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CI(1)			    General Commands Manual			 CI(1)

NAME
       ci - check in RCS revisions

SYNOPSIS
       ci [options] file ...

DESCRIPTION
       ci  stores new revisions	into RCS files.	 Each pathname matching	an RCS
       suffix is taken to be an	RCS file.  All others are assumed to be	 work-
       ing  files  containing new revisions.  ci deposits the contents of each
       working file into the corresponding RCS file.  If only a	 working  file
       is  given, ci tries to find the corresponding RCS file in an RCS	subdi-
       rectory and then	in the working file's directory.   For	more  details,
       see FILE	NAMING below.

       For  ci	to work, the caller's login must be on the access list,	except
       if the access list is empty or the caller is the	superuser or the owner
       of the file.  To	append a new revision to an existing branch,  the  tip
       revision	 on that branch	must be	locked by the caller.  Otherwise, only
       a new branch can	be created.  This restriction is not enforced for  the
       owner  of  the file if non-strict locking is used (see rcs(1)).	A lock
       held by someone else can	be broken with the rcs command.

       Unless the -f option is given, ci checks	whether	the revision to	be de-
       posited differs from the	preceding one.	If not,	instead	of creating  a
       new  revision  ci reverts to the	preceding one.	To revert, ordinary ci
       removes the working file	and any	lock; ci -l keeps  and	ci -u  removes
       any  lock,  and	then  they both	generate a new working file much as if
       co -l or	co -u had been applied to the preceding	 revision.   When  re-
       verting,	any -n and -s options apply to the preceding revision.

       For  each  revision  deposited,	ci prompts for a log message.  The log
       message should summarize	the change and must be terminated  by  end-of-
       file or by a line containing . by itself.  If several files are checked
       in  ci asks whether to reuse the	previous log message.  If the standard
       input is	not a terminal,	ci suppresses the prompt and uses the same log
       message for all files.  See also	-m.

       If the RCS file does not	exist, ci creates it and deposits the contents
       of the working file as the initial revision (default number: 1.1).  The
       access list is initialized to empty.  Instead of	the  log  message,  ci
       requests	descriptive text (see -t below).

       The number rev of the deposited revision	can be given by	any of the op-
       tions  -f, -i, -I, -j, -k, -l, -M, -q, -r, or -u.  rev can be symbolic,
       numeric,	or mixed.  Symbolic names in rev must already be defined;  see
       the -n and -N options for assigning names during	checkin.  If rev is $,
       ci  determines  the  revision number from keyword values	in the working
       file.

       If rev begins with a period, then  the  default	branch	(normally  the
       trunk) is prepended to it.  If rev is a branch number followed by a pe-
       riod, then the latest revision on that branch is	used.

       If  rev	is a revision number, it must be higher	than the latest	one on
       the branch to which rev belongs,	or must	start a	new branch.

       If rev is a branch rather than a	revision number, the new  revision  is
       appended	 to that branch.  The level number is obtained by incrementing
       the tip revision	number of that branch.	If rev indicates a  non-exist-
       ing  branch,  that branch is created with the initial revision numbered
       rev.1.

       If rev is omitted, ci tries to derive the new revision number from  the
       caller's	 last  lock.   If  the caller has locked the tip revision of a
       branch, the new revision	is appended to that branch.  The new  revision
       number  is  obtained  by	 incrementing the tip revision number.	If the
       caller locked a non-tip revision, a new branch is started at that revi-
       sion by incrementing the	highest	branch number at that  revision.   The
       default initial branch and level	numbers	are 1.

       If  rev	is  omitted  and the caller has	no lock, but owns the file and
       locking is not set to strict, then the revision is appended to the  de-
       fault branch (normally the trunk; see the -b option of rcs(1)).

       Exception:  On the trunk, revisions can be appended to the end, but not
       inserted.

OPTIONS
       -rrev  Check in revision	rev.

       -r     The bare -r option (without any revision)	has an unusual meaning
	      in ci.  With other RCS commands, a bare -r option	specifies  the
	      most  recent revision on the default branch, but with ci,	a bare
	      -r option	reestablishes the default behavior of releasing	a lock
	      and removing the working file, and is used to override  any  de-
	      fault -l or -u options established by shell aliases or scripts.

