320 tee [@var{option}]@dots{} [@var{file}]@dots{}
14323 If a file being written to does not already exist, it is created. If a
14324 file being written to already exists, the data it previously contained
14325 is overwritten unless the @option{-a} option is used.
14327 In previous versions of GNU Coreutils (5.3.0--8.23),
14328 a @var{file} of @samp{-}
14329 caused @command{tee} to send another copy of input to standard output.
14330 However, as the interleaved output was not very useful, @command{tee} now
14331 conforms to POSIX and treats @samp{-} as a file name.
14333 The program accepts the following options. Also see @ref{Common options}.
14340 Append standard input to the given files rather than overwriting
14344 @itemx --ignore-interrupts
14346 @opindex --ignore-interrupts
14347 Ignore interrupt signals.
14350 @itemx --output-error[=@var{mode}]
14352 @opindex --output-error
14353 Adjust the behavior with errors on the outputs.
14354 In summary @option{-p} allows @command{tee} to operate in a more
14355 appropriate manner with pipes, and to continue to process data
14356 to any remaining outputs, if any pipe outputs exit early.
14357 The default operation when @option{--output-error} is @emph{not}
14358 specified is to exit immediately on error writing to a pipe,
14359 and diagnose errors writing to a non-pipe.
14360 The long form @option{--output-error} option supports selection
14361 between the following @var{mode}s:
14365 Warn on error opening or writing any output, including pipes.
14366 Writing is continued to still open files/pipes.
14367 Exit status indicates failure if any output has an error.
14370 This is the default @var{mode} when not specified,
14371 or when the short form @option{-p} is used.
14372 Warn on error opening or writing any output, except pipes.
14373 Writing is continued to still open files/pipes.
14374 Exit immediately if all remaining outputs become broken pipes.
14375 Exit status indicates failure if any non pipe output had an error.
14378 Exit on error opening or writing any output, including pipes.
14381 Exit on error opening or writing any output, except pipes.
14382 Exit immediately if all remaining outputs become broken pipes.
14387 The @command{tee} command is useful when you happen to be transferring a large
14388 amount of data and also want to summarize that data without reading
14389 it a second time. For example, when you are downloading a DVD image,
14390 you often want to verify its signature or checksum right away.
14391 The inefficient way to do it is simply:
14394 wget https://example.com/some.iso && sha1sum some.iso
14397 One problem with the above is that it makes you wait for the
14398 download to complete before starting the time-consuming SHA1 computation.
14399 Perhaps even more importantly, the above requires reading
14400 the DVD image a second time (the first was from the network).
14402 The efficient way to do it is to interleave the download
14403 and SHA1 computation. Then, you'll get the checksum for
14404 free, because the entire process parallelizes so well:
14407 # slightly contrived, to demonstrate process substitution
14408 wget -O - https://example.com/dvd.iso \
14409 | tee >(sha1sum > dvd.sha1) > dvd.iso
14412 That makes @command{tee} write not just to the expected output file,
14413 but also to a pipe running @command{sha1sum} and saving the final
14414 checksum in a file named @file{dvd.sha1}.
14416 However, this example relies on a feature of modern shells
14417 called @dfn{process substitution}
14418 (the @samp{>(command)} syntax, above;
14419 @xref{Process Substitution,,Process Substitution, bash,
14420 The Bash Reference Manual}.),
14421 so it works with @command{zsh}, @command{bash}, and @command{ksh},
14422 but not with @command{/bin/sh}. So if you write code like this
14423 in a shell script, start the script with @samp{#!/bin/bash}.
14425 If any of the process substitutions (or piped standard output)
14426 might exit early without consuming all the data, the @option{-p} option
14427 is needed to allow @command{tee} to continue to process the input
14428 to any remaining outputs.
14430 Since the above example writes to one file and one process,
14431 a more conventional and portable use of @command{tee} is even better:
14434 wget -O - https://example.com/dvd.iso \
14435 | tee dvd.iso | sha1sum > dvd.sha1
14438 You can extend this example to make @command{tee} write to two processes,
14439 computing MD5 and SHA1 checksums in parallel. In this case,
14440 process substitution is required:
14443 wget -O - https://example.com/dvd.iso \
14444 | tee >(sha1sum > dvd.sha1) \
14445 >(md5sum > dvd.md5) \
14449 This technique is also useful when you want to make a @emph{compressed}
14450 copy of the contents of a pipe.
14451 Consider a tool to graphically summarize file system usage data from
14453 For a large hierarchy, @samp{du -ak} can run for a long time,
14454 and can easily produce terabytes of data, so you won't want to
14455 rerun the command unnecessarily. Nor will you want to save
14456 the uncompressed output.
14458 Doing it the inefficient way, you can't even start the GUI
14459 until after you've compressed all of the @command{du} output:
14462 du -ak | gzip -9 > /tmp/du.gz
14463 gzip -d /tmp/du.gz | checkspace -a
14466 With @command{tee} and process substitution, you start the GUI
14467 right away and eliminate the decompression completely:
14470 du -ak | tee >(gzip -9 > /tmp/du.gz) | checkspace -a
14473 Finally, if you regularly create more than one type of
14474 compressed tarball at once, for example when @code{make dist} creates
14475 both @command{gzip}-compressed and @command{bzip2}-compressed tarballs,
14476 there may be a better way.
14477 Typical @command{automake}-generated @file{Makefile} rules create
14478 the two compressed tar archives with commands in sequence, like this
14479 (slightly simplified):
14482 tardir=your-pkg-M.N
14483 tar chof - "$tardir" | gzip -9 -c > your-pkg-M.N.tar.gz
14484 tar chof - "$tardir" | bzip2 -9 -c > your-pkg-M.N.tar.bz2
14487 However, if the hierarchy you are archiving and compressing is larger
14488 than a couple megabytes, and especially if you are using a multi-processor
14489 system with plenty of memory, then you can do much better by reading the
14490 directory contents only once and running the compression programs in parallel:
14493 tardir=your-pkg-M.N
14494 tar chof - "$tardir" \
14495 | tee >(gzip -9 -c > your-pkg-M.N.tar.gz) \
14496 | bzip2 -9 -c > your-pkg-M.N.tar.bz2
14499 If you want to further process the output from process substitutions,
14500 and those processes write atomically (i.e., write less than the system's
14501 PIPE_BUF size at a time), that's possible with a construct like:
14504 tardir=your-pkg-M.N
14505 tar chof - "$tardir" \
14506 | tee >(md5sum --tag) > >(sha256sum --tag) \
14507 | sort | gpg --clearsign > your-pkg-M.N.tar.sig
14513 @node File name manipulation
14514 @chapter File name manipulation
14516 @cindex file name manipulation
14517 @cindex manipulation of file names
14518 @cindex commands for file name manipulation
14520 This section describes commands that manipulate file names.
14523 * basename invocation:: Strip directory and suffix from a file name.
14524 * dirname invocation:: Strip last file name component.
14525 * pathchk invocation:: Check file name validity and portability.
14526 * mktemp invocation:: Create temporary file or directory.
14527 * realpath invocation:: Print resolved file names.
14531 @node basename invocation
14532 @section @command{basename}: Strip directory and suffix from a file name
14535 @cindex strip directory and suffix from file names
14536 @cindex directory, stripping from file names
14537 @cindex suffix, stripping from file names
14538 @cindex file names, stripping directory and suffix
14539 @cindex leading directory components, stripping
14541 @command{basename} removes any leading directory components from
14542 @var{name}. Synopsis:
14545 basename @var{name} [@var{suffix}]
14546 basename @var{option}@dots{} @var{name}@dots{}
14549 If @var{suffix} is specified and is identical to the end of @var{name},
14550 it is removed from @var{name} as well. Since trailing slashes
14551 are removed prior to suffix matching, @var{suffix} will do nothing if it
14552 contains slashes. @command{basename} prints the result on standard
14555 @c This test is used both here and in the section on dirname.
14556 @macro basenameAndDirname
14557 Together, @command{basename} and @command{dirname} are designed such
14558 that if @samp{ls "$name"} succeeds, then the command sequence @samp{cd
14559 "$(dirname "$name")"; ls "$(basename "$name")"} will, too. This works
14560 for everything except file names containing a trailing newline.
14562 @basenameAndDirname
14564 POSIX allows the implementation to define the results if
14565 @var{name} is empty or @samp{//}. In the former case, GNU
14566 @command{basename} returns the empty string. In the latter case, the
14567 result is @samp{//} on platforms where @var{//} is distinct from
14568 @var{/}, and @samp{/} on platforms where there is no difference.
14570 The program accepts the following options. Also see @ref{Common options}.
14571 Options must precede operands.
14578 @opindex --multiple
14579 Support more than one argument. Treat every argument as a @var{name}.
14580 With this, an optional @var{suffix} must be specified using the
14581 @option{-s} option.
14583 @item -s @var{suffix}
14584 @itemx --suffix=@var{suffix}
14587 Remove a trailing @var{suffix}.
14588 This option implies the @option{-a} option.
14600 basename /usr/bin/sort
14603 basename include/stdio.h .h
14606 basename -s .h include/stdio.h
14608 # Output "stdio" followed by "stdlib"
14609 basename -a -s .h include/stdio.h include/stdlib.h
14613 @node dirname invocation
14614 @section @command{dirname}: Strip last file name component
14617 @cindex directory components, printing
14618 @cindex stripping non-directory suffix
14619 @cindex non-directory suffix, stripping
14621 @command{dirname} prints all but the final slash-delimited component
14622 of each @var{name}. Slashes on either side of the final component are
14623 also removed. If the string contains no slash, @command{dirname}
14624 prints @samp{.} (meaning the current directory). Synopsis:
14627 dirname [@var{option}] @var{name}@dots{}
14630 @var{name} need not be a file name, but if it is, this operation
14631 effectively lists the directory that contains the final component,
14632 including the case when the final component is itself a directory.
14634 @basenameAndDirname
14636 POSIX allows the implementation to define the results if
14637 @var{name} is @samp{//}. With GNU @command{dirname}, the
14638 result is @samp{//} on platforms where @var{//} is distinct from
14639 @var{/}, and @samp{/} on platforms where there is no difference.
14641 The program accepts the following option. Also see @ref{Common options}.
14654 # Output "/usr/bin".
14655 dirname /usr/bin/sort
14656 dirname /usr/bin//.//
14658 # Output "dir1" followed by "dir2"
14659 dirname dir1/str dir2/str
14666 @node pathchk invocation
14667 @section @command{pathchk}: Check file name validity and portability
14670 @cindex file names, checking validity and portability
14671 @cindex valid file names, checking for
14672 @cindex portable file names, checking for
14674 @command{pathchk} checks validity and portability of file names. Synopsis:
14677 pathchk [@var{option}]@dots{} @var{name}@dots{}
14680 For each @var{name}, @command{pathchk} prints an error message if any of
14681 these conditions is true:
14685 One of the existing directories in @var{name} does not have search
14686 (execute) permission,
14688 The length of @var{name} is larger than the maximum supported by the
14691 The length of one component of @var{name} is longer than
14692 its file system's maximum.
14695 A nonexistent @var{name} is not an error, so long as a file with that
14696 name could be created under the above conditions.
14698 The program accepts the following options. Also see @ref{Common options}.
14699 Options must precede operands.
14705 Instead of performing checks based on the underlying file system,
14706 print an error message if any of these conditions is true:
14710 A file name is empty.
14713 A file name contains a character outside the POSIX portable file
14714 name character set, namely, the ASCII letters and digits, @samp{.},
14715 @samp{_}, @samp{-}, and @samp{/}.
14718 The length of a file name or one of its components exceeds the
14719 POSIX minimum limits for portability.
14724 Print an error message if a file name is empty, or if it contains a component
14725 that begins with @samp{-}.
14727 @item --portability
14728 @opindex --portability
14729 Print an error message if a file name is not portable to all POSIX
14730 hosts. This option is equivalent to @samp{-p -P}.
14734 @cindex exit status of @command{pathchk}
14738 0 if all specified file names passed all checks,
14742 @node mktemp invocation
14743 @section @command{mktemp}: Create temporary file or directory
14746 @cindex file names, creating temporary
14747 @cindex directory, creating temporary
14748 @cindex temporary files and directories
14750 @command{mktemp} manages the creation of temporary files and
14751 directories. Synopsis:
14754 mktemp [@var{option}]@dots{} [@var{template}]
14757 Safely create a temporary file or directory based on @var{template},
14758 and print its name. If given, @var{template} must include at least
14759 three consecutive @samp{X}s in the last component. If omitted, the template
14760 @samp{tmp.XXXXXXXXXX} is used, and option @option{--tmpdir} is
14761 implied. The final run of @samp{X}s in the @var{template} will be replaced
14762 by alpha-numeric characters; thus, on a case-sensitive file system,
14763 and with a @var{template} including a run of @var{n} instances of @samp{X},
14764 there are @samp{62**@var{n}} potential file names.
14766 Older scripts used to create temporary files by simply joining the
14767 name of the program with the process id (@samp{$$}) as a suffix.
14768 However, that naming scheme is easily predictable, and suffers from a
14769 race condition where the attacker can create an appropriately named
14770 symbolic link, such that when the script then opens a handle to what
14771 it thought was an unused file, it is instead modifying an existing
14772 file. Using the same scheme to create a directory is slightly safer,
14773 since the @command{mkdir} will fail if the target already exists, but
14774 it is still inferior because it allows for denial of service attacks.
14775 Therefore, modern scripts should use the @command{mktemp} command to
14776 guarantee that the generated name will be unpredictable, and that
14777 knowledge of the temporary file name implies that the file was created
14778 by the current script and cannot be modified by other users.
14780 When creating a file, the resulting file has read and write
14781 permissions for the current user, but no permissions for the group or
14782 others; these permissions are reduced if the current umask is more
14785 Here are some examples (although if you try them, you
14786 will most likely get different file names):
14791 Create a temporary file in the current directory.
14798 Create a temporary file with a known suffix.
14800 $ mktemp --suffix=.txt file-XXXX
14802 $ mktemp file-XXXX-XXXX.txt
14807 Create a secure fifo relative to the user's choice of @env{TMPDIR},
14808 but falling back to the current directory rather than @file{/tmp}.
14809 Although @command{mktemp} does not create fifos, it can create a
14810 secure directory in which fifos can live. Exit the shell if the
14811 directory or fifo could not be created.
14813 $ dir=$(mktemp -p "$@{TMPDIR:-.@}" -d dir-XXXX) || exit 1
14815 $ mkfifo "$fifo" || @{ rmdir "$dir"; exit 1; @}
14819 Create and use a temporary file if possible, but ignore failure. The
14820 file will reside in the directory named by @env{TMPDIR}, if specified,
14821 or else in @file{/tmp}.
14823 $ file=$(mktemp -q) && @{
14824 > # Safe to use $file only within this block. Use quotes,
14825 > # since $TMPDIR, and thus $file, may contain whitespace.
14826 > echo ... > "$file"
14832 Act as a semi-random character generator (it is not fully random,
14833 since it is impacted by the contents of the current directory). To
14834 avoid security holes, do not use the resulting names to create a file.
14844 The program accepts the following options. Also see @ref{Common options}.
14851 @opindex --directory
14852 Create a directory rather than a file. The directory will have read,
14853 write, and search permissions for the current user, but no permissions
14854 for the group or others; these permissions are reduced if the current
14855 umask is more restrictive.
14861 Suppress diagnostics about failure to create a file or directory. The
14862 exit status will still reflect whether a file was created.
14868 Generate a temporary name that does not name an existing file, without
14869 changing the file system contents. Using the output of this command
14870 to create a new file is inherently unsafe, as there is a window of
14871 time between generating the name and using it where another process
14872 can create an object by the same name.
14875 @itemx --tmpdir[=@var{dir}]
14878 Treat @var{template} relative to the directory @var{dir}. If
14879 @var{dir} is not specified (only possible with the long option
14880 @option{--tmpdir}) or is the empty string, use the value of
14881 @env{TMPDIR} if available, otherwise use @samp{/tmp}. If this is
14882 specified, @var{template} must not be absolute. However,
14883 @var{template} can still contain slashes, although intermediate
14884 directories must already exist.
14886 @item --suffix=@var{suffix}
14888 Append @var{suffix} to the @var{template}. @var{suffix} must not
14889 contain slash. If @option{--suffix} is specified, @var{template} must
14890 end in @samp{X}; if it is not specified, then an appropriate
14891 @option{--suffix} is inferred by finding the last @samp{X} in
14892 @var{template}. This option exists for use with the default
14893 @var{template} and for the creation of a @var{suffix} that starts with
14898 Treat @var{template} as a single file relative to the value of
14899 @env{TMPDIR} if available, or to the directory specified by
14900 @option{-p}, otherwise to @samp{/tmp}. @var{template} must not
14901 contain slashes. This option is deprecated; the use of @option{-p}
14902 without @option{-t} offers better defaults (by favoring the command
14903 line over @env{TMPDIR}) and more flexibility (by allowing intermediate
14908 @cindex exit status of @command{mktemp}
14912 0 if the file was created,
14917 @node realpath invocation
14918 @section @command{realpath}: Print the resolved file name.
14921 @cindex file names, canonicalization
14922 @cindex symlinks, resolution
14923 @cindex canonical file name
14924 @cindex canonicalize a file name
14928 @command{realpath} expands all symbolic links and resolves references to
14929 @samp{/./}, @samp{/../} and extra @samp{/} characters. By default,
14930 all but the last component of the specified files must exist. Synopsis:
14933 realpath [@var{option}]@dots{} @var{file}@dots{}
14936 The file name canonicalization functionality overlaps with that of the
14937 @command{readlink} command. This is the preferred command for
14938 canonicalization as it's a more suitable and standard name. In addition
14939 this command supports relative file name processing functionality.
14941 The program accepts the following options. Also see @ref{Common options}.
14946 @itemx --canonicalize-existing
14948 @opindex --canonicalize-existing
14949 Ensure that all components of the specified file names exist.
14950 If any component is missing or unavailable, @command{realpath} will output
14951 a diagnostic unless the @option{-q} option is specified, and exit with a
14952 nonzero exit code. A trailing slash requires that the name resolve to a
14956 @itemx --canonicalize-missing
14958 @opindex --canonicalize-missing
14959 If any component of a specified file name is missing or unavailable,
14960 treat it as a directory.
14966 Symbolic links are resolved in the specified file names,
14967 but they are resolved after any subsequent @samp{..} components are processed.
14972 @opindex --physical
14973 Symbolic links are resolved in the specified file names,
14974 and they are resolved before any subsequent @samp{..} components are processed.
14975 This is the default mode of operation.
14981 Suppress diagnostic messages for specified file names.
14983 @item --relative-to=@var{dir}
14984 @opindex --relative-to
14986 Print the resolved file names relative to the specified directory.
14987 This option honors the @option{-m} and @option{-e} options
14988 pertaining to file existence.
14990 @item --relative-base=@var{dir}
14991 @opindex --relative-base
14992 Print the resolved file names as relative @emph{if} the files
14993 are descendants of @var{dir}.
14994 Otherwise, print the resolved file names as absolute.
14995 This option honors the @option{-m} and @option{-e} options
14996 pertaining to file existence.
14997 For details about combining @option{--relative-to} and @option{--relative-base},
14998 @pxref{Realpath usage examples}.
15002 @itemx --no-symlinks
15005 @opindex --no-symlinks
15006 Do not resolve symbolic links. Only resolve references to
15007 @samp{/./}, @samp{/../} and remove extra @samp{/} characters.
15008 When combined with the @option{-m} option, realpath operates
15009 only on the file name, and does not touch any actual file.
15015 @cindex exit status of @command{realpath}
15019 0 if all file names were printed without issue.
15024 * Realpath usage examples:: Realpath usage examples.
