.TH USE 1 "$Date: 2005/12/11 16:42:09 $" "Usepackage" "User Commands" .SH NAME usepackage \- .I Usepackage Environment Manager .SH SYNOPSIS See .IR use(1) . .SH DESCRIPTION .I Usepackage is an environment management program. It is based on the principle of .I packages \- collections of executables that share a common set of necessary environment variables, such as PATH, MANPATH or LD_LIBRARY_PATH. .PP For each given .IR package , .B use sources the appropriate environment information into the current shell. The environment information is specified in packages files, see .IR PACKAGES . .PP The .B usepackage executable is the backend program used to generate environment information suitable for sourcing into a running shell. The .B use frontend should be invoked to actually effect changes to the environment, see .IR use(1) . .SS OPTIONS .TP .I \-v Output verbose information to the standard error stream. .TP .I \-s Silence warnings for un-matched packages. This is useful in a shell .I rc script when a package is known not to be available on all architectures that the shell is used on, see .IR PACKAGES . .TP .I \-c Force .I csh style environment output. .TP .I \-b Force bourne shell style environment output. .TP .I \-f file Specify an alternate initial configuration file, see .IR PACKAGES . .TP .I \-l List available packages and groups, see .IR ANNOTATIONS and .IR GROUPS . .SH PACKAGES .I Usepackage reads package environment information from the configuration file as follows: .SS LOAD ORDER When .I Usepackage starts up, it loads an initial configuration file, the name of this file may be given on the command line (see .IR OPTIONS ), otherwise it defaults to the builtin name "usepackage.conf" (see .IR FILES ). This file is located by searching along a path which defaults to: .PP .nf /usr/etc:~:. .fi .PP This path may be overridden with the PACKAGES_PATH environment variable (see .IR ENVIRONMENT ). A packages file may contain inclusion directives which cause the sourcing of other files at given points. An inclusion directive looks like: .PP .nf (include file-name) .fi .PP The same location mechanism is used to find "file-name" as for the initial configuration file. A package file name may also be given as an absolute file name or may be shell-style user directory, tilde (~), relative. .SS SYNTAX A package file consists of comments, delimited by a leading hash (#), or package definitions of the form: .PP .nf package [arch [os [version [host [shell]]]]] [<= requires ...] : setting [, setting ...] ; .fi .PP The .IR package , .IR arch , .IR os , .IR version , .IR host , and .I shell parts may be simple shell-style patterns of the form: .TP 15 * matches anything. .TP foo* matches "foo", "foobar" etc. .TP {foo,bar} matches "foo" or "bar". .PP The .I requires list specifies the names of other packages which must be sourced into the environment before the settings for this package are processed. .PP A .I setting is either a variable definition (as described below) or a section of text to be directly evaluated in the shell, delimited with .IR <[ and .IR ]> , for example: .PP .nf <[ /usr/local/bin/test-init ]> .fi .PP When .I Usepackage searches for the definition for a particular package, it compares each line in the packages file against the name of the package given (package) and system-dependant information for the execution host, as obtained by .IR uname (2). This information is the hardware implementation (platform), the operating system name (os), the operating system version (version) and the hostname (host). Comparisons are case-insensitive. If a match is obtained then the given variable definitions and script sections are processed to modify the environment. A variable definition may have one of the following forms: .PP .nf var-name = "string" var-name = path-list var-name += path-list var-name += "string" .fi .PP The first sets the given variable to a literal string value, the second sets the given variable to a path list, the third prepends the current value of a variable with the given path list, and the fourth interprets the literal string as a path list and prepends it to the current value of the variable. Path lists are colon (:) separated lists of directories and may contain shell-style tilde (~), user-relative, directories which will be expanded automatically (except when the path list is given as a literal string). When pre-pending paths to a variable, duplicate paths are removed from the original value first. .PP In addition, .I Usepackage can optionally test for the existence of paths before setting or adding them to variables. This is done with the test form of the above operators: .PP .nf var-name ?