# Copyright 1999-2013 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/sys-libs/glibc/glibc-2.15-r3.ebuild,v 1.14 2013/05/09 04:41:16 vapier Exp $ inherit eutils versionator toolchain-funcs flag-o-matic gnuconfig multilib unpacker multiprocessing DESCRIPTION="GNU libc6 (also called glibc2) C library" HOMEPAGE="http://www.gnu.org/software/libc/libc.html" LICENSE="LGPL-2.1+ BSD HPND inner-net" KEYWORDS="alpha amd64 arm -hppa ia64 m68k ~mips ppc ppc64 s390 sh sparc x86" RESTRICT="strip" # strip ourself #46186 EMULTILIB_PKG="true" # Configuration variables RELEASE_VER="" BRANCH_UPDATE="" SNAP_VER="" case ${PV} in 9999*) EGIT_REPO_URIS=( "git://sourceware.org/git/glibc.git" "git://sourceware.org/git/glibc-ports.git" ) EGIT_SOURCEDIRS=( "${S}" "${S}/ports" ) inherit git-2 ;; *_p*) RELEASE_VER=${PV%_p*} SNAP_VER=${PV#*_p} ;; *) RELEASE_VER=${PV} ;; esac LIBIDN_VER="" # it's integrated into the main tarball now PATCH_VER="23" # Gentoo patchset PORTS_VER=${RELEASE_VER} # version of glibc ports addon NPTL_KERN_VER=${NPTL_KERN_VER:-"2.6.9"} # min kernel version nptl requires IUSE="debug gd hardened multilib selinux profile vanilla crosscompile_opts_headers-only" [[ -n ${RELEASE_VER} ]] && S=${WORKDIR}/glibc-${RELEASE_VER}${SNAP_VER:+-${SNAP_VER}} # Here's how the cross-compile logic breaks down ... # CTARGET - machine that will target the binaries # CHOST - machine that will host the binaries # CBUILD - machine that will build the binaries # If CTARGET != CHOST, it means you want a libc for cross-compiling. # If CHOST != CBUILD, it means you want to cross-compile the libc. # CBUILD = CHOST = CTARGET - native build/install # CBUILD != (CHOST = CTARGET) - cross-compile a native build # (CBUILD = CHOST) != CTARGET - libc for cross-compiler # CBUILD != CHOST != CTARGET - cross-compile a libc for a cross-compiler # For install paths: # CHOST = CTARGET - install into / # CHOST != CTARGET - install into /usr/CTARGET/ export CBUILD=${CBUILD:-${CHOST}} export CTARGET=${CTARGET:-${CHOST}} if [[ ${CTARGET} == ${CHOST} ]] ; then if [[ ${CATEGORY} == cross-* ]] ; then export CTARGET=${CATEGORY#cross-} fi fi [[ ${CTARGET} == hppa* ]] && NPTL_KERN_VER=${NPTL_KERN_VER/2.6.9/2.6.20} is_crosscompile() { [[ ${CHOST} != ${CTARGET} ]] } # Why SLOT 2.2 you ask yourself while sippin your tea ? # Everyone knows 2.2 > 0, duh. SLOT="2.2" # 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 ) x86? ( >=sys-devel/gcc-4.3 ) amd64? ( >=sys-devel/binutils-2.19 >=sys-devel/gcc-4.3 ) ppc? ( >=sys-devel/gcc-4.1.0 ) ppc64? ( >=sys-devel/gcc-4.1.0 ) >=sys-devel/binutils-2.15.94 >=app-misc/pax-utils-0.1.10 virtual/os-headers ! [version] eblit-include() { local skipable=false [[ $1 == "--skip" ]] && skipable=true && shift [[ $1 == pkg_* ]] && skipable=true local e v func=$1 ver=$2 [[ -z ${func} ]] && die "Usage: eblit-include [version]" for v in ${ver:+-}${ver} -${PVR} -${PV} "" ; do e="${FILESDIR}/eblits/${func}${v}.eblit" if [[ -e ${e} ]] ; then source "${e}" return 0 fi done ${skipable} && return 0 die "Could not locate requested eblit '${func}' in ${FILESDIR}/eblits/" } # eblit-run-maybe # run the specified function if it is defined eblit-run-maybe() { [[ $(type -t "$@") == "function" ]] && "$@" } # eblit-run [version] # aka: src_unpack() { eblit-run src_unpack ; } eblit-run() { eblit-include --skip common "${*:2}" eblit-include "$@" eblit-run-maybe eblit-$1-pre eblit-${PN}-$1 eblit-run-maybe eblit-$1-post } src_unpack() { eblit-run src_unpack ; } src_compile() { eblit-run src_compile ; } src_test() { eblit-run src_test ; } src_install() { eblit-run src_install ; } # FILESDIR might not be available during binpkg install for x in setup {pre,post}inst ; do e="${FILESDIR}/eblits/pkg_${x}.eblit" if [[ -e ${e} ]] ; then . "${e}" eval "pkg_${x}() { eblit-run pkg_${x} ; }" fi done eblit-src_unpack-post() { if use hardened ; then cd "${S}" einfo "Patching to get working PIE binaries on PIE (hardened) platforms" gcc-specs-pie && epatch "${FILESDIR}"/2.12/glibc-2.12-hardened-pie.patch epatch "${FILESDIR}"/2.10/glibc-2.10-hardened-configure-picdefault.patch epatch "${FILESDIR}"/2.10/glibc-2.10-hardened-inittls-nosysenter.patch einfo "Installing Hardened Gentoo SSP and FORTIFY_SOURCE handler" cp -f "${FILESDIR}"/2.6/glibc-2.6-gentoo-stack_chk_fail.c \ debug/stack_chk_fail.c || die cp -f "${FILESDIR}"/2.10/glibc-2.10-gentoo-chk_fail.c \ debug/chk_fail.c || die if use debug ; then # When using Hardened Gentoo stack handler, have smashes dump core for # analysis - debug only, as core could be an information leak # (paranoia). sed -i \ -e '/^CFLAGS-backtrace.c/ iCFLAGS-stack_chk_fail.c = -DSSP_SMASH_DUMPS_CORE' \ debug/Makefile \ || die "Failed to modify debug/Makefile for debug stack handler" sed -i \ -e '/^CFLAGS-backtrace.c/ iCFLAGS-chk_fail.c = -DSSP_SMASH_DUMPS_CORE' \ debug/Makefile \ || die "Failed to modify debug/Makefile for debug fortify handler" fi # Build nscd with ssp-all sed -i \ -e 's:-fstack-protector$:-fstack-protector-all:' \ nscd/Makefile \ || die "Failed to ensure nscd builds with ssp-all" fi } eblit-pkg_preinst-post() { if [[ ${CTARGET} == arm* ]] ; then # Backwards compat support for renaming hardfp ldsos #417287 local oldso='/lib/ld-linux.so.3' local nldso='/lib/ld-linux-armhf.so.3' if [[ -e ${D}${nldso} ]] ; then if scanelf -qRyi "${ROOT}$(alt_prefix)"/*bin/ | grep -s "^${oldso}" ; then ewarn "Symlinking old ldso (${oldso}) to new ldso (${nldso})." ewarn "Please rebuild all packages using this old ldso as compat" ewarn "support will be dropped in the future." ln -s "${nldso##*/}" "${D}$(alt_prefix)${oldso}" fi fi fi }