15028 @node Realpath usage examples
15029 @subsection Realpath usage examples
15031 @opindex --relative-to
15032 @opindex --relative-base
15034 By default, @command{realpath} prints the absolute file name of given files
15035 (symlinks are resolved, @file{words} is resolved to @file{american-english}):
15040 realpath /usr/bin/sort /tmp/foo /usr/share/dict/words 1.txt
15041 @result{} /usr/bin/sort
15043 @result{} /usr/share/dict/american-english
15044 @result{} /home/user/1.txt
15048 With @option{--relative-to}, file names are printed relative to
15049 the given directory:
15053 realpath --relative-to=/usr/bin \
15054 /usr/bin/sort /tmp/foo /usr/share/dict/words 1.txt
15056 @result{} ../../tmp/foo
15057 @result{} ../share/dict/american-english
15058 @result{} ../../home/user/1.txt
15062 With @option{--relative-base}, relative file names are printed @emph{if}
15063 the resolved file name is below the given base directory. For files outside the
15064 base directory absolute file names are printed:
15068 realpath --relative-base=/usr \
15069 /usr/bin/sort /tmp/foo /usr/share/dict/words 1.txt
15072 @result{} share/dict/american-english
15073 @result{} /home/user/1.txt
15077 When both @option{--relative-to=DIR1} and @option{--relative-base=DIR2}
15078 are used, file names are printed relative to @var{dir1} @emph{if} they are
15079 located below @var{dir2}. If the files are not below @var{dir2}, they are
15080 printed as absolute file names:
15084 realpath --relative-to=/usr/bin --relative-base=/usr \
15085 /usr/bin/sort /tmp/foo /usr/share/dict/words 1.txt
15088 @result{} ../share/dict/american-english
15089 @result{} /home/user/1.txt
15093 When both @option{--relative-to=DIR1} and @option{--relative-base=DIR2}
15094 are used, @var{dir1} @emph{must} be a subdirectory of @var{dir2}. Otherwise,
15095 @command{realpath} prints absolutes file names.
15098 @node Working context
15099 @chapter Working context
15101 @cindex working context
15102 @cindex commands for printing the working context
15104 This section describes commands that display or alter the context in
15105 which you are working: the current directory, the terminal settings, and
15106 so forth. See also the user-related commands in the next section.
15109 * pwd invocation:: Print working directory.
15110 * stty invocation:: Print or change terminal characteristics.
15111 * printenv invocation:: Print environment variables.
15112 * tty invocation:: Print file name of terminal on standard input.
15116 @node pwd invocation
15117 @section @command{pwd}: Print working directory
15120 @cindex print name of current directory
15121 @cindex current working directory, printing
15122 @cindex working directory, printing
15125 @command{pwd} prints the name of the current directory. Synopsis:
15128 pwd [@var{option}]@dots{}
15131 The program accepts the following options. Also see @ref{Common options}.
15138 If the contents of the environment variable @env{PWD} provide an
15139 absolute name of the current directory with no @samp{.} or @samp{..}
15140 components, but possibly with symbolic links, then output those
15141 contents. Otherwise, fall back to default @option{-P} handling.
15146 @opindex --physical
15147 Print a fully resolved name for the current directory. That is, all
15148 components of the printed name will be actual directory names -- none
15149 will be symbolic links.
15152 @cindex symbolic links and @command{pwd}
15153 If @option{-L} and @option{-P} are both given, the last one takes
15154 precedence. If neither option is given, then this implementation uses
15155 @option{-P} as the default unless the @env{POSIXLY_CORRECT}
15156 environment variable is set.
15158 @mayConflictWithShellBuiltIn{pwd}
15163 @node stty invocation
15164 @section @command{stty}: Print or change terminal characteristics
15167 @cindex change or print terminal settings
15168 @cindex terminal settings
15169 @cindex line settings of terminal
15171 @command{stty} prints or changes terminal characteristics, such as baud rate.
15175 stty [@var{option}] [@var{setting}]@dots{}
15176 stty [@var{option}]
15179 If given no line settings, @command{stty} prints the baud rate, line
15180 discipline number (on systems that support it), and line settings
15181 that have been changed from the values set by @samp{stty sane}.
15182 By default, mode reading and setting are performed on the tty line
15183 connected to standard input, although this can be modified by the
15184 @option{--file} option.
15186 @command{stty} accepts many non-option arguments that change aspects of
15187 the terminal line operation, as described below.
15189 The program accepts the following options. Also see @ref{Common options}.
15196 Print all current settings in human-readable form. This option may not
15197 be used in combination with any line settings.
15199 @item -F @var{device}
15200 @itemx --file=@var{device}
15203 Set the line opened by the file name specified in @var{device} instead of
15204 the tty line connected to standard input. This option is necessary
15205 because opening a POSIX tty requires use of the
15206 @code{O_NONDELAY} flag to prevent a POSIX tty from blocking
15207 until the carrier detect line is high if
15208 the @code{clocal} flag is not set. Hence, it is not always possible
15209 to allow the shell to open the device in the traditional manner.
15215 @cindex machine-readable @command{stty} output
15216 Print all current settings in a form that can be used as an argument to
15217 another @command{stty} command to restore the current settings. This option
15218 may not be used in combination with any line settings.
15222 Many settings can be turned off by preceding them with a @samp{-}.
15223 Such arguments are marked below with ``May be negated'' in their
15224 description. The descriptions themselves refer to the positive
15225 case, that is, when @emph{not} negated (unless stated otherwise,
15228 Some settings are not available on all POSIX systems, since they use
15229 extensions. Such arguments are marked below with
15230 ``Non-POSIX'' in their description. On non-POSIX
15231 systems, those or other settings also may not
15232 be available, but it's not feasible to document all the variations: just
15235 @command{stty} is installed only on platforms with the POSIX terminal
15236 interface, so portable scripts should not rely on its existence on
15237 non-POSIX platforms.
15242 * Control:: Control settings
15243 * Input:: Input settings
15244 * Output:: Output settings
15245 * Local:: Local settings
15246 * Combination:: Combination settings
15247 * Characters:: Special characters
15248 * Special:: Special settings
15253 @subsection Control settings
15255 @cindex control settings
15261 @cindex two-way parity
15262 Generate parity bit in output and expect parity bit in input.
15268 @cindex even parity
15269 Set odd parity (even if negated). May be negated.
15273 @cindex constant parity
15274 @cindex stick parity
15275 @cindex mark parity
15276 @cindex space parity
15277 Use "stick" (mark/space) parity. If parodd is set, the parity bit is
15278 always 1; if parodd is not set, the parity bit is always zero.
15279 Non-POSIX@. May be negated.
15286 @cindex character size
15287 @cindex eight-bit characters
15288 Set character size to 5, 6, 7, or 8 bits.
15293 Send a hangup signal when the last process closes the tty. May be
15299 Use two stop bits per character (one if negated). May be negated.
15303 Allow input to be received. May be negated.
15307 @cindex modem control
15308 Disable modem control signals. May be negated.
15312 @cindex hardware flow control
15313 @cindex flow control, hardware
15314 @cindex RTS/CTS flow control
15315 Enable RTS/CTS flow control. Non-POSIX@. May be negated.
15319 @cindex hardware flow control
15320 @cindex flow control, hardware
15321 @cindex DTR/DSR flow control
15322 Enable DTR/DSR flow control. Non-POSIX@. May be negated.
15327 @subsection Input settings
15329 @cindex input settings
15330 These settings control operations on data received from the terminal.
15335 @cindex breaks, ignoring
15336 Ignore break characters. May be negated.
15340 @cindex breaks, cause interrupts
15341 Make breaks cause an interrupt signal. May be negated.
15345 @cindex parity, ignoring
15346 Ignore characters with parity errors. May be negated.
15350 @cindex parity errors, marking
15351 Mark parity errors (with a 255-0-character sequence). May be negated.
15355 Enable input parity checking. May be negated.
15359 @cindex eight-bit input
15360 Clear high (8th) bit of input characters. May be negated.
15364 @cindex newline, translating to return
15365 Translate newline to carriage return. May be negated.
15369 @cindex return, ignoring
15370 Ignore carriage return. May be negated.
15374 @cindex return, translating to newline
15375 Translate carriage return to newline. May be negated.
15379 @cindex input encoding, UTF-8
15380 Assume input characters are UTF-8 encoded. May be negated.
15384 @kindex C-s/C-q flow control
15385 @cindex XON/XOFF flow control
15386 Enable XON/XOFF flow control (that is, @kbd{Ctrl-S}/@kbd{Ctrl-Q}). May
15393 @cindex software flow control
15394 @cindex flow control, software
15395 Enable sending of @code{stop} character when the system input buffer
15396 is almost full, and @code{start} character when it becomes almost
15397 empty again. May be negated.
15401 @cindex uppercase, translating to lowercase
15402 Translate uppercase characters to lowercase. Non-POSIX@. May be
15403 negated. There is no @samp{ilcuc} setting, as one would not be able to issue
15404 almost any (lowercase) Unix command, after invoking it.
15408 Allow any character to restart output (only the start character
15409 if negated). Non-POSIX@. May be negated.
15413 @cindex beeping at input buffer full
15414 Enable beeping and not flushing input buffer if a character arrives
15415 when the input buffer is full. Non-POSIX@. May be negated.
15420 @subsection Output settings
15422 @cindex output settings
15423 These settings control operations on data sent to the terminal.
15428 Postprocess output. May be negated.
15432 @cindex lowercase, translating to output
15433 Translate lowercase characters to uppercase. Non-POSIX@. May be
15434 negated. (There is no @samp{ouclc}.)
15438 @cindex return, translating to newline
15439 Translate carriage return to newline. Non-POSIX@. May be negated.
15443 @cindex newline, translating to crlf
15444 Translate newline to carriage return-newline. Non-POSIX@. May be
15449 Do not print carriage returns in the first column. Non-POSIX@.
15454 Newline performs a carriage return. Non-POSIX@. May be negated.
15458 @cindex pad instead of timing for delaying
15459 Use fill (padding) characters instead of timing for delays.
15465 @cindex pad character
15466 Use ASCII DEL characters for fill instead of
15467 ASCII NUL characters. Non-POSIX@.
15473 Newline delay style. Non-POSIX.
15480 Carriage return delay style. Non-POSIX.
15486 @opindex tab@var{n}
15487 Horizontal tab delay style. Non-POSIX.
15492 Backspace delay style. Non-POSIX.
15497 Vertical tab delay style. Non-POSIX.
15502 Form feed delay style. Non-POSIX.
15507 @subsection Local settings
15509 @cindex local settings
15514 Enable @code{interrupt}, @code{quit}, and @code{suspend} special
15515 characters. May be negated.
15519 Enable @code{erase}, @code{kill}, @code{werase}, and @code{rprnt}
15520 special characters. May be negated.
15524 Enable non-POSIX special characters. May be negated.
15528 Echo input characters. May be negated.
15534 Echo @code{erase} characters as backspace-space-backspace. May be
15539 @cindex newline echoing after @code{kill}
15540 Echo a newline after a @code{kill} character. May be negated.
15544 @cindex newline, echoing
15545 Echo newline even if not echoing other characters. May be negated.
15549 @cindex flushing, disabling
15550 Disable flushing after @code{interrupt} and @code{quit} special
15551 characters. May be negated.
15555 @cindex case translation
15556 Enable input and output of uppercase characters by preceding their
15557 lowercase equivalents with @samp{\}, when @code{icanon} is set.
15558 Non-POSIX@. May be negated.
15562 @cindex background jobs, stopping at terminal write
15563 Stop background jobs that try to write to the terminal. Non-POSIX@.
15570 Echo erased characters backward, between @samp{\} and @samp{/}.
15571 Non-POSIX@. May be negated.
15577 @cindex control characters, using @samp{^@var{c}}
15578 @cindex hat notation for control characters
15579 Echo control characters in hat notation (@samp{^@var{c}}) instead
15580 of literally. Non-POSIX@. May be negated.
15586 Echo the @code{kill} special character by erasing each character on
15587 the line as indicated by the @code{echoprt} and @code{echoe} settings,
15588 instead of by the @code{echoctl} and @code{echok} settings.
15594 Enable @samp{LINEMODE}, which is used to avoid echoing
15595 each character over high latency links. See also
15596 @uref{https://datatracker.ietf.org/doc/rfc1116/, Internet RFC 1116}.
15603 This setting is currently ignored on GNU/Linux systems.
15610 @subsection Combination settings
15612 @cindex combination settings
15613 Combination settings:
15620 Same as @code{parenb -parodd cs7}. May be negated. If negated, same
15621 as @code{-parenb cs8}.
15625 Same as @code{parenb parodd cs7}. May be negated. If negated, same
15626 as @code{-parenb cs8}.
15630 Same as @code{-icrnl -onlcr}. May be negated. If negated, same as
15631 @code{icrnl -inlcr -igncr onlcr -ocrnl -onlret}.
15635 Reset the @code{erase} and @code{kill} special characters to their default
15642 @c This is too long to write inline.
15644 cread -ignbrk brkint -inlcr -igncr icrnl
15645 icanon iexten echo echoe echok -echonl -noflsh
15646 -ixoff -iutf8 -iuclc -ixany imaxbel -xcase -olcuc -ocrnl
15647 opost -ofill onlcr -onocr -onlret nl0 cr0 tab0 bs0 vt0 ff0
15648 isig -tostop -ofdel -echoprt echoctl echoke -extproc
15652 and also sets all special characters to their default values.
15656 Same as @code{brkint ignpar istrip icrnl ixon opost isig icanon}, plus
15657 sets the @code{eof} and @code{eol} characters to their default values
15658 if they are the same as the @code{min} and @code{time} characters.
15659 May be negated. If negated, same as @code{raw}.
15666 -ignbrk -brkint -ignpar -parmrk -inpck -istrip
15667 -inlcr -igncr -icrnl -ixon -ixoff -icanon -opost
15668 -isig -iuclc -ixany -imaxbel -xcase min 1 time 0
15672 May be negated. If negated, same as @code{cooked}.
15676 Same as @option{-icanon}. May be negated. If negated, same as
15681 @cindex eight-bit characters
15682 Same as @code{-parenb -istrip cs8}. May be negated. If negated,
15683 same as @code{parenb istrip cs7}.
15687 Same as @option{-parenb -istrip -opost cs8}. May be negated.
15688 If negated, same as @code{parenb istrip opost cs7}.
15692 Same as @option{-ixany}. Non-POSIX@. May be negated.
15696 Same as @code{tab0}. Non-POSIX@. May be negated. If negated, same
15703 Same as @code{xcase iuclc olcuc}. Non-POSIX@. May be negated.
15704 (Used for terminals with uppercase characters only.)
15708 Same as @code{echoe echoctl echoke}.
15712 Same as @code{echoe echoctl echoke -ixany intr ^C erase ^? kill C-u}.
15717 @subsection Special characters
15719 @cindex special characters
15720 @cindex characters, special
15722 The special characters' default values vary from system to system.
15723 They are set with the syntax @samp{name value}, where the names are
15724 listed below and the value can be given either literally, in hat
15725 notation (@samp{^@var{c}}), or as an integer which may start with
15726 @samp{0x} to indicate hexadecimal, @samp{0} to indicate octal, or
15727 any other digit to indicate decimal.
15729 @cindex disabling special characters
15730 @kindex u@r{, and disabling special characters}
15731 For GNU stty, giving a value of @code{^-} or @code{undef} disables that
15732 special character. (This is incompatible with Ultrix @command{stty},
15733 which uses a value of @samp{u} to disable a special character. GNU
15734 @command{stty} treats a value @samp{u} like any other, namely to set that
15735 special character to @key{U}.)
15741 Send an interrupt signal.
15745 Send a quit signal.
15749 Erase the last character typed.
15753 Erase the current line.
15757 Send an end of file (terminate the input).
15765 Alternate character to end the line. Non-POSIX.
15770 Alternate character to toggle discarding of output. Non-POSIX.
15774 Switch to a different shell layer. Non-POSIX.
15778 Send an info signal. Not currently supported on GNU/Linux. Non-POSIX.
15782 Restart the output after stopping it.
15790 Send a terminal stop signal.
15794 Send a terminal stop signal after flushing the input. Non-POSIX.
15798 Redraw the current line. Non-POSIX.
15802 Erase the last word typed. Non-POSIX.
15806 Enter the next character typed literally, even if it is a special
15807 character. Non-POSIX.
15812 @subsection Special settings
15814 @cindex special settings
15819 Set the minimum number of characters that will satisfy a read until
15820 the time value has expired, when @option{-icanon} is set.
15824 Set the number of tenths of a second before reads time out if the minimum
15825 number of characters have not been read, when @option{-icanon} is set.
15827 @item ispeed @var{n}
15829 Set the input speed to @var{n}.
15831 @item ospeed @var{n}
15833 Set the output speed to @var{n}.
15837 Tell the tty kernel driver that the terminal has @var{n} rows.
15841 @itemx columns @var{n}
15844 Tell the kernel that the terminal has @var{n} columns. Non-POSIX.
15848 @cindex nonblocking @command{stty} setting
15849 Apply settings after first waiting for pending output to be transmitted.
15850 This is enabled by default for GNU @command{stty}.
15851 This is treated as an option rather than a line setting,
15852 and will follow the option processing rules described in the summary above.
15853 It is useful to disable this option
15854 in cases where the system may be in a state where serial transmission
15856 For example, if the system has received the @samp{DC3} character
15857 with @code{ixon} (software flow control) enabled, then @command{stty} would
15858 block without @code{-drain} being specified.
15859 May be negated. Non-POSIX.
15865 Print the number of rows and columns that the kernel thinks the
15866 terminal has. (Systems that don't support rows and columns in the kernel
15867 typically use the environment variables @env{LINES} and @env{COLUMNS}
15868 instead; however, GNU @command{stty} does not know anything about them.)
15873 Use line discipline @var{n}. Non-POSIX.
15877 Print the terminal speed.
15880 @cindex baud rate, setting
15881 Set the input and output speeds to @var{n}. @var{n} can be one of: 0
15882 50 75 110 134 134.5 150 200 300 600 1200 1800 2400 4800 9600 19200
15883 38400 @code{exta} @code{extb}. @code{exta} is the same as 19200;
15884 @code{extb} is the same as 38400. Many systems, including GNU/Linux,
15885 support higher speeds. The @command{stty} command includes support
15902 4000000 where the system supports these.
15903 0 hangs up the line if @option{-clocal} is set.
15907 @node printenv invocation
15908 @section @command{printenv}: Print all or some environment variables
15911 @cindex printing all or some environment variables
15912 @cindex environment variables, printing
15914 @command{printenv} prints environment variable values. Synopsis:
15917 printenv [@var{option}] [@var{variable}]@dots{}
15920 If no @var{variable}s are specified, @command{printenv} prints the value of
15921 every environment variable. Otherwise, it prints the value of each
15922 @var{variable} that is set, and nothing for those that are not set.
15924 The program accepts the following option. Also see @ref{Common options}.
15932 @cindex exit status of @command{printenv}
15936 0 if all variables specified were found
15937 1 if at least one specified variable was not found
15938 2 if a write error occurred
15942 @node tty invocation
15943 @section @command{tty}: Print file name of terminal on standard input
15946 @cindex print terminal file name
15947 @cindex terminal file name, printing
15949 @command{tty} prints the file name of the terminal connected to its standard
15950 input. It prints @samp{not a tty} if standard input is not a terminal.
15954 tty [@var{option}]@dots{}
15957 The program accepts the following option. Also see @ref{Common options}.
15967 Print nothing; only return an exit status.
15971 @cindex exit status of @command{tty}
15975 0 if standard input is a terminal
15976 1 if standard input is a non-terminal file
15977 2 if given incorrect arguments
15978 3 if a write error occurs
15982 @node User information
15983 @chapter User information
15985 @cindex user information, commands for
15986 @cindex commands for printing user information
15988 This section describes commands that print user-related information:
15989 logins, groups, and so forth.
15992 * id invocation:: Print user identity.
15993 * logname invocation:: Print current login name.
15994 * whoami invocation:: Print effective user ID.
15995 * groups invocation:: Print group names a user is in.
15996 * users invocation:: Print login names of users currently logged in.
15997 * who invocation:: Print who is currently logged in.
15998 * pinky invocation:: Print information about users.
16002 @node id invocation
16003 @section @command{id}: Print user identity
16006 @cindex real user and group IDs, printing
16007 @cindex effective user and group IDs, printing
16008 @cindex printing real and effective user and group IDs
16010 @command{id} prints information about the given user, or the process
16011 running it if no user is specified. Synopsis:
16014 id [@var{option}]@dots{} [@var{user}]@dots{}
16017 @var{user} can be either a user ID or a name, with name look-up
16018 taking precedence unless the ID is specified with a leading @samp{+}.
16019 @xref{Disambiguating names and IDs}.
16021 @vindex POSIXLY_CORRECT
16022 By default, it prints the real user ID, real group ID, effective user ID
16023 if different from the real user ID, effective group ID if different from
16024 the real group ID, and supplemental group IDs.
16025 In addition, if SELinux
16026 is enabled and the @env{POSIXLY_CORRECT} environment variable is not set,
16027 then print @samp{context=@var{c}}, where @var{c} is the security context.
16029 Each of these numeric values is preceded by an identifying string and
16030 followed by the corresponding user or group name in parentheses.
16032 The options cause @command{id} to print only part of the above information.
16033 Also see @ref{Common options}.
16040 Print only the group ID.
16046 Print only the group ID and the supplementary groups.
16052 Print the user or group name instead of the ID number. Requires
16053 @option{-u}, @option{-g}, or @option{-G}.
