# Copyright 1999-2007 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/multilib.eclass,v 1.61 2007/06/05 18:21:00 cardoe Exp $ # # Maintainer: amd64@gentoo.org / toolchain@gentoo.org # # This eclass is for all functions pertaining to handling multilib. # configurations. ___ECLASS_RECUR_MULTILIB="yes" [[ -z ${___ECLASS_RECUR_TOOLCHAIN_FUNCS} ]] && inherit toolchain-funcs # has_multilib_profile: # Return true if the current profile is a multilib profile and lists more than # one abi in ${MULTILIB_ABIS}. When has_multilib_profile returns true, that # profile should enable the 'multilib' use flag. This is so you can DEPEND on # a package only for multilib or not multilib. # is_final_abi: # Return true if ${ABI} is the final abi to be installed (and thus we are # on our last run through a src_* function. # number_abis: # echo the number of ABIs we will be installing for # get_install_abis: # Return a list of the ABIs we want to install for with # the last one in the list being the default. # get_all_abis: # Return a list of the ABIs supported by this profile. # the last one in the list being the default. # get_all_libdirs: # Returns a list of all the libdirs used by this profile. This includes # those that might not be touched by the current ebuild and always includes # "lib". # get_libdir: # Returns the libdir for the selected ABI. This is backwards compatible # and simply calls get_abi_LIBDIR() on newer profiles. You should use this # to determine where to install shared objects (ex: /usr/$(get_libdir)) # get_abi_var []: # returns the value of ${_} which should be set in make.defaults # # get_abi_CFLAGS: # get_abi_CDEFINE: # get_abi_LIBDIR: # Aliases for 'get_abi_var CFLAGS', etc. # get_ml_incdir [ []] # include dir defaults to /usr/include # ABI defaults to ${ABI} or ${DEFAULT_ABI} # # If a multilib include dir is associated with the passed include dir, then # we return it, otherwise, we just echo back the include dir. This is # neccessary when a built script greps header files rather than testing them # via #include (like perl) to figure out features. # prep_ml_includes: # Some includes (include/asm, glibc, etc) are ABI dependent. In this case, # We can install them in different locations for each ABI and create a common # header which includes the right one based on CDEFINE_${ABI}. If your # package installs ABI-specific headers, just add 'prep_ml_includes' to the # end of your src_install(). It takes a list of directories that include # files are installed in (default is /usr/include if none are passed). # # Example: # src_install() { # ... # prep_ml_includes /usr/qt/3/include # } # create_ml_includes : [: ...] # If you need more control than prep_ml_includes can offer (like linux-headers # for the asm-* dirs, then use create_ml_includes. The firs argument is the # common dir. The remaining args are of the form : where # is what is put in the #ifdef for choosing that dir. # # Ideas for this code came from debian's sparc-linux headers package. # # Example: # create_ml_includes /usr/include/asm __sparc__:/usr/include/asm-sparc __sparc64__:/usr/include/asm-sparc64 # create_ml_includes /usr/include/asm __i386__:/usr/include/asm-i386 __x86_64__:/usr/include/asm-x86_64 # get_libname [version] # returns libname with proper suffix {.so,.dylib} and optionally supplied version # for ELF/MACH-O shared objects # # Example: # get_libname libfoo ${PV} # Returns: libfoo.so.${PV} (ELF) || libfoo.