# Copyright 1999-2009 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/sys-libs/glibc/Attic/glibc-2.4-r4.ebuild,v 1.24 2009/12/14 14:44:09 vapier dead $ # Here's how the cross-compile logic breaks down ... # CTARGET - machine that will target the binaries # CHOST - machine that will host the binaries # CBUILD - machine that will build the binaries # If CTARGET != CHOST, it means you want a libc for cross-compiling. # If CHOST != CBUILD, it means you want to cross-compile the libc. # CBUILD = CHOST = CTARGET - native build/install # CBUILD != (CHOST = CTARGET) - cross-compile a native build # (CBUILD = CHOST) != CTARGET - libc for cross-compiler # CBUILD != CHOST != CTARGET - cross-compile a libc for a cross-compiler # For install paths: # CHOST = CTARGET - install into / # CHOST != CTARGET - install into /usr/CTARGET/ KEYWORDS="-* amd64 ~ia64 ~mips ppc ppc64 s390 sh ~sparc x86" BRANCH_UPDATE="" # Generated man pages GLIBC_MANPAGE_VERSION="none" # Generated stuff in manual subdir GLIBC_INFOPAGE_VERSION="none" # Gentoo patchset PATCH_VER="1.19" # PPC cpu addon # http://penguinppc.org/dev/glibc/glibc-powerpc-cpu-addon.html PPC_CPU_ADDON_VER="0.01" PPC_CPU_ADDON_TARBALL="glibc-powerpc-cpu-addon-v${PPC_CPU_ADDON_VER}.tgz" PPC_CPU_ADDON_URI="http://penguinppc.org/dev/glibc/${PPC_CPU_ADDON_TARBALL}" # LinuxThreads addon LT_VER="20060605" LT_TARBALL="glibc-linuxthreads-${LT_VER}.tar.bz2" LT_URI="ftp://sources.redhat.com/pub/glibc/snapshots/${LT_TARBALL} mirror://gentoo/${LT_TARBALL}" GENTOO_TOOLCHAIN_BASE_URI="mirror://gentoo" GENTOO_TOOLCHAIN_DEV_URI="http://dev.gentoo.org/~azarah/glibc/XXX http://dev.gentoo.org/~vapier/dist/XXX" ### PUNT OUT TO ECLASS?? ### inherit eutils versionator toolchain-funcs flag-o-matic gnuconfig multilib DESCRIPTION="GNU libc6 (also called glibc2) C library" HOMEPAGE="http://www.gnu.org/software/libc/libc.html" LICENSE="LGPL-2" # note that nptl/nptlonly/glibc-compat20 are for upgrade checks only. # we dont generally support these things in this version. IUSE="build nptl nptlonly hardened multilib selinux glibc-omitfp profile glibc-compat20" export CBUILD=${CBUILD:-${CHOST}} export CTARGET=${CTARGET:-${CHOST}} if [[ ${CTARGET} == ${CHOST} ]] ; then if [[ ${CATEGORY/cross-} != ${CATEGORY} ]] ; then export CTARGET=${CATEGORY/cross-} fi fi is_crosscompile() { [[ ${CHOST} != ${CTARGET} ]] } just_headers() { is_crosscompile && use crosscompile_opts_headers-only } GLIBC_RELEASE_VER=$(get_version_component_range 1-3) # Don't set this to :-, - allows BRANCH_UPDATE="" BRANCH_UPDATE=${BRANCH_UPDATE-$(get_version_component_range 4)} # (Recent snapshots fails with 2.6.5 and earlier with NPTL) NPTL_KERNEL_VERSION=${NPTL_KERNEL_VERSION:-"2.6.9"} LT_KERNEL_VERSION=${LT_KERNEL_VERSION:-"2.4.1"} ### SRC_URI ### # This function handles the basics of setting the SRC_URI for a glibc ebuild. # To use, set SRC_URI with: # # SRC_URI="$(get_glibc_src_uri)" # # Other than the variables normally set by portage, this function's behavior # can be altered by setting the following: # # GENTOO_TOOLCHAIN_BASE_URI # This sets the base URI for all gentoo-specific patch files. Note # that this variable is only important for a brief period of time, # before your source files get picked up by mirrors. However, it is # still highly suggested that you keep files in this location # available. # # BRANCH_UPDATE # If set, this variable signals that we should be using the main # release tarball (determined by ebuild version) and applying a # CVS branch update patch against it. The location of this branch # update patch is assumed to be in ${GENTOO_TOOLCHAIN_BASE_URI}. # Just like with SNAPSHOT, this variable is ignored if the ebuild # has a _pre suffix. # # PATCH_VER # PATCH_GLIBC_VER # This should be set to the version of the gentoo patch tarball. # The resulting filename of this tarball will be: # glibc-${PATCH_GLIBC_VER:-${GLIBC_RELEASE_VER}}-patches-${PATCH_VER}.tar.bz2 # # GLIBC_MANPAGE_VERSION # GLIBC_INFOPAGE_VERSION # The version of glibc for which we will download pages. This will # default to ${GLIBC_RELEASE_VER}, but we may not want to pre-generate man pages # for prerelease test ebuilds for example. This allows you to # continue using pre-generated manpages from the last stable release. # If set to "none", this will prevent the downloading of manpages, # which is useful for individual library targets. # get_glibc_src_uri() { GENTOO_TOOLCHAIN_BASE_URI=${GENTOO_TOOLCHAIN_BASE_URI:-"mirror://gentoo"} # GLIBC_SRC_URI="http://ftp.gnu.org/gnu/glibc/glibc-${GLIBC_RELEASE_VER}.tar.bz2 # http://ftp.gnu.org/gnu/glibc/glibc-linuxthreads-${GLIBC_RELEASE_VER}.tar.bz2 # http://ftp.gnu.org/gnu/glibc/glibc-libidn-${GLIBC_RELEASE_VER}.tar.bz2 GLIBC_SRC_URI="mirror://gnu/glibc/glibc-${GLIBC_RELEASE_VER}.tar.bz2 mirror://gnu/glibc/glibc-ports-${GLIBC_RELEASE_VER}.tar.bz2 mirror://gnu/glibc/glibc-libidn-${GLIBC_RELEASE_VER}.tar.bz2" if [[ -n ${BRANCH_UPDATE} ]] ; then GLIBC_SRC_URI="${GLIBC_SRC_URI} ${GENTOO_TOOLCHAIN_BASE_URI}/glibc-${GLIBC_RELEASE_VER}-branch-update-${BRANCH_UPDATE}.patch.bz2 ${GENTOO_TOOLCHAIN_DEV_URI//XXX/glibc-${GLIBC_RELEASE_VER}-branch-update-${BRANCH_UPDATE}.patch.bz2}" fi if [[ -n ${PATCH_VER} ]] ; then GLIBC_SRC_URI="${GLIBC_SRC_URI} ${GENTOO_TOOLCHAIN_BASE_URI}/glibc-${PATCH_GLIBC_VER:-${GLIBC_RELEASE_VER}}-patches-${PATCH_VER}.tar.bz2 ${GENTOO_TOOLCHAIN_DEV_URI//XXX/glibc-${PATCH_GLIBC_VER:-${GLIBC_RELEASE_VER}}-patches-${PATCH_VER}.tar.bz2}" fi if [[ ${GLIBC_MANPAGE_VERSION} != "none" ]] ; then GLIBC_SRC_URI="${GLIBC_SRC_URI} ${GENTOO_TOOLCHAIN_BASE_URI}/glibc-manpages-${GLIBC_MANPAGE_VERSION:-${GLIBC_RELEASE_VER}}.tar.bz2 ${GENTOO_TOOLCHAIN_DEV_URI//XXX/glibc-manpages-${GLIBC_MANPAGE_VERSION:-${GLIBC_RELEASE_VER}}.tar.bz2}" fi if [[ ${GLIBC_INFOPAGE_VERSION} != "none" ]] ; then GLIBC_SRC_URI="${GLIBC_SRC_URI} ${GENTOO_TOOLCHAIN_BASE_URI}/glibc-infopages-${GLIBC_INFOPAGE_VERSION:-${GLIBC_RELEASE_VER}}.tar.bz2 ${GENTOO_TOOLCHAIN_DEV_URI//XXX/glibc-infopages-${GLIBC_INFOPAGE_VERSION:-${GLIBC_RELEASE_VER}}.tar.bz2}" fi [[ -n ${LT_VER} ]] && GLIBC_SRC_URI="${GLIBC_SRC_URI} ${LT_URI}" GLIBC_SRC_URI="${GLIBC_SRC_URI} ${PPC_CPU_ADDON_URI}" echo "${GLIBC_SRC_URI}" } SRC_URI=$(get_glibc_src_uri) S=${WORKDIR}/glibc-${GLIBC_RELEASE_VER} ### EXPORTED FUNCTIONS ### unpack_addon() { local addon=$1 ver=${2:-${GLIBC_RELEASE_VER}} unpack glibc-${addon}-${ver}.tar.bz2 mv glibc-${addon}-${ver} ${addon} || die } toolchain-glibc_src_unpack() { # Check NPTL support _before_ we unpack things to save some time want_nptl && check_nptl_support unpack glibc-${GLIBC_RELEASE_VER}.tar.bz2 cd "${S}" if [[ -n ${LT_VER} ]] ; then unpack ${LT_TARBALL} mv glibc-linuxthreads-${LT_VER}/* . || die fi unpack_addon libidn unpack_addon ports if [[ -n ${PPC_CPU_ADDON_TARBALL} ]] ; then cd "${S}" unpack ${PPC_CPU_ADDON_TARBALL} fi if [[ -n ${PATCH_VER} ]] ; then cd "${WORKDIR}" unpack glibc-${PATCH_GLIBC_VER:-${GLIBC_RELEASE_VER}}-patches-${PATCH_VER}.tar.bz2 # pull out all the addons local d for d in extra/*/configure ; do mv "${d%/configure}" "${S}" || die "moving ${d}" done fi # XXX: We should do the branchupdate, before extracting the manpages and # infopages else it does not help much (mtimes change if there is a change # to them with branchupdate) if [[ -n ${BRANCH_UPDATE} ]] ; then cd "${S}" epatch "${DISTDIR}"/glibc-${GLIBC_RELEASE_VER}-branch-update-${BRANCH_UPDATE}.patch.bz2 # Snapshot date patch einfo "Patching version to display snapshot date ..." sed -i -e "s:\(#define RELEASE\).*:\1 \"${BRANCH_UPDATE}\":" version.h fi if [[ ${GLIBC_MANPAGE_VERSION} != "none" ]] ; then cd "${WORKDIR}" unpack glibc-manpages-${GLIBC_MANPAGE_VERSION:-${GLIBC_RELEASE_VER}}.tar.bz2 fi if [[ ${GLIBC_INFOPAGE_VERSION} != "none" ]] ; then cd "${S}" unpack glibc-infopages-${GLIBC_INFOPAGE_VERSION:-${GLIBC_RELEASE_VER}}.tar.bz2 fi if [[ -n ${PATCH_VER} ]] ; then cd "${S}" EPATCH_MULTI_MSG="Applying Gentoo Glibc Patchset ${PATCH_GLIBC_VER:-${GLIBC_RELEASE_VER}}-${PATCH_VER} ..." \ EPATCH_EXCLUDE=${GLIBC_PATCH_EXCLUDE} \ EPATCH_SUFFIX="patch" \ ARCH=$(tc-arch) \ epatch "${WORKDIR}"/patches # tag, glibc is it [[ -e csu/Banner ]] && die "need new banner location" echo "Gentoo patchset ${PATCH_VER}" > csu/Banner fi gnuconfig_update } toolchain-glibc_src_compile() { echo local v for v in ABI CBUILD CHOST CTARGET CBUILD_OPT CTARGET_OPT CC CFLAGS ; do einfo " $(printf '%15s' ${v}:) ${!v}" done echo if want_linuxthreads ; then glibc_do_configure linuxthreads einfo "Building GLIBC with linuxthreads..." make PARALLELMFLAGS="${MAKEOPTS}" || die "make for ${ABI} failed" fi if want_nptl ; then # ... and then do the optional nptl build unset LD_ASSUME_KERNEL glibc_do_configure nptl einfo "Building GLIBC with NPTL..." make PARALLELMFLAGS="${MAKEOPTS}" || die "make for ${ABI} failed" fi } toolchain-glibc_headers_compile() { local GBUILDDIR=${WORKDIR}/build-${ABI}-${CTARGET}-headers mkdir -p "${GBUILDDIR}" cd "${GBUILDDIR}" # Pick out the correct location for build headers local myconf="--disable-sanity-checks --enable-hacker-mode" myconf="${myconf} --enable-add-ons=nptl,ports --without-cvs --enable-bind-now --build=${CBUILD_OPT:-${CBUILD}} --host=${CTARGET_OPT:-${CTARGET}} --with-headers=$(alt_build_headers) --prefix=/usr ${EXTRA_ECONF}" einfo "Configuring GLIBC headers with: ${myconf// /\n\t\t}" CC=gcc \ CFLAGS="-O1 -pipe" \ "${S}"/configure ${myconf} || die "failed to configure glibc" } toolchain-glibc_src_test() { cd "${WORKDIR}"/build-${ABI}-${CTARGET}-$1 || die "cd build-${ABI}-${CTARGET}-$1" unset LD_ASSUME_KERNEL make check || die "make check failed for ${ABI}-${CTARGET}-$1" } toolchain-glibc_pkg_preinst() { # PPC64+others may want to eventually be added to this logic if they # decide to be multilib compatible and FHS compliant. note that this # chunk of FHS compliance only applies to 64bit archs where 32bit # compatibility is a major concern (not IA64, for example). # amd64's 2005.0 is the first amd64 profile to not need this code. # 2005.0 is setup properly, and this is executed as part of the # 2004.3 -> 2005.0 upgrade script. # It can be removed after 2004.3 has been purged from portage. { use amd64 || use ppc64; } && [ "$(get_libdir)" == "lib64" ] && ! has_multilib_profile && fix_lib64_symlinks # it appears that /lib/tls is sometimes not removed. See bug # 69258 for more info. if [[ -d ${ROOT}/$(alt_libdir)/tls ]] && ! { want_nptl && want_linuxthreads; }; then addwrite "${ROOT}"/$(alt_libdir)/ ewarn "nptlonly or -nptl in USE, removing /${ROOT}$(alt_libdir)/tls..." rm -r "${ROOT}"/$(alt_libdir)/tls || die fi # Shouldnt need to keep this updated [[ -e ${ROOT}/etc/locale.gen ]] && rm -f "${D}"/etc/locale.gen } toolchain-glibc_src_install() { # These should not be set, else the # zoneinfo do not always get installed ... unset LANGUAGE LANG LC_ALL local GBUILDDIR if want_linuxthreads ; then GBUILDDIR=${WORKDIR}/build-${ABI}-${CTARGET}-linuxthreads else GBUILDDIR=${WORKDIR}/build-${ABI}-${CTARGET}-nptl fi local install_root=${D} if is_crosscompile ; then install_root="${install_root}/usr/${CTARGET}" fi if want_linuxthreads ; then cd "${WORKDIR}"/build-${ABI}-${CTARGET}-linuxthreads einfo "Installing GLIBC ${ABI} with linuxthreads ..." make PARALLELMFLAGS="${MAKEOPTS} -j1" \ install_root="${install_root}" \ install || die else # nptlonly cd "${WORKDIR}"/build-${ABI}-${CTARGET}-nptl einfo "Installing GLIBC ${ABI} with NPTL ..." make PARALLELMFLAGS="${MAKEOPTS} -j1" \ install_root="${install_root}" \ install || die fi if is_crosscompile ; then # punt all the junk not needed by a cross-compiler cd "${D}"/usr/${CTARGET} || die rm -rf ./{,usr/}{bin,etc,sbin,share} ./{,usr/}*/{gconv,misc} fi if want_linuxthreads && want_nptl ; then einfo "Installing NPTL to $(alt_libdir)/tls/..." cd "${WORKDIR}"/build-${ABI}-${CTARGET}-nptl dodir $(alt_libdir)/tls $(alt_usrlibdir)/nptl local l src_lib for l in libc libm librt libpthread libthread_db ; do # take care of shared lib first ... l=${l}.so if [[ -e ${l} ]] ; then src_lib=${l} else src_lib=$(eval echo */${l}) fi cp -a ${src_lib} "${D}"$(alt_libdir)/tls/${l} || die "copying nptl ${l}" fperms a+rx $(alt_libdir)/tls/${l} dosym ${l} $(alt_libdir)/tls/$(scanelf -qSF'%S#F' ${src_lib}) # then grab the linker script or the symlink ... if [[ -L ${D}$(alt_usrlibdir)/${l} ]] ; then dosym $(alt_libdir)/tls/${l} $(alt_usrlibdir)/nptl/${l} else sed \ -e "s:/${l}:/tls/${l}:g" \ -e "s:/${l/%.so/_nonshared.a}:/nptl/${l/%.so/_nonshared.a}:g" \ "${D}"$(alt_usrlibdir)/${l} > "${D}"$(alt_usrlibdir)/nptl/${l} fi # then grab the static lib ... src_lib=${src_lib/%.so/.a} [[ ! -e ${src_lib} ]] && src_lib=${src_lib/%.a/_pic.a} cp -a ${src_lib} "${D}"$(alt_usrlibdir)/nptl/ || die "copying nptl ${src_lib}" src_lib=${src_lib/%.a/_nonshared.a} if [[ -e ${src_lib} ]] ; then cp -a ${src_lib} "${D}"$(alt_usrlibdir)/nptl/ || die "copying nptl ${src_lib}" fi done # use the nptl linker instead of the linuxthreads one as the linuxthreads # one may lack TLS support and that can be really bad for business cp -a elf/ld.so "${D}"$(alt_libdir)/$(scanelf -qSF'%S#F' elf/ld.so) || die "copying nptl interp" fi # We'll take care of the cache ourselves rm -f "${D}"/etc/ld.so.cache # Some things want this, notably ash. dosym libbsd-compat.a $(alt_usrlibdir)/libbsd.a # Handle includes for different ABIs prep_ml_includes $(alt_headers) # When cross-compiling for a non-multilib setup, make sure we have # lib and a proper symlink setup if is_crosscompile && ! use multilib && ! has_multilib_profile && [[ $(get_libdir) != "lib" ]] ; then cd "${D}"$(alt_libdir)/.. mv $(get_libdir) lib || die ln -s lib $(get_libdir) || die cd "${D}"$(alt_usrlibdir)/.. mv $(get_libdir) lib || die ln -s lib $(get_libdir) || die fi ################################################################# # EVERYTHING AFTER THIS POINT IS FOR NATIVE GLIBC INSTALLS ONLY # # Make sure we install some symlink