16059 Print the real, instead of effective, user or group ID@. Requires
16060 @option{-u}, @option{-g}, or @option{-G}.
16066 Print only the user ID.
16073 @cindex security context
16074 Print only the security context of the process, which is generally
16075 the user's security context inherited from the parent process.
16076 If neither SELinux or SMACK is enabled then print a warning and
16077 set the exit status to 1.
16083 Delimit output items with ASCII NUL characters.
16084 This option is not permitted when using the default format.
16085 When multiple users are specified, and the @option{--groups} option
16086 is also in effect, groups are delimited with a single NUL character,
16087 while users are delimited with two NUL characters.
16092 users <NUL> devs <NUL>
16097 @macro primaryAndSupplementaryGroups{cmd,arg}
16098 Primary and supplementary groups for a process are normally inherited
16099 from its parent and are usually unchanged since login. This means
16100 that if you change the group database after logging in, @command{\cmd\}
16101 will not reflect your changes within your existing login session.
16102 Running @command{\cmd\} with a \arg\ causes the user and group
16103 database to be consulted afresh, and so will give a different result.
16105 @primaryAndSupplementaryGroups{id,user argument}
16109 @node logname invocation
16110 @section @command{logname}: Print current login name
16113 @cindex printing user's login name
16114 @cindex login name, printing
16115 @cindex user name, printing
16118 @command{logname} prints the calling user's name, as found in a
16119 system-maintained file (often @file{/var/run/utmp} or
16120 @file{/etc/utmp}), and exits with a status of 0. If there is no entry
16121 for the calling process, @command{logname} prints
16122 an error message and exits with a status of 1.
16124 The only options are @option{--help} and @option{--version}. @xref{Common
16130 @node whoami invocation
16131 @section @command{whoami}: Print effective user name
16134 @cindex effective user name, printing
16135 @cindex printing the effective user ID
16137 @command{whoami} prints the user name associated with the current
16138 effective user ID@. It is equivalent to the command @samp{id -un}.
16140 The only options are @option{--help} and @option{--version}. @xref{Common
16146 @node groups invocation
16147 @section @command{groups}: Print group names a user is in
16150 @cindex printing groups a user is in
16151 @cindex supplementary groups, printing
16153 @command{groups} prints the names of the primary and any supplementary
16154 groups for each given @var{username}, or the current process if no names
16155 are given. If more than one name is given, the name of each user is
16157 the list of that user's groups and the user name is separated from the
16158 group list by a colon. Synopsis:
16161 groups [@var{username}]@dots{}
16164 The group lists are equivalent to the output of the command @samp{id -Gn}.
16166 The only options are @option{--help} and @option{--version}. @xref{Common
16169 @primaryAndSupplementaryGroups{groups,list of users}
16173 @node users invocation
16174 @section @command{users}: Print login names of users currently logged in
16177 @cindex printing current usernames
16178 @cindex usernames, printing current
16180 @cindex login sessions, printing users with
16181 @command{users} prints on a single line a blank-separated list of user
16182 names of users currently logged in to the current host. Each user name
16183 corresponds to a login session, so if a user has more than one login
16184 session, that user's name will appear the same number of times in the
16193 With no @var{file} argument, @command{users} extracts its information from
16194 a system-maintained file (often @file{/var/run/utmp} or
16195 @file{/etc/utmp}). If a file argument is given, @command{users} uses
16196 that file instead. A common choice is @file{/var/log/wtmp}.
16198 The only options are @option{--help} and @option{--version}. @xref{Common
16201 The @command{users} command is installed only on platforms with the
16202 POSIX @code{<utmpx.h>} include file or equivalent, so portable scripts
16203 should not rely on its existence on non-POSIX platforms.
16208 @node who invocation
16209 @section @command{who}: Print who is currently logged in
16212 @cindex printing current user information
16213 @cindex information, about current users
16215 @command{who} prints information about users who are currently logged on.
16219 @command{who} [@var{option}] [@var{file}] [am i]
16222 @cindex terminal lines, currently used
16224 @cindex remote hostname
16225 If given no non-option arguments, @command{who} prints the following
16226 information for each user currently logged on: login name, terminal
16227 line, login time, and remote hostname or X display.
16231 If given one non-option argument, @command{who} uses that instead of
16232 a default system-maintained file (often @file{/var/run/utmp} or
16233 @file{/etc/utmp}) as the name of the file containing the record of
16234 users logged on. @file{/var/log/wtmp} is commonly given as an argument
16235 to @command{who} to look at who has previously logged on.
16239 If given two non-option arguments, @command{who} prints only the entry
16240 for the user running it (determined from its standard input), preceded
16241 by the hostname. Traditionally, the two arguments given are @samp{am
16242 i}, as in @samp{who am i}.
16245 Timestamps are listed according to the time zone rules specified by
16246 the @env{TZ} environment variable, or by the system default rules if
16247 @env{TZ} is not set. @xref{TZ Variable,, Specifying the Time Zone
16248 with @env{TZ}, libc, The GNU C Library Reference Manual}.
16250 The program accepts the following options. Also see @ref{Common options}.
16258 Same as @samp{-b -d --login -p -r -t -T -u}.
16264 Print the date and time of last system boot.
16270 Print information corresponding to dead processes.
16276 Print a line of column headings.
16282 List only the entries that correspond to processes via which the
16283 system is waiting for a user to login. The user name is always @samp{LOGIN}.
16285 @macro lookupOption
16288 Attempt to canonicalize hostnames found in utmp through a DNS lookup.
16289 This is not the default because of potential delays.
16295 Same as @samp{who am i}.
16301 List active processes spawned by init.
16307 Print only the login names and the number of users logged on.
16308 Overrides all other options.
16313 @opindex --runlevel
16314 Print the current (and maybe previous) run-level of the init process.
16318 Ignored; for compatibility with other versions of @command{who}.
16324 Print last system clock change.
16329 After the login time, print the number of hours and minutes that the
16330 user has been idle. @samp{.} means the user was active in the last minute.
16331 @samp{old} means the user has been idle for more than 24 hours.
16342 @opindex --writable
16343 @cindex message status
16344 @pindex write@r{, allowed}
16345 After each login name print a character indicating the user's message status:
16348 @samp{+} allowing @code{write} messages
16349 @samp{-} disallowing @code{write} messages
16350 @samp{?} cannot find terminal device
16355 The @command{who} command is installed only on platforms with the
16356 POSIX @code{<utmpx.h>} include file or equivalent, so portable scripts
16357 should not rely on its existence on non-POSIX platforms.
16362 @node pinky invocation
16363 @section @command{pinky}: Print information about users
16365 @command{pinky} is a lightweight implementation of the @command{finger} command.
16369 @command{pinky} [@var{option}] [@var{username}]@dots{}
16372 The program accepts the following options. Also see @ref{Common options}.
16378 Produce long format output.
16380 When producing long output at least one @var{username} must be given.
16381 If @var{username} cannot be found, the real name is printed as
16382 @samp{???} and the home directory and shell are omitted.
16386 Omit the user's home directory and shell when printing in long format.
16390 Omit the user's project file when printing in long format.
16394 Omit the user's plan file when printing in long format.
16398 Produce short format output. This is the default behavior when no
16403 Omit the column headings when printing in short format.
16407 Omit the user's full name when printing in short format.
16411 Omit the user's full name and remote host when printing in short
16416 Omit the user's full name, remote host, and idle time when printing in
16426 @node System context
16427 @chapter System context
16429 @cindex system context
16430 @cindex context, system
16431 @cindex commands for system context
16433 This section describes commands that print or change system-wide
16437 * date invocation:: Print or set system date and time.
16438 * arch invocation:: Print machine hardware name.
16439 * nproc invocation:: Print the number of processors.
16440 * uname invocation:: Print system information.
16441 * hostname invocation:: Print or set system name.
16442 * hostid invocation:: Print numeric host identifier.
16443 * uptime invocation:: Print system uptime and load.
16446 @node date invocation
16447 @section @command{date}: Print or set system date and time
16450 @cindex time, printing or setting
16451 @cindex printing the current time
16456 date [@var{option}]@dots{} [+@var{format}]
16457 date [-u|--utc|--universal] @c this avoids a newline in the output
16458 [ MMDDhhmm[[CC]YY][.ss] ]
16461 The @command{date} command displays the date and time.
16462 With the @option{--set} (@option{-s}) option, or with
16463 @samp{MMDDhhmm[[CC]YY][.ss]},
16464 it sets the date and time.
16467 Invoking @command{date} with no @var{format} argument is equivalent to invoking
16468 it with a default format that depends on the @env{LC_TIME} locale category.
16469 In the default C locale, this format is @samp{'+%a %b %e %H:%M:%S %Z %Y'},
16470 so the output looks like @samp{Thu Jul @ 9 17:00:00 EDT 2020}.
16473 Normally, @command{date} uses the time zone rules indicated by the
16474 @env{TZ} environment variable, or the system default rules if @env{TZ}
16475 is not set. @xref{TZ Variable,, Specifying the Time Zone with
16476 @env{TZ}, libc, The GNU C Library Reference Manual}.
16481 * Date format specifiers:: Used in @samp{date '+...'}
16482 * Setting the time:: Changing the system clock.
16483 * Options for date:: Instead of the current time.
16485 * Date input formats:: Specifying date strings.
16487 * Examples of date:: Examples.
16490 @node Date format specifiers
16491 @subsection Specifying the format of @command{date} output
16493 @findex strftime @r{and @command{date}}
16494 @cindex time formats
16495 @cindex formatting times
16496 If given an argument that starts with a @samp{+}, @command{date} prints the
16497 current date and time (or the date and time specified by the
16498 @option{--date} option, see below) in the format defined by that argument,
16499 which is similar to that of the @code{strftime} function. Except for
16500 conversion specifiers, which start with @samp{%}, characters in the
16501 format string are printed unchanged. The conversion specifiers are
16505 * Time conversion specifiers:: %[HIklMNpPrRsSTXzZ]
16506 * Date conversion specifiers:: %[aAbBcCdDeFgGhjmuUVwWxyY]
16507 * Literal conversion specifiers:: %[%nt]
16508 * Padding and other flags:: Pad with zeros, spaces, etc.
16511 @node Time conversion specifiers
16512 @subsubsection Time conversion specifiers
16514 @cindex time conversion specifiers
16515 @cindex conversion specifiers, time
16517 @command{date} conversion specifiers related to times.
16521 hour (@samp{00}@dots{}@samp{23})
16523 hour (@samp{01}@dots{}@samp{12})
16525 hour, space padded (@samp{ 0}@dots{}@samp{23}); equivalent to @samp{%_H}@.
16526 This is a GNU extension.
16528 hour, space padded (@samp{ 1}@dots{}@samp{12}); equivalent to @samp{%_I}@.
16529 This is a GNU extension.
16531 minute (@samp{00}@dots{}@samp{59})
16533 nanoseconds (@samp{000000000}@dots{}@samp{999999999}).
16534 This is a GNU extension.
16536 locale's equivalent of either @samp{AM} or @samp{PM};
16537 blank in many locales.
16538 Noon is treated as @samp{PM} and midnight as @samp{AM}.
16540 like @samp{%p}, except lower case.
16541 This is a GNU extension.
16543 locale's 12-hour clock time (e.g., @samp{11:11:04 PM})
16545 24-hour hour and minute. Same as @samp{%H:%M}.
16547 @cindex Epoch, seconds since
16548 @cindex seconds since the Epoch
16549 @cindex beginning of time
16550 @cindex leap seconds
16551 seconds since the Epoch, i.e., since 1970-01-01 00:00 UTC@.
16552 Leap seconds are not counted unless leap second support is available.
16553 @xref{%s-examples}, for examples.
16554 This is a GNU extension.
16556 @cindex leap seconds
16557 second (@samp{00}@dots{}@samp{60}).
16558 This may be @samp{60} if leap seconds are supported.
16560 24-hour hour, minute, and second. Same as @samp{%H:%M:%S}.
16562 locale's time representation (e.g., @samp{23:13:48})
16564 Four-digit numeric time zone, e.g., @samp{-0600} or @samp{+0530}, or
16566 time zone is determinable. This value reflects the numeric time zone
16567 appropriate for the current time, using the time zone rules specified
16568 by the @env{TZ} environment variable. A time zone is not determinable if
16569 its numeric offset is zero and its abbreviation begins with @samp{-}.
16570 The time (and optionally, the time zone rules) can be overridden
16571 by the @option{--date} option.
16573 Numeric time zone with @samp{:}, e.g., @samp{-06:00} or
16574 @samp{+05:30}), or @samp{-00:00} if no time zone is determinable.
16575 This is a GNU extension.
16577 Numeric time zone to the nearest second with @samp{:} (e.g.,
16578 @samp{-06:00:00} or @samp{+05:30:00}), or @samp{-00:00:00} if no time zone is
16580 This is a GNU extension.
16582 Numeric time zone with @samp{:} using the minimum necessary precision
16583 (e.g., @samp{-06}, @samp{+05:30}, or @samp{-04:56:02}), or @samp{-00} if
16584 no time zone is determinable.
16585 This is a GNU extension.
16587 alphabetic time zone abbreviation (e.g., @samp{EDT}), or nothing if no
16588 time zone is determinable. See @samp{%z} for how it is determined.
16592 @node Date conversion specifiers
16593 @subsubsection Date conversion specifiers
16595 @cindex date conversion specifiers
16596 @cindex conversion specifiers, date
16598 @command{date} conversion specifiers related to dates.
16602 locale's abbreviated weekday name (e.g., @samp{Sun})
16604 locale's full weekday name, variable length (e.g., @samp{Sunday})
16606 locale's abbreviated month name (e.g., @samp{Jan})
16608 locale's full month name, variable length (e.g., @samp{January})
16610 locale's date and time (e.g., @samp{Thu Mar @ 3 23:05:25 2020})
16612 century. This is like @samp{%Y}, except the last two digits are omitted.
16613 For example, it is @samp{20} if @samp{%Y} is @samp{2019},
16614 and is @samp{-0} if @samp{%Y} is @samp{-001}.
16615 It is normally at least two characters, but it may be more.
16617 day of month (e.g., @samp{01})
16619 date; same as @samp{%m/%d/%y}
16621 day of month, space padded; same as @samp{%_d}
16623 full date in ISO 8601 format; like @samp{%+4Y-%m-%d}
16624 except that any flags or field width override the @samp{+}
16625 and (after subtracting 6) the @samp{4}.
16626 This is a good choice for a date format, as it is standard and
16627 is easy to sort in the usual case where years are in the range
16630 year corresponding to the ISO week number, but without the century
16631 (range @samp{00} through @samp{99}). This has the same format and value
16632 as @samp{%y}, except that if the ISO week number (see
16634 to the previous or next year, that year is used instead.
16636 year corresponding to the ISO week number. This has the
16637 same format and value as @samp{%Y}, except that if the ISO
16639 @samp{%V}) belongs to the previous or next year, that year is used
16641 It is normally useful only if @samp{%V} is also used;
16642 for example, the format @samp{%G-%m-%d} is probably a mistake,
16643 since it combines the ISO week number year with the conventional month and day.
16647 day of year (@samp{001}@dots{}@samp{366})
16649 month (@samp{01}@dots{}@samp{12})
16651 quarter of year (@samp{1}@dots{}@samp{4})
16653 day of week (@samp{1}@dots{}@samp{7}) with @samp{1} corresponding to Monday
16655 week number of year, with Sunday as the first day of the week
16656 (@samp{00}@dots{}@samp{53}).
16657 Days in a new year preceding the first Sunday are in week zero.
16659 ISO week number, that is, the
16660 week number of year, with Monday as the first day of the week
16661 (@samp{01}@dots{}@samp{53}).
16662 If the week containing January 1 has four or more days in
16663 the new year, then it is considered week 1; otherwise, it is week 53 of
16664 the previous year, and the next week is week 1. (See the ISO 8601
16667 day of week (@samp{0}@dots{}@samp{6}) with 0 corresponding to Sunday
16669 week number of year, with Monday as first day of week
16670 (@samp{00}@dots{}@samp{53}).
16671 Days in a new year preceding the first Monday are in week zero.
16673 locale's date representation (e.g., @samp{12/31/99})
16675 last two digits of year (@samp{00}@dots{}@samp{99})
16677 year. This is normally at least four characters, but it may be more.
16678 Year @samp{0000} precedes year @samp{0001}, and year @samp{-001}
16679 precedes year @samp{0000}.
16683 @node Literal conversion specifiers
16684 @subsubsection Literal conversion specifiers
16686 @cindex literal conversion specifiers
16687 @cindex conversion specifiers, literal
16689 @command{date} conversion specifiers that produce literal strings.
16701 @node Padding and other flags
16702 @subsubsection Padding and other flags
16704 @cindex numeric field padding
16705 @cindex padding of numeric fields
16706 @cindex fields, padding numeric
16708 Unless otherwise specified, @command{date} normally pads numeric fields
16709 with zeros, so that, for
16710 example, numeric months are always output as two digits.
16711 Most numeric fields are padded on the left.
16712 However, nanoseconds are padded on the right since they are commonly
16713 used after decimal points in formats like @samp{%s.%-N}.
16714 Also, seconds since the Epoch are not padded
16715 since there is no natural width for them.
16717 The following optional flags can appear after the @samp{%}:
16721 (hyphen) Do not pad the field; useful if the output is intended for
16723 This is a GNU extension.
16724 As a special case, @samp{%-N} outputs only enough trailing digits to
16725 not lose information, assuming that the timestamp's resolution is the
16726 same as the current hardware clock. For example, if the hardware
16727 clock resolution is 1 microsecond, @samp{%s.%-N} outputs something
16728 like @samp{1640890100.395710}.
16731 (underscore) Pad with spaces; useful if you need a fixed
16732 number of characters in the output, but zeros are too distracting.
16733 This is a GNU extension.
16735 (zero) Pad with zeros even if the conversion specifier
16736 would normally pad with spaces.
16738 Pad with zeros, like @samp{0}. In addition, precede any year number
16739 with @samp{+} if it exceeds 9999 or if its field width exceeds 4;
16740 similarly, precede any century number with @samp{+} if it exceeds 99
16741 or if its field width exceeds 2. This supports ISO 8601 formats
16742 for dates far in the future; for example, the command @code{date
16743 --date=12019-02-25 +%+13F} outputs the string @samp{+012019-02-25}.
16745 Use upper case characters if possible.
16746 This is a GNU extension.
16748 Use opposite case characters if possible.
16749 A field that is normally upper case becomes lower case, and vice versa.
16750 This is a GNU extension.
16754 Here are some examples of padding:
16757 date +%d/%m -d "Feb 1"
16759 date +%-d/%-m -d "Feb 1"
16761 date +%_d/%_m -d "Feb 1"
16765 You can optionally specify the field width
16766 (after any flag, if present) as a decimal number. If the natural size of the
16767 output of the field has less than the specified number of characters,
16768 the result is normally written right adjusted and padded to the given
16769 size. For example, @samp{%9B} prints the right adjusted month name in
16770 a field of width 9. Nanoseconds are left adjusted, and are truncated
16771 or padded to the field width.
16773 An optional modifier can follow the optional flag and width
16774 specification. The modifiers are:
16778 Use the locale's alternate representation for date and time. This
16779 modifier applies to the @samp{%c}, @samp{%C}, @samp{%x}, @samp{%X},
16780 @samp{%y} and @samp{%Y} conversion specifiers. In a Japanese locale, for
16781 example, @samp{%Ex} might yield a date format based on the Japanese
16785 Use the locale's alternate numeric symbols for numbers. This modifier
16786 applies only to numeric conversion specifiers.
16789 If the format supports the modifier but no alternate representation
16790 is available, it is ignored.
16792 POSIX specifies the behavior of flags and field widths only for
16793 @samp{%C}, @samp{%F}, @samp{%G}, and @samp{%Y} (all without
16794 modifiers), and requires a flag to be present if and only if a field
16795 width is also present. Other combinations of flags, field widths and
16796 modifiers are GNU extensions.
16799 @node Setting the time
16800 @subsection Setting the time
16802 @cindex setting the time
16803 @cindex time setting
16804 @cindex appropriate privileges
16806 You must have appropriate privileges to set the
16807 system clock. For changes to persist across a reboot, the
16808 hardware clock may need to be updated from the system clock, which
16809 might not happen automatically on your system.
