# Copyright 1999-2015 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/autotools.eclass,v 1.177 2015/07/17 09:36:24 vapier Exp $ # @ECLASS: autotools.eclass # @MAINTAINER: # base-system@gentoo.org # @BLURB: Regenerates auto* build scripts # @DESCRIPTION: # This eclass is for safely handling autotooled software packages that need to # regenerate their build scripts. All functions will abort in case of errors. # Note: We require GNU m4, as does autoconf. So feel free to use any features # from the GNU version of m4 without worrying about other variants (i.e. BSD). if [[ ${__AUTOTOOLS_AUTO_DEPEND+set} == "set" ]] ; then # See if we were included already, but someone changed the value # of AUTOTOOLS_AUTO_DEPEND on us. We could reload the entire # eclass at that point, but that adds overhead, and it's trivial # to re-order inherit in eclasses/ebuilds instead. #409611 if [[ ${__AUTOTOOLS_AUTO_DEPEND} != ${AUTOTOOLS_AUTO_DEPEND} ]] ; then die "AUTOTOOLS_AUTO_DEPEND changed value between inherits; please inherit autotools.eclass first! ${__AUTOTOOLS_AUTO_DEPEND} -> ${AUTOTOOLS_AUTO_DEPEND}" fi fi if [[ -z ${_AUTOTOOLS_ECLASS} ]]; then _AUTOTOOLS_ECLASS=1 inherit libtool # @ECLASS-VARIABLE: WANT_AUTOCONF # @DESCRIPTION: # The major version of autoconf your package needs : ${WANT_AUTOCONF:=latest} # @ECLASS-VARIABLE: WANT_AUTOMAKE # @DESCRIPTION: # The major version of automake your package needs : ${WANT_AUTOMAKE:=latest} # @ECLASS-VARIABLE: WANT_LIBTOOL # @DESCRIPTION: # Do you want libtool? Valid values here are "latest" and "none". : ${WANT_LIBTOOL:=latest} # @ECLASS-VARIABLE: _LATEST_AUTOMAKE # @INTERNAL # @DESCRIPTION: # CONSTANT! # The latest major version/slot of automake available on each arch. #312315 # We should list both the latest stable, and the latest unstable. #465732 # This way the stable builds will still work, but the unstable are allowed # to build & test things for us ahead of time (if they have it installed). # If a newer slot is stable on any arch, and is NOT reflected in this list, # then circular dependencies may arise during emerge @system bootstraps. # Do NOT change this variable in your ebuilds! # If you want to force a newer minor version, you can specify the correct # WANT value by using a colon: : _LATEST_AUTOMAKE=( 1.15:1.15 ) _automake_atom="sys-devel/automake" _autoconf_atom="sys-devel/autoconf" if [[ -n ${WANT_AUTOMAKE} ]]; then case ${WANT_AUTOMAKE} in # Even if the package doesn't use automake, we still need to depend # on it because we run aclocal to process m4 macros. This matches # the autoreconf tool, so this requirement is correct. #401605 none) ;; latest) # Use SLOT deps if we can. For EAPI=0, we get pretty close. if [[ ${EAPI:-0} != 0 ]] ; then _automake_atom="|| ( `printf '>=sys-devel/automake-%s:%s ' ${_LATEST_AUTOMAKE[@]/:/ }` )" else _automake_atom="|| ( `printf '>=sys-devel/automake-%s ' ${_LATEST_AUTOMAKE[@]/%:*}` )" fi ;; *) _automake_atom="=sys-devel/automake-${WANT_AUTOMAKE}*" ;; esac export WANT_AUTOMAKE fi if [[ -n ${WANT_AUTOCONF} ]] ; then case ${WANT_AUTOCONF} in none) _autoconf_atom="" ;; # some packages don't require autoconf