       -l[rev]
	      works  like  -r,	except it performs an additional co -l for the
	      deposited	revision.  Thus, the deposited revision	is immediately
	      checked out again	and locked.  This is useful for	saving a revi-
	      sion although  one  wants	 to  continue  editing	it  after  the
	      checkin.

       -u[rev]
	      works like -l, except that the deposited revision	is not locked.
	      This lets	one read the working file immediately after checkin.

	      The  -l,	bare  -r,  and	-u  options are	mutually exclusive and
	      silently override	each other.  For example, ci -u	-r is  equiva-
	      lent to ci -r because bare -r overrides -u.

       -f[rev]
	      forces  a	 deposit; the new revision is deposited	even it	is not
	      different	from the preceding one.

       -k[rev]
	      searches the working file	for keyword values  to	determine  its
	      revision	number,	 creation date,	state, and author (see co(1)),
	      and assigns these	values to the deposited	revision, rather  than
	      computing	 them locally.	It also	generates a default login mes-
	      sage noting the login of the caller and the actual checkin date.
	      This option is useful for	 software  distribution.   A  revision
	      that  is	sent to	several	sites should be	checked	in with	the -k
	      option at	these sites to preserve	the original number, date, au-
	      thor, and	state.	The extracted keyword values and  the  default
	      log  message  can	be overridden with the options -d, -m, -s, -w,
	      and any option that carries a revision number.

       -q[rev]
	      quiet mode; diagnostic output is not printed.  A	revision  that
	      is not different from the	preceding one is not deposited,	unless
	      -f is given.

       -i[rev]
	      initial checkin; report an error if the RCS file already exists.
	      This avoids race conditions in certain applications.

       -j[rev]
	      just  checkin  and do not	initialize; report an error if the RCS
	      file does	not already exist.

       -I[rev]
	      interactive mode;	the user is prompted and  questioned  even  if
	      the standard input is not	a terminal.

       -d[date]
	      uses  date for the checkin date and time.	 The date is specified
	      in free format as	explained in co(1).  This is useful for	 lying
	      about  the checkin date, and for -k if no	date is	available.  If
	      date is empty, the working file's	time of	last  modification  is
	      used.

       -M[rev]
	      Set the modification time	on any new working file	to be the date
	      of  the retrieved	revision.  For example,	ci -d -M -u f does not
	      alter f's	modification time, even	if f's contents	change due  to
	      keyword substitution.  Use this option with care;	it can confuse
	      make(1).

       -mmsg  uses the string msg as the log message for all revisions checked
	      in.   By convention, log messages	that start with	# are comments
	      and are ignored by programs like GNU Emacs's vc package.	 Also,
	      log  messages  that  start  with	{clumpname} (followed by white
	      space) are meant to be clumped together  if  possible,  even  if
	      they  are	associated with	different files; the {clumpname} label
	      is used only for clumping, and is	not considered to be  part  of
	      the log message itself.

       -nname assigns  the  symbolic name name to the number of	the checked-in
	      revision.	 ci prints an error message if	name  is  already  as-
	      signed to	another	number.

       -Nname same  as	-n,  except that it overrides a	previous assignment of
	      name.

       -sstate
	      sets the state of	the  checked-in	 revision  to  the  identifier
	      state.  The default state	is Exp.

       -tfile writes descriptive text from the contents	of the named file into
	      the RCS file, deleting the existing text.	 The file cannot begin
	      with -.

       -t-string
	      Write descriptive	text from the string into the RCS file,	delet-
	      ing the existing text.

	      The -t option, in	both its forms,	has effect only	during an ini-
	      tial checkin; it is silently ignored otherwise.

	      During  the  initial checkin, if -t is not given,	ci obtains the
	      text from	standard input,	terminated by end-of-file or by	a line
	      containing . by itself.  The user	is prompted for	 the  text  if
	      interaction is possible; see -I.

	      For backward compatibility with older versions of	RCS, a bare -t
	      option is	ignored.