16811 To set the clock, you can use the @option{--set} (@option{-s}) option
16812 (@pxref{Options for date}). To set the clock without using GNU
16813 extensions, you can give @command{date} an argument of the form
16814 @samp{MMDDhhmm[[CC]YY][.ss]} where each two-letter
16815 component stands for two digits with the following meanings:
16827 first two digits of year (optional)
16829 last two digits of year (optional)
16834 The @option{--date} and @option{--set} options may not be used with an
16835 argument in the above format. The @option{--universal} option may be used
16836 with such an argument to indicate that the specified date and time are
16837 relative to Universal Time rather than to the local time zone.
16840 @node Options for date
16841 @subsection Options for @command{date}
16843 @cindex @command{date} options
16844 @cindex options for @command{date}
16846 The program accepts the following options. Also see @ref{Common options}.
16847 Except for @option{-u}, these options are all GNU extensions to POSIX.
16849 All options that specify the date to display are mutually exclusive.
16850 I.e.: @option{--date}, @option{--file}, @option{--reference},
16851 @option{--resolution}.
16855 @item -d @var{datestr}
16856 @itemx --date=@var{datestr}
16859 @cindex parsing date strings
16860 @cindex date strings, parsing
16861 @cindex arbitrary date strings, parsing
16864 @opindex next @var{day}
16865 @opindex last @var{day}
16866 Display the date and time specified in @var{datestr} instead of the
16867 current date and time. @var{datestr} can be in almost any common
16868 format. It can contain month names, time zones, @samp{am} and @samp{pm},
16869 @samp{yesterday}, etc. For example, @option{--date="2020-07-21
16870 14:19:13.489392193 +0530"} specifies the instant of time that is
16871 489,392,193 nanoseconds after July 21, 2020 at 2:19:13 PM in a
16872 time zone that is 5 hours and 30 minutes east of UTC.@*
16873 The @var{datestr} must be in locale independent format. E.g., the
16874 @samp{LC_TIME=C} below is needed to print the correct date in many locales:
16876 date -d "$(LC_TIME=C date)"
16878 @xref{Date input formats}.
16882 @cindex debugging date strings
16883 @cindex date strings, debugging
16884 @cindex arbitrary date strings, debugging
16885 Annotate the parsed date, display the effective time zone, and warn about
16888 @item -f @var{datefile}
16889 @itemx --file=@var{datefile}
16892 Parse each line in @var{datefile} as with @option{-d} and display the
16893 resulting date and time. If @var{datefile} is @samp{-}, use standard
16894 input. This is useful when you have many dates to process, because the
16895 system overhead of starting up the @command{date} executable many times can
16898 @item -I[@var{timespec}]
16899 @itemx --iso-8601[=@var{timespec}]
16900 @opindex -I[@var{timespec}]
16901 @opindex --iso-8601[=@var{timespec}]
16902 Display the date using an ISO 8601 format, @samp{%Y-%m-%d}.
16904 The argument @var{timespec} specifies the number of additional
16905 terms of the time to include. It can be one of the following:
16908 Print just the date. This is the default if @var{timespec} is omitted.
16909 This is like the format @code{%Y-%m-%d}.
16912 Also print hours and time zone.
16913 This is like the format @code{%Y-%m-%dT%H%:z}.
16916 Also print minutes.
16917 This is like the format @code{%Y-%m-%dT%H:%M%:z}.
16920 Also print seconds.
16921 This is like the format @code{%Y-%m-%dT%H:%M:%S%:z}.
16924 Also print nanoseconds.
16925 This is like the format @code{%Y-%m-%dT%H:%M:%S,%N%:z}.
16928 @macro dateParseNote
16929 This format is always suitable as input
16930 for the @option{--date} (@option{-d}) and @option{--file}
16931 (@option{-f}) options, regardless of the current locale.
16935 @item -r @var{file}
16936 @itemx --reference=@var{file}
16938 @opindex --reference
16939 Display the date and time of the last modification of @var{file},
16940 instead of the current date and time.
16943 @opindex --resolution
16944 Display the timestamp resolution instead of the time.
16945 Current clock timestamps that are output by @command{date}
16946 are integer multiples of the timestamp resolution.
16947 With this option, the format defaults to @samp{%s.%N}.
16948 For example, if the clock resolution is 1 millisecond,
16958 @opindex --rfc-email
16959 Display the date and time using the format @samp{%a, %d %b %Y %H:%M:%S
16960 %z}, evaluated in the C locale so abbreviations are always in English.
16964 Mon, 09 Jul 2020 17:00:00 -0400
16968 @opindex --rfc-2822
16969 This format conforms to Internet RFCs
16970 @uref{https://datatracker.ietf.org/doc/rfc5322/, 5322},
16971 @uref{https://datatracker.ietf.org/doc/rfc2822/, 2822} and
16972 @uref{https://datatracker.ietf.org/doc/rfc822/, 822}, the
16973 current and previous standards for Internet email.
16974 For compatibility with older versions of @command{date},
16975 @option{--rfc-2822} and @option{--rfc-822} are aliases for
16976 @option{--rfc-email}.
16978 @item --rfc-3339=@var{timespec}
16979 @opindex --rfc-3339=@var{timespec}
16980 Display the date using a format specified by
16981 @uref{https://datatracker.ietf.org/doc/rfc3339/, Internet
16982 RFC 3339}. This is like @option{--iso-8601}, except that a space rather
16983 than a @samp{T} separates dates from times, and a period rather than
16984 a comma separates seconds from subseconds.
16987 The argument @var{timespec} specifies how much of the time to include.
16988 It can be one of the following:
16992 Print just the full-date, e.g., @samp{2020-07-21}.
16993 This is like the format @samp{%Y-%m-%d}.
16996 Print the full-date and full-time separated by a space, e.g.,
16997 @samp{2020-07-21 04:30:37+05:30}. The output ends with a numeric
16998 time-offset; here the @samp{+05:30} means that local time is five
16999 hours and thirty minutes east of UTC@. This is like
17000 the format @samp{%Y-%m-%d %H:%M:%S%:z}.
17003 Like @samp{seconds}, but also print nanoseconds, e.g.,
17004 @samp{2020-07-21 04:30:37.998458565+05:30}.
17005 This is like the format @samp{%Y-%m-%d %H:%M:%S.%N%:z}.
17009 @item -s @var{datestr}
17010 @itemx --set=@var{datestr}
17013 Set the date and time to @var{datestr}. See @option{-d} above.
17014 See also @ref{Setting the time}.
17021 @opindex --universal
17022 @cindex Coordinated Universal Time
17024 @cindex Greenwich Mean Time
17026 @cindex leap seconds
17028 @cindex Universal Time
17029 Use Universal Time by operating as if the
17030 @env{TZ} environment variable were set to the string @samp{UTC0}.
17031 UTC stands for Coordinated Universal Time, established in 1960.
17032 Universal Time is often called ``Greenwich Mean Time'' (GMT) for
17033 historical reasons.
17034 Typically, systems ignore leap seconds and thus implement an
17035 approximation to UTC rather than true UTC.
17039 @node Examples of date
17040 @subsection Examples of @command{date}
17042 @cindex examples of @command{date}
17044 Here are a few examples. Also see the documentation for the @option{-d}
17045 option in the previous section.
17050 To print the date of the day before yesterday:
17053 date --date='2 days ago'
17057 To print the date of the day three months and one day hence:
17060 date --date='3 months 1 day'
17064 To print the day of year of Christmas in the current year:
17067 date --date='25 Dec' +%j
17071 To print the current full month name and the day of the month:
17077 But this may not be what you want because for the first nine days of
17078 the month, the @samp{%d} expands to a zero-padded two-digit field,
17079 for example @samp{date -d 1may '+%B %d'} will print @samp{May 01}.
17082 To print a date without the leading zero for one-digit days
17083 of the month, you can use the (GNU extension)
17084 @samp{-} flag to suppress
17085 the padding altogether:
17088 date -d 1may '+%B %-d'
17092 To print the current date and time in the format required by many
17093 non-GNU versions of @command{date} when setting the system clock:
17096 date +%m%d%H%M%Y.%S
17100 To set the system clock forward by two minutes:
17103 date --set='+2 minutes'
17107 To print the date in Internet RFC 5322 format,
17108 use @samp{date --rfc-email}. Here is some example output:
17111 Tue, 09 Jul 2020 19:00:37 -0400
17114 @anchor{%s-examples}
17116 To convert a date string to the number of seconds since the Epoch
17117 (which is 1970-01-01 00:00 UTC), use the @option{--date} option with
17118 the @samp{%s} format. That can be useful in sorting and/or graphing
17119 and/or comparing data by date. The following command outputs the
17120 number of the seconds since the Epoch for the time two minutes after the
17124 date --date='1970-01-01 00:02:00 +0000' +%s
17128 To convert a date string from one time zone @var{from} to another @var{to},
17129 specify @samp{TZ="@var{from}"} in the environment and @samp{TZ="@var{to}"}
17130 in the @option{--date} option. @xref{Specifying time zone rules}.
17134 TZ="Asia/Tokyo" date --date='TZ="America/New_York" 2023-05-07 12:23'
17135 Mon May @ 8 01:23:00 JST 2023
17138 If you do not specify time zone information in the date string,
17139 @command{date} uses your computer's idea of the time zone when
17140 interpreting the string. For example, if your computer's time zone is
17141 that of Cambridge, Massachusetts, which was then 5 hours (i.e., 18,000
17142 seconds) behind UTC:
17145 # local time zone used
17146 date --date='1970-01-01 00:02:00' +%s
17151 If you're sorting or graphing dated data, your raw date values may be
17152 represented as seconds since the Epoch. But few people can look at
17153 the date @samp{1577836800} and casually note ``Oh, that's the first
17154 second of the year 2020 in Greenwich, England.''
17157 date --date='2020-01-01 UTC' +%s
17161 An alternative is to use the @option{--utc} (@option{-u}) option.
17162 Then you may omit @samp{UTC} from the date string. Although this
17163 produces the same result for @samp{%s} and many other format sequences,
17164 with a time zone offset different from zero, it would give a different
17165 result for zone-dependent formats like @samp{%z}.
17168 date -u --date=2020-07-21 +%s
17172 To convert such an unwieldy number of seconds back to
17173 a more readable form, use a command like this:
17176 date -d @@1595289600 +"%F %T %z"
17177 2020-07-20 20:00:00 -0400
17180 Often it is better to output UTC-relative date and time:
17183 date -u -d @@1595289600 +"%F %T %z"
17184 2020-07-21 00:00:00 +0000
17188 @cindex leap seconds
17189 Typically the seconds count omits leap seconds, but some systems are
17190 exceptions. Because leap seconds are not predictable, the mapping
17191 between the seconds count and a future timestamp is not reliable on
17192 the atypical systems that include leap seconds in their counts.
17194 Here is how the two kinds of systems handle the leap second at
17195 the end of the year 2016:
17198 # Typical systems ignore leap seconds:
17199 date --date='2016-12-31 23:59:59 +0000' +%s
17201 date --date='2016-12-31 23:59:60 +0000' +%s
17202 date: invalid date '2016-12-31 23:59:60 +0000'
17203 date --date='2017-01-01 00:00:00 +0000' +%s
17208 # Atypical systems count leap seconds:
17209 date --date='2016-12-31 23:59:59 +0000' +%s
17211 date --date='2016-12-31 23:59:60 +0000' +%s
17213 date --date='2017-01-01 00:00:00 +0000' +%s
17220 @node arch invocation
17221 @section @command{arch}: Print machine hardware name
17224 @cindex print machine hardware name
17225 @cindex system information, printing
17227 @command{arch} prints the machine hardware name,
17228 and is equivalent to @samp{uname -m}.
17232 arch [@var{option}]
17235 The program accepts the @ref{Common options} only.
17237 @command{arch} is not installed by default, so portable scripts should
17238 not rely on its existence.
17243 @node nproc invocation
17244 @section @command{nproc}: Print the number of available processors
17247 @cindex Print the number of processors
17248 @cindex system information, printing
17250 Print the number of processing units available to the current process,
17251 which may be less than the number of online processors.
17252 If this information is not accessible, then print the number of
17253 processors installed. If the @env{OMP_NUM_THREADS} or @env{OMP_THREAD_LIMIT}
17254 environment variables are set, then they will determine the minimum
17255 and maximum returned value respectively. The result is guaranteed to be
17256 greater than zero. Synopsis:
17259 nproc [@var{option}]
17262 The program accepts the following options. Also see @ref{Common options}.
17268 Print the number of installed processors on the system, which may
17269 be greater than the number online or available to the current process.
17270 The @env{OMP_NUM_THREADS} or @env{OMP_THREAD_LIMIT} environment variables
17271 are not honored in this case.
17273 @item --ignore=@var{number}
17275 If possible, exclude this @var{number} of processing units.
17282 @node uname invocation
17283 @section @command{uname}: Print system information
17286 @cindex print system information
17287 @cindex system information, printing
17289 @command{uname} prints information about the machine and operating system
17290 it is run on. If no options are given, @command{uname} acts as if the
17291 @option{-s} option were given. Synopsis:
17294 uname [@var{option}]@dots{}
17297 If multiple options or @option{-a} are given, the selected information is
17298 printed in this order:
17301 @var{kernel-name} @var{nodename} @var{kernel-release} @var{kernel-version}
17302 @var{machine} @var{processor} @var{hardware-platform} @var{operating-system}
17305 The information may contain internal spaces, so such output cannot be
17306 parsed reliably. In the following example, @var{kernel-version} is
17307 @samp{#1 SMP Fri Jul 17 17:18:38 UTC 2020}:
17311 @result{} Linux dumdum.example.org 5.9.16-200.fc33.x86_64@c
17312 #1 SMP Mon Dec 21 14:08:22 UTC 2020 x86_64 x86_64 x86_64 GNU/Linux
17316 The program accepts the following options. Also see @ref{Common options}.
17324 Print all of the below information, except omit the processor type
17325 and the hardware platform name if they are unknown.
17328 @itemx --hardware-platform
17330 @opindex --hardware-platform
17331 @cindex implementation, hardware
17332 @cindex hardware platform
17333 @cindex platform, hardware
17334 Print the hardware platform name
17335 (sometimes called the hardware implementation).
17336 Print @samp{unknown} if this information is not available.
17337 This is non-portable, even across GNU/Linux distributions.
17343 @cindex machine type
17344 @cindex hardware class
17345 @cindex hardware type
17346 Print the machine hardware name (sometimes called the hardware class
17352 @opindex --nodename
17355 @cindex network node name
17356 Print the network node hostname.
17361 @opindex --processor
17362 @cindex host processor type
17363 Print the processor type (sometimes called the instruction set
17364 architecture or ISA).
17365 Print @samp{unknown} if this information is not available.
17366 This is non-portable, even across GNU/Linux distributions.
17369 @itemx --operating-system
17371 @opindex --operating-system
17372 @cindex operating system name
17373 Print the name of the operating system.
17376 @itemx --kernel-release
17378 @opindex --kernel-release
17379 @cindex kernel release
17380 @cindex release of kernel
17381 Print the kernel release.
17384 @itemx --kernel-name
17386 @opindex --kernel-name
17387 @cindex kernel name
17388 @cindex name of kernel
17389 Print the kernel name.
17390 POSIX 1003.1-2001 (@pxref{Standards conformance}) calls this
17391 ``the implementation of the operating system'', because the
17392 POSIX specification itself has no notion of ``kernel''.
17393 The kernel name might be the same as the operating system name printed
17394 by the @option{-o} or @option{--operating-system} option, but it might
17395 differ. Some operating systems (e.g., FreeBSD, HP-UX) have the same
17396 name as their underlying kernels; others (e.g., GNU/Linux, Solaris)
17400 @itemx --kernel-version
17402 @opindex --kernel-version
17403 @cindex kernel version
17404 @cindex version of kernel
17405 Print the kernel version.
17412 @node hostname invocation
17413 @section @command{hostname}: Print or set system name
17416 @cindex setting the hostname
17417 @cindex printing the hostname
17418 @cindex system name, printing
17419 @cindex appropriate privileges
17421 With no arguments, @command{hostname} prints the name of the current host
17422 system. With one argument, it sets the current host name to the
17423 specified string. You must have appropriate privileges to set the host
17427 hostname [@var{name}]
17430 The only options are @option{--help} and @option{--version}. @xref{Common
17433 @command{hostname} is not installed by default, and other packages
17434 also supply a @command{hostname} command, so portable scripts should
17435 not rely on its existence or on the exact behavior documented above.
17440 @node hostid invocation
17441 @section @command{hostid}: Print numeric host identifier
17444 @cindex printing the host identifier
17446 @command{hostid} prints the numeric identifier of the current host
17447 in hexadecimal. This command accepts no arguments.
17448 The only options are @option{--help} and @option{--version}.
17449 @xref{Common options}.
17451 For example, here's what it prints on one system I use:
17458 On that system, the 32-bit quantity happens to be closely
17459 related to the system's Internet address, but that isn't always
17462 @command{hostid} is installed only on systems that have the
17463 @code{gethostid} function, so portable scripts should not rely on its
17468 @node uptime invocation
17469 @section @command{uptime}: Print system uptime and load
17472 @cindex printing the system uptime and load
17474 @command{uptime} prints the current time, the system's uptime, the
17475 number of logged-in users and the current load average.
17477 If an argument is specified, it is used as the file to be read
17478 to discover how many users are logged in. If no argument is
17479 specified, a system default is used (@command{uptime --help} indicates
17480 the default setting).
17482 The only options are @option{--help} and @option{--version}.
17483 @xref{Common options}.
17485 For example, here's what it prints right now on one system I use:
17489 14:07 up 3:35, 3 users, load average: 1.39, 1.15, 1.04
17492 The precise method of calculation of load average varies somewhat
17493 between systems. Some systems calculate it as the average number of
17494 runnable processes over the last 1, 5 and 15 minutes, but some systems
17495 also include processes in the uninterruptible sleep state (that is,
17496 those processes which are waiting for device I/O). The Linux kernel
17497 includes uninterruptible processes.
17499 @command{uptime} is installed only on platforms with infrastructure
17500 for obtaining the boot time, and other packages also supply an
17501 @command{uptime} command, so portable scripts should not rely on its
17502 existence or on the exact behavior documented above.
17506 @node SELinux context
17507 @chapter SELinux context
17509 @cindex SELinux context
17510 @cindex SELinux, context
17511 @cindex commands for SELinux context
17513 This section describes commands for operations with SELinux
17517 * chcon invocation:: Change SELinux context of file
17518 * runcon invocation:: Run a command in specified SELinux context
17521 @node chcon invocation
17522 @section @command{chcon}: Change SELinux context of file
17525 @cindex changing security context
17526 @cindex change SELinux context
17528 @command{chcon} changes the SELinux security context of the selected files.
17532 chcon [@var{option}]@dots{} @var{context} @var{file}@dots{}
17533 chcon [@var{option}]@dots{} [-u @var{user}] [-r @var{role}] [-l @var{range}]@c
17534 [-t @var{type}] @var{file}@dots{}
17535 chcon [@var{option}]@dots{} --reference=@var{rfile} @var{file}@dots{}
17538 Change the SELinux security context of each @var{file} to @var{context}.
17539 With @option{--reference}, change the security context of each @var{file}
17540 to that of @var{rfile}.
17542 The program accepts the following options. Also see @ref{Common options}.
17546 @item --dereference
17547 @opindex --dereference
17548 Do not affect symbolic links but what they refer to; this is the default.
17551 @itemx --no-dereference
17553 @opindex --no-dereference
17554 @cindex no dereference
17555 Affect the symbolic links themselves instead of any referenced file.
17557 @item --reference=@var{rfile}
17558 @opindex --reference
17559 @cindex reference file
17560 Use @var{rfile}'s security context rather than specifying a @var{context} value.
17565 @opindex --recursive
17566 Operate on files and directories recursively.
17568 @item --preserve-root
17569 @opindex --preserve-root
17570 Refuse to operate recursively on the root directory, @file{/},
17571 when used together with the @option{--recursive} option.
17572 @xref{Treating / specially}.
17574 @item --no-preserve-root
17575 @opindex --no-preserve-root
17576 Do not treat the root directory, @file{/}, specially when operating
17577 recursively; this is the default.
17578 @xref{Treating / specially}.
17581 @xref{Traversing symlinks}.
17584 @xref{Traversing symlinks}.
17587 @xref{Traversing symlinks}.
17594 Output a diagnostic for every file processed.
17596 @item -u @var{user}
17597 @itemx --user=@var{user}
17600 Set user @var{user} in the target security context.
17602 @item -r @var{role}
17603 @itemx --role=@var{role}
17606 Set role @var{role} in the target security context.
17608 @item -t @var{type}
17609 @itemx --type=@var{type}
17612 Set type @var{type} in the target security context.
17614 @item -l @var{range}
17615 @itemx --range=@var{range}
17618 Set range @var{range} in the target security context.
17624 @node runcon invocation
17625 @section @command{runcon}: Run a command in specified SELinux context
17628 @cindex run with security context
17631 @command{runcon} runs file in specified SELinux security context.