at all 2.1) _autoconf_atom="=sys-devel/autoconf-${WANT_AUTOCONF}*" ;; # if you change the "latest" version here, change also autotools_env_setup latest|2.5) _autoconf_atom=">=sys-devel/autoconf-2.69" ;; *) die "Invalid WANT_AUTOCONF value '${WANT_AUTOCONF}'" ;; esac export WANT_AUTOCONF fi _libtool_atom=">=sys-devel/libtool-2.4" if [[ -n ${WANT_LIBTOOL} ]] ; then case ${WANT_LIBTOOL} in none) _libtool_atom="" ;; latest) ;; *) die "Invalid WANT_LIBTOOL value '${WANT_LIBTOOL}'" ;; esac export WANT_LIBTOOL fi # Force people (nicely) to upgrade to a newer version of gettext as # older ones are known to be crappy. #496454 AUTOTOOLS_DEPEND="!/dev/null # Avoid unsafe nested multijob_finish_one for bug #426512. AT_NOELIBTOOLIZE="yes" eautoreconf || die popd >/dev/null fi done fi einfo "Running eautoreconf in '${PWD}' ..." local m4dirs=$(autotools_check_macro_val AC_CONFIG_{AUX,MACRO}_DIR) [[ -n ${m4dirs} ]] && mkdir -p ${m4dirs} # Run all the tools before aclocal so we can gather the .m4 files. local i tools=( # glibgettext false "autotools_run_tool glib-gettextize --copy --force" gettext false "autotools_run_tool --at-missing autopoint --force" # intltool must come after autopoint. intltool false "autotools_run_tool intltoolize --automake --copy --force" gtkdoc false "autotools_run_tool --at-missing gtkdocize --copy" gnomedoc false "autotools_run_tool --at-missing gnome-doc-prepare --copy --force" libtool false "_elibtoolize --install --copy --force" ) for (( i = 0; i < ${#tools[@]}; i += 3 )) ; do if _at_uses_${tools[i]} ; then tools[i+1]=true ${tools[i+2]} fi done # Generate aclocal.m4 with our up-to-date m4 files. local rerun_aclocal=false eaclocal # Check to see if we had macros expanded by other macros or in other # m4 files that we couldn't detect early. This is uncommon, but some # packages do this, so we have to handle it correctly. for (( i = 0; i < ${#tools[@]}; i += 3 )) ; do if ! ${tools[i+1]} && _at_uses_${tools[i]} ; then ${tools[i+2]} rerun_aclocal=true fi done ${rerun_aclocal} && eaclocal if [[ ${WANT_AUTOCONF} = 2.1 ]] ; then eautoconf else eautoconf --force fi eautoheader [[ ${AT_NOEAUTOMAKE} != "yes" ]] && FROM_EAUTORECONF="yes" eautomake ${AM_OPTS} if [[ ${AT_NOELIBTOOLIZE} != "yes" ]] ; then # Call it here to prevent failures due to elibtoolize called _before_ # eautoreconf. elibtoolize --force "${PWD}" fi return 0 } # @FUNCTION: _at_uses_pkg # @USAGE: # @INTERNAL # See if the specified macros are enabled. _at_uses_pkg() { if [[ -n $(autotools_check_macro "$@") ]] ; then return 0 else # If the trace didn't find it (perhaps because aclocal.m4 hasn't # been generated yet), cheat, but be conservative. local macro args=() for macro ; do args+=( -e "^[[:space:]]*${macro}\>" ) done egrep -q "${args[@]}" configure.?? fi } _at_uses_autoheader() { _at_uses_pkg A{C,M}_CONFIG_HEADER{S,}; } _at_uses_automake() { _at_uses_pkg AM_INIT_AUTOMAKE; } _at_uses_gettext() { _at_uses_pkg AM_GNU_GETTEXT_VERSION; } _at_uses_glibgettext() { _at_uses_pkg AM_GLIB_GNU_GETTEXT; } _at_uses_intltool() { _at_uses_pkg {AC,IT}_PROG_INTLTOOL; } _at_uses_gtkdoc() { _at_uses_pkg