@node Supporting Relocation @section Supporting Relocation It has been a pain for many users of GNU packages for a long time that packages are not relocatable. It means a user cannot copy a program, installed by another user on the same machine, to his home directory, and have it work correctly (including i18n). So many users need to go through @code{configure; make; make install} with all its dependencies, options, and hurdles. Red Hat, Debian, and similar package systems solve the ``ease of installation'' problem, but they hardwire path names, usually to @file{/usr} or @file{/usr/local}. This means that users need root privileges to install a binary package, and prevents installing two different versions of the same binary package. A relocatable program can be moved or copied to a different location on the filesystem. It is possible to make symlinks to the installed and moved programs, and invoke them through the symlink. It is possible to do the same thing with a hard link @emph{only} if the hard link file is in the same directory as the real program. The @code{relocatable-prog} module aims to ease the process of making a GNU program relocatable. It helps overcome two obstacles. First, it aids with relocating the hard-coded references to absolute file names that GNU programs often contain. These references must be fixed up at runtime if a program is to be successfully relocated. The @code{relocatable-prog} module provides a function @code{relocate} that does this job. Second, the loader must be able to find shared libraries linked to relocatable executables or referenced by other shared libraries linked to relocatable executables. The @code{relocatable-prog} module helps out here in a platform-specific way: @itemize @item On GNU/Linux, it adds a linker option (@option{-rpath}) that causes the dynamic linker to search for libraries in a directory relative to the location of the invoked executable. @item On other Unix systems, it installs a wrapper executable. The wrapper sets the environment variable that controls shared library searching (usually @env{LD_LIBRARY_PATH}) and then invokes the real executable. This approach does not always work. On OpenBSD and OpenServer, prereleases of Libtool 1.5 put absolute file names of libraries in executables, which prevents searching any other locations. @item On Windows, the executable's own directory is searched for libraries, so installing shared libraries into the executable's directory is sufficient. @end itemize You can make your program relocatable by following these steps: @enumerate @item Import the @code{relocatable-prog} module. @item In every program, add to @code{main} as the first statement (even before setting the locale or doing anything related to libintl): @example set_program_name (argv[0]); @end example The prototype for this function is in @file{progname.h}. @item Everywhere where you use a constant pathname from installation-time, wrap it in @code{relocate} so it gets translated to the run-time situation. Example: @example bindtextdomain (PACKAGE, LOCALEDIR); @end example @noindent becomes: @example bindtextdomain (PACKAGE, relocate (LOCALEDIR)); @end example The prototype for this function is in @file{relocatable.h}. @item If your package installs shell scripts, also import the @code{relocatable-script} module. Then, near the beginning of each shell script that your package installs, add the following: @example @@relocatable_sh@@ if test "@@RELOCATABLE@@" = yes; then exec_prefix="@@exec_prefix@@" bindir="@@bindir@@" orig_installdir="$bindir" # see Makefile.am's *_SCRIPTS variables func_find_curr_installdir # determine curr_installdir func_find_prefixes # Relocate the directory variables that we use. gettext_dir=` echo "$gettext_dir/" \ | sed -e "s%^$@{orig_installprefix@}/%$@{curr_installprefix@}/%" \ | sed -e 's,/$,,'` fi @end example You must adapt the definition of @code{orig_installdir}, depending on where the script gets installed. Also, at the end, instead of @code{gettext_dir}, transform those variables that you need. @item In your @file{Makefile.am}, for every program @command{foo} that gets installed in, say, @file{$(bindir)}, you add: @example foo_CPPFLAGS = -DINSTALLDIR=\"$(bindir)\" if RELOCATABLE_VIA_LD foo_LDFLAGS = `$(RELOCATABLE_LDFLAGS) $(bindir)` endif @end example @item You may also need to add one or two variable assignments to your @file{configure.ac}. If your package (or any package you rely on, e.g.@: gettext-runtime) will be relocated together with a set of installed shared libraries, then set @var{RELOCATABLE_LIBRARY_PATH} to a colon-separated list of those libraries' directories, e.g. @example RELOCATABLE_LIBRARY_PATH='$(libdir)' @end example If your @file{config.h} is not in @file{$(top_builddir)}, then set @var{RELOCATABLE_CONFIG_H_DIR} to its directory, e.g. @example RELOCATABLE_CONFIG_H_DIR='$(top_builddir)/src' @end example @end enumerate