${PV}.dylib (MACH) ### END DOCUMENTATION ### # Defaults: export MULTILIB_ABIS=${MULTILIB_ABIS:-"default"} export DEFAULT_ABI=${DEFAULT_ABI:-"default"} export CFLAGS_default export LDFLAGS_default export CHOST_default=${CHOST_default:-${CHOST}} export CTARGET_default=${CTARGET_default:-${CTARGET:-${CHOST_default}}} export LIBDIR_default=${CONF_LIBDIR:-"lib"} export CDEFINE_default="__unix__" export KERNEL_ABI=${KERNEL_ABI:-${DEFAULT_ABI}} # has_multilib_profile() has_multilib_profile() { [ -n "${MULTILIB_ABIS}" -a "${MULTILIB_ABIS}" != "${MULTILIB_ABIS/ /}" ] } # This function simply returns the desired lib directory. With portage # 2.0.51, we now have support for installing libraries to lib32/lib64 # to accomidate the needs of multilib systems. It's no longer a good idea # to assume all libraries will end up in lib. Replace any (sane) instances # where lib is named directly with $(get_libdir) if possible. # # Travis Tilley (24 Aug 2004) # # Jeremy Huddleston (23 Dec 2004): # Added support for ${ABI} and ${DEFAULT_ABI}. If they're both not set, # fall back on old behavior. Any profile that has these set should also # depend on a newer version of portage (not yet released) which uses these # over CONF_LIBDIR in econf, dolib, etc... get_libdir() { local CONF_LIBDIR if [ -n "${CONF_LIBDIR_OVERRIDE}" ] ; then # if there is an override, we want to use that... always. echo ${CONF_LIBDIR_OVERRIDE} else get_abi_LIBDIR fi } get_multilibdir() { if has_multilib_profile; then eerror "get_multilibdir called, but it shouldn't be needed with the new multilib approach. Please file a bug at http://bugs.gentoo.org and assign it to eradicator@gentoo.org" exit 1 fi echo ${CONF_MULTILIBDIR:=lib32} } # Sometimes you need to override the value returned by get_libdir. A good # example of this is xorg-x11, where lib32 isnt a supported configuration, # and where lib64 -must- be used on amd64 (for applications that need lib # to be 32bit, such as adobe acrobat). Note that this override also bypasses # portage version sanity checking. # get_libdir_override expects one argument, the result get_libdir should # return: # # get_libdir_override lib64 # # Travis Tilley (31 Aug 2004) get_libdir_override() { if has_multilib_profile; then eerror "get_libdir_override called, but it shouldn't be needed with the new multilib approach. Please file a bug at http://bugs.gentoo.org and assign it to eradicator@gentoo.org" exit 1 fi CONF_LIBDIR="$1" CONF_LIBDIR_OVERRIDE="$1" LIBDIR_default="$1" } # get_abi_var [] # returns the value of ${_} which should be set in make.defaults # # ex: # CFLAGS=$(get_abi_var CFLAGS sparc32) # CFLAGS=-m32 # # Note that the prefered method is to set CC="$(tc-getCC) $(get_abi_CFLAGS)" # This will hopefully be added to portage soon... # # If is not specified, ${ABI} is used. # If is not specified and ${ABI} is not defined, ${DEFAULT_ABI} is used. # If is not specified and ${ABI} and ${DEFAULT_ABI} are not defined, we return an empty string. # # Jeremy Huddleston get_abi_var() { local flag=$1 local abi if [ $# -gt 1 ]; then abi=${2} elif [ -n "${ABI}" ]; then abi=${ABI} elif [ -n "${DEFAULT_ABI}" ]; then abi=${DEFAULT_ABI} else abi="default" fi local var="${flag}_${abi}" echo ${!var} } get_abi_CFLAGS() { get_abi_var CFLAGS "$@"; } get_abi_ASFLAGS() { get_abi_var ASFLAGS "$@"; } get_abi_LDFLAGS() { get_abi_var LDFLAGS "$@"; } get_abi_CHOST() { get_abi_var CHOST "$@"; } get_abi_CTARGET() { get_abi_var CTARGET "$@"; } get_abi_FAKE_TARGETS() { get_abi_var FAKE_TARGETS "$@"; } get_abi_CDEFINE() { get_abi_var CDEFINE "$@"; } get_abi_LIBDIR() { get_abi_var LIBDIR "$@"; } # Return a list of the ABIs we want to install for with # the last one in the list being the