hacks so that when we build # a 2nd stage cross-compiler, gcc finds the target system # headers correctly. See gcc/doc/gccinstall.info if is_crosscompile ; then dosym usr/include /usr/${CTARGET}/sys-include return 0 fi # Everything past this point just needs to be done once ... is_final_abi || return 0 # Make sure the non-native interp can be found on multilib systems if has_multilib_profile ; then case $(tc-arch) in amd64) [[ ! -e ${D}/lib ]] && dosym $(get_abi_LIBDIR amd64) /lib dosym /$(get_abi_LIBDIR x86)/ld-linux.so.2 /lib/ld-linux.so.2 ;; ppc64) [[ ! -e ${D}/lib ]] && dosym $(get_abi_LIBDIR ppc64) /lib dosym /$(get_abi_LIBDIR ppc)/ld.so.1 /lib/ld.so.1 ;; esac fi # Files for Debian-style locale updating dodir /usr/share/i18n sed \ -e "/^#/d" \ -e "/SUPPORTED-LOCALES=/d" \ -e "s: \\\\::g" -e "s:/: :g" \ "${S}"/localedata/SUPPORTED > "${D}"/usr/share/i18n/SUPPORTED \ || die "generating /usr/share/i18n/SUPPORTED failed" cd "${WORKDIR}"/extra/locale dosbin locale-gen || die doman *.[0-8] insinto /etc doins locale.gen || die # Make sure all the ABI's can find the locales and so we only # have to generate one set local a keepdir /usr/$(get_libdir)/locale for a in $(get_install_abis) ; do if [[ ! -e ${D}/usr/$(get_abi_LIBDIR ${a})/locale ]] ; then dosym /usr/$(get_libdir)/locale /usr/$(get_abi_LIBDIR ${a})/locale fi done if ! has noinfo ${FEATURES} && [[ ${GLIBC_INFOPAGE_VERSION} != "none" ]] ; then einfo "Installing info pages..." make \ -C "${GBUILDDIR}" \ PARALLELMFLAGS="${MAKEOPTS} -j1" \ install_root="${install_root}" \ info -i || die fi if [[ ${GLIBC_MANPAGE_VERSION} != "none" ]] ; then einfo "Installing man pages..." # Install linuxthreads man pages even if nptl is enabled cd "${WORKDIR}"/man doman *.3thr fi # Install misc network config files insinto /etc doins "${WORKDIR}"/extra/etc/*.conf || die doinitd "${WORKDIR}"/extra/etc/nscd || die cd "${S}" dodoc BUGS ChangeLog* CONFORMANCE FAQ INTERFACE NEWS NOTES PROJECTS README* # Prevent overwriting of the /etc/localtime symlink. We'll handle the # creation of the "factory" symlink in pkg_postinst(). rm -f "${D}"/etc/localtime # simple test to make sure our new glibc isnt completely broken. # for now, skip the multilib scenario. also make sure we don't # test with statically built binaries since they will fail. [[ ${CBUILD} != ${CHOST} ]] && return 0 [[ $(get_libdir) != "lib" ]] && return 0 for x in date env ls true uname ; do x=$(type -p ${x}) [[ -z ${x} ]] && continue striptest=$(LC_ALL="C" file -L ${x} 2>/dev/null) [[ -z ${striptest} ]] && continue [[ ${striptest} == *"statically linked"* ]] && continue "${D}"/$(get_libdir)/ld-*.so \ --library-path "${D}"/$(get_libdir) \ ${x} > /dev/null \ || die "simple run test (${x}) failed" done } toolchain-glibc_headers_install() { local GBUILDDIR=${WORKDIR}/build-${ABI}-${CTARGET}-headers cd "${GBUILDDIR}" make install_root="${D}/usr/${CTARGET}" install-headers || die "install-headers failed" # Copy over headers that are not part of install-headers ... these # are pretty much taken verbatim from crosstool, see it for more details insinto $(alt_headers)/bits doins misc/syscall-list.h bits/stdio_lim.h || die "doins include bits" insinto $(alt_headers)/gnu doins "${S}"/include/gnu/stubs.h || die "doins include gnu" # Make sure we install the sys-include symlink so that when # we build a 2nd stage cross-compiler, gcc finds the target # system headers correctly. See gcc/doc/gccinstall.info dosym usr/include /usr/${CTARGET}/sys-include } toolchain-glibc_pkg_postinst() { # Mixing nptlonly and -nptlonly glibc can prove dangerous if libpthread # isn't removed in unmerge which happens sometimes. See bug #87671 if ! is_crosscompile && want_linuxthreads && [[ ${ROOT} == "/" ]] ; then for libdir in $(get_all_libdirs) ; do for f in "${ROOT}"/${libdir}/libpthread-2.* "${ROOT}"/${libdir}/libpthread-0.6* ; do if [[ -f ${f} ]] ; then rm -f ${f} ldconfig fi done done fi if ! tc-is-cross-compiler && [[ -x ${ROOT}/usr/sbin/iconvconfig ]] ; then # Generate fastloading iconv module configuration file. "${ROOT}"/usr/sbin/iconvconfig --prefix="${ROOT}" fi if [[ ! -e ${ROOT}/lib/ld.so.1 ]] && use ppc64 && ! has_multilib_profile ; then ## SHOULDN'T THIS BE lib64?? ln -s ld64.so.1 "${ROOT}"/lib/ld.so.1 fi if ! is_crosscompile && [[ ${ROOT} == "/" ]] ; then # Reload init ... /sbin/telinit U &> /dev/null # if the host locales.gen contains no entries, we'll install everything local locale_list="${ROOT}etc/locale.gen" if [[ -z $(locale-gen --list --config "${locale_list}") ]] ; then ewarn "Generating all locales; edit /etc/locale.gen to save