GTK_DOC_CHECK; } _at_uses_gnomedoc() { _at_uses_pkg GNOME_DOC_INIT; } _at_uses_libtool() { _at_uses_pkg A{C,M}_PROG_LIBTOOL LT_INIT; } # @FUNCTION: eaclocal_amflags # @DESCRIPTION: # Extract the ACLOCAL_AMFLAGS value from the Makefile.am and try to handle # (most) of the crazy crap that people throw at us. eaclocal_amflags() { local aclocal_opts amflags_file for amflags_file in GNUmakefile.am Makefile.am GNUmakefile.in Makefile.in ; do [[ -e ${amflags_file} ]] || continue # setup the env in case the pkg does something crazy # in their ACLOCAL_AMFLAGS. like run a shell script # which turns around and runs autotools. #365401 # or split across multiple lines. #383525 autotools_env_setup aclocal_opts=$(sed -n \ "/^ACLOCAL_AMFLAGS[[:space:]]*=/{ \ # match the first line s:[^=]*=::p; \ # then gobble up all escaped lines : nextline /\\\\$/{ n; p; b nextline; } \ }" ${amflags_file}) eval aclocal_opts=\""${aclocal_opts}"\" break done echo ${aclocal_opts} } # @FUNCTION: eaclocal # @DESCRIPTION: # These functions runs the autotools using autotools_run_tool with the # specified parametes. The name of the tool run is the same of the function # without e prefix. # They also force installing the support files for safety. # Respects AT_M4DIR for additional directories to search for macro's. eaclocal() { [[ ! -f aclocal.m4 || -n $(grep -e 'generated.*by aclocal' aclocal.m4) ]] && \ autotools_run_tool --at-m4flags aclocal "$@" $(eaclocal_amflags) } # @FUNCTION: _elibtoolize # @DESCRIPTION: # Runs libtoolize. # # Note the '_' prefix: avoid collision with elibtoolize() from libtool.eclass. _elibtoolize() { local LIBTOOLIZE=${LIBTOOLIZE:-$(type -P glibtoolize > /dev/null && echo glibtoolize || echo libtoolize)} [[ -f GNUmakefile.am || -f Makefile.am ]] && set -- "$@" --automake autotools_run_tool ${LIBTOOLIZE} "$@" } # @FUNCTION: eautoheader # @DESCRIPTION: # Runs autoheader. eautoheader() { _at_uses_autoheader || return 0 autotools_run_tool --at-no-fail --at-m4flags autoheader "$@" } # @FUNCTION: eautoconf # @DESCRIPTION: # Runs autoconf. eautoconf() { if [[ ! -f configure.ac && ! -f configure.in ]] ; then echo eerror "No configure.{ac,in} present in '${PWD}'!" echo die "No configure.{ac,in} present!" fi if [[ ${WANT_AUTOCONF} != "2.1" && -e configure.in ]] ; then eqawarn "This package has a configure.in file which has long been deprecated. Please" eqawarn "update it to use configure.ac instead as newer versions of autotools will die" eqawarn "when it finds this file. See https://bugs.gentoo.org/426262 for details." fi autotools_run_tool --at-m4flags autoconf "$@" } # @FUNCTION: eautomake # @DESCRIPTION: # Runs automake. eautomake() { local extra_opts=() local makefile_name # Run automake if: # - a Makefile.am type file exists # - the configure script is using the AM_INIT_AUTOMAKE directive for makefile_name in {GNUmakefile,{M,m}akefile}.am "" ; do [[ -f ${makefile_name} ]] && break done _automake_version() { autotools_run_tool --at-output automake --version 2>/dev/null | sed -n -e '1{s:.