# Copyright 1999-2024 Gentoo Authors # Distributed under the terms of the GNU General Public License v2 # @ECLASS: toolchain.eclass # @MAINTAINER: # Toolchain Ninjas # @SUPPORTED_EAPIS: 7 8 # @BLURB: Common code for sys-devel/gcc ebuilds # @DESCRIPTION: # Common code for sys-devel/gcc ebuilds (and occasionally GCC forks, like # GNAT for Ada). If not building GCC itself, please use toolchain-funcs.eclass # instead. if [[ -z ${_TOOLCHAIN_ECLASS} ]]; then _TOOLCHAIN_ECLASS=1 RUST_OPTIONAL="1" case ${EAPI} in 7|8) ;; *) die "${ECLASS}: EAPI ${EAPI:-0} not supported" ;; esac DESCRIPTION="The GNU Compiler Collection" HOMEPAGE="https://gcc.gnu.org/" inherit edo flag-o-matic gnuconfig libtool multilib pax-utils rust toolchain-funcs prefix [[ -n ${TOOLCHAIN_HAS_TESTS} ]] && inherit python-any-r1 tc_is_live() { [[ ${PV} == *9999* ]] } if tc_is_live ; then EGIT_REPO_URI=" https://gcc.gnu.org/git/gcc.git https://git.sr.ht/~sourceware/gcc https://gitlab.com/x86-gcc/gcc.git https://github.com/gcc-mirror/gcc.git " # Naming style: # gcc-10.1.0_pre9999 -> gcc-10-branch # Note that the micro version is required or lots of stuff will break. # To checkout master set gcc_LIVE_BRANCH="master" in the ebuild before # inheriting this eclass. EGIT_BRANCH="releases/${PN}-${PV%.?.?_pre9999}" EGIT_BRANCH=${EGIT_BRANCH//./_} inherit git-r3 elif [[ -n ${TOOLCHAIN_USE_GIT_PATCHES} ]] ; then inherit git-r3 fi FEATURES=${FEATURES/multilib-strict/} #---->> globals <<---- export CTARGET=${CTARGET:-${CHOST}} if [[ ${CTARGET} = ${CHOST} ]] ; then if [[ ${CATEGORY} == cross-* ]] ; then export CTARGET=${CATEGORY#cross-} fi fi : "${TARGET_ABI:=${ABI}}" : "${TARGET_MULTILIB_ABIS:=${MULTILIB_ABIS}}" : "${TARGET_DEFAULT_ABI:=${DEFAULT_ABI}}" is_crosscompile() { [[ ${CHOST} != ${CTARGET} ]] } # @FUNCTION: tc_version_is_at_least # @USAGE: ver1 [ver2] # @DESCRIPTION: # General purpose version check. Without a second argument, matches # up to minor version (x.x.x). tc_version_is_at_least() { ver_test "${2:-${GCC_RELEASE_VER}}" -ge "$1" } # @FUNCTION: tc_version_is_between # @USAGE: ver1 ver2 # @DESCRIPTION: # General purpose version range check. # Note that it matches up to but NOT including the second version tc_version_is_between() { tc_version_is_at_least "${1}" && ! tc_version_is_at_least "${2}" } # @ECLASS_VARIABLE: TOOLCHAIN_GCC_PV # @DEFAULT_UNSET # @DESCRIPTION: # Used to override GCC version. Useful for e.g. live ebuilds or snapshots. # Defaults to ${PV}. # @ECLASS_VARIABLE: TOOLCHAIN_GCC_VALIDATE_FAILURES_VERSION # @DESCRIPTION: # Version of test comparison script (validate_failures.py) to use. : "${GCC_VALIDATE_FAILURES_VERSION:=a447cd6dee206facb66720bdacf0c765a8b09f33}" # @ECLASS_VARIABLE: TOOLCHAIN_USE_GIT_PATCHES # @DEFAULT_UNSET # @DESCRIPTION: # Used to force fetching patches from git. Useful for non-released versions # of GCC where we don't want to keep creating patchset tarballs for a new # release series (e.g. suppose 12.0 just got released, then adding snapshots # for 13.0, we don't want to create new patchsets for every single 13.0 snapshot, # so just grab patches from git each time if this variable is set). # @ECLASS_VARIABLE: GCC_TESTS_COMPARISON_DIR # @USER_VARIABLE # @DESCRIPTION: # Source of previous GCC test results and location to store new results. : "${GCC_TESTS_COMPARISON_DIR:=${BROOT}/var/cache/gcc/testresults/${CHOST}}" # @ECLASS_VARIABLE: GCC_TESTS_COMPARISON_SLOT # @USER_VARIABLE # @DESCRIPTION: # Slot to compare test results with. Defaults to current slot. : "${GCC_TESTS_COMPARISON_SLOT:=${SLOT}}" # @ECLASS_VARIABLE: GCC_TESTS_IGNORE_NO_BASELINE # @DEFAULT_UNSET # @USER_VARIABLE # @DESCRIPTION: # Ignore missing baseline/reference data and create new baseline. : "${GCC_TESTS_IGNORE_NO_BASELINE:=}" # @ECLASS_VARIABLE: GCC_TESTS_REGEN_BASELINE # @DEFAULT_UNSET # @USER_VARIABLE # @DESCRIPTION: # Ignore baseline/reference data and create new baseline. : "${GCC_TESTS_REGEN_BASELINE:=}" # @ECLASS_VARIABLE: GCC_TESTS_CHECK_TARGET # @USER_VARIABLE # @DESCRIPTION: # Defaults to 'check'. Allows choosing a different test target, e.g. # 'test-gcc' (https://gcc.gnu.org/install/test.html). : "${GCC_TESTS_CHECK_TARGET:=check}" # @ECLASS_VARIABLE: GCC_TESTS_RUNTESTFLAGS # @DEFAULT_UNSET # @USER_VARIABLE # @DESCRIPTION: # Extra options to pass to DejaGnu as RUNTESTFLAGS. : "${GCC_TESTS_RUNTESTFLAGS:=}" # @ECLASS_VARIABLE: TOOLCHAIN_PATCH_DEV # @DEFAULT_UNSET # @DESCRIPTION: # Indicate the developer who hosts the patchset for an ebuild. # @ECLASS_VARIABLE: TOOLCHAIN_HAS_TESTS # @DEFAULT_UNSET # @DESCRIPTION: # Controls whether python-any-r1 is inherited and validate_failures.py # is used. # @ECLASS_VARIABLE: GCC_PV # @INTERNAL # @DESCRIPTION: # Internal variable representing (spoofed) GCC version. GCC_PV=${TOOLCHAIN_GCC_PV:-${PV}} # @ECLASS_VARIABLE: GCC_PVR # @INTERNAL # @DESCRIPTION: # Full GCC version including revision. GCC_PVR=${GCC_PV} [[ ${PR} != "r0" ]] && GCC_PVR=${GCC_PVR}-${PR} # @ECLASS_VARIABLE: GCC_RELEASE_VER # @INTERNAL # @DESCRIPTION: # GCC_RELEASE_VER must always match 'gcc/BASE-VER' value. # It's an internal representation of gcc version used for: # - versioned paths on disk # - 'gcc -dumpversion' output. Must always match ... GCC_RELEASE_VER=$(ver_cut 1-3 ${GCC_PV}) # @ECLASS_VARIABLE: GCC_BRANCH_VER # @INTERNAL # @DESCRIPTION: # GCC branch version. GCC_BRANCH_VER=$(ver_cut 1-2 ${GCC_PV}) # @ECLASS_VARIABLE: GCCMAJOR # @INTERNAL # @DESCRIPTION: # Major GCC version. GCCMAJOR=$(ver_cut 1 ${GCC_PV}) # @ECLASS_VARIABLE: GCCMINOR # @INTERNAL # @DESCRIPTION: # Minor GCC version. GCCMINOR=$(ver_cut 2 ${GCC_PV}) # @ECLASS_VARIABLE: GCCMICRO # @INTERNAL # @DESCRIPTION: # GCC micro version. GCCMICRO=$(ver_cut 3 ${GCC_PV}) # @ECLASS_VARIABLE: GCC_RUN_FIXINCLUDES # @INTERNAL # @DESCRIPTION: # Controls whether fixincludes should be used. : "${GCC_RUN_FIXINCLUDES:=0}" tc_use_major_version_only() { local use_major_version_only=0 if ! tc_version_is_at_least 10 ; then return 1 fi if [[ ${GCCMAJOR} -eq 10 ]] && ver_test ${PV} -ge 10.4.1_p20220929 ; then use_major_version_only=1 elif [[ ${GCCMAJOR} -eq 11 ]] && ver_test ${PV} -ge 11.3.1_p20220930 ; then use_major_version_only=1 elif [[ ${GCCMAJOR} -eq 12 ]] && ver_test ${PV} -ge 12.2.1_p20221001 ; then use_major_version_only=1 elif [[ ${GCCMAJOR} -eq 13 ]] && ver_test ${PV} -ge 13.0.0_pre20221002 ; then use_major_version_only=1 elif [[ ${GCCMAJOR} -gt 13 ]] ; then use_major_version_only=1 fi if [[ ${use_major_version_only} -eq 1 ]] ; then return 0 fi return 1 } # @ECLASS_VARIABLE: GCC_CONFIG_VER # @INTERNAL # @DESCRIPTION: # Ideally this variable should allow for custom gentoo versioning # of binary and gcc-config names not directly tied to upstream # versioning. In practice it's hard to untangle from gcc/BASE-VER # (GCC_RELEASE_VER) value. if tc_use_major_version_only ; then GCC_CONFIG_VER=${GCCMAJOR} else GCC_CONFIG_VER=${GCC_RELEASE_VER} fi # Pre-release support. Versioning schema: # 1.0.0_pre9999: live ebuild # 1.2.3_pYYYYMMDD (or 1.2.3_preYYYYMMDD for unreleased major versions): weekly snapshots # 1.2.3_rcYYYYMMDD: release candidates if [[ ${GCC_PV} == *_pre* ]] ; then # Weekly snapshots SNAPSHOT=${GCCMAJOR}-${GCC_PV##*_pre} elif [[ ${GCC_PV} == *_p* ]] ; then # Weekly snapshots SNAPSHOT=${GCCMAJOR}-${GCC_PV##*_p} elif [[ ${GCC_PV} == *_rc* ]] ; then # Release candidates SNAPSHOT=${GCC_PV%_rc*}-RC-${GCC_PV##*_rc} fi # Require minimum gcc version to simplify assumptions. # Normally we would require gcc-6+ (based on sys-devel/gcc) # but we still have sys-devel/gcc-apple-4.2.1_p5666. tc_version_is_at_least 8 || die "${ECLASS}: ${GCC_RELEASE_VER} is too old." PREFIX=${TOOLCHAIN_PREFIX:-${EPREFIX}/usr} LIBPATH=${TOOLCHAIN_LIBPATH:-${PREFIX}/lib/gcc/${CTARGET}/${GCC_CONFIG_VER}} INCLUDEPATH=${TOOLCHAIN_INCLUDEPATH:-${LIBPATH}/include} if is_crosscompile ; then BINPATH=${TOOLCHAIN_BINPATH:-${PREFIX}/${CHOST}/${CTARGET}/gcc-bin/${GCC_CONFIG_VER}} HOSTLIBPATH=${PREFIX}/${CHOST}/${CTARGET}/lib/${GCC_CONFIG_VER} else BINPATH=${TOOLCHAIN_BINPATH:-${PREFIX}/${CTARGET}/gcc-bin/${GCC_CONFIG_VER}} fi DATAPATH=${TOOLCHAIN_DATAPATH:-${PREFIX}/share/gcc-data/${CTARGET}/${GCC_CONFIG_VER}} # Don't install in /usr/include/g++-v3/, but instead to gcc's internal directory. # We will handle /usr/include/g++-v3/ with gcc-config ... STDCXX_INCDIR=${TOOLCHAIN_STDCXX_INCDIR:-${LIBPATH}/include/g++-v${GCC_BRANCH_VER/\.*/}} #---->> LICENSE+SLOT+IUSE logic <<---- LICENSE="GPL-3+ LGPL-3+ || ( GPL-3+ libgcc libstdc++ gcc-runtime-library-exception-3.1 ) FDL-1.3+" IUSE="test vanilla +nls" RESTRICT="!test? ( test )" [[ -z ${TOOLCHAIN_HAS_TESTS} ]] && RESTRICT+=" test" TC_FEATURES=() tc_has_feature() { has "$1" "${TC_FEATURES[@]}" } if [[ ${PN} != kgcc64 && ${PN} != gcc-* ]] ; then IUSE+=" debug +cxx" IUSE+=" +fortran" TC_FEATURES+=( fortran ) IUSE+=" doc hardened multilib objc" IUSE+=" pgo" IUSE+=" objc-gc" TC_FEATURES+=( objc-gc ) IUSE+=" libssp objc++" # Stop forcing openmp on by default in the eclass. Gradually phase it out. # See bug #890999. if tc_version_is_at_least 13.0.0_pre20221218 ; then IUSE+=" openmp" else IUSE+=" +openmp" fi IUSE+=" fixed-point" IUSE+=" go" IUSE+=" +sanitize" TC_FEATURES+=( sanitize ) IUSE+=" graphite" TC_FEATURES+=( graphite ) IUSE+=" ada" TC_FEATURES+=( ada ) IUSE+=" vtv" IUSE+=" jit" IUSE+=" +pie +ssp pch" IUSE+=" systemtap" TC_FEATURES+=( systemtap ) tc_version_is_at_least 9.0 && IUSE+=" d" TC_FEATURES+=( d ) tc_version_is_at_least 9.1 && IUSE+=" lto" tc_version_is_at_least 10 && IUSE+=" cet" tc_version_is_at_least 10 && IUSE+=" zstd" TC_FEATURES+=( zstd ) tc_version_is_at_least 11 && IUSE+=" valgrind" TC_FEATURES+=( valgrind ) tc_version_is_at_least 11 && IUSE+=" custom-cflags" tc_version_is_at_least 12 && IUSE+=" ieee-long-double" tc_version_is_at_least 12.2.1_p20221203 ${PV} && IUSE+=" default-znow" tc_version_is_at_least 12.2.1_p20221203 ${PV} && IUSE+=" default-stack-clash-protection" tc_version_is_at_least 13.0.0_pre20221218 ${PV} && IUSE+=" modula2" # See https://gcc.gnu.org/pipermail/gcc-patches/2023-April/615944.html # and https://rust-gcc.github.io/2023/04/24/gccrs-and-gcc13-release.html for why # it was disabled in 13. tc_version_is_at_least 14.0.0_pre20230423 ${PV} && IUSE+=" rust" TC_FEATURES+=( rust ) tc_version_is_at_least 14.2.1_p20241026 ${PV} && IUSE+=" time64" tc_version_is_at_least 15.0.0_pre20241124 ${PV} && IUSE+=" libgdiagnostics" fi if tc_version_is_at_least 10; then # Note: currently we pull in releases, snapshots and # git versions into the same SLOT. SLOT="${GCCMAJOR}" else SLOT="${GCC_CONFIG_VER}" fi #---->> DEPEND <<---- RDEPEND=" sys-libs/zlib virtual/libiconv nls? ( virtual/libintl ) " GMP_MPFR_DEPS=">=dev-libs/gmp-4.3.2:0= >=dev-libs/mpfr-2.4.2:0=" RDEPEND+=" ${GMP_MPFR_DEPS}" RDEPEND+=" >=dev-libs/mpc-0.8.1:0=" if tc_has_feature objc-gc ; then RDEPEND+=" objc-gc? ( >=dev-libs/boehm-gc-7.4.2 )" fi if tc_has_feature graphite ; then RDEPEND+=" graphite? ( >=dev-libs/isl-0.14:0= )" fi BDEPEND=" app-alternatives/yacc sys-devel/binutils:* >=sys-devel/flex-2.5.4 nls? ( sys-devel/gettext ) test? ( ${PYTHON_DEPS} >=dev-util/dejagnu-1.4.4 >=sys-devel/autogen-5.5.4 ) " DEPEND="${RDEPEND}" if [[ ${PN} == gcc && ${PV} == *_p* ]] ; then # Snapshots don't contain info pages. # If they start to, adjust gcc_cv_prog_makeinfo_modern logic in toolchain_src_configure. # Needed unless/until https://gcc.gnu.org/PR106899 is fixed BDEPEND+=" sys-apps/texinfo" fi if tc_has_feature sanitize ; then # libsanitizer relies on 'crypt.h' to be present # on