17635 runcon @var{context} @var{command} [@var{args}]
17636 runcon [ -c ] [-u @var{user}] [-r @var{role}] [-t @var{type}]@c
17637 [-l @var{range}] @var{command} [@var{args}]
17640 Run @var{command} with completely-specified @var{context}, or with
17641 current or transitioned security context modified by one or more of @var{level},
17642 @var{role}, @var{type} and @var{user}.
17644 If none of @option{-c}, @option{-t}, @option{-u}, @option{-r}, or @option{-l}
17645 is specified, the first argument is used as the complete context.
17646 Any additional arguments after @var{command}
17647 are interpreted as arguments to the command.
17649 With neither @var{context} nor @var{command}, print the current
17652 @cindex restricted security context
17653 @cindex NO_NEW_PRIVS
17654 The @command{setpriv} command can be used to set the
17655 NO_NEW_PRIVS bit using @command{setpriv --no-new-privs runcon ...},
17656 thus disallowing usage of a security context with more privileges
17657 than the process would normally have.
17659 @command{runcon} accepts the following options. Also see @ref{Common options}.
17667 Compute process transition context before modifying.
17669 @item -u @var{user}
17670 @itemx --user=@var{user}
17673 Set user @var{user} in the target security context.
17675 @item -r @var{role}
17676 @itemx --role=@var{role}
17679 Set role @var{role} in the target security context.
17681 @item -t @var{type}
17682 @itemx --type=@var{type}
17685 Set type @var{type} in the target security context.
17687 @item -l @var{range}
17688 @itemx --range=@var{range}
17691 Set range @var{range} in the target security context.
17695 @cindex exit status of @command{runcon}
17699 125 if @command{runcon} itself fails
17700 126 if @var{command} is found but cannot be invoked
17701 127 if @var{command} cannot be found
17702 the exit status of @var{command} otherwise
17705 @node Modified command invocation
17706 @chapter Modified command invocation
17708 @cindex modified command invocation
17709 @cindex invocation of commands, modified
17710 @cindex commands for invoking other commands
17712 This section describes commands that run other commands in some context
17713 different than the current one: a modified environment, as a different
17717 * chroot invocation:: Modify the root directory.
17718 * env invocation:: Modify environment variables.
17719 * nice invocation:: Modify niceness.
17720 * nohup invocation:: Immunize to hangups.
17721 * stdbuf invocation:: Modify buffering of standard streams.
17722 * timeout invocation:: Run with time limit.
17726 @node chroot invocation
17727 @section @command{chroot}: Run a command with a different root directory
17730 @cindex running a program in a specified root directory
17731 @cindex root directory, running a program in a specified
17733 @command{chroot} runs a command with a specified root directory.
17734 On many systems, only the super-user can do this.@footnote{However,
17735 some systems (e.g., FreeBSD) can be configured to allow certain regular
17736 users to use the @code{chroot} system call, and hence to run this program.
17737 Also, on Cygwin, anyone can run the @command{chroot} command, because the
17738 underlying function is non-privileged due to lack of support in MS-Windows.
17739 Furthermore, the @command{chroot} command avoids the @code{chroot} system call
17740 when @var{newroot} is identical to the old @file{/} directory for consistency
17741 with systems where this is allowed for non-privileged users.}.
17745 chroot @var{option} @var{newroot} [@var{command} [@var{args}]@dots{}]
17746 chroot @var{option}
17749 Ordinarily, file names are looked up starting at the root of the
17750 directory structure, i.e., @file{/}. @command{chroot} changes the root to
17751 the directory @var{newroot} (which must exist), then changes the working
17752 directory to @file{/}, and finally runs @var{command} with optional @var{args}.
17753 If @var{command} is not specified, the default is the value of the @env{SHELL}
17754 environment variable or @command{/bin/sh} if not set, invoked with the
17755 @option{-i} option.
17756 @var{command} must not be a special built-in utility
17757 (@pxref{Special built-in utilities}).
17759 The program accepts the following options. Also see @ref{Common options}.
17760 Options must precede operands.
17764 @item --groups=@var{groups}
17766 Use this option to override the supplementary @var{groups} to be
17767 used by the new process.
17768 The items in the list (names or numeric IDs) must be separated by commas.
17769 Use @samp{--groups=''} to disable the supplementary group look-up
17770 implicit in the @option{--userspec} option.
17772 @item --userspec=@var{user}[:@var{group}]
17773 @opindex --userspec
17774 By default, @var{command} is run with the same credentials
17775 as the invoking process.
17776 Use this option to run it as a different @var{user} and/or with a
17777 different primary @var{group}.
17778 If a @var{user} is specified then the supplementary groups
17779 are set according to the system defined list for that user,
17780 unless overridden with the @option{--groups} option.
17783 @opindex --skip-chdir
17784 Use this option to not change the working directory to @file{/} after changing
17785 the root directory to @var{newroot}, i.e., inside the chroot.
17786 This option is only permitted when @var{newroot} is the old @file{/} directory,
17787 and therefore is mostly useful together with the @option{--groups} and
17788 @option{--userspec} options to retain the previous working directory.
17792 The user and group name look-up performed by the @option{--userspec}
17793 and @option{--groups} options, is done both outside and inside
17794 the chroot, with successful look-ups inside the chroot taking precedence.
17795 If the specified user or group items are intended to represent a numeric ID,
17796 then a name to ID resolving step is avoided by specifying a leading @samp{+}.
17797 @xref{Disambiguating names and IDs}.
17799 Here are a few tips to help avoid common problems in using chroot.
17800 To start with a simple example, make @var{command} refer to a statically
17801 linked binary. If you were to use a dynamically linked executable, then
17802 you'd have to arrange to have the shared libraries in the right place under
17803 your new root directory.
17805 For example, if you create a statically linked @command{ls} executable,
17806 and put it in @file{/tmp/empty}, you can run this command as root:
17809 $ chroot /tmp/empty /ls -Rl /
17812 Then you'll see output like this:
17817 -rwxr-xr-x 1 0 0 1041745 Aug 16 11:17 ls
17820 If you want to use a dynamically linked executable, say @command{bash},
17821 then first run @samp{ldd bash} to see what shared objects it needs.
17822 Then, in addition to copying the actual binary, also copy the listed
17823 files to the required positions under your intended new root directory.
17824 Finally, if the executable requires any other files (e.g., data, state,
17825 device files), copy them into place, too.
17827 @command{chroot} is installed only on systems that have the
17828 @code{chroot} function, so portable scripts should not rely on its
17831 @cindex exit status of @command{chroot}
17835 125 if @command{chroot} itself fails
17836 126 if @var{command} is found but cannot be invoked
17837 127 if @var{command} cannot be found
17838 the exit status of @var{command} otherwise
17842 @node env invocation
17843 @section @command{env}: Run a command in a modified environment
17846 @cindex environment, running a program in a modified
17847 @cindex modified environment, running a program in a
17848 @cindex running a program in a modified environment
17850 @command{env} runs a command with a modified environment. Synopses:
17853 env [@var{option}]@dots{} [@var{name}=@var{value}]@dots{} @c
17854 [@var{command} [@var{args}]@dots{}]
17855 env -[v]S'[@var{option}]@dots{} [@var{name}=@var{value}]@dots{} @c
17856 [@var{command} [@var{args}]@dots{}]'
17860 @command{env} is commonly used on first line of scripts (shebang line):
17862 #!/usr/bin/env @var{command}
17863 #!/usr/bin/env -[v]S[@var{option}]@dots{} [@var{name}=@var{value}]@dots{} @c
17864 @var{command} [@var{args}]@dots{}
17867 Operands of the form @samp{@var{variable}=@var{value}} set
17868 the environment variable @var{variable} to value @var{value}.
17869 @var{value} may be empty (@samp{@var{variable}=}). Setting a variable
17870 to an empty value is different from unsetting it.
17871 These operands are evaluated left-to-right, so if two operands
17872 mention the same variable the earlier is ignored.
17874 Environment variable names can be empty, and can contain any
17875 characters other than @samp{=} and ASCII NUL.
17876 However, it is wise to limit yourself to names that
17877 consist solely of underscores, digits, and ASCII letters,
17878 and that begin with a non-digit, as applications like the shell do not
17879 work well with other names.
17882 The first operand that does not contain the character @samp{=}
17883 specifies the program to invoke; it is
17884 searched for according to the @env{PATH} environment variable. Any
17885 remaining arguments are passed as arguments to that program.
17886 The program should not be a special built-in utility
17887 (@pxref{Special built-in utilities}).
17889 Modifications to @env{PATH} take effect prior to searching for
17890 @var{command}. Use caution when reducing @env{PATH}; behavior is
17891 not portable when @env{PATH} is undefined or omits key directories
17892 such as @file{/bin}.
17894 In the rare case that a utility contains a @samp{=} in the name, the
17895 only way to disambiguate it from a variable assignment is to use an
17896 intermediate command for @var{command}, and pass the problematic
17897 program name via @var{args}. For example, if @file{./prog=} is an
17898 executable in the current @env{PATH}:
17901 env prog= true # runs 'true', with prog= in environment
17902 env ./prog= true # runs 'true', with ./prog= in environment
17903 env -- prog= true # runs 'true', with prog= in environment
17904 env sh -c '\prog= true' # runs 'prog=' with argument 'true'
17905 env sh -c 'exec "$@@"' sh prog= true # also runs 'prog='
17908 @cindex environment, printing
17910 If no command name is specified following the environment
17911 specifications, the resulting environment is printed. This is like
17912 specifying the @command{printenv} program.
17914 For some examples, suppose the environment passed to @command{env}
17915 contains @samp{LOGNAME=rms}, @samp{EDITOR=emacs}, and
17916 @samp{PATH=.:/gnubin:/hacks}:
17921 Output the current environment.
17923 $ env | LC_ALL=C sort
17926 PATH=.:/gnubin:/hacks
17930 Run @command{foo} with a reduced environment, preserving only the
17931 original @env{PATH} to avoid problems in locating @command{foo}.
17933 env - PATH="$PATH" foo
17937 Run @command{foo} with the environment containing @samp{LOGNAME=rms},
17938 @samp{EDITOR=emacs}, and @samp{PATH=.:/gnubin:/hacks}, and guarantees
17939 that @command{foo} was found in the file system rather than as a shell
17946 Run @command{nemacs} with the environment containing @samp{LOGNAME=foo},
17947 @samp{EDITOR=emacs}, @samp{PATH=.:/gnubin:/hacks}, and
17948 @samp{DISPLAY=gnu:0}.
17950 env DISPLAY=gnu:0 LOGNAME=foo nemacs
17954 Attempt to run the program @command{/energy/--} (as that is the only
17955 possible path search result); if the command exists, the environment
17956 will contain @samp{LOGNAME=rms} and @samp{PATH=/energy}, and the
17957 arguments will be @samp{e=mc2}, @samp{bar}, and @samp{baz}.
17959 env -u EDITOR PATH=/energy -- e=mc2 bar baz
17965 @subsection General options
17967 The program accepts the following options. Also see @ref{Common options}.
17968 Options must precede operands.
17975 @itemx --argv0=@var{arg}
17978 Override the zeroth argument passed to the command being executed.
17979 Without this option a default value of @var{command} is used.
17981 @item -u @var{name}
17982 @itemx --unset=@var{name}
17985 Remove variable @var{name} from the environment, if it was in the
17990 @itemx --ignore-environment
17993 @opindex --ignore-environment
17994 Start with an empty environment, ignoring the inherited environment.
17997 @itemx --chdir=@var{dir}
18000 Change the working directory to @var{dir} before invoking @var{command}.
18001 This differs from the shell built-in @command{cd} in that it starts
18002 @var{command} as a subprocess rather than altering the shell's own working
18003 directory; this allows it to be chained with other commands that run commands
18004 in a different context. For example:
18007 # Run 'true' with /chroot as its root directory and /srv as its working
18009 chroot /chroot env --chdir=/srv true
18010 # Run 'true' with /build as its working directory, FOO=bar in its
18011 # environment, and a time limit of five seconds.
18012 env --chdir=/build FOO=bar timeout 5 true
18015 @item --default-signal[=@var{sig}]
18016 Unblock and reset signal @var{sig} to its default signal handler.
18017 Without @var{sig} all known signals are unblocked and reset to their defaults.
18018 Multiple signals can be comma-separated. An empty @var{sig} argument is a no-op.
18019 The following command runs @command{seq} with SIGINT and SIGPIPE set to their
18020 default (which is to terminate the program):
18023 env --default-signal=PIPE,INT seq 1000 | head -n1
18026 In the following example, we see how this is not
18027 possible to do with traditional shells.
18028 Here the first trap command sets SIGPIPE to ignore.
18029 The second trap command ostensibly sets it back to its default,
18030 but POSIX mandates that the shell must not change inherited
18031 state of the signal -- so it is a no-op.
18034 trap '' PIPE && sh -c 'trap - PIPE ; seq inf | head -n1'
18037 Using @option{--default-signal=PIPE} we can
18038 ensure the signal handling is set to its default behavior:
18041 trap '' PIPE && sh -c 'env --default-signal=PIPE seq inf | head -n1'
18045 @item --ignore-signal[=@var{sig}]
18046 Ignore signal @var{sig} when running a program. Without @var{sig} all
18047 known signals are set to ignore. Multiple signals can be comma-separated.
18048 An empty @var{sig} argument is a no-op. The following command runs @command{seq}
18049 with SIGINT set to be ignored -- pressing @kbd{Ctrl-C} will not terminate it:
18052 env --ignore-signal=INT seq inf > /dev/null
18055 @samp{SIGCHLD} is special, in that @option{--ignore-signal=CHLD} might have
18056 no effect (POSIX says it's unspecified).
18058 Most operating systems do not allow ignoring @samp{SIGKILL}, @samp{SIGSTOP}
18059 (and possibly other signals). Attempting to ignore these signals will fail.
18061 Multiple (and contradictory) @option{--default-signal=SIG} and
18062 @option{--ignore-signal=SIG} options are processed left-to-right,
18063 with the latter taking precedence. In the following example, @samp{SIGPIPE} is
18064 set to default while @samp{SIGINT} is ignored:
18067 env --default-signal=INT,PIPE --ignore-signal=INT
18070 @item --block-signal[=@var{sig}]
18071 Block signal(s) @var{sig} from being delivered. Without @var{sig} all
18072 known signals are set to blocked. Multiple signals can be comma-separated.
18073 An empty @var{sig} argument is a no-op.
18075 @item --list-signal-handling
18076 List blocked or ignored signals to standard error, before executing a command.
18082 Show verbose information for each processing step.
18085 $ env -v -uTERM A=B uname -s
18094 When combined with @option{-S} it is recommended to list @option{-v}
18095 first, e.g. @command{env -vS'string'}.
18097 @item -S @var{string}
18098 @itemx --split-string=@var{string}
18100 @opindex --split-string
18101 @cindex shebang arguments
18102 @cindex scripts arguments
18103 @cindex env in scripts
18104 process and split @var{string} into separate arguments used to pass
18105 multiple arguments on shebang lines. @command{env} supports FreeBSD's
18106 syntax of several escape sequences and environment variable
18107 expansions. See below for details and examples.
18111 @cindex exit status of @command{env}
18115 0 if no @var{command} is specified and the environment is output
18116 125 if @command{env} itself fails
18117 126 if @var{command} is found but cannot be invoked
18118 127 if @var{command} cannot be found
18119 the exit status of @var{command} otherwise
18122 @subsection @option{-S}/@option{--split-string} usage in scripts
18124 The @option{-S}/@option{--split-string} option enables use of multiple
18125 arguments on the first line of scripts (the shebang line, @samp{#!}).
18127 When a script's interpreter is in a known location, scripts typically
18128 contain the absolute file name in their first line:
18130 @multitable {Python Script:} {#!/usr/bin/python3}
18131 @item Shell script:
18145 @item Python script:
18154 When a script's interpreter is in a non-standard location
18155 in the @env{PATH} environment variable, it is recommended
18156 to use @command{env} on the first line of the script to
18157 find the executable and run it:
18159 @multitable {Python Script:} {#!/usr/bin/env python3}
18160 @item Shell script:
18163 #!/usr/bin/env bash
18170 #!/usr/bin/env perl
18174 @item Python script:
18177 #!/usr/bin/env python3
18183 Most operating systems (e.g. GNU/Linux, BSDs) treat all text after the
18184 first space as a single argument. When using @command{env} in a script
18185 it is thus not possible to specify multiple arguments.
18187 In the following example:
18189 #!/usr/bin/env perl -T -w
18193 The operating system treats @samp{perl -T -w} as one argument (the
18194 program's name), and executing the script fails with:
18197 /usr/bin/env: 'perl -T -w': No such file or directory
18200 The @option{-S} option instructs @command{env} to split the single string
18201 into multiple arguments. The following example works as expected:
18205 #!/usr/bin/env -S perl -T -w
18208 $ chmod a+x hello.pl
18213 And is equivalent to running @command{perl -T -w hello.pl} on the command line
18216 @unnumberedsubsubsec Testing and troubleshooting
18218 @cindex single quotes, and @command{env -S}
18219 @cindex @command{env -S}, and single quotes
18220 @cindex @option{-S}, env and single quotes
18221 To test @command{env -S} on the command line, use single quotes for the
18222 @option{-S} string to emulate a single parameter. Single quotes are not
18223 needed when using @command{env -S} in a shebang line on the first line of a
18224 script (the operating system already treats it as one argument).
18226 The following command is equivalent to the @file{hello.pl} script above:
18229 $ env -S'perl -T -w' hello.pl
18232 @cindex @command{env -S}, debugging
18233 @cindex debugging, @command{env -S}
18235 To troubleshoot @option{-S} usage add the @option{-v} as the first
18236 argument (before @option{-S}).
18238 Using @option{-vS} on a shebang line in a script:
18241 $ cat hello-debug.pl
18242 #!/usr/bin/env -vS perl -T -w
18245 $ chmod a+x hello-debug.pl
18247 split -S: 'perl -T -w'
18255 arg[3]= './hello-debug.pl'
18259 Using @option{-vS} on the command line prompt (adding single quotes):
18262 $ env -vS'perl -T -w' hello-debug.pl
18263 split -S: 'perl -T -w'
18271 arg[3]= 'hello-debug.pl'
18275 @subsection @option{-S}/@option{--split-string} syntax
18277 @unnumberedsubsubsec Splitting arguments by whitespace
18279 Running @command{env -Sstring} splits the @var{string} into
18280 arguments based on unquoted spaces or tab characters.
18281 (Newlines, carriage returns, vertical tabs and form feeds are treated
18282 like spaces and tabs.)
18284 In the following contrived example the @command{awk} variable
18285 @samp{OFS} will be @code{<space>xyz<space>} as these spaces are inside
18286 double quotes. The other space characters are used as argument separators:
18290 #!/usr/bin/env -S awk -v OFS=" xyz " -f
18291 BEGIN @{print 1,2,3@}
18293 $ chmod a+x one.awk
18298 When using @option{-S} on the command line prompt, remember to add
18299 single quotes around the entire string:
18302 $ env -S'awk -v OFS=" xyz " -f' one.awk
18306 @unnumberedsubsubsec Escape sequences
18308 @command{env} supports several escape sequences. These sequences
18309 are processed when unquoted or inside double quotes (unless otherwise noted).
18310 Single quotes disable escape sequences except @samp{\'} and @samp{\\}.
18312 @multitable @columnfractions .10 .90
18315 @tab Ignore the remaining characters in the string.
18316 Cannot be used inside double quotes.
18319 @tab form-feed character (ASCII 0x0C)
18322 @tab new-line character (ASCII 0x0A)
18325 @tab carriage-return character (ASCII 0x0D)
18328 @tab tab character (ASCII 0x09)
18331 @tab vertical tab character (ASCII 0x0B)
18334 @tab A hash @samp{#} character. Used when a @samp{#} character
18335 is needed as the first character of an argument (see 'comments' section
18339 @tab A dollar-sign character @samp{$}. Unescaped @samp{$} characters
18340 are used to expand environment variables (see 'variables' section below).
18343 @tab Inside double-quotes, replaced with a single space character.
18344 Outside quotes, treated as an argument separator. @samp{\_} can be used
18345 to avoid space characters in a shebang line (see examples below).
18348 @tab A double-quote character.
