This is cvs.info, produced by makeinfo version 4.0 from cvs.texinfo. START-INFO-DIR-ENTRY * CVS: (cvs). Concurrent Versions System END-INFO-DIR-ENTRY Copyright (C) 1992, 1993 Signum Support AB Copyright (C) 1993, 1994 Free Software Foundation, Inc. Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies. Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided also that the entire resulting derived work is distributed under the terms of a permission notice identical to this one. Permission is granted to copy and distribute translations of this manual into another language, under the above conditions for modified versions, except that this permission notice may be stated in a translation approved by the Free Software Foundation. File: cvs.info, Node: Invoking CVS, Next: Administrative files, Prev: CVS commands, Up: Top Quick reference to CVS commands ******************************* This appendix describes how to invoke CVS, with references to where each command or feature is described in detail. For other references run the `cvs --help' command, or see *Note Index::. A CVS command looks like: cvs [ GLOBAL_OPTIONS ] COMMAND [ COMMAND_OPTIONS ] [ COMMAND_ARGS ] Global options: `--allow-root=ROOTDIR' Specify legal CVSROOT directory (server only) (not in CVS 1.9 and older). See *Note Password authentication server::. `-a' Authenticate all communication (client only) (not in CVS 1.9 and older). See *Note Global options::. `-b' Specify RCS location (CVS 1.9 and older). See *Note Global options::. `-d ROOT' Specify the CVSROOT. See *Note Repository::. `-e EDITOR' Edit messages with EDITOR. See *Note Committing your changes::. `-f' Do not read the `~/.cvsrc' file. See *Note Global options::. `-H' `--help' Print a help message. See *Note Global options::. `-l' Do not log in `$CVSROOT/CVSROOT/history' file. See *Note Global options::. `-n' Do not change any files. See *Note Global options::. `-Q' Be really quiet. See *Note Global options::. `-q' Be somewhat quiet. See *Note Global options::. `-r' Make new working files read-only. See *Note Global options::. `-s VARIABLE=VALUE' Set a user variable. See *Note Variables::. `-T TEMPDIR' Put temporary files in TEMPDIR. See *Note Global options::. `-t' Trace CVS execution. See *Note Global options::. `-v' `--version' Display version and copyright information for CVS. `-w' Make new working files read-write. See *Note Global options::. `-x' Encrypt all communication (client only). See *Note Global options::. `-z GZIP-LEVEL' Set the compression level (client only). See *Note Global options::. Keyword expansion modes (*note Substitution modes::): -kkv $Id: cvs.info-7,v 1.3 2001/09/30 19:44:54 tholo Exp $ -kkvl $Id: cvs.info-7,v 1.3 2001/09/30 19:44:54 tholo Exp $ -kk $Id: cvs.info-7,v 1.3 2001/09/30 19:44:54 tholo Exp $ -kv file1,v 1.1 1993/12/09 03:21:13 joe Exp -ko no expansion -kb no expansion, file is binary Keywords (*note Keyword list::): $Author: tholo $ $Date: 2001/09/30 19:44:54 $ $Header: /cvs/src/gnu/usr.bin/cvs/doc/cvs.info-7,v 1.3 2001/09/30 19:44:54 tholo Exp $ $Id: cvs.info-7,v 1.3 2001/09/30 19:44:54 tholo Exp $ $Locker: $ $Name: $ $RCSfile: cvs.info-7,v $ $Revision: 1.3 $ $Source: /cvs/src/gnu/usr.bin/cvs/doc/cvs.info-7,v $ $State: Exp $ $Log: cvs.info-7,v $ Revision 1.3 2001/09/30 19:44:54 tholo Revert to distributed version Revision 1.1.1.13 2001/09/28 22:48:51 tholo Latest from Cyclic Software Revision 1.1 1993/12/09 03:30:17 joe Initial revision Commands, command options, and command arguments: `add [OPTIONS] [FILES...]' Add a new file/directory. See *Note Adding files::. `-k KFLAG' Set keyword expansion. `-m MSG' Set file description. `admin [OPTIONS] [FILES...]' Administration of history files in the repository. See *Note admin::. `-b[REV]' Set default branch. See *Note Reverting local changes::. `-cSTRING' Set comment leader. `-kSUBST' Set keyword substitution. See *Note Keyword substitution::. `-l[REV]' Lock revision REV, or latest revision. `-mREV:MSG' Replace the log message of revision REV with MSG. `-oRANGE' Delete revisions from the repository. See *Note admin options::. `-q' Run quietly; do not print diagnostics. `-sSTATE[:REV]' Set the state. `-t' Set file description from standard input. `-tFILE' Set file description from FILE. `-t-STRING' Set file description to STRING. `-u[REV]' Unlock revision REV, or latest revision. `annotate [OPTIONS] [FILES...]' Show last revision where each line was modified. See *Note annotate::. `-D DATE' Annotate the most recent revision no later than DATE. See *Note Common options::. `-f' Use head revision if tag/date not found. See *Note Common options::. `-l' Local; run only in current working directory. *Note Recursive behavior::. `-R' Operate recursively (default). *Note Recursive behavior::. `-r TAG' Annotate revision TAG. See *Note Common options::. `checkout [OPTIONS] MODULES...' Get a copy of the sources. See *Note checkout::. `-A' Reset any sticky tags/date/options. See *Note Sticky tags:: and *Note Keyword substitution::. `-c' Output the module database. See *Note checkout options::. `-D DATE' Check out revisions as of DATE (is sticky). See *Note Common options::. `-d DIR' Check out into DIR. See *Note checkout options::. `-f' Use head revision if tag/date not found. See *Note Common options::. `-j REV' Merge in