target. glibc user to provide it unconditionally. # Nowadays it's a standalone library: bug #802648 DEPEND+=" sanitize? ( virtual/libcrypt )" fi if tc_has_feature systemtap ; then # gcc needs sys/sdt.h headers on target DEPEND+=" systemtap? ( dev-debug/systemtap )" fi if tc_has_feature zstd ; then DEPEND+=" zstd? ( app-arch/zstd:= )" RDEPEND+=" zstd? ( app-arch/zstd:= )" fi if tc_has_feature valgrind ; then BDEPEND+=" valgrind? ( dev-debug/valgrind )" fi if [[ ${PN} != gnat-gpl ]] && tc_has_feature ada ; then BDEPEND+=" ada? ( || ( sys-devel/gcc:${SLOT}[ada] > S + SRC_URI essentials <<---- # @ECLASS_VARIABLE: TOOLCHAIN_PATCH_SUFFIX # @DESCRIPTION: # Used to override compression used for for patchsets. # Default is xz for EAPI 8+ and bz2 for older EAPIs. if [[ ${EAPI} == 8 ]] ; then : "${TOOLCHAIN_PATCH_SUFFIX:=xz}" else # Older EAPIs : "${TOOLCHAIN_PATCH_SUFFIX:=bz2}" fi # @ECLASS_VARIABLE: TOOLCHAIN_SET_S # @DESCRIPTION: # Used to override value of S for snapshots and such. Mainly useful # if needing to set GCC_TARBALL_SRC_URI. : "${TOOLCHAIN_SET_S:=yes}" # Set the source directory depending on whether we're using # a live git tree, snapshot, or release tarball. if [[ ${TOOLCHAIN_SET_S} == yes ]] ; then if tc_is_live ; then S=${EGIT_CHECKOUT_DIR} elif [[ -n ${SNAPSHOT} ]] ; then S=${WORKDIR}/gcc-${SNAPSHOT} else S=${WORKDIR}/gcc-${GCC_RELEASE_VER} fi fi gentoo_urls() { # the list is sorted by likelihood of getting the patches tarball from # respective devspace # slyfox's distfiles are mirrored to sam's devspace declare -A devspace_urls=( [soap]=HTTP~soap/distfiles/URI [sam]=HTTP~sam/distfiles/sys-devel/gcc/URI [slyfox]=HTTP~sam/distfiles/URI [xen0n]=HTTP~xen0n/distfiles/sys-devel/gcc/URI [tamiko]=HTTP~tamiko/distfiles/URI [zorry]=HTTP~zorry/patches/gcc/URI [vapier]=HTTP~vapier/dist/URI [blueness]=HTTP~blueness/dist/URI ) # Newer ebuilds should set TOOLCHAIN_PATCH_DEV and we'll just # return the full URL from the array. if [[ -n ${TOOLCHAIN_PATCH_DEV} ]] ; then local devspace_url=${devspace_urls[${TOOLCHAIN_PATCH_DEV}]} if [[ -n ${devspace_url} ]] ; then local devspace_url_exp=${devspace_url//HTTP/https:\/\/dev.gentoo.org\/} devspace_url_exp=${devspace_url_exp//URI/$1} echo ${devspace_url_exp} return fi fi # But we keep the old fallback list for compatibility with # older ebuilds (overlays etc). local devspace=" HTTP~soap/distfiles/URI HTTP~sam/distfiles/URI HTTP~sam/distfiles/sys-devel/gcc/URI HTTP~tamiko/distfiles/URI HTTP~zorry/patches/gcc/URI HTTP~vapier/dist/URI HTTP~blueness/dist/URI " devspace=${devspace//HTTP/https:\/\/dev.gentoo.org\/} echo ${devspace//URI/$1} mirror://gentoo/$1 } # This function handles the basics of setting the SRC_URI for a gcc ebuild. # To use, set SRC_URI with: # # SRC_URI="$(get_gcc_src_uri)" # # Other than the variables normally set by portage, this function's behavior # can be altered by setting the following: # # GCC_TARBALL_SRC_URI # Override link to main tarball into SRC_URI. Used by dev-lang/gnat-gpl # to provide gcc tarball snapshots. Patches are usually reused as-is. # # SNAPSHOT # If set, this variable signals that we should be using a snapshot of # gcc. It is expected to be in the format "YYYY-MM-DD". Note that if # the ebuild has a _pre suffix, this variable is ignored and the # prerelease tarball is used instead. # # PATCH_VER # PATCH_GCC_VER # This should be set to the version of the gentoo patch tarball. # The resulting filename of this tarball will be: # gcc-${PATCH_GCC_VER:-${GCC_RELEASE_VER}}-patches-${PATCH_VER}.tar.xz # get_gcc_src_uri() { export PATCH_GCC_VER=${PATCH_GCC_VER:-${GCC_RELEASE_VER}} export MUSL_GCC_VER=${MUSL_GCC_VER:-${PATCH_GCC_VER}} # Set where to download gcc itself depending on whether we're using a # live git tree, snapshot, or release tarball. if tc_is_live ; then : # Nothing to do w/git snapshots. elif [[ -n ${GCC_TARBALL_SRC_URI} ]] ; then # Pull gcc tarball from another location. Frequently used by gnat-gpl. GCC_SRC_URI="${GCC_TARBALL_SRC_URI}" elif [[ -n ${SNAPSHOT} ]] ; then GCC_SRC_URI="mirror://gcc/snapshots/${SNAPSHOT}/gcc-${SNAPSHOT}.tar.xz" else GCC_SRC_URI=" mirror://gcc/releases/gcc-${GCC_PV}/gcc-${GCC_RELEASE_VER}.tar.xz mirror://gnu/gcc/gcc-${GCC_PV}/gcc-${GCC_RELEASE_VER}.tar.xz " fi [[ -n ${PATCH_VER} ]] && \ GCC_SRC_URI+=" $(gentoo_urls gcc-${PATCH_GCC_VER}-patches-${PATCH_VER}.tar.${TOOLCHAIN_PATCH_SUFFIX})" [[ -n ${MUSL_VER} ]] && \ GCC_SRC_URI+=" $(gentoo_urls gcc-${MUSL_GCC_VER}-musl-patches-${MUSL_VER}.tar.${TOOLCHAIN_PATCH_SUFFIX})" [[ -n ${TOOLCHAIN_HAS_TESTS} ]] && \ GCC_SRC_URI+=" test? ( https://gitweb.gentoo.org/proj/gcc-patches.git/plain/scripts/testsuite-management/validate_failures.py?id=${GCC_VALIDATE_FAILURES_VERSION} -> gcc-validate-failures-${GCC_VALIDATE_FAILURES_VERSION}.py )" echo "${GCC_SRC_URI}" } SRC_URI=$(get_gcc_src_uri) #---->> pkg_pretend <<---- toolchain_pkg_pretend() { if ! _tc_use_if_iuse cxx ; then _tc_use_if_iuse ada && \ ewarn 'Ada requires a C++ compiler, disabled due to USE="-cxx"' _tc_use_if_iuse go && \ ewarn 'Go requires a C++ compiler, disabled due to USE="-cxx"' _tc_use_if_iuse objc++ && \ ewarn 'Obj-C++ requires a C++ compiler, disabled due to USE="-cxx"' fi # Do the check for pure source builds only, since the override # cannot work with binary packages, see https://bugs.gentoo.org/944198 if [[ ${BUILD_TYPE} == source ]] && in_iuse time64 && ! use time64 && has_version -r "${CATEGORY}/${PN}[time64(-)]" && [[ ! ${TC_FORCE_TIME32} ]] then eerror "Attempting to build USE=-time64 version of gcc when at least" eerror "one USE=time64 version is installed. Did you accidentally" eerror "switch back to a non-time64 profile? If this is really" eerror "desirable, set TC_FORCE_TIME32=1 to force the build." die "Attempting to build USE=-time64 on a USE=time64 system" fi } #---->> pkg_setup <<---- toolchain_pkg_setup() { # We don't want to use the installed compiler's specs to build gcc unset GCC_SPECS # bug #265283 unset LANGUAGES # bug #932245 [[ ${LIBTOOL} = rlibtool ]] && die "\$LIBTOOL is using rlibtool from dev-build/slibtool. You must not use rlibtool, only rclibtool." # See https://www.gnu.org/software/make/manual/html_node/Parallel-Output.html # Avoid really confusing logs from subconfigure spam, makes logs far # more legible. MAKEOPTS="--output-sync=line ${MAKEOPTS}" [[ -n ${TOOLCHAIN_HAS_TESTS} ]] && use test && python-any-r1_pkg_setup _tc_use_if_iuse rust && rust_pkg_setup } #---->> src_unpack <<---- # @FUNCTION: toolchain_fetch_git_patches # @INTERNAL # @DESCRIPTION: # Fetch patches from Gentoo's gcc-patches repository. toolchain_fetch_git_patches() { local gcc_patches_repo="https://anongit.gentoo.org/git/proj/gcc-patches.git https://github.com/gentoo/gcc-patches" # If we weren't given a patchset number, pull it from git too. einfo "Fetching patchset from git as PATCH_VER is unset" EGIT_REPO_URI=${gcc_patches_repo} EGIT_BRANCH="master" \ EGIT_CHECKOUT_DIR="${WORKDIR}"/patch.tmp \ git-r3_src_unpack mkdir "${WORKDIR}"/patch || die mv "${WORKDIR}"/patch.tmp/${PATCH_GCC_VER}/gentoo/* "${WORKDIR}"/patch || die if [[ -z ${MUSL_VER} || -d "${WORKDIR}"/musl ]] && [[ ${CTARGET} == *musl* ]] ; then mkdir "${WORKDIR}"/musl || die mv "${WORKDIR}"/patch.tmp/${PATCH_GCC_VER}/musl/* "${WORKDIR}"/musl || die fi } toolchain_src_unpack() { if tc_is_live ; then git-r3_src_unpack # Needed for gcc --version to include the upstream commit used # rather than only the commit after we apply our patches. # It includes both with this. echo "${EGIT_VERSION}" > "${S}"/gcc/REVISION || die if [[ -z ${PATCH_VER} ]] && ! use vanilla ; then toolchain_fetch_git_patches fi elif [[ -z ${PATCH_VER} && -n ${TOOLCHAIN_USE_GIT_PATCHES} ]] ; then toolchain_fetch_git_patches fi default } #---->> src_prepare <<---- toolchain_src_prepare() { export BRANDING_GCC_PKGVERSION="Gentoo ${GCC_PVR}" cd "${S}" || die do_gcc_gentoo_patches if tc_is_live ; then BRANDING_GCC_PKGVERSION="${BRANDING_GCC_PKGVERSION}, commit ${EGIT_VERSION}" fi eapply_user if ! use vanilla ; then tc_enable_hardened_gcc fi if [[ -n ${TOOLCHAIN_HAS_TESTS} ]] && use test ; then cp "${DISTDIR}"/gcc-validate-failures-${GCC_VALIDATE_FAILURES_VERSION}.py "${T}"/validate_failures.py || die chmod +x "${T}"/validate_failures.py || die fi # Make sure the pkg-config files install into multilib dirs. # Since we configure with just one --libdir, we can't use that # (as gcc itself takes care of building multilibs). bug #435728 find "${S}" -name Makefile.in \ -exec sed -i '/^pkgconfigdir/s:=.*:=$(toolexeclibdir)/pkgconfig:' {} + || die setup_multilib_osdirnames local actual_version=$(< "${S}"/gcc/BASE-VER) if ! tc_is_live && [[ "${GCC_RELEASE_VER}" != "${actual_version}" ]] ; then eerror "'${S}/gcc/BASE-VER' contains '${actual_version}', expected '${GCC_RELEASE_VER}'" die "Please set 'TOOLCHAIN_GCC_PV' to '${actual_version}'" fi # Fixup libtool to correctly generate .la files with portage elibtoolize --portage --shallow --no-uclibc gnuconfig_update if ! use prefix-guest && [[ -n ${EPREFIX} ]] ; then einfo "Prefixifying dynamic linkers..." for f in gcc/config/*/*linux*.h ; do ebegin " Updating ${f}" if [[ ${f} == gcc/config/rs6000/linux*.h ]]; then sed -i -r "s,(DYNAMIC_LINKER_PREFIX\s+)\"\",\1\"${EPREFIX}\",g" "${f}" || die else sed -i -r "/_DYNAMIC_LINKER/s,([\":])(/lib),\1${EPREFIX}\2,g" "${f}" || die fi eend $? done fi einfo "Touching generated files" ./contrib/gcc_update --touch | \ while read f ; do einfo " ${f%%...}" done } do_gcc_gentoo_patches() { if ! use vanilla ; then if [[ -n ${PATCH_VER} || -d "${WORKDIR}"/patch ]] ; then einfo "Applying Gentoo patches ..." eapply "${WORKDIR}"/patch/*.patch BRANDING_GCC_PKGVERSION="${BRANDING_GCC_PKGVERSION} p${PATCH_VER}" fi if [[ -n ${MUSL_VER} || -d "${WORKDIR}"/musl ]] && [[ ${CTARGET} == *musl* ]] ; then if [[ ${CATEGORY} == cross-* ]] ; then # We don't want to apply some patches when cross-compiling. if [[ -d "${WORKDIR}"/musl/nocross ]] ; then rm -fv "${WORKDIR}"/musl/nocross/*.patch || die else # Just make an empty directory to make the glob below easier. mkdir -p "${WORKDIR}"/musl/nocross || die fi fi local shopt_save=$(shopt -p nullglob) shopt -s nullglob einfo "Applying musl patches ..." eapply "${WORKDIR}"/musl/{,nocross/}*.patch ${shopt_save} fi fi } # configure to build with the hardened GCC specs as the default tc_enable_hardened_gcc() { local hardened_gcc_flags="" if _tc_use_if_iuse pie ; then einfo "Updating gcc to use automatic PIE building ..." fi if _tc_use_if_iuse ssp ; then einfo "Updating gcc to use automatic SSP building ..." fi if _tc_use_if_iuse default-stack-clash-protection ; then # The define DEF_GENTOO_SCP is checked in 24_all_DEF_GENTOO_SCP-fstack-clash-protection.patch einfo "Updating gcc to use automatic stack clash protection ..." hardened_gcc_flags+=" -DDEF_GENTOO_SCP" fi if _tc_use_if_iuse default-znow ; then # The define DEF_GENTOO_ZNOW is checked in 23_all_DEF_GENTOO_ZNOW-z-now.patch einfo "Updating gcc to request symbol resolution at start (-z now) ..." hardened_gcc_flags+=" -DDEF_GENTOO_ZNOW" fi if _tc_use_if_iuse cet && [[ -z ${CLANG_DISABLE_CET_HACK} && ${CTARGET} == *x86_64*-linux-gnu* ]] ; then einfo "Updating gcc to use x86-64 control flow protection by default ..." hardened_gcc_flags+=" -DEXTRA_OPTIONS_CF" fi if _tc_use_if_iuse hardened ; then # Will add some hardened options as default, e.g. for gcc-12 # * -fstack-clash-protection # * -z now # See gcc *_all_extra-options.patch patches. hardened_gcc_flags+=" -DEXTRA_OPTIONS" # Default to -D_FORTIFY_SOURCE=3 