18351 @tab A single-quote character.
18352 This escape sequence works inside single-quoted strings.
18355 @tab A backslash character.
18356 This escape sequence works inside single-quoted strings.
18360 The following @command{awk} script will use tab character as input and output
18361 field separator (instead of spaces and tabs):
18365 #!/usr/bin/env -S awk -v FS="\t" -v OFS="\t" -f
18369 @unnumberedsubsubsec Comments
18371 The escape sequence @samp{\c} (used outside single/double quotes)
18372 causes @command{env} to ignore the rest of the string.
18374 The @samp{#} character causes @command{env} to ignore the rest of
18375 the string when it appears as the first character of an argument.
18376 Use @samp{\#} to reverse this behavior.
18379 $ env -S'printf %s\n A B C'
18384 $ env -S'printf %s\n A# B C'
18389 $ env -S'printf %s\n A #B C'
18392 $ env -S'printf %s\n A \#B C'
18397 $ env -S'printf %s\n A\cB C'
18401 The above examples use single quotes as they are executed
18402 on the command-line.
18406 @unnumberedsubsubsec Environment variable expansion
18408 The pattern @samp{$@{VARNAME@}} is used to substitute a value from
18409 the environment variable. The pattern must include the curly braces
18410 (@samp{@{},@samp{@}}). Without them @command{env} will reject the string.
18411 Special shell variables (such as @samp{$@@}, @samp{$*}, @samp{$$}) are
18414 If the environment variable is empty or not set, the pattern will be replaced
18415 by an empty string. The value of @samp{$@{VARNAME@}} will be that of
18416 the executed @command{env}, before any modifications using
18417 @option{-i}/@option{--ignore-environment}/@option{-u}/@option{--unset} or
18418 setting new values using @samp{VAR=VALUE}.
18420 The following python script prepends @file{/opt/custom/modules} to the python
18421 module search path environment variable (@samp{PYTHONPATH}):
18425 #!/usr/bin/env -S PYTHONPATH=/opt/custom/modules/:$@{PYTHONPATH@} python
18430 The expansion of @samp{$@{PYTHONPATH@}} is performed by @command{env},
18431 not by a shell. If the curly braces are omitted, @command{env} will fail:
18435 #!/usr/bin/env -S PYTHONPATH=/opt/custom/modules/:$PYTHONPATH python
18439 $ chmod a+x custom.py
18441 /usr/bin/env: only $@{VARNAME@} expansion is supported, error at: $PYTHONPATH @c
18445 Environment variable expansion happens before clearing the environment
18446 (with @option{-i}) or unsetting specific variables (with @option{-u}):
18449 $ env -S'-i OLDUSER=$@{USER@} env'
18453 Use @option{-v} to diagnose the operations step-by-step:
18456 $ env -vS'-i OLDUSER=$@{USER@} env'
18457 expanding $@{USER@} into 'gordon'
18458 split -S: '-i OLDUSER=$@{USER@} env'
18463 setenv: OLDUSER=gordon
18471 @node nice invocation
18472 @section @command{nice}: Run a command with modified niceness
18476 @cindex scheduling, affecting
18477 @cindex appropriate privileges
18479 @command{nice} prints a process's @dfn{niceness}, or runs
18480 a command with modified niceness. @dfn{niceness} affects how
18481 favorably the process is scheduled in the system.
18485 nice [@var{option}]@dots{} [@var{command} [@var{arg}]@dots{}]
18488 If no arguments are given, @command{nice} prints the current niceness.
18489 Otherwise, @command{nice} runs the given @var{command} with its
18490 niceness adjusted. By default, its niceness is incremented by 10.
18492 Niceness values range at least from @minus{}20 (process has high priority
18493 and gets more resources, thus slowing down other processes) through 19
18494 (process has lower priority and runs slowly itself, but has less impact
18495 on the speed of other running processes). Some systems
18496 may have a wider range of niceness values; conversely, other systems may
18497 enforce more restrictive limits. An attempt to set the niceness
18498 outside the supported range is treated as an attempt to use the
18499 minimum or maximum supported value.
18501 A niceness should not be confused with a scheduling priority, which
18502 lets applications determine the order in which threads are scheduled
18503 to run. Unlike a priority, a niceness is merely advice to the
18504 scheduler, which the scheduler is free to ignore. Also, as a point of
18505 terminology, POSIX defines the behavior of @command{nice} in
18506 terms of a @dfn{nice value}, which is the non-negative difference
18507 between a niceness and the minimum niceness. Though @command{nice}
18508 conforms to POSIX, its documentation and diagnostics use the
18509 term ``niceness'' for compatibility with historical practice.
18511 @var{command} must not be a special built-in utility (@pxref{Special
18512 built-in utilities}).
18514 @mayConflictWithShellBuiltIn{nice}
18516 To change the @dfn{niceness} of an existing process,
18517 one needs to use the @command{renice} command.
18519 The program accepts the following option. Also see @ref{Common options}.
18520 Options must precede operands.
18523 @item -n @var{adjustment}
18524 @itemx --adjustment=@var{adjustment}
18526 @opindex --adjustment
18527 Add @var{adjustment} instead of 10 to the command's niceness. If
18528 @var{adjustment} is negative and you lack appropriate privileges,
18529 @command{nice} issues a warning but otherwise acts as if you specified
18532 For compatibility @command{nice} also supports an obsolete
18533 option syntax @option{-@var{adjustment}}. New scripts should use
18534 @option{-n @var{adjustment}} instead.
18538 @command{nice} is installed only on systems that have the POSIX
18539 @code{setpriority} function, so portable scripts should not rely on
18540 its existence on non-POSIX platforms.
18542 @cindex exit status of @command{nice}
18546 0 if no @var{command} is specified and the niceness is output
18547 125 if @command{nice} itself fails
18548 126 if @var{command} is found but cannot be invoked
18549 127 if @var{command} cannot be found
18550 the exit status of @var{command} otherwise
18553 It is sometimes useful to run a non-interactive program with reduced niceness.
18556 $ nice factor 4611686018427387903
18559 Since @command{nice} prints the current niceness,
18560 you can invoke it through itself to demonstrate how it works.
18562 The default behavior is to increase the niceness by @samp{10}:
18573 The @var{adjustment} is relative to the current niceness. In the
18574 next example, the first @command{nice} invocation runs the second one
18575 with niceness 10, and it in turn runs the final one with a niceness
18579 $ nice nice -n 3 nice
18583 Specifying a niceness larger than the supported range
18584 is the same as specifying the maximum supported value:
18587 $ nice -n 10000000000 nice
18591 Only a privileged user may run a process with lower niceness:
18595 nice: cannot set niceness: Permission denied
18597 $ sudo nice -n -1 nice
18602 @node nohup invocation
18603 @section @command{nohup}: Run a command immune to hangups
18606 @cindex hangups, immunity to
18607 @cindex immunity to hangups
18608 @cindex logging out and continuing to run
18611 @command{nohup} runs the given @var{command} with hangup signals ignored,
18612 so that the command can continue running in the background after you log
18616 nohup @var{command} [@var{arg}]@dots{}
18619 If standard input is a terminal, redirect it so that terminal sessions
18620 do not mistakenly consider the terminal to be used by the command.
18621 Make the substitute file descriptor unreadable, so that commands that
18622 mistakenly attempt to read from standard input can report an error.
18623 This redirection is a GNU extension; programs intended to be portable
18624 to non-GNU hosts can use @samp{nohup @var{command} [@var{arg}]@dots{}
18625 0>/dev/null} instead.
18628 If standard output is a terminal, the command's standard output is appended
18629 to the file @file{nohup.out}; if that cannot be written to, it is appended
18630 to the file @file{$HOME/nohup.out}; and if that cannot be written to, the
18631 command is not run.
18632 Any @file{nohup.out} or @file{$HOME/nohup.out} file created by
18633 @command{nohup} is made readable and writable only to the user,
18634 regardless of the current umask settings.
18636 If standard error is a terminal, it is normally redirected to the same file
18637 descriptor as the (possibly-redirected) standard output.
18638 However, if standard output is closed, standard error terminal output
18639 is instead appended to the file @file{nohup.out} or
18640 @file{$HOME/nohup.out} as above.
18642 To capture the command's output to a file other than @file{nohup.out}
18643 you can redirect it. For example, to capture the output of
18647 nohup make > make.log
18650 @command{nohup} does not automatically put the command it runs in the
18651 background; you must do that explicitly, by ending the command line
18652 with an @samp{&}. Also, @command{nohup} does not alter the
18653 niceness of @var{command}; use @command{nice} for that,
18654 e.g., @samp{nohup nice @var{command}}.
18656 @var{command} must not be a special built-in utility (@pxref{Special
18657 built-in utilities}).
18659 The only options are @option{--help} and @option{--version}. @xref{Common
18660 options}. Options must precede operands.
18662 @cindex exit status of @command{nohup}
18666 125 if @command{nohup} itself fails, and @env{POSIXLY_CORRECT} is not set
18667 126 if @var{command} is found but cannot be invoked
18668 127 if @var{command} cannot be found
18669 the exit status of @var{command} otherwise
18672 If @env{POSIXLY_CORRECT} is set, internal failures give status 127
18676 @node stdbuf invocation
18677 @section @command{stdbuf}: Run a command with modified I/O stream buffering
18680 @cindex standard streams, buffering
18681 @cindex line buffered
18683 @command{stdbuf} allows one to modify the buffering operations of the
18684 three standard I/O streams associated with a program. Synopsis:
18687 stdbuf @var{option}@dots{} @var{command}
18690 @var{command} must start with the name of a program that
18693 uses the ISO C @code{FILE} streams for input/output, and
18696 does not adjust the buffering of its standard streams.
18699 Not every command operates in this way.
18700 For example, @command{dd} does not use @code{FILE} streams,
18701 and @command{tee} adjusts its streams' buffering.
18703 Any additional @var{arg}s are passed as additional arguments to the
18706 The program accepts the following options. Also see @ref{Common options}.
18710 @item -i @var{mode}
18711 @itemx --input=@var{mode}
18714 Adjust the standard input stream buffering.
18716 @item -o @var{mode}
18717 @itemx --output=@var{mode}
18720 Adjust the standard output stream buffering.
18722 @item -e @var{mode}
18723 @itemx --error=@var{mode}
18726 Adjust the standard error stream buffering.
18730 The @var{mode} can be specified as follows:
18735 Set the stream to line buffered mode.
18736 In this mode data is coalesced until a newline is output or
18737 input is read from any stream attached to a terminal device.
18738 This option is invalid with standard input.
18741 Disable buffering of the selected stream.
18742 In this mode, data is output immediately and only the
18743 amount of data requested is read from input.
18744 Disabling buffering for input does not necessarily influence the responsiveness
18745 or blocking behavior of the stream input functions.
18746 For example, @code{fread} will still block until @code{EOF} or error
18747 or the amount requested is read,
18748 even if the underlying @code{read} returns less data than requested.
18751 Specify the size of the buffer to use in fully buffered mode.
18752 @multiplierSuffixesNoBlocks{size}
18756 @command{stdbuf} is installed only on platforms that use the
18757 Executable and Linkable Format (ELF) and support the
18758 @code{constructor} attribute, so portable scripts should not rely on
18761 @cindex exit status of @command{stdbuf}
18765 125 if @command{stdbuf} itself fails
18766 126 if @var{command} is found but cannot be invoked
18767 127 if @var{command} cannot be found
18768 the exit status of @var{command} otherwise
18772 @node timeout invocation
18773 @section @command{timeout}: Run a command with a time limit
18777 @cindex run commands with bounded time
18779 @command{timeout} runs the given @var{command} and kills it if it is
18780 still running after the specified time interval. Synopsis:
18783 timeout [@var{option}] @var{duration} @var{command} [@var{arg}]@dots{}
18786 @var{command} must not be a special built-in utility (@pxref{Special
18787 built-in utilities}).
18789 The program accepts the following options. Also see @ref{Common options}.
18790 Options must precede operands.
18793 @item --preserve-status
18794 @opindex --preserve-status
18795 Return the exit status of the managed @var{command} on timeout, rather than
18796 a specific exit status indicating a timeout. This is useful if the
18797 managed @var{command} supports running for an indeterminate amount of time.
18800 @opindex --foreground
18801 Don't create a separate background program group, so that
18802 the managed @var{command} can use the foreground TTY normally.
18803 This is needed to support two situations when timing out commands,
18804 when not invoking @command{timeout} from an interactive shell.
18807 @var{command} is interactive and needs to read from the terminal for example
18809 the user wants to support sending signals directly to @var{command}
18810 from the terminal (like Ctrl-C for example)
18813 In this mode of operation, any children of @var{command}
18814 will not be timed out. Also SIGCONT will not be sent to @var{command},
18815 as it's generally not needed with foreground processes, and can
18816 cause intermittent signal delivery issues with programs that are monitors
18817 themselves (like GDB for example).
18819 @item -k @var{duration}
18820 @itemx --kill-after=@var{duration}
18822 @opindex --kill-after
18823 Ensure the monitored @var{command} is killed by also sending a @samp{KILL}
18826 The specified @var{duration} starts from the point in time when
18827 @command{timeout} sends the initial signal to @var{command}, i.e.,
18828 not from the beginning when the @var{command} is started.
18830 This option has no effect if either the main @var{duration}
18831 of the @command{timeout} command, or the @var{duration} specified
18832 to this option, is 0.
18834 This option may be useful if the selected signal did not kill the @var{command},
18835 either because the signal was blocked or ignored, or if the @var{command} takes
18836 too long (e.g. for cleanup work) to terminate itself within a certain amount
18839 @item -s @var{signal}
18840 @itemx --signal=@var{signal}
18843 Send this @var{signal} to @var{command} on timeout, rather than the
18844 default @samp{TERM} signal. @var{signal} may be a name like @samp{HUP}
18845 or a number. @xref{Signal specifications}.
18851 Diagnose to standard error, any signal sent upon timeout.
18855 @var{duration} is a floating point number in either the current or the
18856 C locale (@pxref{Floating point}) followed by an optional unit:
18858 @samp{s} for seconds (the default)
18859 @samp{m} for minutes
18863 A duration of 0 disables the associated timeout.
18864 The actual timeout duration is dependent on system conditions,
18865 which should be especially considered when specifying sub-second timeouts.
18867 @cindex exit status of @command{timeout}
18871 124 if @var{command} times out, and @option{--preserve-status} is not specified
18872 125 if @command{timeout} itself fails
18873 126 if @var{command} is found but cannot be invoked
18874 127 if @var{command} cannot be found
18875 137 if @var{command} or @command{timeout} is sent the KILL(9) signal (128+9)
18876 the exit status of @var{command} otherwise
18879 In the case of the @samp{KILL(9)} signal, @command{timeout} returns with
18880 exit status 137, regardless of whether that signal is sent to @var{command}
18881 or to @command{timeout} itself, i.e., these cases cannot be distinguished.
18882 In the latter case, the @var{command} process may still be alive after
18883 @command{timeout} has forcefully been terminated.
18888 # Send the default TERM signal after 20s to a short-living 'sleep 1'.
18889 # As that terminates long before the given duration, 'timeout' returns
18890 # with the same exit status as the command, 0 in this case.
18893 # Send the INT signal after 5s to the 'sleep' command. Returns after
18894 # 5 seconds with exit status 124 to indicate the sending of the signal.
18895 timeout -s INT 5 sleep 20
18897 # Likewise, but the command ignoring the INT signal due to being started
18898 # via 'env --ignore-signal'. Thus, 'sleep' terminates regularly after
18899 # the full 20 seconds, still 'timeout' returns with exit status 124.
18900 timeout -s INT 5s env --ignore-signal=INT sleep 20
18902 # Likewise, but sending the KILL signal 3 seconds after the initial
18903 # INT signal. Hence, 'sleep' is forcefully terminated after about
18904 # 8 seconds (5+3), and 'timeout' returns with an exit status of 137.
18905 timeout -s INT -k 3s 5s env --ignore-signal=INT sleep 20
18908 @node Process control
18909 @chapter Process control
18911 @cindex processes, commands for controlling
18912 @cindex commands for controlling processes
18915 * kill invocation:: Sending a signal to processes.
18919 @node kill invocation
18920 @section @command{kill}: Send a signal to processes
18923 @cindex send a signal to processes
18925 The @command{kill} command sends a signal to processes, causing them
18926 to terminate or otherwise act upon receiving the signal in some way.
18927 Alternatively, it lists information about signals. Synopses:
18930 kill [-s @var{signal} | --signal @var{signal} | -@var{signal}] @var{pid}@dots{}
18931 kill [-l | --list | -t | --table] [@var{signal}]@dots{}
18934 @mayConflictWithShellBuiltIn{kill}
18936 The first form of the @command{kill} command sends a signal to all
18937 @var{pid} arguments. The default signal to send if none is specified
18938 is @samp{TERM}@. The special signal number @samp{0} does not denote a
18939 valid signal, but can be used to test whether the @var{pid} arguments
18940 specify processes to which a signal could be sent.
18942 If @var{pid} is positive, the signal is sent to the process with the
18943 process ID @var{pid}. If @var{pid} is zero, the signal is sent to all
18944 processes in the process group of the current process. If @var{pid}
18945 is @minus{}1, the signal is sent to all processes for which the user has
18946 permission to send a signal. If @var{pid} is less than @minus{}1, the signal
18947 is sent to all processes in the process group that equals the absolute
18948 value of @var{pid}.
18950 If @var{pid} is not positive, a system-dependent set of system
18951 processes is excluded from the list of processes to which the signal
18954 If a negative @var{pid} argument is desired as the first one, it
18955 should be preceded by @option{--}. However, as a common extension to
18956 POSIX, @option{--} is not required with @samp{kill
18957 -@var{signal} -@var{pid}}. The following commands are equivalent:
18966 The first form of the @command{kill} command succeeds if every @var{pid}
18967 argument specifies at least one process that the signal was sent to.
18969 The second form of the @command{kill} command lists signal information.
18970 Either the @option{-l} or @option{--list} option, or the @option{-t}
18971 or @option{--table} option must be specified. Without any
18972 @var{signal} argument, all supported signals are listed. The output
18973 of @option{-l} or @option{--list} is a list of the signal names, one
18974 per line; if @var{signal} is already a name, the signal number is
18975 printed instead. The output of @option{-t} or @option{--table} is a
18976 table of signal numbers, names, and descriptions. This form of the
18977 @command{kill} command succeeds if all @var{signal} arguments are valid
18978 and if there is no output error.
18980 The @command{kill} command also supports the @option{--help} and
18981 @option{--version} options. @xref{Common options}.
18983 A @var{signal} may be a signal name like @samp{HUP}, or a signal
18984 number like @samp{1}, or an exit status of a process terminated by the
18985 signal. A signal name can be given in canonical form or prefixed by
18986 @samp{SIG}@. The case of the letters is ignored, except for the
18987 @option{-@var{signal}} option which must use upper case to avoid
18988 ambiguity with lower case option letters.
18989 @xref{Signal specifications}, for a list of supported
18990 signal names and numbers.
18995 @cindex delaying commands
18996 @cindex commands for delaying
18998 @c Perhaps @command{wait} or other commands should be described here also?
19001 * sleep invocation:: Delay for a specified time.
19005 @node sleep invocation
19006 @section @command{sleep}: Delay for a specified time
19009 @cindex delay for a specified time
19011 @command{sleep} pauses for an amount of time specified by the sum of
19012 the values of the command line arguments.
19016 sleep @var{number}[smhd]@dots{}
19020 Each argument is a non-negative number followed by an optional unit; the default
19021 is seconds. The units are:
19034 Although portable POSIX scripts must give @command{sleep} a single
19035 non-negative integer argument without a suffix, GNU @command{sleep}
19036 also accepts two or more arguments, unit suffixes, and floating-point
19037 numbers in either the current or the C locale. @xref{Floating point}.
19039 For instance, the following could be used to @command{sleep} for
19040 1 second, 234 milli-, 567 micro- and 890 nanoseconds:
19043 sleep 1234e-3 567.89e-6
19046 Also one could sleep indefinitely like:
19052 The only options are @option{--help} and @option{--version}. @xref{Common
19055 @c sleep is a shell built-in at least with Solaris 11's /bin/sh
19056 @mayConflictWithShellBuiltIn{sleep}
19061 @node Numeric operations
19062 @chapter Numeric operations
19064 @cindex numeric operations
19065 These programs do numerically-related operations.
19068 * factor invocation:: Show factors of numbers.
19069 * numfmt invocation:: Reformat numbers.
19070 * seq invocation:: Print sequences of numbers.