changes. See *Note checkout options::. `-k KFLAG' Use KFLAG keyword expansion. See *Note Substitution modes::. `-l' Local; run only in current working directory. *Note Recursive behavior::. `-N' Don't "shorten" module paths if -d specified. See *Note checkout options::. `-n' Do not run module program (if any). See *Note checkout options::. `-P' Prune empty directories. See *Note Moving directories::. `-p' Check out files to standard output (avoids stickiness). See *Note checkout options::. `-R' Operate recursively (default). *Note Recursive behavior::. `-r TAG' Checkout revision TAG (is sticky). See *Note Common options::. `-s' Like -c, but include module status. See *Note checkout options::. `commit [OPTIONS] [FILES...]' Check changes into the repository. See *Note commit::. `-F FILE' Read log message from FILE. See *Note commit options::. `-f' Force the file to be committed; disables recursion. See *Note commit options::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-m MSG' Use MSG as log message. See *Note commit options::. `-n' Do not run module program (if any). See *Note commit options::. `-R' Operate recursively (default). *Note Recursive behavior::. `-r REV' Commit to REV. See *Note commit options::. `diff [OPTIONS] [FILES...]' Show differences between revisions. See *Note diff::. In addition to the options shown below, accepts a wide variety of options to control output style, for example `-c' for context diffs. `-D DATE1' Diff revision for date against working file. See *Note diff options::. `-D DATE2' Diff REV1/DATE1 against DATE2. See *Note diff options::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-N' Include diffs for added and removed files. See *Note diff options::. `-R' Operate recursively (default). *Note Recursive behavior::. `-r REV1' Diff revision for REV1 against working file. See *Note diff options::. `-r REV2' Diff REV1/DATE1 against REV2. See *Note diff options::. `edit [OPTIONS] [FILES...]' Get ready to edit a watched file. See *Note Editing files::. `-a ACTIONS' Specify actions for temporary watch, where ACTIONS is `edit', `unedit', `commit', `all', or `none'. See *Note Editing files::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-R' Operate recursively (default). *Note Recursive behavior::. `editors [OPTIONS] [FILES...]' See who is editing a watched file. See *Note Watch information::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-R' Operate recursively (default). *Note Recursive behavior::. `export [OPTIONS] MODULES...' Export files from CVS. See *Note export::. `-D DATE' Check out revisions as of DATE. See *Note Common options::. `-d DIR' Check out into DIR. See *Note export options::. `-f' Use head revision if tag/date not found. See *Note Common options::. `-k KFLAG' Use KFLAG keyword expansion. See *Note Substitution modes::. `-l' Local; run only in current working directory. *Note Recursive behavior::. `-N' Don't "shorten" module paths if -d specified. See *Note export options::. `-n' Do not run module program (if any). See *Note export options::. `-P' Prune empty directories. See *Note Moving directories::. `-R' Operate recursively (default). *Note Recursive behavior::. `-r TAG' Checkout revision TAG. See *Note Common options::. `history [OPTIONS] [FILES...]' Show repository access history. See *Note history::. `-a' All users (default is self). See *Note history options::. `-b STR' Back to record with STR in module/file/repos field. See *Note history options::. `-c' Report on committed (modified) files. See *Note history options::. `-D DATE' Since DATE. See *Note history options::. `-e' Report on all record types. See *Note history options::. `-l' Last modified (committed or modified report). See *Note history options::. `-m MODULE' Report on MODULE (repeatable). See *Note history options::. `-n MODULE' In MODULE. See *Note history options::. `-o' Report on checked out modules. See *Note history options::. `-r REV' Since revision REV. See *Note history options::. `-T' Produce report on all TAGs. See *Note history options::. `-t TAG' Since tag record placed in history file (by anyone). See *Note history options::. `-u USER' For user USER (repeatable). See *Note history options::. `-w' Working directory must match. See *Note history options::. `-x TYPES' Report on TYPES, one or more of `TOEFWUCGMAR'. See *Note history options::. `-z ZONE' Output for time zone ZONE. See *Note history options::. `import [OPTIONS] REPOSITORY VENDOR-TAG RELEASE-TAGS...' Import files into CVS, using vendor branches. See *Note import::. `-b BRA' Import to vendor branch BRA. See *Note Multiple vendor branches::. `-d' Use the file's modification time as the time of import. See *Note import options::. `-k KFLAG' Set default keyword substitution mode. See *Note import options::. `-m MSG' Use MSG for log message. See *Note import options::. `-I IGN' More files to ignore (! to reset). See *Note import options::. `-W SPEC' More wrappers. See *Note import options::. `init' Create a CVS repository if it doesn't exist. See *Note Creating a repository::. `log [OPTIONS] [FILES...]' Print out history information for files. See *Note log::. `-b' Only list revisions on the default branch. See *Note log options::. `-d DATES' Specify dates (D1<D2 for range, D for latest before). See *Note log