= path-list var-name ?+= path-list var-name ?+= "string" .fi .PP These operate as per the definitions above, but will ignore path components that don't exist. .SS GROUPS In addition to the package definitions in a packages file, there may also be group definitions. These have the following syntax: .PP .nf group := package [, package ...] ; .fi .PP .I Usepackage searches for a given package name in the defined groups first, if the given name matchs a group name then the packages defined as part of that group are sourced into the environment together. A group definition may not reference other groups and may not contain patterns. .SS ANNOTATIONS In order to give useful package information to the user, annotations may be placed in the packages file that give summaries of packages. These annotations have the form: .PP .nf >> name : "description" << .fi .PP .I Usepackage collects these annotations together and displays them when called with the .I -l flag, see .IR OPTIONS . These annotations have no impact on the package mechanism and need not necessarily be beside or correspond to the package definitions (although this is the sensible way to arrange things). .SS EXAMPLE The following fragment of a packages file illustrates the main features: .PP .nf # GNU software is available everywhere: >> GNU : "The GNU project software" << GNU : PATH += /usr/local/gnu/bin, MANPATH += /usr/local/gnu/man ; # CVS requires RCS which is found in the GNU package, but # is only available on SPARC Solaris machines: >> CVS : "Concurrent Versions System revision control" << CVS sun4* SunOS 5.* <= GNU : CVSROOT = /usr/src/cvsroot, CVSEDITOR = "vi", PATH += /usr/local/cvs/bin, MANPATH += /usr/local/cvs/man ; # User bin directories (Solaris will run SunOS 4 binaries): # (Only added to the path if the directories actually exist) >> user : "User's own programs" << user sun4* SunOS : PATH ?+= ~/bin/sun4 ; user sun4* SunOS 5.* : PATH ?+= ~/bin/solaris ; user alpha OSF : PATH ?+= ~/bin/alpha ; # Special function for zsh: >> zsh-function : "Special zsh function" << zsh-function * * * * zsh : <[ hello() { echo "Hello World!"; } ]> ; # include standard packages: (include packages.standard) # security hole: dot : PATH += . ; # groups: user-setup := standard, user ; programmer-setup := standard, CVS, user, dot ; .fi .PP Note the use of Operating System version numbers to distinguish between SunOS 4 and Solaris (SunOS 5), the use of "sun4*" to match the multiple different platform versions of SPARC machines (sun4m, sun4c, etc.) and the fact that package "user" on a SPARC Solaris machine will match both of the first two lines of the "user" package section, resulting in the "solaris" directory and the "sun4" directory being added into the PATH. .PP Assuming the appropriate shell setup script has been sourced - see .IR use(1) - then the following command will cause the CVS environment (including the GNU environment) to be sourced: .PP .nf $ use CVS .fi .PP Note that on a DEC Alpha machine, this will generate a warning like: .PP .nf $ use CVS warning: no match for package `CVS' on this host. .fi .PP In a shell script which is executed on a number of different platforms (such as the shell startup script). These warnings may be silenced (see .IR OPTIONS ). .SH FILES .TP 15 .SB /usr/share/usepackage/usepackage.conf The default master packages file. .TP .SB /usr/share/usepackage/use.csh Shell setup for csh and derivatives. .TP .SB /usr/share/usepackage/use.bsh Shell setup for bourne shell and derivatives. .TP .SB /usr/share/usepackage/use.ksh Shell setup for ksh. .TP .SB /usr/bin/usepackage The underlying .I Usepackage executable. .SH ENVIRONMENT Other than the reading and re-definition of environment variables for package setup, .B use also uses the following environment variables for user configuration: .TP 15 .SB PACKAGES_PATH Colon-separated path list giving the directories to search for configuration files. Shell-style tilde (~) user-directory escapes are expanded. .TP .SB HOME If present in the environment, this is used to provide the expansion for the tilde (~) user-directory. .TP .SB SHELL If present in the environment, the last path component of this is used for shell matching (see .IR SYNTAX ) and detecting the style of environment output that should be used (see .IR OPTIONS ). .SH COPYRIGHT .nf Usepackage Environment Manager Copyright (C) 1995-2005 Jonathan Hogg .fi .PP This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. .PP This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. .PP You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA .SH SEE ALSO use(1), csh(1), sh(1), ksh(1), env(1), environ(5), getenv(3C), uname(1), uname(2)