time/space" locale_list="${ROOT}usr/share/i18n/SUPPORTED" fi local x jobs for x in ${MAKEOPTS} ; do [[ ${x} == -j* ]] && jobs=${x#-j} ; done locale-gen -j ${jobs:-1} --config "${locale_list}" fi echo einfo "Gentoo's glibc no longer includes mdns." einfo "If you want mdns, emerge the sys-auth/nss-mdns package." echo if want_nptl && want_linuxthreads ; then einfo "The default behavior of glibc on your system is to use NPTL. If" einfo "you want to use linuxthreads for a particular program, start it" einfo "by executing 'LD_ASSUME_KERNEL=${LT_KERNEL_VERSION} []'" echo fi } ### SUPPORT FUNCTIONS ### # We need to be able to set alternative headers for # compiling for non-native platform # Will also become useful for testing kernel-headers without screwing up # the whole system. # note: intentionally undocumented. alt_headers() { if [[ -z ${ALT_HEADERS} ]] ; then if is_crosscompile ; then ALT_HEADERS="/usr/${CTARGET}/usr/include" else ALT_HEADERS="/usr/include" fi fi echo "${ALT_HEADERS}" } alt_build_headers() { if [[ -z ${ALT_BUILD_HEADERS} ]] ; then ALT_BUILD_HEADERS=$(alt_headers) tc-is-cross-compiler && ALT_BUILD_HEADERS=${ROOT}$(alt_headers) fi echo "${ALT_BUILD_HEADERS}" } alt_libdir() { if is_crosscompile ; then echo /usr/${CTARGET}/$(get_libdir) else echo /$(get_libdir) fi } alt_usrlibdir() { if is_crosscompile ; then echo /usr/${CTARGET}/usr/$(get_libdir) else echo /usr/$(get_libdir) fi } setup_flags() { # Make sure host make.conf doesn't pollute us if is_crosscompile || tc-is-cross-compiler ; then CHOST=${CTARGET} strip-unsupported-flags fi # Store our CFLAGS because it's changed depending on which CTARGET # we are building when pulling glibc on a multilib profile CFLAGS_BASE=${CFLAGS_BASE-${CFLAGS}} CFLAGS=${CFLAGS_BASE} ASFLAGS_BASE=${ASFLAGS_BASE-${ASFLAGS}} ASFLAGS=${ASFLAGS_BASE} # Over-zealous CFLAGS can often cause problems. What may work for one # person may not work for another. To avoid a large influx of bugs # relating to failed builds, we strip most CFLAGS out to ensure as few # problems as possible. strip-flags strip-unsupported-flags filter-flags -m32 -m64 -mabi=* unset CBUILD_OPT CTARGET_OPT if has_multilib_profile ; then CTARGET_OPT=$(get_abi_CTARGET) [[ -z ${CTARGET_OPT} ]] && CTARGET_OPT=$(get_abi_CHOST) fi case $(tc-arch) in amd64) # Punt this when amd64's 2004.3 is removed CFLAGS_x86="-m32" ;; ppc) append-flags "-freorder-blocks" ;; sparc) # Both sparc and sparc64 can use -fcall-used-g6. -g7 is bad, though. filter-flags "-fcall-used-g7" append-flags "-fcall-used-g6" filter-flags "-mvis" if is_crosscompile || [[ ${PROFILE_ARCH} == "sparc64" ]] || { has_multilib_profile && ! tc-is-cross-compiler; } ; then case ${ABI} in sparc64) filter-flags -Wa,-xarch -Wa,-A if is-flag "-mcpu=ultrasparc3"; then CTARGET_OPT="sparc64b-unknown-linux-gnu" append-flags "-Wa,-xarch=v9b" export ASFLAGS="${ASFLAGS} -Wa,-xarch=v9b" else CTARGET_OPT="sparc64-unknown-linux-gnu" append-flags "-Wa,-xarch=v9a" export ASFLAGS="${ASFLAGS} -Wa,-xarch=v9a" fi ;; *) if is-flag "-mcpu=ultrasparc3"; then CTARGET_OPT="sparcv9b-unknown-linux-gnu" else CTARGET_OPT="sparcv9-unknown-linux-gnu" fi ;; esac else if is-flag "-mcpu=ultrasparc3"; then CTARGET_OPT="sparcv9b-unknown-linux-gnu" elif { is_crosscompile && want_nptl; } || is-flag "-mcpu=ultrasparc2" || is-flag "-mcpu=ultrasparc"; then CTARGET_OPT="sparcv9-unknown-linux-gnu" fi fi ;; esac if [[ -n ${CTARGET_OPT} && ${CBUILD} == ${CHOST} ]] && ! is_crosscompile; then CBUILD_OPT=${CTARGET_OPT} fi if $(tc-getCC ${CTARGET}) -v 2>&1 | grep -q 'gcc version 3.[0123]'; then append-flags -finline-limit=2000 fi # We dont want these flags for glibc filter-ldflags -pie # Lock glibc at -O2 -- linuxthreads needs it and we want to be # conservative here. -fno-strict-aliasing is to work around #155906 filter-flags -O? append-flags -O2 -fno-strict-aliasing } check_kheader_version() { local header="$(alt_build_headers)/linux/version.h" [[ -z $1 ]] && return 1 if [[ -f ${header} ]] ; then local version=$(grep 'LINUX_VERSION_CODE' ${header} | \ sed -e 's:^.