*(GNU automake) ::p;q}' } if [[ -z ${makefile_name} ]] ; then _at_uses_automake || return 0 elif [[ -z ${FROM_EAUTORECONF} && -f ${makefile_name%.am}.in ]]; then local used_automake local installed_automake installed_automake=$(WANT_AUTOMAKE= _automake_version) used_automake=$(head -n 1 < ${makefile_name%.am}.in | \ sed -e 's:.*by automake \(.*\) from .*:\1:') if [[ ${installed_automake} != ${used_automake} ]]; then ewarn "Automake used for the package (${used_automake}) differs from" \ "the installed version (${installed_automake})." ewarn "Forcing a full rebuild of the autotools to workaround." eautoreconf return 0 fi fi [[ -f INSTALL && -f AUTHORS && -f ChangeLog && -f NEWS && -f README ]] \ || extra_opts+=( --foreign ) # Older versions of automake do not support --force-missing. But we want # to use this whenever possible to update random bundled files #133489. case $(_automake_version) in 1.4|1.4[.-]*) ;; *) extra_opts+=( --force-missing ) ;; esac autotools_run_tool automake --add-missing --copy "${extra_opts[@]}" "$@" } # @FUNCTION: eautopoint # @DESCRIPTION: # Runs autopoint (from the gettext package). eautopoint() { autotools_run_tool autopoint "$@" } # @FUNCTION: config_rpath_update # @USAGE: [destination] # @DESCRIPTION: # Some packages utilize the config.rpath helper script, but don't # use gettext directly. So we have to copy it in manually since # we can't let `autopoint` do it for us. config_rpath_update() { local dst src=$(type -P gettext | sed 's:bin/gettext:share/gettext/config.rpath:') [[ $# -eq 0 ]] && set -- $(find -name config.rpath) [[ $# -eq 0 ]] && return 0 einfo "Updating all config.rpath files" for dst in "$@" ; do einfo " ${dst}" cp "${src}" "${dst}" || die done } # @FUNCTION: autotools_env_setup # @INTERNAL # @DESCRIPTION: # Process the WANT_AUTO{CONF,MAKE} flags. autotools_env_setup() { # We do the "latest" → version switch here because it solves # possible order problems, see bug #270010 as an example. if [[ ${WANT_AUTOMAKE} == "latest" ]]; then local pv for pv in ${_LATEST_AUTOMAKE[@]/#*:} ; do # has_version respects ROOT, but in this case, we don't want it to, # thus "ROOT=/" prefix: ROOT=/ has_version "=sys-devel/automake-${pv}*" && export WANT_AUTOMAKE="${pv}" done [[ ${WANT_AUTOMAKE} == "latest" ]] && \ die "Cannot find the latest automake! Tried ${_LATEST_AUTOMAKE[*]}" fi [[ ${WANT_AUTOCONF} == "latest" ]] && export WANT_AUTOCONF=2.5 } # @FUNCTION: autotools_run_tool # @USAGE: [--at-no-fail] [--at-m4flags] [--at-missing] [--at-output] [tool-specific flags] # @INTERNAL # @DESCRIPTION: # Run the specified autotool helper, but do logging and error checking # around it in the process. autotools_run_tool() { # Process our own internal flags first local autofail=true m4flags=false missing_ok=false return_output=false while [[ -n $1 ]] ; do case $1 in --at-no-fail) autofail=false;; --at-m4flags) m4flags=true;; --at-missing) missing_ok=true;; --at-output) return_output=true;; # whatever is left goes to the actual tool *) break;; esac shift done if [[ ${EBUILD_PHASE} != "unpack" && ${EBUILD_PHASE} != "prepare" ]]; then ewarn "QA Warning: running $1 in ${EBUILD_PHASE} phase" fi if ${missing_ok} && ! type -P ${1} >/dev/null ; then einfo "Skipping '$*' due $1 not installed" return 