options::. `-h' Only print header. See *Note log options::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-N' Do not list tags. See *Note log options::. `-R' Only print name of RCS file. See *Note log options::. `-rREVS' Only list revisions REVS. See *Note log options::. `-s STATES' Only list revisions with specified states. See *Note log options::. `-t' Only print header and descriptive text. See *Note log options::. `-wLOGINS' Only list revisions checked in by specified logins. See *Note log options::. `login' Prompt for password for authenticating server. See *Note Password authentication client::. `logout' Remove stored password for authenticating server. See *Note Password authentication client::. `rdiff [OPTIONS] MODULES...' Show differences between releases. See *Note rdiff::. `-c' Context diff output format (default). See *Note rdiff options::. `-D DATE' Select revisions based on DATE. See *Note Common options::. `-f' Use head revision if tag/date not found. See *Note Common options::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-R' Operate recursively (default). *Note Recursive behavior::. `-r REV' Select revisions based on REV. See *Note Common options::. `-s' Short patch - one liner per file. See *Note rdiff options::. `-t' Top two diffs - last change made to the file. See *Note diff options::. `-u' Unidiff output format. See *Note rdiff options::. `-V VERS' Use RCS Version VERS for keyword expansion (obsolete). See *Note rdiff options::. `release [OPTIONS] DIRECTORY' Indicate that a directory is no longer in use. See *Note release::. `-d' Delete the given directory. See *Note release options::. `remove [OPTIONS] [FILES...]' Remove an entry from the repository. See *Note Removing files::. `-f' Delete the file before removing it. See *Note Removing files::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-R' Operate recursively (default). *Note Recursive behavior::. `rtag [OPTIONS] TAG MODULES...' Add a symbolic tag to a module. See *Note Revisions:: and *Note Branching and merging::. `-a' Clear tag from removed files that would not otherwise be tagged. See *Note Tagging add/remove::. `-b' Create a branch named TAG. See *Note Branching and merging::. `-D DATE' Tag revisions as of DATE. See *Note Tagging by date/tag::. `-d' Delete TAG. See *Note Modifying tags::. `-F' Move TAG if it already exists. See *Note Modifying tags::. `-f' Force a head revision match if tag/date not found. See *Note Tagging by date/tag::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-n' No execution of tag program. See *Note Common options::. `-R' Operate recursively (default). *Note Recursive behavior::. `-r REV' Tag existing tag REV. See *Note Tagging by date/tag::. `status [OPTIONS] FILES...' Display status information in a working directory. See *Note File status::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-R' Operate recursively (default). *Note Recursive behavior::. `-v' Include tag information for file. See *Note Tags::. `tag [OPTIONS] TAG [FILES...]' Add a symbolic tag to checked out version of files. See *Note Revisions:: and *Note Branching and merging::. `-b' Create a branch named TAG. See *Note Branching and merging::. `-c' Check that working files are unmodified. See *Note Tagging the working directory::. `-D DATE' Tag revisions as of DATE. See *Note Tagging by date/tag::. `-d' Delete TAG. See *Note Modifying tags::. `-F' Move TAG if it already exists. See *Note Modifying tags::. `-f' Force a head revision match if tag/date not found. See *Note Tagging by date/tag::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-R' Operate recursively (default). *Note Recursive behavior::. `-r REV' Tag existing tag REV. See *Note Tagging by date/tag::. `unedit [OPTIONS] [FILES...]' Undo an edit command. See *Note Editing files::. `-a ACTIONS' Specify actions for temporary watch, where ACTIONS is `edit', `unedit', `commit', `all', or `none'. See *Note Editing files::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-R' Operate recursively (default). *Note Recursive behavior::. `update [OPTIONS] [FILES...]' Bring work tree in sync with repository. See *Note update::. `-A' Reset any sticky tags/date/options. See *Note Sticky tags:: and *Note Keyword substitution::. `-C' Overwrite locally modified files with clean copies from the repository (the modified file is saved in `.#FILE.REVISION', however). `-D DATE' Check out revisions as of DATE (is sticky). See *Note Common options::. `-d' Create directories. See *Note update options::. `-f' Use head revision if tag/date not found. See *Note Common options::. `-I IGN' More files to ignore (! to reset). See *Note import options::. `-j REV' Merge in changes. See *Note update options::. `-k KFLAG' Use KFLAG keyword expansion. See *Note Substitution modes::. `-l' Local; run only in current working directory. *Note Recursive behavior::. `-P' Prune empty directories. See *Note Moving directories::. `-p' Check out files to standard output (avoids stickiness). See *Note update options::. `-R' Operate recursively (default). *Note Recursive behavior::. `-r TAG' Checkout revision TAG (is sticky). See *Note Common options::. `-W SPEC' More wrappers. See *Note import options::. `version' Display the version of CVS being used. If the repository is remote, display both