       -T     Set  the RCS file's modification time to the new revision's time
	      if the former precedes the latter	and there is a	new  revision;
	      preserve	the  RCS  file's  modification time otherwise.	If you
	      have locked a revision, ci usually updates the RCS file's	 modi-
	      fication time to the current time, because the lock is stored in
	      the  RCS	file  and  removing the	lock requires changing the RCS
	      file.  This can create an	RCS file newer than the	 working  file
	      in  one of two ways: first, ci -M	can create a working file with
	      a	date before the	current	time; second, when  reverting  to  the
	      previous revision	the RCS	file can change	while the working file
	      remains unchanged.  These	two cases can cause excessive recompi-
	      lation caused by a make(1) dependency of the working file	on the
	      RCS  file.   The	-T option inhibits this	recompilation by lying
	      about the	RCS file's date.  Use this option with	care;  it  can
	      suppress	recompilation  even when a checkin of one working file
	      should affect another working file associated with the same  RCS
	      file.   For  example,  suppose the RCS file's time is 01:00, the
	      (changed)	working	file's time is 02:00, some other copy  of  the
	      working file has a time of 03:00,	and the	current	time is	04:00.
	      Then  ci -d -T  sets the RCS file's time to 02:00	instead	of the
	      usual 04:00; this	causes make(1) to think	(incorrectly) that the
	      other copy is newer than the RCS file.

       -wlogin
	      uses login for the author	field of the deposited revision.  Use-
	      ful for lying about the author, and  for	-k  if	no  author  is
	      available.

       -V     Print RCS's version number.

       -Vn    Emulate RCS version n.  See co(1)	for details.

       -xsuffixes
	      specifies	the suffixes for RCS files.  A nonempty	suffix matches
	      any  pathname ending in the suffix.  An empty suffix matches any
	      pathname of the form RCS/path or path1/RCS/path2.	 The -x	option
	      can specify a list of suffixes separated	by  /.	 For  example,
	      -x,v/  specifies	two suffixes: ,v and the empty suffix.	If two
	      or more suffixes are specified, they are	tried  in  order  when
	      looking  for  an	RCS file; the first one	that works is used for
	      that file.  If no	RCS file is found but an RCS file can be  cre-
	      ated,  the  suffixes are tried in	order to determine the new RCS
	      file's name.  The	default	for  suffixes  is  installation-depen-
	      dent;  normally it is ,v/	for hosts like Unix that permit	commas
	      in filenames, and	is empty (i.e.	just  the  empty  suffix)  for
	      other hosts.

       -zzone specifies	 the  date  output format in keyword substitution, and
	      specifies	the default time zone for date in the  -ddate  option.
	      The  zone	 should	be empty, a numeric UTC	offset,	or the special
	      string LT	for local time.	 The default is	an empty  zone,	 which
	      uses the traditional RCS format of UTC without any time zone in-
	      dication and with	slashes	separating the parts of	the date; oth-
	      erwise, times are	output in ISO 8601 format with time zone indi-
	      cation.  For example, if local time is January 11, 1990, 8pm Pa-
	      cific  Standard  Time, eight hours west of UTC, then the time is
	      output as	follows:

		     option    time output
		     -z	       1990/01/12 04:00:00	  (default)
		     -zLT      1990-01-11 20:00:00-08
		     -z+05:30  1990-01-12 09:30:00+05:30

	      The -z option does not affect dates stored in RCS	 files,	 which
	      are always UTC.

FILE NAMING
       Pairs  of  RCS  files  and working files	can be specified in three ways
       (see also the example section).

       1) Both the RCS file and	the working file are given.  The RCS  pathname
       is  of the form path1/workfileX and the working pathname	is of the form
       path2/workfile where path1/  and	 path2/	 are  (possibly	 different  or
       empty)  paths, workfile is a filename, and X is an RCS suffix.  If X is
       empty, path1/ must start	with RCS/ or must contain /RCS/.

       2) Only the RCS file is given.  Then the	working	file is	created	in the
       current directory and its name is derived from the name of the RCS file
       by removing path1/ and the suffix X.