instead of -D_FORTIFY_SOURCE=2 hardened_gcc_flags+=" -DGENTOO_FORTIFY_SOURCE_LEVEL=3" # Add -D_GLIBCXX_ASSERTIONS hardened_gcc_flags+=" -DDEF_GENTOO_GLIBCXX_ASSERTIONS" # Rebrand to make bug reports easier BRANDING_GCC_PKGVERSION=${BRANDING_GCC_PKGVERSION/Gentoo/Gentoo Hardened} fi # We want to be able to control the PIE patch logic via something other # than ALL_CFLAGS... sed -e '/^ALL_CFLAGS/iHARD_CFLAGS = ' \ -e 's|^ALL_CFLAGS = |ALL_CFLAGS = $(HARD_CFLAGS) |' \ -i "${S}"/gcc/Makefile.in || die sed -e '/^ALL_CXXFLAGS/iHARD_CFLAGS = ' \ -e 's|^ALL_CXXFLAGS = |ALL_CXXFLAGS = $(HARD_CFLAGS) |' \ -i "${S}"/gcc/Makefile.in || die sed -i \ -e "/^HARD_CFLAGS = /s|=|= ${hardened_gcc_flags} |" \ "${S}"/gcc/Makefile.in || die } # This is a historical wart. The original Gentoo/amd64 port used: # lib32 - 32bit binaries (x86) # lib64 - 64bit binaries (x86_64) # lib - "native" binaries (a symlink to lib64) # Most other distros use the logic (including mainline gcc): # lib - 32bit binaries (x86) # lib64 - 64bit binaries (x86_64) # Over time, Gentoo is migrating to the latter form (17.1 profiles). # # Unfortunately, due to distros picking the lib32 behavior, newer gcc # versions will dynamically detect whether to use lib or lib32 for its # 32bit multilib. So, to keep the automagic from getting things wrong # while people are transitioning from the old style to the new style, # we always set the MULTILIB_OSDIRNAMES var for relevant targets. setup_multilib_osdirnames() { is_multilib || return 0 local config local libdirs="../lib64 ../lib32" # This only makes sense for some Linux targets case ${CTARGET} in x86_64*-linux*) config="i386" ;; powerpc64*-linux*) config="rs6000" ;; sparc64*-linux*) config="sparc" ;; s390x*-linux*) config="s390" ;; *) return 0 ;; esac config+="/t-linux64" local sed_args=() sed_args+=( -e 's:$[(]call if_multiarch[^)]*[)]::g' ) if [[ ${SYMLINK_LIB} == "yes" ]] ; then einfo "Updating multilib directories to be: ${libdirs}" sed_args+=( -e '/^MULTILIB_OSDIRNAMES.*lib32/s:[$][(]if.*):../lib32:' ) else einfo "Using upstream multilib; disabling lib32 autodetection" sed_args+=( -r -e 's:[$][(]if.*,(.*)[)]:\1:' ) fi sed -i "${sed_args[@]}" "${S}"/gcc/config/${config} || die } # @FUNCTION: _get_bootstrap_gcc_info # @USAGE: [gcc_pkg|gcc_bin_base]... # @DESCRIPTION: # Get some information about the gcc that would be used to build this package. # All the variables that are passed as arguments will be set to their apropriate # values: # # - bootstrap_gcc_pkg = the ${CATEGORY}/${PN} that provides the build gcc # # - bootstrap_gcc_bin_base = the directory up to /gcc-bin but excluding the slot, of # the aformentioned package. _get_bootstrap_gcc_info() { crossp() { tc-is-cross-compiler && echo "${2}" || echo "${1}" } local arg for arg ; do case "${arg}" in bootstrap_gcc_pkg) bootstrap_gcc_pkg=$(crossp sys-devel/gcc cross-${CHOST}/gcc) ;; bootstrap_gcc_bin_base) bootstrap_gcc_bin_base=${BROOT}/usr/$(crossp ${CHOST} ${CBUILD}/${CHOST})/gcc-bin ;; *) die "Unknown argument '${arg}' passed to ${FUNCNAME}" esac done } # @FUNCTION: _find_bootstrap_gcc_with # @USAGE: # @RETURN: Shell true if a matching gcc installation was found, false otherwise # @INTERNAL # @DESCRIPTION: # Check installed versions of gcc that can be used as a compiler for the current # build for one matching a certain USE expression. The order of preference is # checking for the same SLOT we are building, then iterate downwards until (and # including) minimum_slot, then iterate upward starting with SLOT+1. When # cross-compiling only SLOT is checked. # # If a proper installation is discovered this function will set # ${bootstrap_gcc_bin_dir} to the full path of the directory in which # ${CHOST}-gcc and friends are found and ${bootstrap_gcc_slot} to the slot that # was found. If nothing was found those variables will be empty. # # This function is provided to aid languages like ada and d that require # bootstraping. _find_bootstrap_gcc_with() { local use="${1}" local pretty_use="${2}" local bootstrap_gcc_pkg bootstrap_gcc_bin_base _get_bootstrap_gcc_info bootstrap_gcc_pkg bootstrap_gcc_bin_base local min_slot max_slot if tc-is-cross-compiler ; then min_slot="${SLOT}" max_slot="${SLOT}" else min_slot="${3}" max_slot=$(best_version -b "${bootstrap_gcc_pkg}") max_slot="${max_slot#${bootstrap_gcc_pkg}-}" max_slot=$(ver_cut 1 ${max_slot}) fi local candidate result for candidate in ${SLOT} $(seq $((${SLOT} - 1)) -1 ${min_slot}) $(seq $((${SLOT} + 1)) ${max_slot}) ; do has_version -b "${bootstrap_gcc_pkg}:${candidate}" || continue ebegin "Testing ${bootstrap_gcc_pkg}:${candidate} for ${pretty_use}" if has_version -b "${bootstrap_gcc_pkg}:${candidate}${use}" ; then result=${candidate} eend 0 break fi eend 1 done if [[ ${result} ]] ; then bootstrap_gcc_bin_dir="${bootstrap_gcc_bin_base}/${result}" bootstrap_gcc_slot=${result} return 0 else bootstrap_gcc_bin_dir= bootstrap_gcc_slot= return 1 fi } # @FUNCTION: toolchain_setup_ada # @INTERNAL # @DESCRIPTION: # Determine the most suitable GNAT (Ada compiler) for bootstrapping # and setup the environment, including wrappers, for building. toolchain_setup_ada() { local ada_bootstrap local ada_candidate local ada_bootstrap_type local ada_bootstrap_bin_dir # GNAT can usually be built using the last major version and # the current version, at least. # # Order of preference (descending): # 1) Match the version being built; # 2) Iterate downwards from the version being built; # 3) Iterate upwards from the version being built to the greatest version installed. local bootstrap_gcc_slot bootstrap_gcc_bin_dir if _find_bootstrap_gcc_with "[ada(-)]" "Ada" 10 ; then ada_bootstrap=${bootstrap_gcc_slot} ada_bootstrap_type=gcc ada_bootstrap_bin_dir="${bootstrap_gcc_bin_dir}" fi # As a penultimate resort, try dev-lang/ada-bootstrap. if ver_test ${ada_bootstrap} -gt ${PV} || [[ -z ${ada_bootstrap} ]] ; then ebegin "Testing fallback dev-lang/ada-bootstrap for Ada" if has_version -b " "${T}"/ada.spec || die # Extracted from gcc/ada/gcc-interface/lang-specs.h .adb: @ada .ads: @ada # TODO: ADA_DUMPS_OPTIONS @ada: %{pg:%{fomit-frame-pointer:%e-pg and -fomit-frame-pointer are incompatible}} \ %{!S:%{!c:%e-c or -S required for Ada}} \ ${gnat1_path} %{I*} %{k8:-gnatk8} %{!Q:-quiet} \ %{nostdinc*} %{nostdlib*} \ %{fcompare-debug-second:-gnatd_A} \ %{O*} %{W*} %{w} %{p} %{pg:-p} \ %{coverage:-fprofile-arcs -ftest-coverage} \ %{Wall:-gnatwa} %{Werror:-gnatwe} %{w:-gnatws} \ %{gnatea:-gnatez} %{g*&m*&f*} \ %1 %{!S:%{o*:%w%*-gnatO}} \ %i %{S:%W{o*}%{!o*:-o %w%b.s}} \ %{gnatc*|gnats*: -o %j} %{-param*} \ %{!gnatc*:%{!gnats*:%(invoke_as)}} @adawhy: %{!c:%e-c required for gnat2why} \ gnat1why %{I*} %{k8:-gnatk8} %{!Q:-quiet} \ %{nostdinc*} %{nostdlib*} \ %{a} \ %{gnatea:-gnatez} %{g*&m*&f*} \ %1 %{o*:%w%*-gnatO} \ %i \ %{gnatc*|gnats*: -o %j} %{-param*} @adascil: %{!c:%e-c required for gnat2scil} \ gnat1scil %{I*} %{k8:-gnatk8} %{!Q:-quiet} \ %{nostdinc*} %{nostdlib*} \ %{a} \ %{gnatea:-gnatez} %{g*&m*&f*} \ %1 %{o*:%w%*-gnatO} \ %i \ %{gnatc*|gnats*: -o %j} %{-param*} EOF old_path="${PATH}" case ${ada_bootstrap_type} in ada-bootstrap) export PATH="${BROOT}/usr/lib/ada-bootstrap/bin:${PATH}" gnat1_path=${BROOT}/usr/lib/ada-bootstrap/libexec/gcc/${CHOST}/${ada_bootstrap}/gnat1 ;; *) gnat1_path=${BROOT}/usr/libexec/gcc/${CHOST}/${ada_bootstrap}/gnat1 ;; esac # Easier to substitute these values in rather than escape lots of # bits above in the heredoc. sed -i \ -e "s:\${BROOT}:${BROOT}:" \ -e "s:\${CBUILD}:${CBUILD}:" \ -e "s:\${gnat1_path}:${gnat1_path}:" \ -e "s:\${ada_bootstrap}:${ada_bootstrap}:" \ "${T}"/ada.spec || die # The Makefile tries to find libgnat by querying $(CC) which won't # work for us as the stage1 compiler doesn't necessarily have Ada # support. Substitute the Ada compiler we found earlier. local adalib adalib=$("${ada_bootstrap_bin_dir}"/${CHOST}-gcc -print-libgcc-file-name || die "Finding adalib dir failed") adalib="${adalib%/*}/adalib" sed -i \ -e "s:adalib=.*:adalib=${adalib}:" \ "${S}"/gcc/ada/gcc-interface/Make-lang.in || die # Create bin wrappers because not all of the build system respects # GNATBIND or GNATMAKE. _toolchain_make_gnat_wrappers() { mkdir "${T}"/ada-wrappers || die local tool for tool in gnat{,bind,chop,clean,kr,link,ls,make,name,prep} ; do cat <<-EOF > "${T}"/ada-wrappers/${tool} || die #!/bin/sh exec "${ada_bootstrap_bin_dir}"/${CHOST}-${tool} "\$@" EOF export "${tool^^}"="${T}"/ada-wrappers/${tool} done chmod +x "${T}"/ada-wrappers/gnat{,bind,chop,clean,kr,link,ls,make,name,prep} || die export PATH="${T}/ada-wrappers:${old_path}" } # Only make the wrappers for native builds. For cross, we can't # do it as CBUILD vs CHOST will get mixed up then. ! tc-is-cross-compiler && _toolchain_make_gnat_wrappers export CC="$(tc-getCC) -specs=${T}/ada.spec" } # @FUNCTION: toolchain_setup_d # @INTERNAL # @DESCRIPTION: # Determine the most suitable GDC (D compiler) for bootstrapping # and setup the environment for building. toolchain_setup_d() { local bootstrap_gcc_slot bootstrap_gcc_bin_dir _find_bootstrap_gcc_with "[d(-)]" "D" 11 if [[ -z ${bootstrap_gcc_bin_dir} ]] ; then if tc-is-cross-compiler ; then # We can't add cross-${CHOST}/gcc[d] to BDEPEND but we can # print a useful message to the user. local bootstrap_gcc_pkg _get_bootstrap_gcc_info bootstrap_gcc_pkg eerror "No ${bootstrap_gcc_pkg}[d] was found installed." eerror "When cross-compiling GDC a bootstrap GDC is required." eerror "Either disable the d USE flag or add:" eerror "" eerror " ${bootstrap_gcc_pkg} d" eerror "" eerror "In your package.use and re-emerge it." eerror "" fi die "Did not find any appropriate GDC compiler installed" fi export GDC=${bootstrap_gcc_bin_dir}/${CHOST}-gdc } #---->> src_configure <<---- toolchain_src_configure() { BUILD_CONFIG_TARGETS=() is-flagq '-O3' && BUILD_CONFIG_TARGETS+=( bootstrap-O3 ) downgrade_arch_flags gcc_do_filter_flags if [[ ${PN} != kgcc64 && ${PN} != gcc-* ]] && tc_version_is_at_least 14.2.1_p20241026 ${PV}; then append-cppflags "-D_GENTOO_TIME64_FORCE=$(usex time64 1 0)" fi if ! tc_version_is_at_least 11 && [[ $(gcc-major-version) -ge 12 ]] ; then # https://gcc.gnu.org/PR105695 (bug #849359) export ac_cv_std_swap_in_utility=no fi # Workaround -march=native not working for stage1 with non-GCC (bug #933772). if ! tc-is-gcc && [[ "${CFLAGS}${CXXFLAGS}" == *-march=native* ]] ; then CLANG_DISABLE_CET_HACK=1 fi local flag for flag in $(all-flag-vars) ; do einfo "${flag}=\"${!flag}\"" done local confgcc=( --host=${CHOST} ) if is_crosscompile || tc-is-cross-compiler ; then # Straight from the GCC install doc: # "GCC has code to correctly determine the correct value for target # for nearly all native systems. Therefore, we highly recommend you # not provide a configure target when configuring a native compiler." confgcc+=( --target=${CTARGET} ) fi [[ -n ${CBUILD} ]] && confgcc+=( --build=${CBUILD} ) confgcc+=( --prefix="${PREFIX}" --bindir="${BINPATH}" --includedir="${INCLUDEPATH}" --datadir="${DATAPATH}" --mandir="${DATAPATH}/man" --infodir="${DATAPATH}/info" --with-gxx-include-dir="${STDCXX_INCDIR}" # portage's econf() does not detect presence of --d-s-r # because it greps only top-level ./configure. But not # libiberty's or gcc's configure. --disable-silent-rules ) if tc_version_is_at_least 10 ; then confgcc+=( --disable-dependency-tracking ) fi # Stick the python scripts in their own slotted directory (bug #279252) # # --with-python-dir=DIR # Specifies where to install the Python modules used for