the client and server versions. `watch [on|off|add|remove] [OPTIONS] [FILES...]' on/off: turn on/off read-only checkouts of files. See *Note Setting a watch::. add/remove: add or remove notification on actions. See *Note Getting Notified::. `-a ACTIONS' Specify actions for temporary watch, where ACTIONS is `edit', `unedit', `commit', `all', or `none'. See *Note Editing files::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-R' Operate recursively (default). *Note Recursive behavior::. `watchers [OPTIONS] [FILES...]' See who is watching a file. See *Note Watch information::. `-l' Local; run only in current working directory. See *Note Recursive behavior::. `-R' Operate recursively (default). *Note Recursive behavior::. File: cvs.info, Node: Administrative files, Next: Environment variables, Prev: Invoking CVS, Up: Top Reference manual for Administrative files ***************************************** Inside the repository, in the directory `$CVSROOT/CVSROOT', there are a number of supportive files for CVS. You can use CVS in a limited fashion without any of them, but if they are set up properly they can help make life easier. For a discussion of how to edit them, see *Note Intro administrative files::. The most important of these files is the `modules' file, which defines the modules inside the repository. * Menu: * modules:: Defining modules * Wrappers:: Specify binary-ness based on file name * commit files:: The commit support files * commitinfo:: Pre-commit checking * verifymsg:: How are log messages evaluated? * editinfo:: Specifying how log messages are created (obsolete) * loginfo:: Where should log messages be sent? * rcsinfo:: Templates for the log messages * cvsignore:: Ignoring files via cvsignore * checkoutlist:: Adding your own administrative files * history file:: History information * Variables:: Various variables are expanded * config:: Miscellaneous CVS configuration File: cvs.info, Node: modules, Next: Wrappers, Up: Administrative files The modules file ================ The `modules' file records your definitions of names for collections of source code. CVS will use these definitions if you use CVS to update the modules file (use normal commands like `add', `commit', etc). The `modules' file may contain blank lines and comments (lines beginning with `#') as well as module definitions. Long lines can be continued on the next line by specifying a backslash (`\') as the last character on the line. There are three basic types of modules: alias modules, regular modules, and ampersand modules. The difference between them is the way that they map files in the repository to files in the working directory. In all of the following examples, the top-level repository contains a directory called `first-dir', which contains two files, `file1' and `file2', and a directory `sdir'. `first-dir/sdir' contains a file `sfile'. * Menu: * Alias modules:: The simplest kind of module * Regular modules:: * Ampersand modules:: * Excluding directories:: Excluding directories from a module * Module options:: Regular and ampersand modules can take options * Module program options:: How the modules ``program options'' programs are run. File: cvs.info, Node: Alias modules, Next: Regular modules, Up: modules Alias modules ------------- Alias modules are the simplest kind of module: `MNAME -a ALIASES...' This represents the simplest way of defining a module MNAME. The `-a' flags the definition as a simple alias: CVS will treat any use of MNAME (as a command argument) as if the list of names ALIASES had been specified instead. ALIASES may contain either other module names or paths. When you use paths in aliases, `checkout' creates all intermediate directories in the working directory, just as if the path had been specified explicitly in the CVS arguments. For example, if the modules file contains: amodule -a first-dir then the following two commands are equivalent: $ cvs co amodule $ cvs co first-dir and they each would provide output such as: cvs checkout: Updating first-dir U first-dir/file1 U first-dir/file2 cvs checkout: Updating first-dir/sdir U first-dir/sdir/sfile File: cvs.info, Node: Regular modules, Next: Ampersand modules, Prev: Alias modules, Up: modules Regular modules --------------- `MNAME [ options ] DIR [ FILES... ]' In the simplest case, this form of module definition reduces to `MNAME DIR'. This defines all the files in directory DIR as module mname. DIR is a relative path (from `$CVSROOT') to a directory of source in the source repository. In this case, on checkout, a single directory called MNAME is created as a working directory; no intermediate directory levels are used by default, even if DIR was a path involving several directory levels. For example, if a module is defined by: regmodule first-dir then regmodule will contain the files from first-dir: $ cvs co regmodule cvs checkout: Updating regmodule U regmodule/file1 U regmodule/file2 cvs checkout: Updating regmodule/sdir U regmodule/sdir/sfile $ By explicitly specifying files in the module definition after DIR, you can select particular files from directory DIR. Here is an example: regfiles first-dir/sdir sfile With this definition, getting the regfiles module will create a single working directory `regfiles' containing the file listed, which comes