       3) Only the working file	is given.  Then	ci considers each RCS suffix X
       in turn,	looking	for an RCS file	of the form path2/RCS/workfileX	or (if
       the former is not found and X is	nonempty) path2/workfileX.

       If the RCS file is specified without a path in 1) and 2), ci looks  for
       the  RCS	 file first in the directory ./RCS and then in the current di-
       rectory.

       ci reports an error if an attempt to open an RCS	file fails for an  un-
       usual  reason,  even  if	the RCS	file's pathname	is just	one of several
       possibilities.  For example, to suppress	use of RCS commands in	a  di-
       rectory d, create a regular file	named d/RCS so that casual attempts to
       use RCS commands	in d fail because d/RCS	is not a directory.

EXAMPLES
       Suppose ,v is an	RCS suffix and the current directory contains a	subdi-
       rectory	RCS  with an RCS file io.c,v.  Then each of the	following com-
       mands check in a	copy of	io.c into RCS/io.c,v as	the  latest  revision,
       removing	io.c.

	      ci  io.c;	   ci  RCS/io.c,v;   ci	 io.c,v;
	      ci  io.c	RCS/io.c,v;    ci  io.c	 io.c,v;
	      ci  RCS/io.c,v  io.c;    ci  io.c,v  io.c;

       Suppose	instead	that the empty suffix is an RCS	suffix and the current
       directory contains a subdirectory RCS with an RCS file io.c.  The  each
       of the following	commands checks	in a new revision.

	      ci  io.c;	   ci  RCS/io.c;
	      ci  io.c	RCS/io.c;
	      ci  RCS/io.c  io.c;

FILE MODES
       An  RCS	file  created  by ci inherits the read and execute permissions
       from the	working	file.  If the RCS file exists  already,	 ci  preserves
       its  read  and execute permissions.  ci always turns off	all write per-
       missions	of RCS files.

FILES
       Temporary files are created in the  directory  containing  the  working
       file,  and  also	 in the	temporary directory (see TMPDIR	under ENVIRON-
       MENT).  A semaphore file	or files are created in	the directory contain-
       ing the RCS file.  With a nonempty suffix, the  semaphore  names	 begin
       with  the  first	 character of the suffix; therefore, do	not specify an
       suffix whose first character could be that of a working filename.  With
       an empty	suffix,	the semaphore names end	with _	so  working  filenames
       should not end in _.

       ci never	changes	an RCS or working file.	 Normally, ci unlinks the file
       and  creates  a new one;	but instead of breaking	a chain	of one or more
       symbolic	links to an RCS	file, it unlinks the destination file instead.
       Therefore, ci breaks any	hard or	symbolic links to any working file  it
       changes;	 and  hard  links  to  RCS files are ineffective, but symbolic
       links to	RCS files are preserved.

       The effective user must be able to search and write the directory  con-
       taining the RCS file.  Normally,	the real user must be able to read the
       RCS  and	working	files and to search and	write the directory containing
       the working file; however, some older hosts cannot  easily  switch  be-
       tween real and effective	users, so on these hosts the effective user is
       used for	all accesses.  The effective user is the same as the real user
       unless  your  copies of ci and co have setuid privileges.  As described
       in the next section, these privileges yield extra security if  the  ef-
       fective user owns all RCS files and directories,	and if only the	effec-
       tive user can write RCS directories.

       Users can control access	to RCS files by	setting	the permissions	of the
       directory containing the	files; only users with write access to the di-
       rectory	can use	RCS commands to	change its RCS files.  For example, in
       hosts that allow	a user to belong to several groups,  one  can  make  a
       group's	RCS  directories  writable  to that group only.	 This approach
       suffices	for informal projects, but it means that any group member  can
       arbitrarily  change the group's RCS files, and can even remove them en-
       tirely.	Hence more formal projects sometimes  distinguish  between  an
       RCS  administrator,  who	 can  change  the RCS files at will, and other
       project members,	who can	check in new revisions	but  cannot  otherwise
       change the RCS files.