default. get_install_abis() { local order="" if [[ -z ${MULTILIB_ABIS} ]] ; then echo "default" return 0 fi if hasq multilib-pkg-force ${RESTRICT} || { hasq multilib-pkg ${FEATURES} && hasq multilib-pkg ${RESTRICT}; }; then for x in ${MULTILIB_ABIS} ; do if [[ ${x} != "${DEFAULT_ABI}" ]] ; then hasq ${x} ${ABI_DENY} || ordera="${ordera} ${x}" fi done hasq ${DEFAULT_ABI} ${ABI_DENY} || order="${ordera} ${DEFAULT_ABI}" if [[ -n ${ABI_ALLOW} ]] ; then local ordera="" for x in ${order} ; do if hasq ${x} ${ABI_ALLOW} ; then ordera="${ordera} ${x}" fi done order=${ordera} fi else order=${DEFAULT_ABI} fi if [[ -z ${order} ]] ; then die "The ABI list is empty. Are you using a proper multilib profile? Perhaps your USE flags or MULTILIB_ABIS are too restrictive for this package." fi echo ${order} return 0 } # Return a list of the ABIs supported by this profile. # the last one in the list being the default. get_all_abis() { local order="" if [[ -z ${MULTILIB_ABIS} ]] ; then echo "default" return 0 fi for x in ${MULTILIB_ABIS}; do if [[ ${x} != ${DEFAULT_ABI} ]] ; then order="${order:+${order} }${x}" fi done order="${order:+${order} }${DEFAULT_ABI}" echo ${order} return 0 } # get_all_libdirs() # Returns a list of all the libdirs used by this profile. This includes # those that might not be touched by the current ebuild. get_all_libdirs() { local libdirs="lib" local abi local dir for abi in ${MULTILIB_ABIS}; do [ "$(get_abi_LIBDIR ${abi})" != "lib" ] && libdirs="${libdirs} $(get_abi_LIBDIR ${abi})" done echo "${libdirs}" } # Return true if ${ABI} is the last ABI on our list (or if we're not # using the new multilib configuration. This can be used to determine # if we're in the last (or only) run through src_{unpack,compile,install} is_final_abi() { has_multilib_profile || return 0 local ALL_ABIS=$(get_install_abis) local LAST_ABI=${ALL_ABIS/* /} [[ ${LAST_ABI} == ${ABI} ]] } # echo the number of ABIs we will be installing for number_abis() { get_install_abis | wc -w } # get_ml_incdir [ []] # include dir defaults to /usr/include # ABI defaults to ${ABI} or ${DEFAULT_ABI} get_ml_incdir() { local dir=/usr/include if [[ $# -gt 0 ]]; then incdir=$1 shift fi if [[ -z "${MULTILIB_ABIS}" ]]; then echo ${incdir} return 0 fi local abi=${ABI-${DEFAULT_ABI}} if [[ $# -gt 0 ]]; then abi=$1 shift fi if [[ -d "${dir}/gentoo-multilib/${abi}" ]]; then echo ${dir}/gentoo-multilib/${abi} else echo ${dir} fi } # prep_ml_includes: # # Some includes (include/asm, glibc, etc) are ABI dependent. In this case, # We can install them in different locations for each ABI and create a common # header which includes the right one based on CDEFINE_${ABI}. If your # package installs ABI-specific headers, just add 'prep_ml_includes' to the # end of your src_install(). It takes a list of directories that include # files are installed in (default is /usr/include if none are passed). # # Example: # src_install() { # ... # prep_ml_includes /usr/qt/3/include # } prep_ml_includes() { if [[ $(number_abis) -gt 1 ]] ; then local dir local dirs local base if [[ $# -eq 0 ]] ; then dirs=/usr/include else dirs="$@" fi for dir in ${dirs} ; do base=${T}/gentoo-multilib/${dir}/gentoo-multilib mkdir -p "${base}" [[ -d ${base}/${ABI} ]] && rm -rf "${base}/${ABI}" mv "${D}/${dir}" "${base}/${ABI}" done if is_final_abi; then base=${T}/gentoo-multilib pushd "${base}" find . | tar -c -T - -f - | tar -x --no-same-owner -f - -C ${D} popd # This 'set' stuff is required by mips profiles to properly pass # CDEFINE's (which have spaces) to sub-functions set -- for dir in ${dirs} ; do set -- "$@" "${dir}" local abi for abi in $(get_install_abis); do set -- "$@" "$(get_abi_CDEFINE ${abi}):${dir}/gentoo-multilib/${abi}" done create_ml_includes "$@" done fi fi } # If you need more control than prep_ml_includes can offer (like linux-headers # for the asm-* dirs, then use create_ml_includes. The firs argument is the # common dir. The remaining args are of the form : where # is what is put in the #ifdef for choosing that dir. # # Ideas for this code came from debian's sparc-linux headers package. # # Example: # create_ml_includes /usr/include/asm __sparc__:/usr/include/asm-sparc __sparc64__:/usr/include/asm-sparc64 # create_ml_includes /usr/include/asm __i386__:/usr/include/asm-i386 __x86_64__:/usr/include/asm-x86_64 # # Warning: Be careful with the ordering here. The default ABI has to be the # last, because it is always defined (by GCC) create_ml_includes() { local dest=$1 shift local basedirs=$(create_ml_includes-listdirs "$@") create_ml_includes-makedestdirs ${dest} ${basedirs} local file for file in $(create_ml_includes-allfiles ${basedirs}) ; do #local name=$(echo ${file} | tr '[:lower:]' '[:upper:]' | sed 's:[^[:upper:]]:_:g') ( echo "/* Autogenerated by create_ml_includes() in multilib.eclass */" local dir for dir in ${basedirs}; do if [[ -f ${D}/${dir}/${file} ]] ; then echo "" local sym=$(create_ml_includes-sym_for_dir ${dir} "$@") if [[ ${sym/=} != "${sym}" ]] ; then echo "#if ${sym}" elif [[ ${sym::1} == "!" ]] ; then echo "#ifndef ${sym:1}" else echo "#ifdef ${sym}" fi echo "# include <$(create_ml_includes-absolute ${dir}/${file})>" echo "#endif /* ${sym} */" fi done #echo "#endif /* __CREATE_ML_INCLUDES_STUB_${name}__ */" ) > "${D}/${dest}/${file}" done } # Helper function for create_ml_includes create_ml_includes-absolute() { local dst="$(create_ml_includes-tidy_path $1)" dst=(${dst//\// }) local i for ((i=0; i<${#dst[*]}; i++)); do [ "${dst[i]}" == "include" ] && break done local strip_upto=$i for ((i=strip_upto+1; i<${#dst[*]}-1; i++)); do echo -n ${dst[i]}/ done echo -n ${dst[i]} } # Helper function for create_ml_includes create_ml_includes-tidy_path() { local removed=$1 if [ -n "${removed}" ]; then # Remove multiple slashes while [ "${removed}" != "${removed/\/\//\/}" ]; do removed=${removed/\/\//\/} done # Remove . directories while [ "${removed}" != "${removed//\/.\//\/}" ]; do removed=${removed//\/.\//\/} done [ "${removed##*/}" = "." ] && removed=${removed%/*} # Removed .. directories while [ "${removed}" != "${removed//\/..\/}" ]; do local p1="${removed%%\/..\/*}" local p2="${removed#*\/..\/}" removed="${p1%\/*}/${p2}" done # Remove trailing .. [ "${removed##*/}" = ".." ] && removed=${removed%/*/*} # Remove trailing / [ "${removed##*/}" = "" ] && removed=${removed%/*} echo ${removed} fi } # Helper function for create_ml_includes create_ml_includes-listdirs() { local dirs local data for data in "$@"; do dirs="${dirs} ${data/*:/}" done echo ${dirs:1} } # Helper function for create_ml_includes create_ml_includes-makedestdirs() { local dest=$1 shift local basedirs=$@ dodir ${dest} local basedir for basedir in ${basedirs}; do local dir for dir in $(find ${D}/${basedir} -type d); do dodir ${dest}/${dir/${D}\/${basedir}/} done done } # Helper function for create_ml_includes create_ml_includes-allfiles() { local basedir file for basedir in "$@" ; do for file in $(find "${D}"/${basedir} -type f); do echo ${file/${D}\/${basedir}\//} done done | sort | uniq } # Helper function for create_ml_includes create_ml_includes-sym_for_dir() { local dir=$1 shift local data for data in "$@"; do if [[ ${data} == *:${dir} ]] ; then echo ${data/:*/} return 0 fi done echo "Shouldn't be here -- create_ml_includes-sym_for_dir $1 $@" # exit because we'll likely be called from a subshell exit 1 } get_libname() { local libname local ver=$1 case ${CHOST} in *-darwin*) libname="dylib";; *) libname="so";; esac if [[ -z $@ ]] ; then echo ".