from a directory deeper in the CVS source repository: $ cvs co regfiles U regfiles/sfile $ File: cvs.info, Node: Ampersand modules, Next: Excluding directories, Prev: Regular modules, Up: modules Ampersand modules ----------------- A module definition can refer to other modules by including `&MODULE' in its definition. MNAME [ options ] &MODULE... Then getting the module creates a subdirectory for each such module, in the directory containing the module. For example, if modules contains ampermod &first-dir then a checkout will create an `ampermod' directory which contains a directory called `first-dir', which in turns contains all the directories and files which live there. For example, the command $ cvs co ampermod will create the following files: ampermod/first-dir/file1 ampermod/first-dir/file2 ampermod/first-dir/sdir/sfile There is one quirk/bug: the messages that CVS prints omit the `ampermod', and thus do not correctly display the location to which it is checking out the files: $ cvs co ampermod cvs checkout: Updating first-dir U first-dir/file1 U first-dir/file2 cvs checkout: Updating first-dir/sdir U first-dir/sdir/sfile $ Do not rely on this buggy behavior; it may get fixed in a future release of CVS. File: cvs.info, Node: Excluding directories, Next: Module options, Prev: Ampersand modules, Up: modules Excluding directories --------------------- An alias module may exclude particular directories from other modules by using an exclamation mark (`!') before the name of each directory to be excluded. For example, if the modules file contains: exmodule -a !first-dir/sdir first-dir then checking out the module `exmodule' will check out everything in `first-dir' except any files in the subdirectory `first-dir/sdir'. File: cvs.info, Node: Module options, Next: Module program options, Prev: Excluding directories, Up: modules Module options -------------- Either regular modules or ampersand modules can contain options, which supply additional information concerning the module. `-d NAME' Name the working directory something other than the module name. `-e PROG' Specify a program PROG to run whenever files in a module are exported. PROG runs with a single argument, the module name. `-i PROG' Specify a program PROG to run whenever files in a module are committed. PROG runs with a single argument, the full pathname of the affected directory in a source repository. The `commitinfo', `loginfo', and `verifymsg' files provide other ways to call a program on commit. `-o PROG' Specify a program PROG to run whenever files in a module are checked out. PROG runs with a single argument, the module name. `-s STATUS' Assign a status to the module. When the module file is printed with `cvs checkout -s' the modules are sorted according to primarily module status, and secondarily according to the module name. This option has no other meaning. You can use this option for several things besides status: for instance, list the person that is responsible for this module. `-t PROG' Specify a program PROG to run whenever files in a module are tagged with `rtag'. PROG runs with two arguments: the module name and the symbolic tag specified to `rtag'. It is not run when `tag' is executed. Generally you will find that taginfo is a better solution (*note user-defined logging::). `-u PROG' Specify a program PROG to run whenever `cvs update' is executed from the top-level directory of the checked-out module. PROG runs with a single argument, the full path to the source repository for this module. You should also see *note Module program options:: about how the "program options" programs are run. File: cvs.info, Node: Module program options, Prev: Module options, Up: modules How the modules file "program options" programs are run ------------------------------------------------------- For checkout, rtag, and export, the program is server-based, and as such the following applies:- If using remote access methods (pserver, ext, etc.), CVS will execute this program on the server from a temporary directory. The path is searched for this program. If using "local access" (on a local or remote NFS filesystem, i.e. repository set just to a path), the program will be executed from the newly checked-out tree, if found there, or alternatively searched for in the path if not. The commit and update programs are locally-based, and are run as follows:- The program is always run locally. One must re-checkout the tree one is using if these options are updated in the modules administrative file. The file CVS/Checkin.prog contains the value of the option `-i' set in the modules file, and similarly for the file CVS/Update.prog and `-u'. The program is always executed from the top level of the checked-out copy on the client. Again, the program is first searched for in the checked-out copy and then using the path. The programs are all run after the operation has effectively completed. File: cvs.info, Node: Wrappers, Next: commit files, Prev: modules, Up: Administrative files The cvswrappers file ==================== Wrappers refers to a CVS feature which lets you control certain settings based on the name of the file which is being operated on. The settings are `-k' for binary files, and `-m' for nonmergeable text files. The `-m' option specifies the merge methodology