*LINUX_VERSION_CODE[[:space:]]*::') if [[ ${version} -ge "$1" ]] ; then return 0 fi fi return 1 } check_nptl_support() { local min_kernel_version=$(KV_to_int "${NPTL_KERNEL_VERSION}") echo ebegin "Checking gcc for __thread support" if ! eend $(want__thread ; echo $?) ; then echo eerror "Could not find a gcc that supports the __thread directive!" eerror "Please update your binutils/gcc and try again." die "No __thread support in gcc!" fi if ! is_crosscompile && ! tc-is-cross-compiler ; then # Building fails on an non-supporting kernel ebegin "Checking kernel version (>=${NPTL_KERNEL_VERSION})" if ! eend $([[ $(get_KV) -ge ${min_kernel_version} ]] ; echo $?) ; then echo eerror "You need a kernel of at least version ${NPTL_KERNEL_VERSION}" eerror "for NPTL support!" die "Kernel version too low!" fi fi # Building fails with too low linux-headers ebegin "Checking linux-headers version (>=${NPTL_KERNEL_VERSION})" if ! eend $(check_kheader_version "${min_kernel_version}" ; echo $?) ; then echo eerror "You need linux-headers of at least version ${NPTL_KERNEL_VERSION}" eerror "for NPTL support!" die "linux-headers version too low!" fi echo } want_nptl() { want_tls || return 1 use nptl || return 1 # Only list the arches that cannot do NPTL case $(tc-arch) in hppa|m68k) return 1;; sparc) # >= v9 is needed for nptl. [[ ${PROFILE_ARCH} == "sparc" ]] && return 1 ;; esac return 0 } want_linuxthreads() { ! use nptlonly && return 0 want_nptl || return 0 return 1 } want_tls() { # Archs that can use TLS (Thread Local Storage) case $(tc-arch) in sparc) # 2.3.6 should have tls support on sparc64 # when using newer binutils case ${CTARGET/-*} in sparc64*) return 1 ;; *) return 0 ;; esac ;; x86) # requires i486 or better #106556 [[ ${CTARGET} == i[4567]86* ]] && return 0 return 1 ;; esac return 0 } want__thread() { want_tls || return 1 # For some reason --with-tls --with__thread is causing segfaults on sparc32. [[ ${PROFILE_ARCH} == "sparc" ]] && return 1 [[ -n ${WANT__THREAD} ]] && return ${WANT__THREAD} echo 'extern __thread int i;' > "${T}"/test-__thread.c $(tc-getCC ${CTARGET}) -c "${T}"/test-__thread.c -o "${T}"/test-__thread.o &> /dev/null WANT__THREAD=$? rm -f "${T}"/test-__thread.[co] return ${WANT__THREAD} } glibc_do_configure() { local myconf # set addons pushd "${S}" > /dev/null local ADDONS=$(echo */configure | sed \ -e 's:/configure::g' \ -e 's:\(linuxthreads\|nptl\|rtkaio\|glibc-compat\)\( \|$\)::g' \ -e 's: \+$::' \ -e 's! !,!g' \ -e 's!^!,!' \ -e '/^,\*$/d') popd > /dev/null if [[ -n ${PPC_CPU_ADDON_VER} ]] && [[ $(tc-arch) == ppc* ]] ; then ADDONS="${ADDONS},powerpc-cpu" case $(get-flag mcpu) in 970|power4|power5|power5+) myconf="${myconf} --with-cpu=$(get-flag mcpu)" esac fi myconf="${myconf} $(use_enable hardened stackguard-randomization)" if [[ $(<"${T}"/.ssp.compat) == "yes" ]] ; then myconf="${myconf} --enable-old-ssp-compat" else myconf="${myconf} --disable-old-ssp-compat" fi use glibc-omitfp && myconf="${myconf} --enable-omitfp" [[ ${CTARGET//_/-} == *-softfloat-* ]] && myconf="${myconf} --without-fp" if [[ $1 == "linuxthreads" ]] ; then if want_tls ; then myconf="${myconf} --with-tls" if ! want__thread || use glibc-compat20 || [[ ${LT_KERNEL_VERSION} == 2.[02].* ]] ; then myconf="${myconf} --without-__thread" else myconf="${myconf} --with-__thread" fi else myconf="${myconf} --without-tls --without-__thread" fi myconf="${myconf} --disable-sanity-checks" myconf="${myconf} --enable-add-ons=ports,linuxthreads${ADDONS}" myconf="${myconf} --enable-kernel=${LT_KERNEL_VERSION}" elif [[ $1 == "nptl" ]] ; then myconf="${myconf} --with-tls --with-__thread" myconf="${myconf} --enable-add-ons=ports,nptl${ADDONS}" myconf="${myconf} --enable-kernel=${NPTL_KERNEL_VERSION}" else die "invalid pthread option" fi # Since SELinux support is only required for nscd, only enable it if: # 1. USE selinux # 2. ! USE build # 3. only for the primary ABI on multilib systems if use selinux && ! use build ; then if use multilib || has_multilib_profile ; then if is_final_abi ; then myconf="${myconf} --with-selinux" else myconf="${myconf} --without-selinux" fi else myconf="${myconf} --with-selinux" fi else myconf="${myconf} --without-selinux" fi myconf="${myconf} --without-cvs --enable-bind-now --build=${CBUILD_OPT:-${CBUILD}} --host=${CTARGET_OPT:-${CTARGET}} $(use_enable profile) --without-gd --with-headers=$(alt_build_headers) --prefix=/usr --libdir=/usr/$(get_libdir) --mandir=/usr/share/man --infodir=/usr/share/info --libexecdir=/usr/$(get_libdir)/misc/glibc ${EXTRA_ECONF}" # There is no configure option for this and we need to export it # since the glibc build will re-run configure on itself export libc_cv_slibdir=/$(get_libdir) has_version app-admin/eselect-compiler || export CC=$(tc-getCC ${CTARGET}) local GBUILDDIR=${WORKDIR}/build-${ABI}-${CTARGET}-$1 mkdir -p "${GBUILDDIR}" cd "${GBUILDDIR}" einfo "Configuring GLIBC for $1 with: ${myconf// /\n\t\t}" "${S}"/configure ${myconf} || die "failed to configure glibc" } fix_lib64_symlinks() { # the original Gentoo/AMD64 devs decided that since 64bit is the native # bitdepth for AMD64, lib should be used for 64bit libraries. however, # this ignores the FHS and breaks multilib horribly... especially # since it