aot-compile. DIR # should not include the prefix used in installation. For example, if the # Python modules are to be installed in /usr/lib/python2.5/site-packages, # then --with-python-dir=/lib/python2.5/site-packages should be passed. # # This should translate into "/share/gcc-data/${CTARGET}/${GCC_CONFIG_VER}/python" confgcc+=( --with-python-dir=${DATAPATH/$PREFIX/}/python ) ### language options local GCC_LANG="c" is_cxx && GCC_LANG+=",c++" is_d && GCC_LANG+=",d" is_go && GCC_LANG+=",go" if is_objc || is_objcxx ; then GCC_LANG+=",objc" use objc-gc && confgcc+=( --enable-objc-gc ) is_objcxx && GCC_LANG+=",obj-c++" fi # Fortran support just got sillier! The lang value can be f77 for # fortran77, f95 for fortran95, or just plain old fortran for the # currently supported standard depending on gcc version. is_fortran && GCC_LANG+=",fortran" is_f77 && GCC_LANG+=",f77" is_f95 && GCC_LANG+=",f95" is_ada && GCC_LANG+=",ada" is_modula2 && GCC_LANG+=",m2" is_rust && GCC_LANG+=",rust" _need_ada_bootstrap_mangling() { if [[ ${CATEGORY}/${PN} == dev-lang/gnat-gpl ]] ; then _tc_use_if_iuse system-bootstrap && return 0 return 1 fi _tc_use_if_iuse ada } _need_d_bootstrap() { _tc_use_if_iuse d && [[ ${GCCMAJOR} -ge 12 ]] } _need_ada_bootstrap_mangling && toolchain_setup_ada _need_d_bootstrap && toolchain_setup_d confgcc+=( --enable-languages=${GCC_LANG} ) ### general options confgcc+=( --enable-obsolete --enable-secureplt --disable-werror --with-system-zlib ) if use nls ; then confgcc+=( --enable-nls --without-included-gettext ) else confgcc+=( --disable-nls ) fi confgcc+=( --disable-libunwind-exceptions ) if in_iuse debug ; then # Non-released versions get extra checks, follow configure.ac's default to for those # unless USE=debug. Note that snapshots on stable branches don't count as "non-released" # for these purposes. if grep -q "experimental" gcc/DEV-PHASE ; then # Tell users about the non-obvious behavior here so they don't think # e.g. the next GCC release is super slow to compile things. if ! use debug ; then ewarn "Unreleased GCCs default to extra runtime checks even with USE=-debug," ewarn "matching upstream default behavior. We recommend keeping these enabled." ewarn "The checks (sometimes substantially) increase build time but provide important protection" ewarn "from potential miscompilations (wrong code) by turning them into build-time errors." ewarn "To override (not recommended), set: GCC_CHECKS_LIST=\"release\"." fi # - USE=debug for pre-releases: yes,extra,rtl (stornger than USE=debug for releases) # - USE=-debug for pre-releases: yes,extra (following upstream default) confgcc+=( --enable-checking="${GCC_CHECKS_LIST:-$(usex debug yes,extra,rtl yes,extra)}" ) else # - Use the default ("release") checking because upstream usually neglects # to test "disabled" so it has a history of breaking. bug #317217. # - The "release" keyword is new to 4.0. bug #551636. # - After discussing in #gcc, we concluded that =yes,extra,rtl makes # more sense when a user explicitly requests USE=debug. If rtl is too slow, # we can change this to yes,extra. confgcc+=( --enable-checking="${GCC_CHECKS_LIST:-$(usex debug yes,extra,rtl release)}" ) fi fi # Branding confgcc+=( --with-bugurl=https://bugs.gentoo.org/ --with-pkgversion="${BRANDING_GCC_PKGVERSION}" ) if tc_use_major_version_only ; then confgcc+=( --with-gcc-major-version-only ) fi # Allow gcc to search for clock funcs in the main C lib. # if it can't find them, then tough cookies -- we aren't # going to link in -lrt to all C++ apps. bug #411681 if is_cxx ; then confgcc+=( --enable-libstdcxx-time ) fi # This only controls whether the compiler *supports* LTO, not whether # it's *built using* LTO. Hence we do it without a USE flag. confgcc+=( --enable-lto ) # Build compiler itself using LTO if tc_use_if_iuse lto ; then # GCC 11 at least has a -Wlto-type-mismatch issue with Ada if ! tc_version_is_at_least 12.1 && is_ada ; then :; elif tc_version_is_at_least 9.1 ; then BUILD_CONFIG_TARGETS+=( bootstrap-lto ) fi fi if tc_version_is_at_least 12 && _tc_use_if_iuse cet && [[ -z ${CLANG_DISABLE_CET_HACK} && ${CTARGET} == x86_64-*-gnu* ]] ; then BUILD_CONFIG_TARGETS+=( bootstrap-cet ) fi # Support to disable PCH when building libstdcxx if ! _tc_use_if_iuse pch ; then confgcc+=( --disable-libstdcxx-pch ) fi # build-id was disabled for file collisions: bug #526144 # # # Turn on the -Wl,--build-id flag by default for ELF targets. bug #525942 # # This helps with locating debug files. # case ${CTARGET} in # *-linux-*|*-elf|*-eabi) # tc_version_is_at_least 4.5 && confgcc+=( # --enable-linker-build-id # ) # ;; # esac ### Cross-compiler option # # Note that 'newlib' here doesn't have to mean genuine newlib. # See https://gcc.gnu.org/pipermail/gcc/2014-January/211653.html. if is_crosscompile ; then # Enable build warnings by default with cross-compilers when system # paths are included (e.g. via -I flags). confgcc+=( --enable-poison-system-directories ) # When building a stage1 cross-compiler (just C compiler), we have to # disable a bunch of features or gcc goes boom local needed_libc="" case ${CTARGET} in *-linux) needed_libc=error-unknown-libc ;; *-dietlibc) needed_libc=dietlibc ;; *-elf|*-eabi) needed_libc=newlib # Bare-metal targets don't have access to clock_gettime() # arm-none-eabi example: bug #589672 # But we explicitly do --enable-libstdcxx-time above. # Undoing it here. confgcc+=( --disable-libstdcxx-time ) ;; *-gnu*) needed_libc=glibc ;; *-klibc) needed_libc=klibc ;; *-musl*) needed_libc=musl ;; x86_64-*-mingw*|*-w64-mingw*) needed_libc=mingw64-runtime ;; avr) confgcc+=( --enable-shared --disable-threads ) ;; nvptx*) needed_libc=newlib confgcc+=( # "LTO is not supported for this target" --disable-lto ) # --enable-as-accelerator-for= seems to disable # installing nvtpx-none-cc etc, so we have to # avoid passing that for the stage1-build that # crossdev does. If we pass it unconditionally, # we can't build newlib after building stage1 gcc. if has_version ${CATEGORY}/${PN} ; then confgcc+=( # It's unlikely that anyone will want # to build nvptx-none as a pure standalone # toolchain (which will be single-threaded, etc). # # If someone really wants it, we can see about # adding a USE=offload or similar based on CTARGET # for cross targets. But for now, we always assume # we're being built as an offloading compiler (accelerator). --enable-as-accelerator-for=${CHOST} --disable-sjlj-exceptions ) fi ;; esac if [[ -n ${needed_libc} ]] ; then local confgcc_no_libc=( --disable-shared ) # requires libc: bug #734820 confgcc_no_libc+=( --disable-libquadmath ) # requires libc confgcc_no_libc+=( --disable-libatomic ) if ! has_version ${CATEGORY}/${needed_libc} ; then confgcc+=( "${confgcc_no_libc[@]}" --disable-threads --without-headers ) if [[ ${needed_libc} == glibc ]] ; then # By default gcc looks at glibc's headers # to detect long double support. This does # not work for --disable-headers mode. # Any >=glibc-2.4 is good enough for float128. # The option appeared in gcc-4.2. confgcc+=( --with-long-double-128 ) fi elif has_version "${CATEGORY}/${needed_libc}[headers-only(-)]" ; then confgcc+=( "${confgcc_no_libc[@]}" --with-sysroot="${PREFIX}"/${CTARGET} ) else confgcc+=( --with-sysroot="${PREFIX}"/${CTARGET} ) fi fi confgcc+=( # https://gcc.gnu.org/PR100289 # TOOD: Find a way to disable this just for stage1 cross? --disable-gcov --disable-bootstrap ) else if tc-is-static-only ; then confgcc+=( --disable-shared ) else confgcc+=( --enable-shared ) fi case ${CHOST} in mingw*|*-mingw*) confgcc+=( --enable-threads=win32 ) ;; *) confgcc+=( --enable-threads=posix ) ;; esac if ! use prefix-guest ; then # GNU ld scripts, such as those in glibc, reference unprefixed paths # as the sysroot given here is automatically prepended. For # prefix-guest, we use the host's libc instead. if [[ -n ${EPREFIX} ]] ; then confgcc+=( --with-sysroot="${EPREFIX}" ) fi # We need to build against the right headers and libraries. Again, # for prefix-guest, this is the host's. if [[ -n ${ESYSROOT} ]] ; then confgcc+=( --with-build-sysroot="${ESYSROOT}" ) fi fi fi # __cxa_atexit is "essential for fully standards-compliant handling of # destructors", but apparently requires glibc. case ${CTARGET} in nvptx*|*-elf|*-eabi) confgcc+=( --with-newlib ) ;; *-musl*) confgcc+=( --enable-__cxa_atexit ) ;; *-gnu*) confgcc+=( --enable-__cxa_atexit --enable-clocale=gnu ) ;; *-solaris*) confgcc+=( --enable-__cxa_atexit ) ;; esac ### arch options gcc-multilib-configure # gcc has fixed-point arithmetic support in 4.3 for mips targets that can # significantly increase compile time by several hours. This will allow # users to control this feature in the event they need the support. in_iuse fixed-point && confgcc+=( $(use_enable fixed-point) ) case $(tc-is-softfloat) in yes) confgcc+=( --with-float=soft ) ;; softfp) confgcc+=( --with-float=softfp ) ;; *) # If they've explicitly opt-ed in, do hardfloat, # otherwise let the gcc default kick in. case ${CTARGET//_/-} in *-hardfloat-*|*eabihf) confgcc+=( --with-float=hard ) ;; esac esac local with_abi_map=() case $(tc-arch) in arm) # bug #264534, bug #414395 local a arm_arch=${CTARGET%%-*} # Remove trailing endian variations first: eb el be bl b l for a in e{b,l} {b,l}e b l ; do if [[ ${arm_arch} == *${a} ]] ; then arm_arch=${arm_arch%${a}} break fi done # Convert armv7{a,r,m} to armv7-{a,r,m} [[ ${arm_arch} == armv7? ]] && arm_arch=${arm_arch/7/7-} # See if this is a valid --with-arch flag if (srcdir=${S}/gcc target=${CTARGET} with_arch=${arm_arch}; . "${srcdir}"/config.gcc) &>/dev/null then confgcc+=( --with-arch=${arm_arch} ) fi # Make default mode thumb for microcontroller classes, bug #418209 [[ ${arm_arch} == *-m ]] && confgcc+=( --with-mode=thumb ) # Enable hardvfp if [[ $(tc-is-softfloat) == "no" ]] && [[ ${CTARGET} == armv[67]* ]] ; then # Follow the new arm hardfp distro standard by default confgcc+=( --with-float=hard ) case ${CTARGET} in armv6*) confgcc+=( --with-fpu=vfp ) ;; armv7*) confgcc+=( --with-fpu=vfpv3-d16 ) ;; esac fi # If multilib is used, make the compiler build multilibs # for A or R and M architecture profiles. Do this only # when no specific arch/mode/float is specified, e.g. # for target arm-none-eabi, since doing this is # incompatible with --with-arch/cpu/float/fpu. if is_multilib && [[ ${arm_arch} == arm ]] ; then confgcc+=( --with-multilib-list=aprofile,rmprofile ) fi ;; mips) # Add --with-abi flags to set default ABI confgcc+=( --with-abi=$(gcc-abi-map ${TARGET_DEFAULT_ABI}) ) ;; amd64) # drop the older/ABI checks once this gets merged into some # version of gcc upstream if has x32 $(get_all_abis TARGET) ; then confgcc+=( --with-abi=$(gcc-abi-map ${TARGET_DEFAULT_ABI}) ) fi ;; x86) # Default arch for x86 is normally i386, let's give it a bump # since glibc will do so based on CTARGET anyways confgcc+=( --with-arch=${CTARGET%%-*} ) ;; ppc) # Set up defaults based on current CFLAGS is-flagq -mfloat-gprs=double && confgcc+=( --enable-e500-double ) [[ ${CTARGET//_/-} == *-e500v2-* ]] && confgcc+=( --enable-e500-double ) ;; ppc64) # On ppc64, the big endian target gcc assumes elfv1 by default, # and elfv2 on little endian. # But musl does not support elfv1 at all on any endian ppc64. # See: # - https://git.musl-libc.org/cgit/musl/tree/INSTALL # - bug #704784 # - https://gcc.gnu.org/PR93157 # musl additionally does not support libquadmath. See: # - https://gcc.gnu.org/PR116007 [[ ${CTARGET} == powerpc64-*-musl ]] && confgcc+=( --with-abi=elfv2 --disable-libquadmath --disable-libquadmath-support --with-long-double-128=no ) if in_iuse ieee-long-double; then # musl requires 64-bit long double, not IBM double-double or IEEE quad. if [[ ${CTARGET} == powerpc64le-*-gnu ]]; then use ieee-long-double && confgcc+=( --with-long-double-format=ieee ) fi fi ;; riscv) # Add --with-abi flags to set default ABI confgcc+=( --with-abi=$(gcc-abi-map ${TARGET_DEFAULT_ABI}) ) ;; esac # If the target can do biarch (-m32/-m64), enable it. overhead should # be small, and should simplify building of 64bit kernels in a 32bit # userland by not needing sys-devel/kgcc64. bug #349405 case $(tc-arch) in amd64|ppc|ppc64|sparc|x86) confgcc+=( --enable-targets=all ) ;; *) ;; esac # On Darwin we need libdir to be set in order to get correct install names # for things like libobjc-gnu and libfortran. If we enable it on # non-Darwin we screw up the behaviour this eclass relies on. We in # particular need this over --libdir for bug #255315. [[ ${CTARGET} == *-darwin* ]] && \ confgcc+=( --enable-version-specific-runtime-libs ) # Linux specifically here for bug #946397. # TODO: amdgcn-amdhsa? [[ ${CTARGET} == x86_64*-*-linux-* ]] && confgcc+=( --enable-offload-defaulted --enable-offload-targets=nvptx-none ) ### library options if in_iuse openmp ; then # Make sure target has pthreads support: bug #326757, bug #335883 # There shouldn't be a chicken & egg problem here as openmp won't # build without a C library, and you can't build that w/o # already having a compiler... if ! is_crosscompile || \ $(tc-getCPP ${CTARGET}) -E - <<<"#include " >& /dev/null then confgcc+=( $(use_enable openmp libgomp) ) else # Force disable as the configure script can be dumb, bug #359855 confgcc+=( --disable-libgomp ) fi else # For gcc variants where we don't want openmp (e.g. kgcc) confgcc+=( --disable-libgomp ) fi if _tc_use_if_iuse libssp ; then confgcc+=( --enable-libssp ) else if _tc_use_if_iuse ssp; then # On some targets USE="ssp -libssp" is an invalid # configuration as the target libc does not provide # stack_chk_* functions. Do not disable libssp there. case ${CTARGET} in mingw*|*-mingw*) ewarn "Not disabling libssp" ;; *) confgcc+=( --disable-libssp ) ;; esac else confgcc+=( --disable-libssp ) fi fi if in_iuse ada ; then confgcc+=( $(use_enable ada libada) ) fi if in_iuse cet ; then # Usage: triple_arch triple_env cet_name enable_cet_for() { if [[ ${CTARGET} == ${1}-* ]] ; then if use cet && [[ ${CTARGET} == *-${2}* ]]; then confgcc+=( --enable-${3} ) else confgcc+=( --disable-${3} ) fi fi } enable_cet_for 'x86_64' 'gnu' 'cet' enable_cet_for 'aarch64' 'gnu' 'standard-branch-protection' [[ -n ${CLANG_DISABLE_CET_HACK} || ${CTARGET} == i[34567]86-* ]] && confgcc+=( --disable-cet ) fi if in_iuse systemtap ; then confgcc+=( $(use_enable systemtap) ) fi if in_iuse valgrind ; then confgcc+=( $(use_enable valgrind valgrind-annotations) ) fi if in_iuse vtv ; then confgcc+=( $(use_enable vtv vtable-verify) # See Note [implicitly enabled flags] $(usex vtv '' --disable-libvtv) ) fi if in_iuse zstd ; then confgcc+=( $(use_with zstd) ) fi # graphite was added in 4.4 but we only support it in 6.5+ due to external # library issues. bug #448024, bug #701270 if in_iuse graphite ; then confgcc+=( $(use_with graphite isl) ) use graphite && confgcc+=( --disable-isl-version-check ) else confgcc+=( --without-isl ) fi if in_iuse sanitize ; then # See Note [implicitly enabled flags] confgcc+=( $(usex sanitize '' --disable-libsanitizer) ) else confgcc+=( --disable-libsanitizer ) fi if in_iuse pie ; then confgcc+=( $(use_enable pie default-pie) ) if tc_version_is_at_least 14.0.0_pre20230612 ${PV} ; then confgcc+=( --enable-host-pie ) fi fi if in_iuse default-znow && tc_version_is_at_least 14.0.0_pre20230619 ${PV}; then # See https://gcc.gnu.org/git/?p=gcc.git;a=commit;h=33ebb0dff9bb022f1e0709e0e73faabfc3df7931. # TODO: Add to LDFLAGS_FOR_TARGET? confgcc+=( $(use_enable default-znow host-bind-now) ) fi if in_iuse ssp ; then confgcc+=( # This defaults to -fstack-protector-strong. $(use_enable ssp default-ssp) ) fi if tc_version_is_at_least 13.1 ; then # Re-enable fixincludes for >= GCC 13 with older glibc # https://gcc.gnu.org/PR107128 if ! is_crosscompile && use elibc_glibc && has_version "&1 | grep ' version ' | awk '{ print $3 }')" is_ada && einfo "GNAT version: $(${GNAT} 2>&1 | grep GNAT | awk '{ print $2 }')" is_d && einfo "GDC version: $(${GDC} -v 2>&1 | grep ' version ' | awk '{ print $3 }')" echo # Build in a separate build tree mkdir -p "${WORKDIR}"/build || die pushd "${WORKDIR}"/build > /dev/null || die # ...and now to do the actual configuration addwrite /dev/zero local gcc_shell="${BROOT}"/bin/bash # Older gcc versions did not detect bash and re-exec itself, so force the # use of bash for them. if tc_version_is_at_least 11.2 ; then gcc_shell="${BROOT}"/bin/sh fi if is_jit || _tc_use_if_iuse libgdiagnostics ; then einfo "Configuring shared gcc for JIT/libgdiagnostics" local confgcc_jit=( "${confgcc[@]}" --enable-lto --disable-analyzer --disable-bootstrap --disable-cet --disable-default-pie --disable-default-ssp --disable-gcov --disable-libada --disable-libatomic --disable-libgomp --disable-libitm --disable-libquadmath --disable-libsanitizer --disable-libssp --disable-libstdcxx-pch --disable-libvtv --disable-nls --disable-objc-gc --disable-systemtap --enable-host-shared --enable-languages=jit # Might be used for the just-built GCC. Easier to just # respect USE=graphite here in case the user passes some # graphite flags rather than try strip them out. $(use_with graphite isl) $(use_with zstd) --with-system-zlib ) if tc_version_is_at_least 15.0.0_pre20241124 ${PV} ; then confgcc_jit+=( $(use_enable libgdiagnostics) ) fi if tc_version_is_at_least 13.1 ; then confgcc_jit+=( --disable-fixincludes ) fi mkdir -p "${WORKDIR}"/build-jit || die pushd "${WORKDIR}"/build-jit > /dev/null || die CONFIG_SHELL="${gcc_shell}" edo "${gcc_shell}" "${S}"/configure "${confgcc_jit[@]}" popd > /dev/null || die fi CONFIG_SHELL="${gcc_shell}" edo "${gcc_shell}" "${S}"/configure "${confgcc[@]}" # Return to whatever directory we were in before popd > /dev/null || die } # Replace -m flags unsupported by the version being built with the best # available equivalent downgrade_arch_flags() { local arch bver i isa myarch mytune rep ver bver=${1:-${GCC_BRANCH_VER}} # Don't perform downgrade if running gcc is older than ebuild's. tc_version_is_at_least ${bver} $(gcc-version) || return 0 [[ $(tc-arch) != amd64 && $(tc-arch) != x86 ]] && return 0 myarch=$(get-flag march) mytune=$(get-flag mtune) # Handle special -mtune flags [[ ${mytune} == intel ]] && ! tc_version_is_at_least 4.9 ${bver} && replace-cpu-flags intel generic [[ ${mytune} == x86-64 ]] && filter-flags '-mtune=*' # "added" "arch" "replacement" local archlist=( 12.3 znver4 znver3 10 znver3 znver2 9 znver2 znver1 4.9 bdver4 bdver3 4.9 bonnell atom 4.9 broadwell core-avx2 4.9 haswell core-avx2 4.9 ivybridge core-avx-i 4.9 nehalem corei7 4.9 sandybridge corei7-avx 4.9 silvermont corei7 4.9 westmere corei7 4.8 bdver3 bdver2 4.8 btver2 btver1 4.7 bdver2 bdver1 4.7 core-avx2 core-avx-i 4.6 bdver1 amdfam10 4.6 btver1 amdfam10 4.6 core-avx-i core2 4.6 corei7 core2 4.6 corei7-avx core2 4.5 atom core2 4.3 amdfam10 k8 4.3 athlon64-sse3 k8 4.3 barcelona k8 4.3 core2 nocona 4.3 geode k6-2 # gcc.gnu.org/PR41989#c22 4.3 k8-sse3 k8 4.3 opteron-sse3 k8 ) for ((i = 0; i < ${#archlist[@]}; i += 3)) ; do myarch=$(get-flag march) mytune=$(get-flag mtune) ver=${archlist[i]} arch=${archlist[i + 1]} rep=${archlist[i + 2]} [[ ${myarch} != ${arch} && ${mytune} != ${arch} ]] && continue if ! tc_version_is_at_least ${ver} ${bver}; then einfo "Downgrading '${myarch}' (added in gcc ${ver}) with '${rep}'..." [[ ${myarch} == ${arch} ]] && replace-cpu-flags ${myarch} ${rep} [[ ${mytune} == ${arch} ]] && replace-cpu-flags ${mytune} ${rep} continue else break fi done # We only check -mno* here since -m* get removed by strip-flags later on local isalist=( 4.9 -mno-sha 4.9 -mno-avx512pf 4.9 -mno-avx512f 4.9 -mno-avx512er 4.9 -mno-avx512cd 4.8 -mno-xsaveopt 4.8 -mno-xsave 4.8 -mno-rtm 4.8 -mno-fxsr 4.7 -mno-lzcnt 4.7 -mno-bmi2 4.7 -mno-avx2 4.6 -mno-tbm 4.6 -mno-rdrnd 4.6 -mno-fsgsbase 4.6 -mno-f16c 4.6 -mno-bmi 4.5 -mno-xop 4.5 -mno-movbe 4.5 -mno-lwp 4.5 -mno-fma4 4.4 -mno-pclmul 4.4 -mno-fma 4.4 -mno-avx 4.4 -mno-aes 4.3 -mno-ssse3 4.3 -mno-sse4a 4.3 -mno-sse4 4.3 -mno-sse4.2 4.3 -mno-sse4.1 4.3 -mno-popcnt 4.3 -mno-abm ) for ((i = 0; i < ${#isalist[@]}; i += 2)) ; do ver=${isalist[i]} isa=${isalist[i + 1]} tc_version_is_at_least ${ver} ${bver} || filter-flags ${isa} ${isa/-m/-mno-} done } gcc_do_filter_flags() { # Allow users to explicitly avoid flag sanitization via # USE=custom-cflags. if ! _tc_use_if_iuse custom-cflags; then # 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 # Lock gcc at -O2; we want to be conservative here. filter-flags '-O?' # We allow -O3 given it's a supported option upstream. # Only add -O2 if we're not doing -O3. if [[ ${BUILD_CONFIG_TARGETS[@]} == *bootstrap-O3* ]] ; then append-flags '-O3' else append-flags '-O2' fi fi declare -A l1_cache_sizes=() # Workaround for inconsistent cache sizes on hybrid P/E cores # See PR111768 (and bug #904426, bug #908523, and bug #915389) if [[ ${CBUILD} == @(x86_64|i?86)* ]] && [[ "${CFLAGS}${CXXFLAGS}" == *-march=native* ]] && tc-is-gcc ; then local x local l1_cache_size # Iterate over all cores and find their L1 cache size for x in $(seq 0 $(($(nproc)-1))) ; do [[ -z ${x} || ${x} -gt 64 ]] && break l1_cache_size=$(taskset --cpu-list ${x} $(tc-getCC) -Q --help=params -O2 -march=native \ | awk '{ if ($1 ~ /^.*param.*l1-cache-size/) print $2; }' || die) [[ -n ${l1_cache_size} && ${l1_cache_size} =~ ^[0-9]+$ ]] || break l1_cache_sizes[${l1_cache_size}]=1 done # If any of them are different, abort. We can't just pass one value of # l1-cache-size because it doesn't cancel out the -march=native one. if [[ ${#l1_cache_sizes[@]} -gt 1 ]] ; then eerror "Different values of l1-cache-size detected!" eerror "GCC will fail to bootstrap when comparing files with these flags." eerror "This CPU is likely big.little/hybrid hardware with power/efficiency cores." eerror "Please install app-misc/resolve-march-native and run 'resolve-march-native'" eerror "to find a safe value of CFLAGS for this CPU. Note that this may vary" eerror "depending on the core it ran on. taskset can be used to fix the cores used." die "Varying l1-cache-size found, aborting (bug #915389, gcc PR#111768)" fi fi # https://gcc.gnu.org/PR100431 filter-flags -Werror=format-security if ver_test -lt 13.6 ; then # These aren't supported by the just-built compiler either. filter-flags -fharden-compares -fharden-conditional-branches \ -fharden-control-flow-redundancy -fno-harden-control-flow-redundancy \ -fhardcfr-skip-leaf -fhardcfr-check-exceptions \ -fhardcfr-check-returning-calls '-fhardcfr-check-noreturn-calls=*' # New in GCC 14. filter-flags -Walloc-size fi if ver_test -lt 15.1 ; then filter-flags -fdiagnostics-explain-harder -fdiagnostics-details filter-flags -fdiagnostics-set-output=text:experimental-nesting=yes fi if is_d ; then # bug #940750 filter-flags -Warray-bounds fi # Please use USE=lto instead (bug #906007). filter-lto # Avoid shooting self in foot filter-flags '-mabi*' -m31 -m32 -m64 # bug #490738 filter-flags -frecord-gcc-switches # bug #506202 filter-flags -mno-rtm -mno-htm filter-flags '-fsanitize=*' case $(tc-arch) in amd64|x86) filter-flags '-mcpu=*' ;; alpha) # bug #454426 append-ldflags -Wl,--no-relax ;; esac strip-unsupported-flags # These are set here so we have something sane at configure time if is_crosscompile ; then # Set this to something sane for both native and target CFLAGS="-O2 -pipe" FFLAGS=${CFLAGS} FCFLAGS=${CFLAGS} GDCFLAGS=${CFLAGS} # "hppa2.0-unknown-linux-gnu" -> hppa2_0_unknown_linux_gnu local VAR="CFLAGS_"${CTARGET//[-.]