that should be used when a non-binary file is updated. `MERGE' means the usual CVS behavior: try to merge the files. `COPY' means that `cvs update' will refuse to merge files, as it also does for files specified as binary with `-kb' (but if the file is specified as binary, there is no need to specify `-m 'COPY''). CVS will provide the user with the two versions of the files, and require the user using mechanisms outside CVS, to insert any necessary changes. *WARNING*: do not use `COPY' with CVS 1.9 or earlier-such versions of CVS will copy one version of your file over the other, wiping out the previous contents. The `-m' wrapper option only affects behavior when merging is done on update; it does not affect how files are stored. See *Note Binary files::, for more on binary files. The basic format of the file `cvswrappers' is: wildcard [option value][option value]... where option is one of -m update methodology value: MERGE or COPY -k keyword expansion value: expansion mode and value is a single-quote delimited value. For example, the following command imports a directory, treating files whose name ends in `.exe' as binary: cvs import -I ! -W "*.exe -k 'b'" first-dir vendortag reltag File: cvs.info, Node: commit files, Next: commitinfo, Prev: Wrappers, Up: Administrative files The commit support files ======================== The `-i' flag in the `modules' file can be used to run a certain program whenever files are committed (*note modules::). The files described in this section provide other, more flexible, ways to run programs whenever something is committed. There are three kind of programs that can be run on commit. They are specified in files in the repository, as described below. The following table summarizes the file names and the purpose of the corresponding programs. `commitinfo' The program is responsible for checking that the commit is allowed. If it exits with a non-zero exit status the commit will be aborted. `verifymsg' The specified program is used to evaluate the log message, and possibly verify that it contains all required fields. This is most useful in combination with the `rcsinfo' file, which can hold a log message template (*note rcsinfo::). `editinfo' The specified program is used to edit the log message, and possibly verify that it contains all required fields. This is most useful in combination with the `rcsinfo' file, which can hold a log message template (*note rcsinfo::). (obsolete) `loginfo' The specified program is called when the commit is complete. It receives the log message and some additional information and can store the log message in a file, or mail it to appropriate persons, or maybe post it to a local newsgroup, or... Your imagination is the limit! * Menu: * syntax:: The common syntax File: cvs.info, Node: syntax, Up: commit files The common syntax ----------------- The administrative files such as `commitinfo', `loginfo', `rcsinfo', `verifymsg', etc., all have a common format. The purpose of the files are described later on. The common syntax is described here. Each line contains the following: * A regular expression. This is a basic regular expression in the syntax used by GNU emacs. * A whitespace separator--one or more spaces and/or tabs. * A file name or command-line template. Blank lines are ignored. Lines that start with the character `#' are treated as comments. Long lines unfortunately can _not_ be broken in two parts in any way. The first regular expression that matches the current directory name in the repository is used. The rest of the line is used as a file name or command-line as appropriate. File: cvs.info, Node: commitinfo, Next: verifymsg, Prev: commit files, Up: Administrative files Commitinfo ========== The `commitinfo' file defines programs to execute whenever `cvs commit' is about to execute. These programs are used for pre-commit checking to verify that the modified, added and removed files are really ready to be committed. This could be used, for instance, to verify that the changed files conform to to your site's standards for coding practice. As mentioned earlier, each line in the `commitinfo' file consists of a regular expression and a command-line template. The template can include a program name and any number of arguments you wish to supply to it. The full path to the current source repository is appended to the template, followed by the file names of any files involved in the commit (added, removed, and modified files). The first line with a regular expression matching the directory within the repository will be used. If the command returns a non-zero exit status the commit will be aborted. If the repository name does not match any of the regular expressions in this file, the `DEFAULT' line is used, if it is specified. All occurrences of the name `ALL' appearing as a regular expression are used in addition to the first matching regular expression or the name `DEFAULT'. Note: when CVS is accessing a remote repository, `commitinfo' will be run on the _remote_ (i.e., server) side, not the client side (*note Remote repositories::). File: cvs.info, Node: verifymsg, Next: editinfo, Prev: commitinfo, Up: Administrative files Verifying log messages ====================== Once you have entered a log message, you can evaluate that message to check for