wont even work without a lib64 symlink anyways. *rolls eyes* # see bug 59710 for more information. # Travis Tilley (08 Aug 2004) if [ -L ${ROOT}/lib64 ] ; then ewarn "removing /lib64 symlink and moving lib to lib64..." ewarn "dont hit ctrl-c until this is done" addwrite ${ROOT}/ rm ${ROOT}/lib64 # now that lib64 is gone, nothing will run without calling ld.so # directly. luckily the window of brokenness is almost non-existant use amd64 && /lib/ld-linux-x86-64.so.2 /bin/mv ${ROOT}/lib ${ROOT}/lib64 use ppc64 && /lib/ld64.so.1 /bin/mv ${ROOT}/lib ${ROOT}/lib64 # all better :) ldconfig ln -s lib64 ${ROOT}/lib einfo "done! :-)" einfo "fixed broken lib64/lib symlink in ${ROOT}" fi if [ -L ${ROOT}/usr/lib64 ] ; then addwrite ${ROOT}/usr rm ${ROOT}/usr/lib64 mv ${ROOT}/usr/lib ${ROOT}/usr/lib64 ln -s lib64 ${ROOT}/usr/lib einfo "fixed broken lib64/lib symlink in ${ROOT}/usr" fi if [ -L ${ROOT}/usr/X11R6/lib64 ] ; then addwrite ${ROOT}/usr/X11R6 rm ${ROOT}/usr/X11R6/lib64 mv ${ROOT}/usr/X11R6/lib ${ROOT}/usr/X11R6/lib64 ln -s lib64 ${ROOT}/usr/X11R6/lib einfo "fixed broken lib64/lib symlink in ${ROOT}/usr/X11R6" fi } use_multilib() { case ${CTARGET} in sparc64*|mips64*|x86_64*|powerpc64*|s390x*) has_multilib_profile || use multilib ;; *) false ;; esac } # Setup toolchain variables that would be defined in the profiles for these archs. setup_env() { # These should not be set, else the zoneinfo do not always get installed ... unset LANGUAGE LANG LC_ALL # silly users unset LD_RUN_PATH if is_crosscompile || tc-is-cross-compiler ; then multilib_env ${CTARGET} if ! use multilib ; then MULTILIB_ABIS=${DEFAULT_ABI} else MULTILIB_ABIS=${MULTILIB_ABIS:-${DEFAULT_ABI}} fi # If the user has CFLAGS_ in their make.conf, use that, # and fall back on CFLAGS. local VAR=CFLAGS_${CTARGET//[-.]/_} CFLAGS=${!VAR-${CFLAGS}} fi setup_flags export ABI=${ABI:-${DEFAULT_ABI:-default}} if is_crosscompile || tc-is-cross-compiler ; then local VAR=CFLAGS_${ABI} # We need to export CFLAGS with abi information in them because # glibc's configure script checks CFLAGS for some targets (like mips) export CFLAGS="${!VAR} ${CFLAGS}" fi } ### /ECLASS PUNTAGE ### if is_crosscompile ; then SLOT="${CTARGET}-2.2" else SLOT="2.2" fi # we'll handle stripping ourself #46186 RESTRICT="strip" EMULTILIB_PKG="true" # General: We need a new-enough binutils for as-needed # arch: we need to make sure our binutils/gcc supports TLS DEPEND=">=sys-devel/gcc-3.4.4 arm? ( >=sys-devel/binutils-2.16.90 >=sys-devel/gcc-4.1.0 ) ppc? ( >=sys-devel/gcc-4.1.0 ) ppc64? ( >=sys-devel/gcc-4.1.0 ) nptl? ( || ( >=sys-kernel/mips-headers-${NPTL_KERNEL_VERSION} >=sys-kernel/linux-headers-${NPTL_KERNEL_VERSION} ) ) >=sys-devel/binutils-2.15.94 >=sys-devel/gcc-config-1.3.12 >=app-misc/pax-utils-0.1.10 virtual/os-headers selinux? ( !build? ( sys-libs/libselinux ) )" RDEPEND="selinux? ( !build? ( sys-libs/libselinux ) )" if [[ ${CATEGORY/cross-} != ${CATEGORY} ]] ; then DEPEND="${DEPEND} !crosscompile_opts_headers-only? ( ${CATEGORY}/gcc )" if [[ ${CATEGORY} == *-linux* ]] ; then if [[ ${CATEGORY} == cross-mips* ]] ; then DEPEND="${DEPEND} >=${CATEGORY}/mips-headers-2.6.10" else DEPEND="${DEPEND} ${CATEGORY}/linux-headers" fi fi else DEPEND="${DEPEND} sys-libs/timezone-data" RDEPEND="${RDEPEND} sys-libs/timezone-data" fi pkg_setup() { # prevent native builds from downgrading ... maybe update to allow people # to change between diff -r versions ? (2.3.6-r4 -> 2.3.6-r2) if ! is_crosscompile && ! tc-is-cross-compiler ; then if has_version '>'${CATEGORY}/${PF} ; then eerror "Sanity check to keep you from breaking your system:" eerror " Downgrading glibc is not supported and a sure way to destruction" die "aborting to save your system" fi fi if use glibc-compat20 ; then eerror "This version no longer provides compatibility with old broken" eerror "applications. If you need this support, call your vendor" eerror "and tell them to release an update that isn't broken." die "non-TLS symbol errno@glibc_2.0 not supported" fi if want_linuxthreads ; then ewarn "glibc-2.4 is nptl-only!" [[ ${CTARGET} == i386-* ]] && eerror "NPTL requires a CHOST of i486 or better" die "please add USE='nptl nptlonly' to make.conf" fi if use nptlonly && ! use nptl ; then eerror "If you want nptlonly, add nptl to your USE too ;p" die "nptlonly without nptl" fi if [[ -e /proc/xen ]] && [[ $(tc-arch) == "x86" ]] && ! is-flag -mno-tls-direct-seg-refs ; then ewarn "You are using Xen but don't have -mno-tls-direct-seg-refs in your CFLAGS." ewarn "This will result in a 50% performance penalty, which is probably not what you want." fi if ! type -p scanelf > /dev/null ; then eerror "You do not have pax-utils installed." die "install pax-utils" fi # give some sort of warning about the nptl logic changes... if want_nptl && want_linuxthreads ; then ewarn "Warning! Gentoo's GLIBC with NPTL enabled now behaves like the" ewarn "glibc from almost every other distribution out there. This means" ewarn "that glibc is compiled -twice-, once with linuxthreads and once" ewarn "with nptl. The NPTL version is installed to lib/tls and is still" ewarn "used by default. If you do not need nor want the linuxthreads" ewarn "fallback, you can disable this behavior by adding nptlonly to" ewarn "USE to save yourself some compile time." ebeep epause 5 fi } src_unpack() { setup_env toolchain-glibc_src_unpack # Backwards SSP support cd "${S}" # For now, we force everyone to have the extra symbols # einfon "Scanning system for __guard to see if we need SSP compat ... " # if [[ -n $(scanelf -qyls__guard -F'#s%F' | grep -v '^/lib.*/libc-2.*.so$') ]] ; then echo "yes" > "${T}"/.ssp.compat # else # # ok, a quick scan didnt find it, so lets do a deep scan ... # if [[ -n $(scanelf -qyRlps__guard -F'#s%F' | grep -v '^/lib.*/libc-2.*.so$') ]] ; then # echo "yes" > "${T}"/.ssp.compat # else # echo "no" > "${T}"/.ssp.compat # fi # fi # cat "${T}"/.ssp.compat # Glibc is stupid sometimes, and doesn't realize that with a # static C-Only gcc, -lgcc_eh doesn't exist. # http://sources.redhat.com/ml/libc-alpha/2003-09/msg00100.html # http://sourceware.org/ml/libc-alpha/2005-02/msg00042.html echo 'int main(){}' > "${T}"/gcc_eh_test.c if ! $(tc-getCC ${CTARGET}) "${T}"/gcc_eh_test.c -lgcc_eh 2>/dev/null ; then sed -i -e 's:-lgcc_eh::' Makeconfig || die "sed gcc_eh" fi # Some configure checks fail on the first emerge through because they # try to link. This doesn't work well if we don't have a libc yet. # http://sourceware.org/ml/libc-alpha/2005-02/msg00042.html if is_crosscompile && use build; then rm "${S}"/sysdeps/sparc/sparc64/elf/configure{,.in} rm "${S}"/nptl/sysdeps/pthread/configure{,.in} fi cd "${WORKDIR}" find . -type f '(' -size 0 -o -name "*.orig" ')' -exec rm -f {} \; find . -name configure -exec touch {} \; # Fix permissions on some of the scripts chmod u+x "${S}"/scripts/*.sh } src_compile() { setup_env if [[ -z ${OABI} ]] ; then local abilist="" if has_multilib_profile ; then abilist=$(get_install_abis) einfo "Building multilib glibc for ABIs: ${abilist}" elif is_crosscompile || tc-is-cross-compiler ; then abilist=${DEFAULT_ABI} fi if [[ -n ${abilist} ]] ; then OABI=${ABI} for ABI in ${abilist} ; do export ABI src_compile done ABI=${OABI} unset OABI return 0 fi fi if just_headers ; then toolchain-glibc_headers_compile else toolchain-glibc_src_compile fi } src_test() { setup_env if [[ -z ${OABI} ]] && has_multilib_profile ; then OABI=${ABI} einfo "Testing multilib glibc for ABIs: $(get_install_abis)" for ABI in $(get_install_abis) ; do export ABI einfo " Testing ${ABI} glibc" src_test done ABI=${OABI} unset OABI return 0 fi want_linuxthreads && toolchain-glibc_src_test linuxthreads want_nptl && toolchain-glibc_src_test nptl } src_strip() { # Now, strip everything but the thread libs #46186, as well as the dynamic # linker, else we cannot set breakpoints in shared libraries due to bugs in # gdb. Also want to grab stuff in tls subdir. whee. #when new portage supports this ... # env \ # -uRESTRICT \ # CHOST=${CTARGET} \ # STRIP_MASK="/*/{,tls/}{ld-,lib{pthread,thread_db}}*" \ # prepallstrip pushd "${D}" > /dev/null if ! is_crosscompile ; then mkdir -p "${T}"/strip-backup for x in $(find "${D}" -maxdepth 3 \ '(' -name 'ld-*' -o -name 'libpthread*' -o -name 'libthread_db*' ')' \ -a '(' '!' -name '*.a' ')' -type f -printf '%P ') do mkdir -p "${T}/strip-backup/${x%/*}" cp -a -- "${D}/${x}" "${T}/strip-backup/${x}" || die "backing up ${x}" done fi env -uRESTRICT CHOST=${CTARGET} prepallstrip if ! is_crosscompile ; then cp -a -- "${T}"/strip-backup/* "${D}"/ || die "restoring non-stripped libs" fi popd > /dev/null } src_install() { setup_env if [[ -z ${OABI} ]] ; then local abilist="" if has_multilib_profile ; then abilist=$(get_install_abis) einfo "Installing multilib glibc for ABIs: ${abilist}" elif is_crosscompile || tc-is-cross-compiler ; then abilist=${DEFAULT_ABI} fi if [[ -n ${abilist} ]] ; then OABI=${ABI} for ABI in ${abilist} ; do export ABI src_install done ABI=${OABI} unset OABI src_strip return 0 fi fi if just_headers ; then toolchain-glibc_headers_install else toolchain-glibc_src_install fi [[ -z ${OABI} ]] && src_strip } pkg_preinst() { toolchain-glibc_pkg_preinst } pkg_postinst() { toolchain-glibc_pkg_postinst }