/_} CXXFLAGS=${!VAR-${CFLAGS}} fi } gcc-multilib-configure() { if ! is_multilib ; then confgcc+=( --disable-multilib ) # Fun times: if we are building for a target that has multiple # possible ABI formats, and the user has told us to pick one # that isn't the default, then not specifying it via the list # below will break that on us. else confgcc+=( --enable-multilib ) fi # Translate our notion of multilibs into gcc's local abi list for abi in $(get_all_abis TARGET) ; do local l=$(gcc-abi-map ${abi}) [[ -n ${l} ]] && list+=",${l}" done if [[ -n ${list} ]] ; then case ${CTARGET} in x86_64*) confgcc+=( --with-multilib-list=${list:1} ) ;; esac fi } gcc-abi-map() { # Convert the ABI name we use in Gentoo to what gcc uses local map=() case ${CTARGET} in mips*) map=("o32 32" "n32 n32" "n64 64") ;; riscv*) map=("lp64d lp64d" "lp64 lp64" "ilp32d ilp32d" "ilp32 ilp32") ;; x86_64*) map=("amd64 m64" "x86 m32" "x32 mx32") ;; esac local m for m in "${map[@]}" ; do l=( ${m} ) [[ $1 == ${l[0]} ]] && echo ${l[1]} && break done } #----> src_compile <---- toolchain_src_compile() { touch "${S}"/gcc/c-gperf.h || die # Do not make manpages if we do not have perl ... [[ ! -x "${BROOT}"/usr/bin/perl ]] \ && find "${WORKDIR}"/build -name '*.[17]' -exec touch {} + # To compile ada library standard files special compiler options are passed # via ADAFLAGS in the Makefile. # Unset ADAFLAGS as setting this override the options unset ADAFLAGS # Older gcc versions did not detect bash and re-exec itself, so force the # use of bash for them. # This needs to be set for compile as well, as it's used in libtool # generation, which will break install otherwise (at least in 3.3.6): bug #664486 local gcc_shell="${BROOT}"/bin/bash if tc_version_is_at_least 11.2 ; then gcc_shell="${BROOT}"/bin/sh fi CONFIG_SHELL="${gcc_shell}" \ gcc_do_make ${GCC_MAKE_TARGET} } gcc_do_make() { # This function accepts one optional argument, the make target to be used. # If omitted, gcc_do_make will try to guess whether it should use all, # or bootstrap-lean depending on CTARGET and arch. # An example of how to use this function: # # gcc_do_make all-target-libstdc++-v3 [[ -n ${1} ]] && GCC_MAKE_TARGET=${1} # default target if is_crosscompile || tc-is-cross-compiler ; then # 3 stage bootstrapping doesn't quite work when you can't run the # resulting binaries natively GCC_MAKE_TARGET=${GCC_MAKE_TARGET-all} else if [[ ${EXTRA_ECONF} == *--disable-bootstrap* ]] ; then GCC_MAKE_TARGET=${GCC_MAKE_TARGET-all} ewarn "Disabling bootstrapping. ONLY recommended for development." ewarn "This is NOT a safe configuration for end users!" ewarn "This compiler may not be safe or reliable for production use!" elif _tc_use_if_iuse pgo; then GCC_MAKE_TARGET=${GCC_MAKE_TARGET-profiledbootstrap} else GCC_MAKE_TARGET=${GCC_MAKE_TARGET-bootstrap-lean} fi fi local emakeargs=( LDFLAGS="${LDFLAGS}" LIBPATH="${LIBPATH}" ) if is_crosscompile; then # In 3.4, BOOT_CFLAGS is never used on a crosscompile... # but I'll leave this in anyways as someone might have had # some reason for putting it in here... --eradicator BOOT_CFLAGS=${BOOT_CFLAGS-"-O2"} emakeargs+=( BOOT_CFLAGS="${BOOT_CFLAGS}" ) else # XXX: Hack for bug #914881, clean this up when fixed and go back # to just calling get_abi_LDFLAGS as before. local abi_ldflags="$(get_abi_LDFLAGS ${TARGET_DEFAULT_ABI})" if [[ -n ${abi_ldflags} ]] ; then printf -v abi_ldflags -- "-Wl,%s " ${abi_ldflags} fi # If the host compiler is too old, let's use -O0 per the upstream # default to be safe (to avoid a bootstrap comparison failure later). # # The last known issues are with < GCC 4.9 or so, but it's easier # to keep this bound somewhat fresh just to avoid problems. Ultimately, # using not-O0 is just a build-time speed improvement anyway. if ! tc-is-gcc || ver_test $(gcc-fullversion) -lt 10 ; then STAGE1_CFLAGS="-O0" STAGE1_CXXFLAGS="-O0" # We have a very good host compiler but it may be a bit too good, and # know about flags that the version we are compiling does not know # about. In principle we could check e.g. which gnat1 we are using as # a bootstrap. It's simpler to do it unconditionally for now. elif _tc_use_if_iuse ada || _tc_use_if_iuse d; then STAGE1_CFLAGS="-O2" STAGE1_CXXFLAGS="-O2" fi # We only want to use the system's CFLAGS if not building a # cross-compiler. STAGE1_CFLAGS=${STAGE1_CFLAGS-"$(get_abi_CFLAGS ${TARGET_DEFAULT_ABI}) ${CFLAGS}"} # multilib.eclass lacks get_abi_CXXFLAGS (bug #940501) STAGE1_CXXFLAGS=${STAGE1_CXXFLAGS-"$(get_abi_CFLAGS ${TARGET_DEFAULT_ABI}) ${CXXFLAGS}"} STAGE1_LDFLAGS=${STAGE1_LDFLAGS-"${abi_ldflags} ${LDFLAGS}"} BOOT_CFLAGS=${BOOT_CFLAGS-"$(get_abi_CFLAGS ${TARGET_DEFAULT_ABI}) ${CFLAGS}"} BOOT_LDFLAGS=${BOOT_LDFLAGS-"${abi_ldflags} ${LDFLAGS}"} LDFLAGS_FOR_TARGET="${LDFLAGS_FOR_TARGET:-${LDFLAGS}}" # If we need to in future, we could really simplify this # to just be unconditional for stage1. It doesn't really # matter there. If we want to go in the other direction # and make this more conditional, we could check if # the bootstrap compiler is < GCC 12. See bug #940470. if _tc_use_if_iuse d && use hardened ; then STAGE1_CXXFLAGS+=" -U_GLIBCXX_ASSERTIONS" fi emakeargs+=( STAGE1_CFLAGS="${STAGE1_CFLAGS}" STAGE1_CXXFLAGS="${STAGE1_CXXFLAGS}" STAGE1_LDFLAGS="${STAGE1_LDFLAGS}" BOOT_CFLAGS="${BOOT_CFLAGS}" BOOT_LDFLAGS="${BOOT_LDFLAGS}" LDFLAGS_FOR_TARGET="${LDFLAGS_FOR_TARGET}" ) fi if is_jit ; then # TODO: docs for jit? einfo "Building JIT" emake -C "${WORKDIR}"/build-jit "${emakeargs[@]}" fi einfo "Compiling ${PN} (${GCC_MAKE_TARGET})..." pushd "${WORKDIR}"/build >/dev/null || die emake "${emakeargs[@]}" ${GCC_MAKE_TARGET} if ! is_crosscompile && _tc_use_if_iuse cxx && _tc_use_if_iuse doc ; then if type -p doxygen > /dev/null ; then cd "${CTARGET}"/libstdc++-v3/doc || die emake doc-man-doxygen # Clean bogus manpages. bug #113902 find -name '*_build_*' -delete || die # Blow away generated directory references. Newer versions of gcc # have gotten better at this, but not perfect. This is easier than # backporting all of the various doxygen patches. bug #486754 find -name '*_.3' -exec grep -l ' Directory Reference ' {} + | \ xargs rm -f else ewarn "Skipping libstdc++ manpage generation since you don't have doxygen installed" fi fi popd >/dev/null || die } #---->> src_test <<---- # TODO: add JIT testing toolchain_src_test() { # GCC's testsuite is a special case. # # * Generally, people work off comparisons rather than a full set of # passing tests. # # * The guality (sic) tests are for debug info quality and are especially # unreliable. # # * The execute torture tests are hopefully a good way for us to smoketest # and find critical regresions. # From opensuse's spec file: "asan needs a whole shadow address space" ulimit -v unlimited # 'asan' wants to be preloaded first, so does 'sandbox'. # To make asan tests work, we disable sandbox for all of test suite. # The 'backtrace' tests also do not like the presence of 'libsandbox.so'. local -x SANDBOX_ON=0 local -x LD_PRELOAD= # Controls running expensive tests in e.g. the torture testsuite. # Note that 'TEST', not 'TESTS', is correct here as it's a GCC # testsuite variable, not ours. local -x GCC_TEST_RUN_EXPENSIVE=1 # Use a subshell to allow meddling with flags just for the testsuite ( # Workaround our -Wformat-security default which breaks # various tests as it adds unexpected warning output. if tc_version_is_at_least 13 ; then GCC_TESTS_CFLAGS+=" -Wno-format-security -Wno-format" GCC_TESTS_CXXFLAGS+=" -Wno-format-security -Wno-format" fi # Workaround our -Wtrampolines default which breaks # tests too. GCC_TESTS_CFLAGS+=" -Wno-trampolines" GCC_TESTS_CXXFLAGS+=" -Wno-trampolines" # A handful of Ada (and objc++?) tests need an executable stack GCC_TESTS_LDFLAGS+=" -Wl,--no-warn-execstack" # Avoid confusing tests like Fortran/C interop ones where # CFLAGS are used. if tc_version_is_at_least 13 ; then GCC_TESTS_CFLAGS+=" -Wno-complain-wrong-lang" GCC_TESTS_CXXFLAGS+=" -Wno-complain-wrong-lang" fi # Issues with Ada tests: # gnat.dg/align_max.adb # gnat.dg/trampoline4.adb # # A handful of Ada tests use -fstack-check and conflict # with -fstack-clash-protection. # # TODO: This isn't ideal given it obv. affects codegen # and we want to be sure it works. GCC_TESTS_CFLAGS+=" -fno-stack-clash-protection" GCC_TESTS_CXXFLAGS+=" -fno-stack-clash-protection" # TODO: Does this handle s390 (-m31) correctly? # TODO: What if there are multiple ABIs like x32 too? # XXX: Disabled until validate_failures.py can handle 'variants' # XXX: https://gcc.gnu.org/PR116260 #is_multilib && GCC_TESTS_RUNTESTFLAGS+=" --target_board=unix{,-m32}" # nonfatal here as we die if the comparison below fails. Also, note that # the exit code of targets other than 'check' may be unreliable. # # CFLAGS and so on are repeated here because of tests vs building test # deps like libbacktrace. # # TODO: Should we try pass in the regular user flags for the non-RUNTESTFLAGS # instances below for building e.g. libbacktrace? nonfatal emake -C "${WORKDIR}"/build -k "${GCC_TESTS_CHECK_TARGET}" \ RUNTESTFLAGS=" \ ${GCC_TESTS_RUNTESTFLAGS} \ CFLAGS_FOR_TARGET='${GCC_TESTS_CFLAGS_FOR_TARGET:-${GCC_TESTS_CFLAGS}}' \ CXXFLAGS_FOR_TARGET='${GCC_TESTS_CXXFLAGS_FOR_TARGET:-${GCC_TESTS_CXXFLAGS}}' \ LDFLAGS_FOR_TARGET='${TEST_LDFLAGS_FOR_TARGET:-${GCC_TESTS_LDFLAGS}}' \ CFLAGS='${GCC_TESTS_CFLAGS}' \ CXXFLAGS='${GCC_TESTS_CXXFLAGS}' \ FCFLAGS='${GCC_TESTS_FCFLAGS}' \ FFLAGS='${GCC_TESTS_FFLAGS}' \ LDFLAGS='${GCC_TESTS_LDFLAGS}' \ " \ CFLAGS_FOR_TARGET="${GCC_TESTS_CFLAGS_FOR_TARGET:-${GCC_TESTS_CFLAGS}}" \ CXXFLAGS_FOR_TARGET="${GCC_TESTS_CXXFLAGS_FOR_TARGET:-${GCC_TESTS_CXXFLAGS}}" \ LDFLAGS_FOR_TARGET="${GCC_TESTS_LDFLAGS_FOR_TARGET:-${GCC_TESTS_LDFLAGS}}" \ CFLAGS="${GCC_TESTS_CFLAGS}" \ CXXFLAGS="${GCC_TESTS_CXXFLAGS}" \ FCFLAGS="${GCC_TESTS_FCFLAGS}" \ FFLAGS="${GCC_TESTS_FFLAGS}" \ LDFLAGS="${GCC_TESTS_LDFLAGS}" ) # Produce an updated failure manifest. einfo "Generating a new failure manifest ${T}/${CHOST}.xfail" rm -f "${T}"/${CHOST}.xfail edo "${T}"/validate_failures.py \ --srcpath="${S}" \ --build_dir="${WORKDIR}"/build \ --manifest="${T}"/${CHOST}.xfail \ --produce_manifest &> /dev/null # If there's no manifest available, check older slots, as it's better # than nothing. We start with 10 for the fallback as the first version # we started using --with-major-version-only. local possible_slot for possible_slot in "${GCC_TESTS_COMPARISON_SLOT}" $(seq ${SLOT} -1 10) ; do [[ -f "${GCC_TESTS_COMPARISON_DIR}/${possible_slot}/${CHOST}.xfail" ]] && break done if [[ ${possible_slot} != "${GCC_TESTS_COMPARISON_SLOT}" ]] ; then ewarn "Couldn't find manifest for ${GCC_TESTS_COMPARISON_SLOT}; falling back to ${possible_slot}" fi local manifest="${GCC_TESTS_COMPARISON_DIR}/${possible_slot}/${CHOST}.xfail" if [[ -f "${manifest}" ]] ; then # TODO: Distribute some baseline results in e.g. gcc-patches.git? # validate_failures.py manifest files support include directives. einfo "Comparing with previous cached results at ${manifest}" nonfatal edo "${T}"/validate_failures.py \ --srcpath="${S}" \ --build_dir="${WORKDIR}"/build \ --manifest="${manifest}" ret=$? if [[ -n ${GCC_TESTS_REGEN_BASELINE} ]] ; then eerror "GCC_TESTS_REGEN_BASELINE is set, ignoring test result and creating a new baseline..." elif [[ ${ret} != 0 ]]; then die "Tests failed (failures not listed in the baseline data)" fi else nonfatal edo "${T}"/validate_failures.py \ --srcpath="${S}" \ --build_dir="${WORKDIR}"/build ret=$? # We have no reference data saved from a previous run to know if # the failures are tolerable or not, so we bail out. eerror "No reference test data at ${manifest}!" eerror "GCC's tests require a baseline to compare with for any reasonable interpretation of results." if [[ -n ${GCC_TESTS_IGNORE_NO_BASELINE} ]] ; then eerror "GCC_TESTS_IGNORE_NO_BASELINE is set, ignoring test result and creating a new baseline..." elif [[ -n ${GCC_TESTS_REGEN_BASELINE} ]] ; then eerror "GCC_TESTS_REGEN_BASELINE is set, ignoring test result and creating using a new baseline..." elif [[ ${ret} != 0 ]] ; then eerror "(Set GCC_TESTS_IGNORE_NO_BASELINE=1 to make this non-fatal and generate a baseline.)" die "Tests failed (failures occurred with no reference data)" fi fi } #---->> src_install <<---- toolchain_src_install() { cd "${WORKDIR}"/build || die # Don't allow symlinks in private gcc include dir as this can break the build find gcc/include*/ -type l -delete || die if [[ ${GCC_RUN_FIXINCLUDES} == 0 ]] ; then # We remove the generated fixincludes, as they can cause things to break # (ncurses, openssl, etc). while read x ; do grep -q 'It has been auto-edited by fixincludes from' "${x}" \ && rm -f "${x}" done < <(find gcc/include*/ -name '*.h') fi if is_jit ; then # See https://gcc.gnu.org/onlinedocs/gcc-11.3.0/jit/internals/index.html#packaging-notes # and bug #843341. # # Both of the non-JIT and JIT builds are configured to install to $(DESTDIR) # Install the configuration with --enable-host-shared first # *then* the one without, so that the faster build # of "cc1" et al overwrites the slower build. # # Do the 'make install' from the build directory pushd "${WORKDIR}"/build-jit > /dev/null || die S="${WORKDIR}"/build-jit emake DESTDIR="${D}" -j1 install # This one comes with binutils find "${ED}" -name libiberty.a -delete || die # Move the libraries to the proper location gcc_movelibs popd > /dev/null || die fi # Do the 'make install' from the build directory # # Unfortunately, we have to use -j1 for make install. Upstream # don't really test it and there's not much appetite for fixing bugs # with it. Several reported bugs exist where the resulting image # was wrong, rather than a simple compile/install failure: # - bug #906155 # - https://gcc.gnu.org/PR42980 # - https://gcc.gnu.org/PR51814 # - https://gcc.gnu.org/PR103656 # - https://gcc.gnu.org/PR109898 S="${WORKDIR}"/build emake DESTDIR="${D}" -j1 install # This one comes with binutils find "${ED}" -name libiberty.a -delete || die # Move the libraries to the proper location gcc_movelibs # Basic sanity check if ! is_crosscompile ; then local EXEEXT eval $(grep ^EXEEXT= "${WORKDIR}"/build/gcc/config.log) [[ -r ${D}${BINPATH}/gcc${EXEEXT} ]] || die "gcc not found in ${ED}" fi dodir /etc/env.d/gcc create_gcc_env_entry create_revdep_rebuild_entry dodir /usr/bin cd "${D}"${BINPATH} || die # Ugh: we really need to auto-detect this list. # It's constantly out of date. for x in cpp gcc gccrs g++ c++ gcov gdc g77 gfortran gccgo gnat* ; do # For some reason, g77 gets made instead of ${CTARGET}-g77... # this should take care of that if [[ -f ${x} ]] ; then # In case they're hardlinks, clear out the target first # otherwise the mv below will complain. rm -f ${CTARGET}-${x} mv ${x} ${CTARGET}-${x} fi if [[ -f ${CTARGET}-${x} ]] ; then if ! is_crosscompile ; then ln -sf ${CTARGET}-${x} ${x} dosym ${BINPATH}/${CTARGET}-${x} \ /usr/bin/${x}-${GCC_CONFIG_VER} fi # Create versioned symlinks dosym ${BINPATH}/${CTARGET}-${x} \ /usr/bin/${CTARGET}-${x}-${GCC_CONFIG_VER} fi if [[ -f ${CTARGET}-${x}-${GCC_CONFIG_VER} ]] ; then rm -f ${CTARGET}-${x}-${GCC_CONFIG_VER} ln -sf ${CTARGET}-${x} ${CTARGET}-${x}-${GCC_CONFIG_VER} fi done # When gcc builds a crosscompiler it does not install unprefixed tools. # When cross-building gcc does install native tools. if ! is_crosscompile; then # Rename the main go binaries as we don't want to clobber dev-lang/go # when gcc-config runs. bug #567806 if is_go ; then for x in go gofmt; do mv ${x} ${x}-${GCCMAJOR} || die done fi fi # As gcc installs object files built against both ${CHOST} and ${CTARGET} # ideally we will need to strip them using different tools: # Using ${CHOST} tools: # - "${D}${BINPATH}" # - (for is_crosscompile) "${D}${HOSTLIBPATH}" # - "${D}${PREFIX}/libexec/gcc/${CTARGET}/${GCC_CONFIG_VER}" # Using ${CTARGET} tools: # - "${D}${LIBPATH}" # As dostrip does not specify host to override ${CHOST} tools just skip # non-native binary stripping. is_crosscompile && dostrip -x "${LIBPATH}" cd "${S}" || die if is_crosscompile; then rm -rf "${ED}"/usr/share/{man,info} rm -rf "${D}"${DATAPATH}/{man,info} else local cxx_mandir=$(find "${WORKDIR}/build/${CTARGET}/libstdc++-v3" -name man || die) if [[ -d ${cxx_mandir} ]] ; then cp -r "${cxx_mandir}"/man? "${D}${DATAPATH}"/man/ || die fi fi # Portage regenerates 'dir' files on its own: bug #672408 # Drop 'dir' files to avoid collisions. if [[ -f "${D}${DATAPATH}"/info/dir ]]; then einfo "Deleting '${D}${DATAPATH}/info/dir'" rm "${D}${DATAPATH}"/info/dir || die fi docompress "${DATAPATH}"/{info,man} # Prune empty dirs left behind. It's fine not to die here as we may # really have no empty dirs left. find "${ED}" -depth -type d -delete 2>/dev/null # libstdc++.la: Delete as it doesn't add anything useful: g++ itself # handles linkage correctly in the dynamic & static case. It also just # causes us pain: any C++ progs/libs linking with libtool will gain a # reference to the full libstdc++.la file which is gcc version specific. # libstdc++fs.la: It doesn't link against anything useful. # libsupc++.la: This has no dependencies. # libcc1.la: There is no static library, only dynamic. # libcc1plugin.la: Same as above, and it's loaded via dlopen. # libcp1plugin.la: Same as above, and it's loaded via dlopen. # libgomp.la: gcc itself handles linkage (libgomp.spec). # libgomp-plugin-*.la: Same as above, and it's an internal plugin only # loaded via dlopen. # libgfortran.la: gfortran itself handles linkage correctly in the # dynamic & static case (libgfortran.spec). bug #573302 # libgfortranbegin.la: Same as above, and it's an internal lib. # libitm.la: gcc itself handles linkage correctly (libitm.spec). # libvtv.la: gcc itself handles linkage correctly. # lib*san.la: Sanitizer linkage is handled internally by gcc, and they # do not support static linking. bug #487550, bug #546700 find "${D}${LIBPATH}" \ '(' \ -name libstdc++.la -o \ -name libstdc++fs.la -o \ -name libstdc++exp.la -o \ -name libsupc++.la -o \ -name libcc1.la -o \ -name libcc1plugin.la -o \ -name libcp1plugin.la -o \ -name 'libgomp.la' -o \ -name 'libgomp-plugin-*.la' -o \ -name libgfortran.la -o \ -name libgfortranbegin.la -o \ -name libitm.la -o \ -name libvtv.la -o \ -name 'lib*san.la' \ ')' -type f -delete || die # Use gid of 0 because some stupid ports don't have # the group 'root' set to gid 0. Send to /dev/null # for people who are testing as non-root. chown -R 0:0 "${D}${LIBPATH}" 2>/dev/null || die # Installing gdb pretty-printers into gdb-specific location. local py gdbdir=/usr/share/gdb/auto-load${LIBPATH} pushd "${D}${LIBPATH}" >/dev/null || die for py in $(find . -name '*-gdb.py' || die) ; do local multidir=${py%/*} insinto "${gdbdir}/${multidir}" # bug #348128 sed -i "/^libdir =/s:=.*:= '${LIBPATH}/${multidir}':" "${py}" || die doins "${py}" rm "${py}" || die done popd >/dev/null || die # Don't scan .gox files for executable stacks - false positives export QA_EXECSTACK="usr/lib*/go/*/*.gox" export QA_WX_LOAD="usr/lib*/go/*/*.gox" # Disable RANDMMAP so PCH works, bug #301299 pax-mark -r "${ED}/libexec/gcc/${CTARGET}/${GCC_CONFIG_VER}/cc1" pax-mark -r "${ED}/libexec/gcc/${CTARGET}/${GCC_CONFIG_VER}/cc1plus" if [[ -n ${TOOLCHAIN_HAS_TESTS} ]] && use test ; then mkdir "${T}"/test-results || die cd "${WORKDIR}"/build || die find . -name \*.sum -exec cp --parents -v {} "${T}"/test-results \; || die fi } # Move around the libs to the right location. For some reason, # when installing gcc, it dumps internal libraries into /usr/lib # instead of the private gcc lib path gcc_movelibs() { # For non-target libs which are for CHOST and not CTARGET, we want to # move them to the compiler-specific CHOST internal dir. This is stuff # that you want to link against when building tools rather than building # code to run on the target. if is_crosscompile ; then dodir "${HOSTLIBPATH#${EPREFIX}}" mv "${ED}"/usr/$(get_libdir)/libcc1* "${D}${HOSTLIBPATH}" || die fi # libgccjit gets installed to /usr/lib, not /usr/$(get_libdir). Probably # due to a bug in gcc build system. if [[ ${PWD} == "${WORKDIR}"/build-jit ]] && is_jit ; then dodir "${LIBPATH#${EPREFIX}}" mv "${ED}"/usr/lib/libgccjit* "${D}${LIBPATH}" || die fi # For all the libs that are built for CTARGET, move them into the # compiler-specific CTARGET internal dir. local x multiarg removedirs="" for multiarg in $($(XGCC) -print-multi-lib) ; do multiarg=${multiarg#*;} multiarg=${multiarg//@/ -} local OS_MULTIDIR=$($(XGCC) ${multiarg} --print-multi-os-directory) local MULTIDIR=$($(XGCC) ${multiarg} --print-multi-directory) local TODIR="${D}${LIBPATH}"/${MULTIDIR} local FROMDIR= [[ -d ${TODIR} ]] || mkdir -p ${TODIR} for FROMDIR in \ "${LIBPATH}"/${OS_MULTIDIR} \ "${LIBPATH}"/../${MULTIDIR} \ "${PREFIX}"/lib/${OS_MULTIDIR} \ "${PREFIX}"/${CTARGET}/lib/${OS_MULTIDIR} do removedirs="${removedirs} ${FROMDIR}" FROMDIR=${D}${FROMDIR} if [[ ${FROMDIR} != "${TODIR}" && -d ${FROMDIR} ]] ; then local files=$(find "${FROMDIR}" -maxdepth 1 ! -type d 2>/dev/null || die) if [[ -n ${files} ]] ; then mv ${files} "${TODIR}" || die fi fi done fix_libtool_libdir_paths "${LIBPATH}/${MULTIDIR}" done # Without this, we end up either unable to find the libgomp spec/archive, or # we underlink and can't find gomp_nvptx_main (presumably because we can't find the plugin) # https://src.fedoraproject.org/rpms/gcc/blob/02c34dfa3627ef05d676d30e152a66e77b58529b/f/gcc.spec#_1445 if [[ ${CTARGET} == nvptx* ]] && has_version ${CATEGORY}/${PN} ; then rm -rf "${ED}"/usr/libexec/gcc/nvptx-none/${GCCMAJOR}/install-tools rm -rf "${ED}"/usr/libexec/gcc/${CHOST}/${GCCMAJOR}/accel/nvptx-none/{install-tools,plugin,cc1,cc1plus,f951} rm -rf "${ED}"/usr/lib/gcc/nvptx-none/${GCCMAJOR}/{install-tools,plugin} rm -rf "${ED}"/usr/lib/gcc/${CHOST}/${GCCMAJOR}/accel/nvptx-none/{install-tools,plugin,include-fixed} mv "${ED}"/usr/nvptx-none/lib/*.{a,spec} "${ED}"/usr/lib/gcc/${CHOST}/${GCCMAJOR}/accel/nvptx-none/ mv "${ED}"/usr/nvptx-none/lib/mgomp/*.{a,spec} "${ED}"/usr/lib/gcc/${CHOST}/${GCCMAJOR}/accel/nvptx-none/mgomp/ mv "${ED}"/usr/nvptx-none/lib/mptx-3.1/*.{a,spec} "${ED}"/usr/lib/gcc/${CHOST}/${GCCMAJOR}/accel/nvptx-none/mptx-3.1/ mv "${ED}"/usr/nvptx-none/lib/mgomp/mptx-3.1/*.{a,spec} "${ED}"/usr/lib/gcc/${CHOST}/${GCCMAJOR}/accel/nvptx-none/mgomp/mptx-3.1/ mv "${ED}"/usr/lib/gcc/nvptx-none/${GCCMAJOR}/*.{a,spec} "${ED}"/usr/lib/gcc/${CHOST}/${GCCMAJOR}/accel/nvptx-none/ || die mv "${ED}"/usr/lib/gcc/nvptx-none/${GCCMAJOR}/mgomp/*.{a,spec} "${ED}"/usr/lib/gcc/${CHOST}/${GCCMAJOR}/accel/nvptx-none/mgomp/ || die mv "${ED}"/usr/lib/gcc/nvptx-none/${GCCMAJOR}/mptx-3.1/*.