0 fi autotools_env_setup local STDERR_TARGET="${T}/$1.out" # most of the time, there will only be one run, but if there are # more, make sure we get unique log filenames if [[ -e ${STDERR_TARGET} ]] ; then local i=1 while :; do STDERR_TARGET="${T}/$1-${i}.out" [[ -e ${STDERR_TARGET} ]] || break : $(( i++ )) done fi if ${m4flags} ; then set -- "${1}" $(autotools_m4dir_include) "${@:2}" $(autotools_m4sysdir_include) fi # If the caller wants to probe something, then let them do it directly. if ${return_output} ; then "$@" return fi printf "***** $1 *****\n***** PWD: ${PWD}\n***** $*\n\n" > "${STDERR_TARGET}" ebegin "Running $@" "$@" >> "${STDERR_TARGET}" 2>&1 if ! eend $? && ${autofail} ; then echo eerror "Failed Running $1 !" eerror eerror "Include in your bugreport the contents of:" eerror eerror " ${STDERR_TARGET}" echo die "Failed Running $1 !" fi } # Internal function to check for support # Keep a list of all the macros we might use so that we only # have to run the trace code once. Order doesn't matter. ALL_AUTOTOOLS_MACROS=( A{C,M}_PROG_LIBTOOL LT_INIT A{C,M}_CONFIG_HEADER{S,} AC_CONFIG_SUBDIRS AC_CONFIG_AUX_DIR AC_CONFIG_MACRO_DIR AM_INIT_AUTOMAKE AM_GLIB_GNU_GETTEXT AM_GNU_GETTEXT_VERSION {AC,IT}_PROG_INTLTOOL GTK_DOC_CHECK GNOME_DOC_INIT ) autotools_check_macro() { [[ -f configure.ac || -f configure.in ]] || return 0 # We can run in multiple dirs, so we have to cache the trace # data in $PWD rather than an env var. local trace_file=".__autoconf_trace_data" if [[ ! -e ${trace_file} ]] || [[ ! aclocal.m4 -ot ${trace_file} ]] ; then WANT_AUTOCONF="2.5" autoconf \ $(autotools_m4dir_include) \ ${ALL_AUTOTOOLS_MACROS[@]/#/--trace=} > ${trace_file} 2>/dev/null fi local macro args=() for macro ; do has ${macro} ${ALL_AUTOTOOLS_MACROS[@]} || die "internal error: add ${macro} to ALL_AUTOTOOLS_MACROS" args+=( -e ":${macro}:" ) done grep "${args[@]}" ${trace_file} } # @FUNCTION: autotools_check_macro_val # @USAGE: [macros] # @INTERNAL # @DESCRIPTION: # Look for a macro and extract its value. autotools_check_macro_val() { local macro scan_out for macro ; do autotools_check_macro "${macro}" | \ gawk -v macro="${macro}" \ '($0 !~ /^[[:space:]]*(#|dnl)/) { if (match($0, macro ":(.*)$", res)) print res[1] }' | uniq done return 0 } _autotools_m4dir_include() { local x include_opts flag # Use the right flag to autoconf based on the version #448986 [[ ${WANT_AUTOCONF} == "2.1" ]] \ && flag="l" \ || flag="I" for x in "$@" ; do case ${x} in # We handle it below -${flag}) ;; *) [[ ! -d ${x} ]] && ewarn "autotools.eclass: '${x}' does not exist" include_opts+=" -${flag} ${x}" ;; esac done echo ${include_opts} } autotools_m4dir_include() { _autotools_m4dir_include ${AT_M4DIR} ; } autotools_m4sysdir_include() { # First try to use the paths the system integrator has set up. local paths=( $(eval echo ${AT_SYS_M4DIR}) ) if [[ ${#paths[@]} -eq 0 && -n ${SYSROOT} ]] ; then # If they didn't give us anything, then default to the SYSROOT. # This helps when cross-compiling. local path="${SYSROOT}/usr/share/aclocal" [[ -d ${path} ]] && paths+=( "${path}" ) fi _autotools_m4dir_include "${paths[@]}" } fi