SETUID USE
       To prevent anybody but their RCS	administrator from deleting revisions,
       a set of	users can employ setuid	privileges as follows.

        Check	that  the host supports	RCS setuid use.	 Consult a trustworthy
	 expert	if there are any doubts.  It is	best  if  the  seteuid	system
	 call  works  as  described  in	Posix 1003.1a Draft 5, because RCS can
	 switch	back and forth easily between real and effective  users,  even
	 if  the  real user is root.  If not, the second best is if the	setuid
	 system	call supports saved setuid (the	{_POSIX_SAVED_IDS} behavior of
	 Posix 1003.1-1990); this fails	only if	the real or effective user  is
	 root.	If RCS detects any failure in setuid, it quits immediately.

        Choose	 a  user A to serve as RCS administrator for the set of	users.
	 Only A	can invoke the rcs command on the users' RCS files.  A	should
	 not  be  root or any other user with special powers.  Mutually	suspi-
	 cious sets of users should use	different administrators.

        Choose	a pathname B to	be a directory of files	to be executed by  the
	 users.

        Have  A  set up B to contain copies of	ci and co that are setuid to A
	 by copying the	commands from their standard installation directory  D
	 as follows:

	      mkdir  B
	      cp  D/c[io]  B
	      chmod  go-w,u+s  B/c[io]

        Have each user	prepend	B to their path	as follows:

	      PATH=B:$PATH;  export  PATH  # ordinary shell
	      set  path=(B  $path)  # C	shell

        Have  A  create  each	RCS directory R	with write access only to A as
	 follows:

	      mkdir  R
	      chmod  go-w  R

        If you	want to	let only certain users read the	 RCS  files,  put  the
	 users into a group G, and have	A further protect the RCS directory as
	 follows:

	      chgrp  G	R
	      chmod  g-w,o-rwx	R

        Have  A  copy	old  RCS  files	(if any) into R, to ensure that	A owns
	 them.

        An RCS	file's access list limits who can check	in and lock revisions.
	 The default access list is empty, which grants	checkin	access to any-
	 one who can read the RCS file.	 If you	 want  limit  checkin  access,
	 have  A  invoke  rcs -a  on  the  file;  see  rcs(1).	In particular,
	 rcs -e	-aA limits access to just A.

        Have A	initialize any	new  RCS  files	 with  rcs -i  before  initial
	 checkin, adding the -a	option if you want to limit checkin access.

        Give setuid privileges	only to	ci, co,	and rcsclean; do not give them
	 to rcs	or to any other	command.

        Do  not  use  other setuid commands to	invoke RCS commands; setuid is
	 trickier than you think!

ENVIRONMENT
       RCSINIT
	      options prepended	to the argument	list, separated	by spaces.   A
	      backslash	 escapes spaces	within an option.  The RCSINIT options
	      are prepended to the argument lists of most RCS commands.	  Use-
	      ful RCSINIT options include -q, -V, -x, and -z.

       TMPDIR Name  of	the  temporary directory.  If not set, the environment
	      variables	TMP and	TEMP are inspected instead and the first value
	      found is taken; if none of them are set,	a  host-dependent  de-
	      fault is used, typically /tmp.

DIAGNOSTICS
       For  each  revision,  ci	prints the RCS file, the working file, and the
       number of both the deposited and	the preceding revision.	 The exit sta-
       tus is zero if and only if all operations were successful.

IDENTIFICATION
       Author: Walter F. Tichy.
       Manual Page Revision: 5.17; Release Date: 1995/06/16.
       Copyright (C) 1982, 1988, 1989 Walter F.	Tichy.
       Copyright (C) 1990, 1991, 1992, 1993, 1994, 1995	Paul Eggert.

SEE ALSO
       co(1), emacs(1),	ident(1), make(1),  rcs(1),  rcsclean(1),  rcsdiff(1),
       rcsintro(1), rcsmerge(1), rlog(1), setuid(2), rcsfile(5)
       Walter  F. Tichy, RCS--A	System for Version Control, Software--Practice
       & Experience 15,	7 (July	1985), 637-654.

GNU				  1995/06/16				 CI(1)

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