19074 @node factor invocation
19075 @section @command{factor}: Print prime factors
19078 @cindex prime factors
19080 @command{factor} prints prime factors. Synopsis:
19083 factor [@var{option}]@dots{} [@var{number}]@dots{}
19086 If no @var{number} is specified on the command line, @command{factor} reads
19087 numbers from standard input, delimited by newlines, tabs, or spaces.
19089 The program accepts the following options. Also see @ref{Common options}.
19095 @opindex --exponents
19096 print factors in the form @math{p^e}, rather than repeating
19097 the prime @samp{p}, @samp{e} times. If the exponent @samp{e} is 1,
19098 then it is omitted.
19101 $ factor --exponents 3000
19106 If the number to be factored is small (less than @math{2^{127}} on
19107 typical machines), @command{factor} uses a faster algorithm.
19108 For example, on a circa-2017 Intel Xeon Silver 4116, factoring the
19109 product of the eighth and ninth Mersenne primes (approximately
19110 @math{2^{92}}) takes about 4 ms of CPU time:
19113 $ M8=$(echo 2^31-1 | bc)
19114 $ M9=$(echo 2^61-1 | bc)
19115 $ n=$(echo "$M8 * $M9" | bc)
19116 $ bash -c "time factor $n"
19117 4951760154835678088235319297: 2147483647 2305843009213693951
19124 For larger numbers, @command{factor} uses a slower algorithm. On the
19125 same platform, factoring the eighth Fermat number @math{2^{256} + 1}
19126 takes about 14 seconds, and the slower algorithm would have taken
19127 about 750 ms to factor @math{2^{127} - 3} instead of the 50 ms needed by
19128 the faster algorithm.
19130 Factoring large numbers is, in general, hard. The Pollard-Brent rho
19131 algorithm used by @command{factor} is particularly effective for
19132 numbers with relatively small factors. If you wish to factor large
19133 numbers which do not have small factors (for example, numbers which
19134 are the product of two large primes), other methods are far better.
19139 @node numfmt invocation
19140 @section @command{numfmt}: Reformat numbers
19144 @command{numfmt} reads numbers in various representations and reformats them
19145 as requested. The most common usage is converting numbers to/from @emph{human}
19146 representation (e.g. @samp{4G} @expansion{} @samp{4,000,000,000}).
19149 numfmt [@var{option}]@dots{} [@var{number}]
19152 @command{numfmt} converts each @var{number} on the command-line according to the
19153 specified options (see below). If no @var{number}s are given, it reads numbers
19154 from standard input. @command{numfmt} can optionally extract numbers from
19155 specific columns, maintaining proper line padding and alignment.
19159 See @option{--invalid} for additional information regarding exit status.
19161 @subsection General options
19163 The program accepts the following options. Also see @ref{Common options}.
19169 Print (to standard error) warning messages about possible erroneous usage.
19172 @itemx --delimiter=@var{d}
19174 @opindex --delimiter
19175 Use the character @var{d} as input field separator (default: whitespace).
19176 Using non-default delimiter turns off automatic padding.
19178 @item --field=@var{fields}
19180 Convert the number in input field @var{fields} (default: 1).
19181 @var{fields} supports @command{cut} style field ranges:
19184 N N'th field, counted from 1
19185 N- from N'th field, to end of line
19186 N-M from N'th to M'th field (inclusive)
19187 -M from first to M'th field (inclusive)
19192 @item --format=@var{format}
19194 Use printf-style floating FORMAT string. The @var{format} string must contain
19195 one @samp{%f} directive, optionally with @samp{'}, @samp{-}, @samp{0}, width
19196 or precision modifiers. The @samp{'} modifier will enable @option{--grouping},
19197 the @samp{-} modifier will enable left-aligned @option{--padding} and the width
19198 modifier will enable right-aligned @option{--padding}. The @samp{0} width
19199 modifier (without the @samp{-} modifier) will generate leading zeros on the
19200 number, up to the specified width. A precision specification like @samp{%.1f}
19201 will override the precision determined from the input data or set due to
19202 @option{--to} option auto scaling.
19204 @item --from=@var{unit}
19206 Auto-scales input numbers according to @var{unit}. See UNITS below.
19207 The default is no scaling, meaning suffixes (e.g. @samp{M}, @samp{G}) will
19210 @item --from-unit=@var{n}
19211 @opindex --from-unit
19212 Specify the input unit size (instead of the default 1). Use this option when
19213 the input numbers represent other units (e.g. if the input number @samp{10}
19214 represents 10 units of 512 bytes, use @samp{--from-unit=512}).
19215 Suffixes are handled as with @samp{--from=auto}.
19218 @opindex --grouping
19219 Group digits in output numbers according to the current locale's grouping rules
19220 (e.g @emph{Thousands Separator} character, commonly @samp{.} (dot) or @samp{,}
19221 comma). This option has no effect in @samp{POSIX/C} locale.
19223 @item --header[=@var{n}]
19225 @opindex --header=N
19226 Print the first @var{n} (default: 1) lines without any conversion.
19228 @item --invalid=@var{mode}
19230 The default action on input errors is to exit immediately with status code 2.
19231 @option{--invalid=@samp{abort}} explicitly specifies this default mode.
19232 With a @var{mode} of @samp{fail}, print a warning for @emph{each} conversion
19233 error, and exit with status 2. With a @var{mode} of @samp{warn}, exit with
19234 status 0, even in the presence of conversion errors, and with a @var{mode} of
19235 @samp{ignore} do not even print diagnostics.
19237 @item --padding=@var{n}
19239 Pad the output numbers to @var{n} characters, by adding spaces. If @var{n} is
19240 a positive number, numbers will be right-aligned. If @var{n} is a negative
19241 number, numbers will be left-aligned. By default, numbers are automatically
19242 aligned based on the input line's width (only with the default delimiter).
19244 @item --round=@var{method}
19246 @opindex --round=up
19247 @opindex --round=down
19248 @opindex --round=from-zero
19249 @opindex --round=towards-zero
19250 @opindex --round=nearest
19251 When converting number representations, round the number according to
19252 @var{method}, which can be @samp{up}, @samp{down},
19253 @samp{from-zero} (the default), @samp{towards-zero}, @samp{nearest}.
19255 @item --suffix=@var{suffix}
19257 Add @samp{SUFFIX} to the output numbers, and accept optional @samp{SUFFIX} in
19260 @item --to=@var{unit}
19262 Auto-scales output numbers according to @var{unit}. See @emph{Units} below.
19263 The default is no scaling, meaning all the digits of the number are printed.
19265 @item --to-unit=@var{n}
19267 Specify the output unit size (instead of the default 1). Use this option when
19268 the output numbers represent other units (e.g. to represent @samp{4,000,000}
19269 bytes in blocks of 1kB, use @samp{--to=si --to-unit=1000}).
19270 Suffixes are handled as with @samp{--from=auto}.
19273 @newlineFieldSeparator
19277 @subsection Possible @var{unit}s:
19279 The following are the possible @var{unit} options with @option{--from=UNITS} and
19280 @option{--to=UNITS}:
19285 No scaling is performed. For input numbers, no suffixes are accepted, and any
19286 trailing characters following the number will trigger an error. For output
19287 numbers, all digits of the numbers will be printed.
19290 Auto-scale numbers according to the @emph{International System of Units (SI)}
19292 For input numbers, accept one of the following suffixes.
19293 For output numbers, values larger than 1000 will be rounded, and printed with
19294 one of the following suffixes:
19297 @samp{K} => @math{1000^1 = 10^3} (Kilo) (uppercase accepted on input)
19298 @samp{k} => @math{1000^1 = 10^3} (Kilo) (lowercase used on output)
19299 @samp{M} => @math{1000^2 = 10^6} (Mega)
19300 @samp{G} => @math{1000^3 = 10^9} (Giga)
19301 @samp{T} => @math{1000^4 = 10^{12}} (Tera)
19302 @samp{P} => @math{1000^5 = 10^{15}} (Peta)
19303 @samp{E} => @math{1000^6 = 10^{18}} (Exa)
19304 @samp{Z} => @math{1000^7 = 10^{21}} (Zetta)
19305 @samp{Y} => @math{1000^8 = 10^{24}} (Yotta)
19306 @samp{R} => @math{1000^9 = 10^{27}} (Ronna)
19307 @samp{Q} => @math{1000^{10} = 10^{30}} (Quetta)
19311 Auto-scale numbers according to the @emph{International Electrotechnical
19312 Commission (IEC)} standard.
19313 For input numbers, accept one of the following suffixes.
19314 For output numbers, values larger than 1024 will be rounded, and printed with
19315 one of the following suffixes:
19318 @samp{K} => @math{1024^1 = 2^{10}} (Kibi) (uppercase used on output)
19319 @samp{k} => @math{1024^1 = 2^{10}} (Kibi) (lowercase accepted on input)
19320 @samp{M} => @math{1024^2 = 2^{20}} (Mebi)
19321 @samp{G} => @math{1024^3 = 2^{30}} (Gibi)
19322 @samp{T} => @math{1024^4 = 2^{40}} (Tebi)
19323 @samp{P} => @math{1024^5 = 2^{50}} (Pebi)
19324 @samp{E} => @math{1024^6 = 2^{60}} (Exbi)
19325 @samp{Z} => @math{1024^7 = 2^{70}} (Zebi)
19326 @samp{Y} => @math{1024^8 = 2^{80}} (Yobi)
19327 @samp{R} => @math{1024^9 = 2^{90}} (Robi)
19328 @samp{Q} => @math{1024^{10} = 2^{100}} (Quebi)
19331 The @option{iec} option uses a single letter suffix (e.g. @samp{G}), which is
19332 not fully standard, as the @emph{iec} standard recommends a two-letter symbol
19333 (e.g @samp{Gi}) -- but in practice, this method is common. Compare with
19334 the @option{iec-i} option.
19337 Auto-scale numbers according to the @emph{International Electrotechnical
19338 Commission (IEC)} standard.
19339 For input numbers, accept one of the following suffixes.
19340 For output numbers, values larger than 1024 will be rounded, and printed with
19341 one of the following suffixes:
19344 @samp{Ki} => @math{1024^1 = 2^{10}} (Kibi) (uppercase used on output)
19345 @samp{ki} => @math{1024^1 = 2^{10}} (Kibi) (lowercase accepted on input)
19346 @samp{Mi} => @math{1024^2 = 2^{20}} (Mebi)
19347 @samp{Gi} => @math{1024^3 = 2^{30}} (Gibi)
19348 @samp{Ti} => @math{1024^4 = 2^{40}} (Tebi)
19349 @samp{Pi} => @math{1024^5 = 2^{50}} (Pebi)
19350 @samp{Ei} => @math{1024^6 = 2^{60}} (Exbi)
19351 @samp{Zi} => @math{1024^7 = 2^{70}} (Zebi)
19352 @samp{Yi} => @math{1024^8 = 2^{80}} (Yobi)
19353 @samp{Ri} => @math{1024^9 = 2^{90}} (Robi)
19354 @samp{Qi} => @math{1024^{10} = 2^{100}} (Quebi)
19357 The @option{iec-i} option uses a two-letter suffix symbol (e.g. @samp{Gi}),
19358 as the @emph{iec} standard recommends, but this is not always common in
19359 practice. Compare with the @option{iec} option.
19362 @samp{auto} can only be used with @option{--from}. With this method, numbers
19363 with single-letter suffixes like @samp{K}
19364 suffixes are interpreted as @emph{SI} values, and numbers with
19365 two-letter suffixes like @samp{Ki}
19366 are interpreted as @emph{IEC} values.
19370 @subsection Examples of using @command{numfmt}
19372 Converting a single number from/to @emph{human} representation:
19374 $ numfmt --to=si 500000
19377 $ numfmt --to=iec 500000
19380 $ numfmt --to=iec-i 500000
19383 $ numfmt --from=si 1M
19386 $ numfmt --from=iec 1M
19389 # with '--from=auto', M=Mega, Mi=Mebi
19390 $ numfmt --from=auto 1M
19392 $ numfmt --from=auto 1Mi
19396 Converting from @samp{SI} to @samp{IEC} scales (e.g. when a drive's capacity is
19397 advertised as @samp{1TB}, while checking the drive's capacity gives lower
19401 $ numfmt --from=si --to=iec 1T
19405 With both input and output scales specified,
19406 the largest defined prefixes are supported:
19409 $ numfmt --from=si --to=iec-i 2000R
19413 Converting a single field from an input file / piped input (these contrived
19414 examples are for demonstration purposes only, as both @command{ls} and
19415 @command{df} support the @option{--human-readable} option to
19416 output sizes in human-readable format):
19419 # Third field (file size) will be shown in SI representation
19420 $ ls -log | numfmt --field 3 --header --to=si | head -n4
19421 -rw-r--r-- 1 94k Aug 23 2011 ABOUT-NLS
19422 -rw-r--r-- 1 3.7k Jan 7 16:15 AUTHORS
19423 -rw-r--r-- 1 36k Jun 1 2011 COPYING
19424 -rw-r--r-- 1 0 Jan 7 15:15 ChangeLog
19426 # Second field (size) will be shown in IEC representation
19427 $ df --block-size=1 | numfmt --field 2 --header --to=iec | head -n4
19428 File system 1B-blocks Used Available Use% Mounted on
19429 rootfs 132G 104741408 26554036 80% /
19430 tmpfs 794M 7580 804960 1% /run/shm
19431 /dev/sdb1 694G 651424756 46074696 94% /home
19435 Output can be tweaked using @option{--padding} or @option{--format}:
19438 # Pad to 10 characters, right-aligned
19439 $ du -s * | numfmt --to=si --padding=10
19445 # Pad to 10 characters, left-aligned
19446 $ du -s * | numfmt --to=si --padding=-10
19452 # Pad to 10 characters, left-aligned, using 'format'
19453 $ du -s * | numfmt --to=si --format="%10f"
19459 # Pad to 10 characters, left-aligned, using 'format'
19460 $ du -s * | numfmt --to=si --padding="%-10f"
19467 With locales that support grouping digits, using @option{--grouping} or
19468 @option{--format} enables grouping. In @samp{POSIX} locale, grouping is
19472 $ LC_ALL=C numfmt --from=iec --grouping 2G
19475 $ LC_ALL=en_US.utf8 numfmt --from=iec --grouping 2G
19478 $ LC_ALL=ta_IN numfmt --from=iec --grouping 2G
19481 $ LC_ALL=C numfmt --from=iec --format="==%'15f==" 2G
19484 $ LC_ALL=en_US.utf8 numfmt --from=iec --format="==%'15f==" 2G
19487 $ LC_ALL=en_US.utf8 numfmt --from=iec --format="==%'-15f==" 2G
19490 $ LC_ALL=ta_IN numfmt --from=iec --format="==%'15f==" 2G
19491 == 2,14,74,83,648==
19495 @node seq invocation
19496 @section @command{seq}: Print numeric sequences
19499 @cindex numeric sequences
19500 @cindex sequence of numbers
19502 @command{seq} prints a sequence of numbers to standard output. Synopses:
19505 seq [@var{option}]@dots{} @var{last}
19506 seq [@var{option}]@dots{} @var{first} @var{last}
19507 seq [@var{option}]@dots{} @var{first} @var{increment} @var{last}
19510 @command{seq} prints the numbers from @var{first} to @var{last} by
19511 @var{increment}. By default, each number is printed on a separate line.
19512 When @var{increment} is not specified, it defaults to @samp{1},
19513 even when @var{first} is larger than @var{last}.
19514 @var{first} also defaults to @samp{1}. So @code{seq 1} prints
19515 @samp{1}, but @code{seq 0} and @code{seq 10 5} produce no output.
19516 The sequence of numbers ends when the sum of the current number and
19517 @var{increment} would become greater than @var{last},
19518 so @code{seq 1 10 10} only produces @samp{1}.
19519 @var{increment} must not be @samp{0}; use the tool @command{yes} to get
19520 repeated output of a constant number.
19521 @var{first}, @var{increment} and @var{last} must not be @code{NaN},
19522 but @code{inf} is supported.
19523 Floating-point numbers may be specified in either the current or
19524 the C locale. @xref{Floating point}.
19526 The program accepts the following options. Also see @ref{Common options}.
19527 Options must precede operands.
19530 @item -f @var{format}
19531 @itemx --format=@var{format}
19534 @cindex formatting of numbers in @command{seq}
19535 Print all numbers using @var{format}.
19536 @var{format} must contain exactly one of the @samp{printf}-style
19537 floating point conversion specifications @samp{%a}, @samp{%e},
19538 @samp{%f}, @samp{%g}, @samp{%A}, @samp{%E}, @samp{%F}, @samp{%G}@.
19539 The @samp{%} may be followed by zero or more flags taken from the set
19540 @samp{-+#0 '}, then an optional width containing one or more digits,
19541 then an optional precision consisting of a @samp{.} followed by zero
19542 or more digits. @var{format} may also contain any number of @samp{%%}
19543 conversion specifications. All conversion specifications have the
19544 same meaning as with @samp{printf}.
19546 The default format is derived from @var{first}, @var{step}, and
19547 @var{last}. If these all use a fixed point decimal representation,
19548 the default format is @samp{%.@var{p}f}, where @var{p} is the minimum
19549 precision that can represent the output numbers exactly. Otherwise,
19550 the default format is @samp{%g}.
19552 @item -s @var{string}
19553 @itemx --separator=@var{string}
19555 @opindex --separator
19556 @cindex separator for numbers in @command{seq}
19557 Separate numbers with @var{string}; default is a newline.
19558 The output always terminates with a newline.
19561 @itemx --equal-width
19563 @opindex --equal-width
19564 Print all numbers with the same width, by padding with leading zeros.
19565 @var{first}, @var{step}, and @var{last} should all use a fixed point
19566 decimal representation.
19567 (To have other kinds of padding, use @option{--format}).
19571 You can get finer-grained control over output with @option{-f}:
19574 $ seq -f '(%9.2E)' -9e5 1.1e6 1.3e6
19580 If you want hexadecimal integer output, you can use @command{printf}
19581 to perform the conversion:
19584 $ printf '%x\n' $(seq 1048575 1024 1050623)
19590 For very long lists of numbers, use xargs to avoid
19591 system limitations on the length of an argument list:
19594 $ seq 1000000 | xargs printf '%x\n' | tail -n 3
19600 To generate octal output, use the printf @code{%o} format instead
19603 On most systems, seq can produce whole-number output for values up to
19604 at least @math{2^{53}}. Larger integers are approximated. The details
19605 differ depending on your floating-point implementation.
19606 @xref{Floating point}. A common
19607 case is that @command{seq} works with integers through @math{2^{64}},
19608 and larger integers may not be numerically correct:
19611 $ seq 50000000000000000000 2 50000000000000000004
19612 50000000000000000000
19613 50000000000000000000
19614 50000000000000000004
19617 However, when limited to non-negative whole numbers,
19618 an increment of less than 200, and no format-specifying option,
19619 seq can print arbitrarily large numbers.
19620 Therefore @command{seq inf} can be used to
19621 generate an infinite sequence of numbers.
19623 Be careful when using @command{seq} with outlandish values: otherwise
19624 you may see surprising results, as @command{seq} uses floating point
19625 internally. For example, on the x86 platform, where the internal
19626 representation uses a 64-bit fraction, the command:
19629 seq 1 0.0000000000000000001 1.0000000000000000009
19632 outputs 1.0000000000000000007 twice and skips 1.0000000000000000008.
19637 @node File permissions
19638 @chapter File permissions
19642 @node File timestamps
19643 @chapter File timestamps
19649 Standard POSIX files have three timestamps: the access timestamp
19650 (atime) of the last read, the modification timestamp (mtime) of the
19651 last write, and the status change timestamp (ctime) of the last change
19652 to the file's meta-information. Some file systems support a
19653 fourth time: the birth timestamp (birthtime) of when the file was
19654 created; by definition, birthtime never changes.
19656 One common example of a ctime change is when the permissions of a file
19657 change. Changing the permissions doesn't access the file, so atime
19658 doesn't change, nor does it modify the file, so the mtime doesn't
19659 change. Yet, something about the file itself has changed, and this
19660 must be noted somewhere. This is the job of the ctime field. This is
19661 necessary, so that, for example, a backup program can make a fresh
19662 copy of the file, including the new permissions value. Another
19663 operation that modifies a file's ctime without affecting the others is
19666 Naively, a file's atime, mtime, and ctime are set to the current time
19667 whenever you read, write, or change the attributes of the file
19668 respectively, and searching a directory counts as reading it. A
19669 file's atime and mtime can also be set directly, via the
19670 @command{touch} command (@pxref{touch invocation}). In practice,
19671 though, timestamps are not updated quite that way.