${libname}" else for ver in "$@" ; do case ${CHOST} in *-darwin*) echo ".${ver}.${libname}";; *) echo ".${libname}.${ver}";; esac done fi } # This is for the toolchain to setup profile variables when pulling in # a crosscompiler (and thus they aren't set in the profile) multilib_env() { local CTARGET=${1:-${CTARGET}} case ${CTARGET} in x86_64*) export CFLAGS_x86=${CFLAGS_x86--m32} export CHOST_x86=${CTARGET/x86_64/i686} export CTARGET_x86=${CHOST_x86} export CDEFINE_x86="__i386__" export LIBDIR_x86="lib" export CFLAGS_amd64=${CFLAGS_amd64--m64} export CHOST_amd64=${CTARGET} export CTARGET_amd64=${CHOST_amd64} export CDEFINE_amd64="__x86_64__" export LIBDIR_amd64="lib64" export MULTILIB_ABIS="amd64 x86" export DEFAULT_ABI="amd64" ;; mips64*) export CFLAGS_o32=${CFLAGS_o32--mabi=32} export CHOST_o32=${CTARGET/mips64/mips} export CTARGET_o32=${CHOST_o32} export CDEFINE_o32="_MIPS_SIM == _ABIO32" export LIBDIR_o32="lib" export CFLAGS_n32=${CFLAGS_n32--mabi=n32} export CHOST_n32=${CTARGET} export CTARGET_n32=${CHOST_n32} export CDEFINE_n32="_MIPS_SIM == _ABIN32" export LIBDIR_n32="lib32" export CFLAGS_n64=${CFLAGS_n64--mabi=64} export CHOST_n64=${CTARGET} export CTARGET_n64=${CHOST_n64} export CDEFINE_n64="_MIPS_SIM == _ABI64" export LIBDIR_n64="lib64" export MULTILIB_ABIS="n64 n32 o32" export DEFAULT_ABI="n32" ;; powerpc64*) export CFLAGS_ppc=${CFLAGS_ppc--m32} export CHOST_ppc=${CTARGET/powerpc64/powerpc} export CTARGET_ppc=${CHOST_ppc} export CDEFINE_ppc="!__powerpc64__" export LIBDIR_ppc="lib" export CFLAGS_ppc64=${CFLAGS_ppc64--m64} export CHOST_ppc64=${CTARGET} export CTARGET_ppc64=${CHOST_ppc64} export CDEFINE_ppc64="__powerpc64__" export LIBDIR_ppc64="lib64" export MULTILIB_ABIS="ppc64 ppc" export DEFAULT_ABI="ppc64" ;; s390x*) export CFLAGS_s390=${CFLAGS_s390--m31} # the 31 is not a typo export CHOST_s390=${CTARGET/s390x/s390} export CTARGET_s390=${CHOST_s390} export CDEFINE_s390="!__s390x__" export LIBDIR_s390="lib" export CFLAGS_s390x=${CFLAGS_s390x--m64} export CHOST_s390x=${CTARGET} export CTARGET_s390x=${CHOST_s390x} export CDEFINE_s390x="__s390x__" export LIBDIR_s390x="lib64" export MULTILIB_ABIS="s390x s390" export DEFAULT_ABI="s390x" ;; sparc64*) export CFLAGS_sparc32=${CFLAGS_sparc32--m32} export CHOST_sparc32=${CTARGET/sparc64/sparc} export CTARGET_sparc32=${CHOST_sparc32} export CDEFINE_sparc32="!__arch64__" export LIBDIR_sparc32="lib" export CFLAGS_sparc64=${CFLAGS_sparc64--m64} export CHOST_sparc64=${CTARGET} export CTARGET_sparc64=${CHOST_sparc64} export CDEFINE_sparc64="__arch64__" export LIBDIR_sparc64="lib64" export MULTILIB_ABIS="sparc64 sparc32" export DEFAULT_ABI="sparc64" ;; *) export MULTILIB_ABIS="default" export DEFAULT_ABI="default" ;; esac } # Hide multilib details here for packages which are forced to be compiled for a # specific ABI when run on another ABI (like x86-specific packages on amd64) multilib_toolchain_setup() { export ABI=$1 if has_version app-admin/eselect-compiler ; then # Binutils doesn't have wrappers for ld and as (yet). Eventually it # will, and all this can just be handled with CHOST. export LD="ld $(get_abi_LDFLAGS $1)" export AS="as $(get_abi_ASFLAGS $1)" export CHOST=$(get_abi_CHOST $1) export CBUILD=$(get_abi_CHOST $1) else tc-export CC fi }