specific content, such as a bug ID. Use the `verifymsg' file to specify a program that is used to verify the log message. This program could be a simple script that checks that the entered message contains the required fields. The `verifymsg' file is often most useful together with the `rcsinfo' file, which can be used to specify a log message template. Each line in the `verifymsg' file consists of a regular expression and a command-line template. The template must include a program name, and can include any number of arguments. The full path to the current log message template file is appended to the template. One thing that should be noted is that the `ALL' keyword is not supported. If more than one matching line is found, the first one is used. This can be useful for specifying a default verification script in a directory, and then overriding it in a subdirectory. If the repository name does not match any of the regular expressions in this file, the `DEFAULT' line is used, if it is specified. If the verification script exits with a non-zero exit status, the commit is aborted. Note that the verification script cannot change the log message; it can merely accept it or reject it. The following is a little silly example of a `verifymsg' file, together with the corresponding `rcsinfo' file, the log message template and an verification script. We begin with the log message template. We want to always record a bug-id number on the first line of the log message. The rest of log message is free text. The following template is found in the file `/usr/cvssupport/tc.template'. BugId: The script `/usr/cvssupport/bugid.verify' is used to evaluate the log message. #!/bin/sh # # bugid.verify filename # # Verify that the log message contains a valid bugid # on the first line. # if head -1 < $1 | grep '^BugId:[ ]*[0-9][0-9]*$' > /dev/null; then exit 0 else echo "No BugId found." exit 1 fi The `verifymsg' file contains this line: ^tc /usr/cvssupport/bugid.verify The `rcsinfo' file contains this line: ^tc /usr/cvssupport/tc.template File: cvs.info, Node: editinfo, Next: loginfo, Prev: verifymsg, Up: Administrative files Editinfo ======== _NOTE:_ The `editinfo' feature has been rendered obsolete. To set a default editor for log messages use the `EDITOR' environment variable (*note Environment variables::) or the `-e' global option (*note Global options::). See *Note verifymsg::, for information on the use of the `verifymsg' feature for evaluating log messages. If you want to make sure that all log messages look the same way, you can use the `editinfo' file to specify a program that is used to edit the log message. This program could be a custom-made editor that always enforces a certain style of the log message, or maybe a simple shell script that calls an editor, and checks that the entered message contains the required fields. If no matching line is found in the `editinfo' file, the editor specified in the environment variable `$CVSEDITOR' is used instead. If that variable is not set, then the environment variable `$EDITOR' is used instead. If that variable is not set a default will be used. See *Note Committing your changes::. The `editinfo' file is often most useful together with the `rcsinfo' file, which can be used to specify a log message template. Each line in the `editinfo' file consists of a regular expression and a command-line template. The template must include a program name, and can include any number of arguments. The full path to the current log message template file is appended to the template. One thing that should be noted is that the `ALL' keyword is not supported. If more than one matching line is found, the first one is used. This can be useful for specifying a default edit script in a module, and then overriding it in a subdirectory. If the repository name does not match any of the regular expressions in this file, the `DEFAULT' line is used, if it is specified. If the edit script exits with a non-zero exit status, the commit is aborted. Note: when CVS is accessing a remote repository, or when the `-m' or `-F' options to `cvs commit' are used, `editinfo' will not be consulted. There is no good workaround for this; use `verifymsg' instead. * Menu: * editinfo example:: Editinfo example File: cvs.info, Node: editinfo example, Up: editinfo Editinfo example ---------------- The following is a little silly example of a `editinfo' file, together with the corresponding `rcsinfo' file, the log message template and an editor script. We begin with the log message template. We want to always record a bug-id number on the first line of the log message. The rest of log message is free text. The following template is found in the file `/usr/cvssupport/tc.template'. BugId: The script `/usr/cvssupport/bugid.edit' is used to edit the log message. #!