19673 For efficiency reasons, many systems are lazy about updating atimes:
19674 when a program accesses a file, they may delay updating the file's
19675 atime, or may not update the file's atime if the file has been
19676 accessed recently, or may not update the atime at all. Similar
19677 laziness, though typically not quite so extreme, applies to mtimes and
19680 Some systems emulate timestamps instead of supporting them directly,
19681 and these emulations may disagree with the naive interpretation. For
19682 example, a system may fake an atime or ctime by using the mtime.
19685 The determination of what time is ``current'' depends on the
19686 platform. Platforms with network file systems often use different
19687 clocks for the operating system and for file systems; because
19688 updates typically uses file systems' clocks by default, clock
19689 skew can cause the resulting file timestamps to appear to be in a
19690 program's ``future'' or ``past''.
19692 @cindex file timestamp resolution
19693 When the system updates a file timestamp to a desired time @var{t}
19694 (which is either the current time, or a time specified via the
19695 @command{touch} command), there are several reasons the file's
19696 timestamp may be set to a value that differs from @var{t}. First,
19697 @var{t} may have a higher resolution than supported. Second, a file
19698 system may use different resolutions for different types of times.
19699 Third, file timestamps may use a different resolution than operating
19700 system timestamps. Fourth, the operating system primitives used to
19701 update timestamps may employ yet a different resolution. For example,
19702 in theory a file system might use 10-microsecond resolution for access
19703 timestamp and 100-nanosecond resolution for modification timestamp, and the
19704 operating system might use nanosecond resolution for the current time
19705 and microsecond resolution for the primitive that @command{touch} uses
19706 to set a file's timestamp to an arbitrary value.
19709 @include parse-datetime.texi
19711 @include sort-version.texi
19715 @node Opening the software toolbox
19716 @chapter Opening the Software Toolbox
19718 An earlier version of this chapter appeared in
19719 @uref{https://www.linuxjournal.com/article.php?sid=2762, the
19720 @cite{What's GNU@?} column of the June 1994 @cite{Linux Journal}}.
19721 It was written by Arnold Robbins.
19724 * Toolbox introduction:: Toolbox introduction
19725 * I/O redirection:: I/O redirection
19726 * The who command:: The @command{who} command
19727 * The cut command:: The @command{cut} command
19728 * The sort command:: The @command{sort} command
19729 * The uniq command:: The @command{uniq} command
19730 * Putting the tools together:: Putting the tools together
19734 @node Toolbox introduction
19735 @unnumberedsec Toolbox Introduction
19737 This month's column is only peripherally related to the GNU Project, in
19738 that it describes a number of the GNU tools on your GNU/Linux system
19740 might be used. What it's really about is the ``Software Tools'' philosophy
19741 of program development and usage.
19743 The software tools philosophy was an important and integral concept
19744 in the initial design and development of Unix (of which GNU/Linux and GNU are
19745 essentially clones). Unfortunately, in the modern day press of
19746 Internetworking and flashy GUIs, it seems to have fallen by the
19747 wayside. This is a shame, since it provides a powerful mental model
19748 for solving many kinds of problems.
19750 Many people carry a Swiss Army knife around in their pants pockets (or
19751 purse). A Swiss Army knife is a handy tool to have: it has several knife
19752 blades, a screwdriver, tweezers, toothpick, nail file, corkscrew, and perhaps
19753 a number of other things on it. For the everyday, small miscellaneous jobs
19754 where you need a simple, general purpose tool, it's just the thing.
19756 On the other hand, an experienced carpenter doesn't build a house using
19757 a Swiss Army knife. Instead, he has a toolbox chock full of specialized
19758 tools -- a saw, a hammer, a screwdriver, a plane, and so on. And he knows
19759 exactly when and where to use each tool; you won't catch him hammering nails
19760 with the handle of his screwdriver.
19762 The Unix developers at Bell Labs were all professional programmers and trained
19763 computer scientists. They had found that while a one-size-fits-all program
19764 might appeal to a user because there's only one program to use, in practice
19769 difficult to write,
19772 difficult to maintain and
19776 difficult to extend to meet new situations.
19779 Instead, they felt that programs should be specialized tools. In short, each
19780 program ``should do one thing well.'' No more and no less. Such programs are
19781 simpler to design, write, and get right -- they only do one thing.
19783 Furthermore, they found that with the right machinery for hooking programs
19784 together, that the whole was greater than the sum of the parts. By combining
19785 several special purpose programs, you could accomplish a specific task
19786 that none of the programs was designed for, and accomplish it much more
19787 quickly and easily than if you had to write a special purpose program.
19788 We will see some (classic) examples of this further on in the column.
19789 (An important additional point was that, if necessary, take a detour
19790 and build any software tools you may need first, if you don't already
19791 have something appropriate in the toolbox.)
19793 @node I/O redirection
19794 @unnumberedsec I/O Redirection
19796 Hopefully, you are familiar with the basics of I/O redirection in the
19797 shell, in particular the concepts of ``standard input,'' ``standard output,''
19798 and ``standard error''. Briefly, ``standard input'' is a data source, where
19799 data comes from. A program should not need to either know or care if the
19800 data source is a regular file, a keyboard, a magnetic tape, or even a punched
19801 card reader. Similarly, ``standard output'' is a data sink, where data goes
19802 to. The program should neither know nor care where this might be.
19803 Programs that only read their standard input, do something to the data,
19804 and then send it on, are called @dfn{filters}, by analogy to filters in a
19807 With the Unix shell, it's very easy to set up data pipelines:
19810 program_to_create_data | filter1 | ... | filterN > final.pretty.data
19813 We start out by creating the raw data; each filter applies some successive
19814 transformation to the data, until by the time it comes out of the pipeline,
19815 it is in the desired form.
19817 This is fine and good for standard input and standard output. Where does the
19818 standard error come in to play? Well, think about @command{filter1} in
19819 the pipeline above. What happens if it encounters an error in the data it
19820 sees? If it writes an error message to standard output, it will just
19821 disappear down the pipeline into @command{filter2}'s input, and the
19822 user will probably never see it. So programs need a place where they can send
19823 error messages so that the user will notice them. This is standard error,
19824 and it is usually connected to your console or window, even if you have
19825 redirected standard output of your program away from your screen.
19827 For filter programs to work together, the format of the data has to be
19828 agreed upon. The most straightforward and easiest format to use is simply
19829 lines of text. Unix data files are generally just streams of bytes, with
19830 lines delimited by the ASCII LF (Line Feed) character,
19831 conventionally called a ``newline'' in the Unix literature. (This is
19832 @code{'\n'} if you're a C programmer.) This is the format used by all
19833 the traditional filtering programs. (Many earlier operating systems
19834 had elaborate facilities and special purpose programs for managing
19835 binary data. Unix has always shied away from such things, under the
19836 philosophy that it's easiest to simply be able to view and edit your
19837 data with a text editor.)
19839 OK, enough introduction. Let's take a look at some of the tools, and then
19840 we'll see how to hook them together in interesting ways. In the following
19841 discussion, we will only present those command line options that interest
19842 us. As you should always do, double check your system documentation
19843 for the full story.
19845 @node The who command
19846 @unnumberedsec The @command{who} Command
19848 The first program is the @command{who} command. By itself, it generates a
19849 list of the users who are currently logged in. Although I'm writing
19850 this on a single-user system, we'll pretend that several people are
19855 @print{} arnold console Jan 22 19:57
19856 @print{} miriam ttyp0 Jan 23 14:19(:0.0)
19857 @print{} bill ttyp1 Jan 21 09:32(:0.0)
19858 @print{} arnold ttyp2 Jan 23 20:48(:0.0)
19861 Here, the @samp{$} is the usual shell prompt, at which I typed @samp{who}.
19862 There are three people logged in, and I am logged in twice. On traditional
19863 Unix systems, user names are never more than eight characters long. This
19864 little bit of trivia will be useful later. The output of @command{who} is nice,
19865 but the data is not all that exciting.
19867 @node The cut command
19868 @unnumberedsec The @command{cut} Command
19870 The next program we'll look at is the @command{cut} command. This program
19871 cuts out columns or fields of input data. For example, we can tell it
19872 to print just the login name and full name from the @file{/etc/passwd}
19873 file. The @file{/etc/passwd} file has seven fields, separated by
19877 arnold:xyzzy:2076:10:Arnold D. Robbins:/home/arnold:/bin/bash
19880 To get the first and fifth fields, we would use @command{cut} like this:
19883 $ cut -d: -f1,5 /etc/passwd
19884 @print{} root:Operator
19886 @print{} arnold:Arnold D. Robbins
19887 @print{} miriam:Miriam A. Robbins
19891 With the @option{-c} option, @command{cut} will cut out specific characters
19892 (i.e., columns) in the input lines. This is useful for input data
19893 that has fixed width fields, and does not have a field separator. For
19894 example, list the Monday dates for the current month:
19896 @c Is using cal ok? Looked at gcal, but I don't like it.
19907 @node The sort command
19908 @unnumberedsec The @command{sort} Command
19910 Next we'll look at the @command{sort} command. This is one of the most
19911 powerful commands on a Unix-style system; one that you will often find
19912 yourself using when setting up fancy data plumbing.
19915 command reads and sorts each file named on the command line. It then
19916 merges the sorted data and writes it to standard output. It will read
19917 standard input if no files are given on the command line (thus
19918 making it into a filter). The sort is based on the character collating
19919 sequence or based on user-supplied ordering criteria.
19922 @node The uniq command
19923 @unnumberedsec The @command{uniq} Command
19925 Finally (at least for now), we'll look at the @command{uniq} program. When
19926 sorting data, you will often end up with duplicate lines, lines that
19927 are identical. Usually, all you need is one instance of each line.
19928 This is where @command{uniq} comes in. The @command{uniq} program reads its
19929 standard input. It prints only one
19930 copy of each repeated line. It does have several options. Later on,
19931 we'll use the @option{-c} option, which prints each unique line, preceded
19932 by a count of the number of times that line occurred in the input.
19935 @node Putting the tools together
19936 @unnumberedsec Putting the Tools Together
19938 Now, let's suppose this is a large ISP server system with dozens of users
19939 logged in. The management wants the system administrator to write a
19941 generate a sorted list of logged in users. Furthermore, even if a user
19942 is logged in multiple times, his or her name should only show up in the
19945 The administrator could sit down with the system documentation and write a C
19946 program that did this. It would take perhaps a couple of hundred lines
19947 of code and about two hours to write it, test it, and debug it.
19948 However, knowing the software toolbox, the administrator can instead start out
19949 by generating just a list of logged on users:
19959 Next, sort the list:
19962 $ who | cut -c1-8 | sort
19969 Finally, run the sorted list through @command{uniq}, to weed out duplicates:
19972 $ who | cut -c1-8 | sort | uniq
19978 The @command{sort} command actually has a @option{-u} option that does what
19979 @command{uniq} does. However, @command{uniq} has other uses for which one
19980 cannot substitute @samp{sort -u}.
19982 The administrator puts this pipeline into a shell script, and makes it
19984 all the users on the system (@samp{#} is the system administrator,
19985 or @code{root}, prompt):
19988 # cat > /usr/local/bin/listusers
19989 who | cut -c1-8 | sort | uniq
19991 # chmod +x /usr/local/bin/listusers
19994 There are four major points to note here. First, with just four
19995 programs, on one command line, the administrator was able to save about two
19996 hours worth of work. Furthermore, the shell pipeline is just about as
19997 efficient as the C program would be, and it is much more efficient in
19998 terms of programmer time. People time is much more expensive than
19999 computer time, and in our modern ``there's never enough time to do
20000 everything'' society, saving two hours of programmer time is no mean
20003 Second, it is also important to emphasize that with the
20004 @emph{combination} of the tools, it is possible to do a special
20005 purpose job never imagined by the authors of the individual programs.
20007 Third, it is also valuable to build up your pipeline in stages, as we did here.
20008 This allows you to view the data at each stage in the pipeline, which helps
20009 you acquire the confidence that you are indeed using these tools correctly.
20011 Finally, by bundling the pipeline in a shell script, other users can use
20012 your command, without having to remember the fancy plumbing you set up for
20013 them. In terms of how you run them, shell scripts and compiled programs are
20016 After the previous warm-up exercise, we'll look at two additional, more
20017 complicated pipelines. For them, we need to introduce two more tools.
20019 The first is the @command{tr} command, which stands for ``transliterate.''
20020 The @command{tr} command works on a character-by-character basis, changing
20021 characters. Normally it is used for things like mapping upper case to
20025 $ echo ThIs ExAmPlE HaS MIXED case! | tr '[:upper:]' '[:lower:]'
20026 @print{} this example has mixed case!
20029 There are several options of interest:
20033 work on the complement of the listed characters, i.e.,
20034 operations apply to characters not in the given set
20037 delete characters in the first set from the output
20040 squeeze repeated characters in the output into just one character.
20043 We will be using all three options in a moment.
20045 The other command we'll look at is @command{comm}. The @command{comm}
20046 command takes two sorted input files as input data, and prints out the
20047 files' lines in three columns. The output columns are the data lines
20048 unique to the first file, the data lines unique to the second file, and
20049 the data lines that are common to both. The @option{-1}, @option{-2}, and
20050 @option{-3} command line options @emph{omit} the respective columns. (This is
20051 non-intuitive and takes a little getting used to.) For example:
20073 The file name @file{-} tells @command{comm} to read standard input
20074 instead of a regular file.
20076 Now we're ready to build a fancy pipeline. The first application is a word
20077 frequency counter. This helps an author determine if he or she is over-using
20080 The first step is to change the case of all the letters in our input file
20081 to one case. ``The'' and ``the'' are the same word when doing counting.
20084 $ tr '[:upper:]' '[:lower:]' < whats.gnu | ...
20087 The next step is to get rid of punctuation. Quoted words and unquoted words
20088 should be treated identically; it's easiest to just get the punctuation out of
20092 $ tr '[:upper:]' '[:lower:]' < whats.gnu | tr -cd '[:alnum:]_ \n' | ...
20095 The second @command{tr} command operates on the complement of the listed
20096 characters, which are all the letters, the digits, the underscore, and
20097 the blank. The @samp{\n} represents the newline character; it has to
20098 be left alone. (The ASCII tab character should also be included for
20099 good measure in a production script.)
20101 At this point, we have data consisting of words separated by blank space.
20102 The words only contain alphanumeric characters (and the underscore). The
20103 next step is break the data apart so that we have one word per line. This
20104 makes the counting operation much easier, as we will see shortly.
20107 $ tr '[:upper:]' '[:lower:]' < whats.gnu | tr -cd '[:alnum:]_ \n' |
20108 > tr -s ' ' '\n' | ...
20111 This command turns blanks into newlines. The @option{-s} option squeezes
20112 multiple newline characters in the output into just one, removing
20113 blank lines. (The @samp{>} is the shell's ``secondary prompt.''
20114 This is what the shell prints when it notices you haven't finished
20115 typing in all of a command.)
20117 We now have data consisting of one word per line, no punctuation, all one
20118 case. We're ready to count each word:
20121 $ tr '[:upper:]' '[:lower:]' < whats.gnu | tr -cd '[:alnum:]_ \n' |
20122 > tr -s ' ' '\n' | sort | uniq -c | ...
20125 At this point, the data might look something like this:
20138 The output is sorted by word, not by count! What we want is the most
20139 frequently used words first. Fortunately, this is easy to accomplish,
20140 with the help of two more @command{sort} options:
20144 do a numeric sort, not a textual one
20147 reverse the order of the sort
20150 The final pipeline looks like this:
20153 $ tr '[:upper:]' '[:lower:]' < whats.gnu | tr -cd '[:alnum:]_ \n' |
20154 > tr -s ' ' '\n' | sort | uniq -c | sort -n -r
20163 Whew! That's a lot to digest. Yet, the same principles apply. With six
20164 commands, on two lines (really one long one split for convenience), we've
20165 created a program that does something interesting and useful, in much
20166 less time than we could have written a C program to do the same thing.
20168 A minor modification to the above pipeline can give us a simple spelling
20169 checker! To determine if you've spelled a word correctly, all you have to
20170 do is look it up in a dictionary. If it is not there, then chances are
20171 that your spelling is incorrect. So, we need a dictionary.
20172 The conventional location for a dictionary is @file{/usr/share/dict/words}.
20174 Now, how to compare our file with the dictionary? As before, we generate
20175 a sorted list of words, one per line:
20178 $ tr '[:upper:]' '[:lower:]' < whats.gnu | tr -cd '[:alnum:]_ \n' |
20179 > tr -s ' ' '\n' | sort -u | ...
20182 Now, all we need is a list of words that are @emph{not} in the
20183 dictionary. Here is where the @command{comm} command comes in.
20184 Unfortunately @command{comm} operates on sorted input and
20185 @file{/usr/share/dict/words} is not sorted the way that @command{sort}
20186 and @command{comm} normally use, so we first create a properly-sorted
20187 copy of the dictionary and then run a pipeline that uses the copy.
20190 $ sort /usr/share/dict/words > sorted-words
20191 $ tr '[:upper:]' '[:lower:]' < whats.gnu | tr -cd '[:alnum:]_ \n' |
20192 > tr -s ' ' '\n' | sort -u |
20193 > comm -23 - sorted-words
20196 The @option{-2} and @option{-3} options eliminate lines that are only in the
20197 dictionary (the second file), and lines that are in both files. Lines
20198 only in the first file (standard input, our stream of words), are
20199 words that are not in the dictionary. These are likely candidates for
20200 spelling errors. This pipeline was the first cut at a production
20201 spelling checker on Unix.
20203 There are some other tools that deserve brief mention.
20207 search files for text that matches a regular expression
20210 count lines, words, characters
20213 a T-fitting for data pipes, copies data to files and to standard output
20216 the stream editor, an advanced tool
20219 a data manipulation language, another advanced tool
20222 The software tools philosophy also espoused the following bit of
20223 advice: ``Let someone else do the hard part.'' This means, take
20224 something that gives you most of what you need, and then massage it the
20225 rest of the way until it's in the form that you want.
20231 Each program should do one thing well. No more, no less.
20234 Combining programs with appropriate plumbing leads to results where
20235 the whole is greater than the sum of the parts. It also leads to novel
20236 uses of programs that the authors might never have imagined.
20239 Programs should never print extraneous header or trailer data, since these
20240 could get sent on down a pipeline. (A point we didn't mention earlier.)
20243 Let someone else do the hard part.
20246 Know your toolbox! Use each program appropriately. If you don't have an
20247 appropriate tool, build one.
20250 All the programs discussed are available as described in
20251 @uref{https://www.gnu.org/software/coreutils/coreutils.html,
20252 GNU core utilities}.
20254 None of what I have presented in this column is new. The Software Tools
20255 philosophy was first introduced in the book @cite{Software Tools}, by
20256 Brian Kernighan and P.J. Plauger (Addison-Wesley, ISBN 0-201-03669-X).
20257 This book showed how to write and use software tools. It was written in
20258 1976, using a preprocessor for FORTRAN named @command{ratfor} (RATional
20259 FORtran). At the time, C was not as ubiquitous as it is now; FORTRAN
20260 was. The last chapter presented a @command{ratfor} to FORTRAN
20261 processor, written in @command{ratfor}. @command{ratfor} looks an awful
20262 lot like C; if you know C, you won't have any problem following the
20265 In 1981, the book was updated and made available as @cite{Software Tools
20266 in Pascal} (Addison-Wesley, ISBN 0-201-10342-7). Both books are
20267 still in print and are well worth
20268 reading if you're a programmer. They certainly made a major change in
20269 how I view programming.
20271 The programs in both books are available from
20272 @uref{https://www.cs.princeton.edu/~bwk/, Brian Kernighan's home page}.
20273 For a number of years, there was an active
20274 Software Tools Users Group, whose members had ported the original
20275 @command{ratfor} programs to essentially every computer system with a
20276 FORTRAN compiler. The popularity of the group waned in the middle 1980s
20277 as Unix began to spread beyond universities.
20279 With the current proliferation of GNU code and other clones of Unix programs,
20280 these programs now receive little attention; modern C versions are
20281 much more efficient and do more than these programs do. Nevertheless, as
20282 exposition of good programming style, and evangelism for a still-valuable
20283 philosophy, these books are unparalleled, and I recommend them highly.
20285 Acknowledgment: I would like to express my gratitude to Brian Kernighan
20286 of Bell Labs, the original Software Toolsmith, for reviewing this column.
20288 @node GNU Free Documentation License
20289 @appendix GNU Free Documentation License
20293 @node Concept index
20300 @c Local variables:
20301 @c texinfo-column-for-description: 32