/bin/sh # # bugid.edit filename # # Call $EDITOR on FILENAME, and verify that the # resulting file contains a valid bugid on the first # line. if [ "x$EDITOR" = "x" ]; then EDITOR=vi; fi if [ "x$CVSEDITOR" = "x" ]; then CVSEDITOR=$EDITOR; fi $CVSEDITOR $1 until head -1|grep '^BugId:[ ]*[0-9][0-9]*$' < $1 do echo -n "No BugId found. Edit again? ([y]/n)" read ans case ${ans} in n*) exit 1;; esac $CVSEDITOR $1 done The `editinfo' file contains this line: ^tc /usr/cvssupport/bugid.edit The `rcsinfo' file contains this line: ^tc /usr/cvssupport/tc.template File: cvs.info, Node: loginfo, Next: rcsinfo, Prev: editinfo, Up: Administrative files Loginfo ======= The `loginfo' file is used to control where `cvs commit' log information is sent. The first entry on a line is a regular expression which is tested against the directory that the change is being made to, relative to the `$CVSROOT'. If a match is found, then the remainder of the line is a filter program that should expect log information on its standard input. If the repository name does not match any of the regular expressions in this file, the `DEFAULT' line is used, if it is specified. All occurrences of the name `ALL' appearing as a regular expression are used in addition to the first matching regular expression or `DEFAULT'. The first matching regular expression is used. *Note commit files::, for a description of the syntax of the `loginfo' file. The user may specify a format string as part of the filter. The string is composed of a `%' followed by a space, or followed by a single format character, or followed by a set of format characters surrounded by `{' and `}' as separators. The format characters are: s file name V old version number (pre-checkin) v new version number (post-checkin) All other characters that appear in a format string expand to an empty field (commas separating fields are still provided). For example, some valid format strings are `%', `%s', `%{s}', and `%{sVv}'. The output will be a string of tokens separated by spaces. For backwards compatibility, the first token will be the repository subdirectory. The rest of the tokens will be comma-delimited lists of the information requested in the format string. For example, if `/u/src/master/yoyodyne/tc' is the repository, `%{sVv}' is the format string, and three files (ChangeLog, Makefile, foo.c) were modified, the output might be: yoyodyne/tc ChangeLog,1.1,1.2 Makefile,1.3,1.4 foo.c,1.12,1.13 As another example, `%{}' means that only the name of the repository will be generated. Note: when CVS is accessing a remote repository, `loginfo' will be run on the _remote_ (i.e., server) side, not the client side (*note Remote repositories::). * Menu: * loginfo example:: Loginfo example * Keeping a checked out copy:: Updating a tree on every checkin File: cvs.info, Node: loginfo example, Next: Keeping a checked out copy, Up: loginfo Loginfo example --------------- The following `loginfo' file, together with the tiny shell-script below, appends all log messages to the file `$CVSROOT/CVSROOT/commitlog', and any commits to the administrative files (inside the `CVSROOT' directory) are also logged in `/usr/adm/cvsroot-log'. Commits to the `prog1' directory are mailed to ceder. ALL /usr/local/bin/cvs-log $CVSROOT/CVSROOT/commitlog $USER ^CVSROOT /usr/local/bin/cvs-log /usr/adm/cvsroot-log ^prog1 Mail -s %s ceder The shell-script `/usr/local/bin/cvs-log' looks like this: #!/bin/sh (echo "------------------------------------------------------"; echo -n $2" "; date; echo; cat) >> $1 File: cvs.info, Node: Keeping a checked out copy, Prev: loginfo example, Up: loginfo Keeping a checked out copy -------------------------- It is often useful to maintain a directory tree which contains files which correspond to the latest version in the repository. For example, other developers might want to refer to the latest sources without having to check them out, or you might be maintaining a web site with CVS and want every checkin to cause the files used by the web server to be updated. The way to do this is by having loginfo invoke `cvs update'. Doing so in the naive way will cause a problem with locks, so the `cvs update' must be run in the background. Here is an example for unix (this should all be on one line): ^cyclic-pages (date; cat; (sleep 2; cd /u/www/local-docs; cvs -q update -d) &) >> $CVSROOT/CVSROOT/updatelog 2>&1 This will cause checkins to repository directories starting with `cyclic-pages' to update the checked out tree in `/u/www/local-docs'. File: cvs.info, Node: rcsinfo, Next: cvsignore, Prev: loginfo, Up: Administrative files Rcsinfo ======= The `rcsinfo' file can be used to specify a form to edit when filling out the commit log. The `rcsinfo' file has a syntax similar to the `verifymsg', `commitinfo' and `loginfo' files. *Note syntax::. Unlike the other files the second part is _not_ a command-line template. Instead, the part after the regular expression should be a full pathname to a file containing the log message template. If the repository name does not match any of the regular expressions in this file, the `DEFAULT' line is used, if it is specified. All occurrences of the name `ALL' appearing as a regular expression are used in addition to the first matching regular expression or `DEFAULT'. The log message template will be used as a default log message. If you specify a log message with `cvs commit -m MESSAGE' or `cvs commit -f FILE' that log message will override the template. *Note verifymsg::, for an example `rcsinfo' file. When CVS is accessing a remote repository, the contents of `rcsinfo' at the time a directory is first checked out will specify a template which does not then change. If you edit `rcsinfo' or its templates, you may need to check out a new working directory.