{a,spec} "${ED}"/usr/lib/gcc/${CHOST}/${GCCMAJOR}/accel/nvptx-none/mptx-3.1/ || die mv "${ED}"/usr/lib/gcc/nvptx-none/${GCCMAJOR}/mgomp/mptx-3.1/*.{a,spec} "${ED}"/usr/lib/gcc/${CHOST}/${GCCMAJOR}/accel/nvptx-none/mgomp/mptx-3.1/ || die fi # We remove directories separately to avoid this case: # mv SRC/lib/../lib/*.o DEST # rmdir SRC/lib/../lib/ # mv SRC/lib/../lib32/*.o DEST # Bork for FROMDIR in ${removedirs} ; do rmdir "${D}"${FROMDIR} >& /dev/null done # XXX: Intentionally no die, here to remove empty dirs find -depth "${ED}" -type d -exec rmdir {} + >& /dev/null } # Make sure the libtool archives have libdir set to where they actually # -are-, and not where they -used- to be. Also, any dependencies we have # on our own .la files need to be updated. fix_libtool_libdir_paths() { local libpath="$1" pushd "${D}" >/dev/null || die pushd "./${libpath}" >/dev/null || die local dir="${PWD#${D}}" local allarchives=$(echo *.la) allarchives="\(${allarchives// /\\|}\)" popd >/dev/null || die # The libdir might not have any .la files. bug #548782 find "./${dir}" -maxdepth 1 -name '*.la' \ -exec sed -i -e "/^libdir=/s:=.*:='${dir}':" {} + || die # Would be nice to combine these, but -maxdepth can not be specified # on sub-expressions. find "./${PREFIX}"/lib* -maxdepth 3 -name '*.la' \ -exec sed -i -e "/^dependency_libs=/s:/[^ ]*/${allarchives}:${libpath}/\1:g" {} + || die find "./${dir}/" -maxdepth 1 -name '*.la' \ -exec sed -i -e "/^dependency_libs=/s:/[^ ]*/${allarchives}:${libpath}/\1:g" {} + || die popd >/dev/null || die } create_gcc_env_entry() { dodir /etc/env.d/gcc local gcc_envd_base="/etc/env.d/gcc/${CTARGET}-${GCC_CONFIG_VER}" local gcc_specs_file local gcc_envd_file="${ED}${gcc_envd_base}" if [[ -z $1 ]] ; then # I'm leaving the following commented out to remind me that it # was an insanely -bad- idea. Stuff broke. GCC_SPECS isn't unset # on chroot or in non-toolchain.eclass gcc ebuilds! #gcc_specs_file="${LIBPATH}/specs" gcc_specs_file="" else gcc_envd_file+="-$1" gcc_specs_file="${LIBPATH}/$1.specs" fi # We want to list the default ABI's LIBPATH first so libtool # searches that directory first. This is a temporary # workaround for libtool being stupid and using .la's from # conflicting ABIs by using the first one in the search path local ldpaths mosdirs local mdir mosdir abi ldpath for abi in $(get_all_abis TARGET) ; do mdir=$($(XGCC) $(get_abi_CFLAGS ${abi}) --print-multi-directory) ldpath=${LIBPATH} [[ ${mdir} != "." ]] && ldpath+="/${mdir}" ldpaths="${ldpath}${ldpaths:+:${ldpaths}}" mosdir=$($(XGCC) $(get_abi_CFLAGS ${abi}) -print-multi-os-directory) mosdirs="${mosdir}${mosdirs:+:${mosdirs}}" done cat <<-EOF > ${gcc_envd_file} GCC_PATH="${BINPATH}" LDPATH="${ldpaths}" MANPATH="${DATAPATH}/man" INFOPATH="${DATAPATH}/info" STDCXX_INCDIR="${STDCXX_INCDIR##*/}" CTARGET="${CTARGET}" GCC_SPECS="${gcc_specs_file}" MULTIOSDIRS="${mosdirs}" EOF } create_revdep_rebuild_entry() { local revdep_rebuild_base="/etc/revdep-rebuild/05cross-${CTARGET}-${GCC_CONFIG_VER}" local revdep_rebuild_file="${ED}${revdep_rebuild_base}" is_crosscompile || return 0 dodir /etc/revdep-rebuild cat <<-EOF > "${revdep_rebuild_file}" # Generated by ${CATEGORY}/${PF} # Ignore libraries built for ${CTARGET}, https://bugs.gentoo.org/692844. SEARCH_DIRS_MASK="${LIBPATH}" EOF } #---->> pkg_pre* <<---- toolchain_pkg_preinst() { if [[ -n ${TOOLCHAIN_HAS_TESTS} && ${MERGE_TYPE} != binary ]] && use test ; then # Install as orphaned to allow comparison across more versions even # after unmerged. Also useful for historical records and tracking # down regressions a while after they first appeared, but were only # just reported. einfo "Copying test results to ${GCC_TESTS_COMPARISON_DIR}/${SLOT}/${CHOST}.xfail for future comparison" ( mkdir -p "${GCC_TESTS_COMPARISON_DIR}/${SLOT}" || die cd "${T}"/test-results || die # May not exist with test-fail-continue if [[ -f "${T}"/${CHOST}.xfail ]] ; then cp -v "${T}"/${CHOST}.xfail "${GCC_TESTS_COMPARISON_DIR}/${SLOT}" || die fi ) fi } #---->> pkg_post* <<---- toolchain_pkg_postinst() { do_gcc_config if [[ ! ${ROOT} && -f ${EPREFIX}/usr/share/eselect/modules/compiler-shadow.eselect ]] ; then eselect compiler-shadow update all fi if ! is_crosscompile && [[ ${PN} != "kgcc64" ]] ; then # gcc stopped installing .la files fixer in June 2020. # Cleaning can be removed in June 2022. rm -f "${EROOT}"/sbin/fix_libtool_files.sh rm -f "${EROOT}"/usr/sbin/fix_libtool_files.sh rm -f "${EROOT}"/usr/share/gcc-data/fixlafiles.awk fi } toolchain_pkg_postrm() { do_gcc_config if [[ ! ${ROOT} && -f ${EPREFIX}/usr/share/eselect/modules/compiler-shadow.eselect ]] ; then eselect compiler-shadow clean all fi # Clean up the cruft left behind by cross-compilers if is_crosscompile ; then if [[ -z $(ls "${EROOT}"/etc/env.d/gcc/${CTARGET}* 2>/dev/null) ]] ; then einfo "Removing last cross-compiler instance. Deleting dangling symlinks." rm -f "${EROOT}"/etc/env.d/gcc/config-${CTARGET} rm -f "${EROOT}"/etc/env.d/??gcc-${CTARGET} rm -f "${EROOT}"/usr/bin/${CTARGET}-{gcc,{g,c}++}{,32,64} fi return 0 fi # gcc stopped installing .la files fixer in June 2020. # Cleaning can be removed in June 2022. rm -f "${EROOT}"/sbin/fix_libtool_files.sh rm -f "${EROOT}"/usr/share/gcc-data/fixlafiles.awk } do_gcc_config() { if ! should_we_gcc_config ; then gcc-config --use-old --force return 0 fi local current_gcc_config target current_gcc_config=$(gcc-config -c ${CTARGET} 2>/dev/null) if [[ -n ${current_gcc_config} ]] ; then local current_specs use_specs # Figure out which specs-specific config is active current_specs=$(gcc-config -S ${current_gcc_config} | awk '{print $3}') [[ -n ${current_specs} ]] && use_specs=-${current_specs} if [[ -n ${use_specs} ]] && \ [[ ! -e ${EROOT}/etc/env.d/gcc/${CTARGET}-${GCC_CONFIG_VER}${use_specs} ]] then ewarn "The currently selected specs-specific gcc config," ewarn "${current_specs}, doesn't exist anymore. This is usually" ewarn "due to enabling/disabling hardened or switching to a version" ewarn "of gcc that doesn't create multiple specs files. The default" ewarn "config will be used, and the previous preference forgotten." use_specs="" fi target="${CTARGET}-${GCC_CONFIG_VER}${use_specs}" else # The current target is invalid. Attempt to switch to a valid one. # Blindly pick the latest version. bug #529608 # TODO: Should update gcc-config to accept `-l ${CTARGET}` rather than # doing a partial grep like this. target=$(gcc-config -l 2>/dev/null | grep " ${CTARGET}-[0-9]" | tail -1 | awk '{print $2}') fi gcc-config "${target}" } should_we_gcc_config() { # if the current config is invalid, we definitely want a new one # Note: due to bash quirkiness, the following must not be 1 line local curr_config curr_config=$(gcc-config -c ${CTARGET} 2>&1) || return 0 # If the previously selected config has the same major.minor (branch) as # the version we are installing, then it will probably be uninstalled # for being in the same SLOT, so make sure we run gcc-config. local curr_config_ver=$(gcc-config -S ${curr_config} | awk '{print $2}') local curr_branch_ver=$(ver_cut 1-2 ${curr_config_ver}) if tc_use_major_version_only && [[ ${curr_config_ver} == ${GCCMAJOR} ]] ; then return 0 elif ! tc_use_major_version_only && [[ ${curr_branch_ver} == ${GCC_BRANCH_VER} ]] ; then return 0 else # If we're installing a genuinely different compiler version, # we should probably tell the user -how- to switch to the new # gcc version, since we're not going to do it for them. # # We don't want to switch from say gcc-3.3 to gcc-3.4 right in # the middle of an emerge operation (like an 'emerge -e world' # which could install multiple gcc versions). # # Only warn if we're installing a pkg as we might be called from # the pkg_{pre,post}rm steps. #446830 if [[ ${EBUILD_PHASE} == *"inst" ]] ; then einfo "The current gcc config appears valid, so it will not be" einfo "automatically switched for you. If you would like to" einfo "switch to the newly installed gcc version, do the" einfo "following:" echo einfo "gcc-config ${CTARGET}-${GCC_CONFIG_VER}" einfo "source /etc/profile" echo fi return 1 fi } #---->> support and misc functions <<---- # This is to make sure we don't accidentally try to enable support for a # language that doesn't exist. GCC 3.4 supports f77, while 4.0 supports f95, etc. # # Also add a hook so special ebuilds (kgcc64) can control which languages # exactly get enabled gcc-lang-supported() { grep ^language=\"${1}\" "${S}"/gcc/*/config-lang.in > /dev/null || return 1 [[ -z ${TOOLCHAIN_ALLOWED_LANGS} ]] && return 0 has $1 ${TOOLCHAIN_ALLOWED_LANGS} } _tc_use_if_iuse() { in_iuse $1 && use $1 } is_ada() { gcc-lang-supported ada || return 1 _tc_use_if_iuse cxx && _tc_use_if_iuse ada } is_cxx() { gcc-lang-supported 'c++' || return 1 _tc_use_if_iuse cxx } is_d() { gcc-lang-supported d || return 1 _tc_use_if_iuse d } is_f77() { gcc-lang-supported f77 || return 1 _tc_use_if_iuse fortran } is_f95() { gcc-lang-supported f95 || return 1 _tc_use_if_iuse fortran } is_fortran() { gcc-lang-supported fortran || return 1 _tc_use_if_iuse fortran } is_go() { gcc-lang-supported go || return 1 _tc_use_if_iuse cxx && _tc_use_if_iuse go } is_jit() { gcc-lang-supported jit || return 1 # cross-compiler does not really support jit as it has # to generate code for a target. On targets like avr, # libgcclit.so can't link at all: bug #594572 is_crosscompile && return 1 _tc_use_if_iuse jit } is_multilib() { _tc_use_if_iuse multilib } is_objc() { gcc-lang-supported objc || return 1 _tc_use_if_iuse objc } is_objcxx() { gcc-lang-supported 'obj-c++' || return 1 _tc_use_if_iuse cxx && _tc_use_if_iuse objc++ } is_modula2() { gcc-lang-supported m2 || return 1 _tc_use_if_iuse cxx && _tc_use_if_iuse modula2 } is_rust() { gcc-lang-supported rust || return 1 _tc_use_if_iuse rust } # Grab a variable from the build system (taken from linux-info.eclass) get_make_var() { local var=$1 makefile=${2:-${WORKDIR}/build/Makefile} echo -e "e:\\n\\t@echo \$(${var})\\ninclude ${makefile}" | \ r=${makefile%/*} emake --no-print-directory -s -f - 2>/dev/null } XGCC() { get_make_var GCC_FOR_TARGET ; } has toolchain_death_notice ${EBUILD_DEATH_HOOKS} || EBUILD_DEATH_HOOKS+=" toolchain_death_notice" toolchain_death_notice() { local dir for dir in "${WORKDIR}"/build-jit "${WORKDIR}"/build ; do if [[ -e "${dir}" ]] ; then pushd "${WORKDIR}" >/dev/null (echo '' | $(tc-getCC ${CTARGET}) ${CFLAGS} -v -E - 2>&1) > "${dir}"/gccinfo.log [[ -e "${T}"/build.log ]] && cp "${T}"/build.log "${dir}" tar -arf "${WORKDIR}"/gcc-build-logs.tar.xz \ "${dir#${WORKDIR}/}"/gccinfo.log "${dir#${WORKDIR}/}"/build.log $(find -name "${dir}"/config.log) rm "${dir}"/gccinfo.log "${dir}"/build.log eerror eerror "Please include ${WORKDIR}/gcc-build-logs.tar.xz in your bug report." eerror popd >/dev/null fi done } fi # Note [implicitly enabled flags] # ------------------------------- # Usually configure-based packages handle explicit feature requests # like # ./configure --enable-foo # as explicit request to check for support of 'foo' and bail out at # configure time. # # GCC does not follow this pattern and instead overrides autodetection # of the feature and enables it unconditionally. # See bugs: # https://gcc.gnu.org/PR85663 (libsanitizer on mips) # https://bugs.gentoo.org/661252 (libvtv on powerpc64) # # Thus safer way to enable/disable the feature is to rely on implicit # enabled-by-default state: # econf $(usex foo '' --disable-foo) EXPORT_FUNCTIONS pkg_pretend pkg_setup src_unpack src_prepare src_configure src_compile src_test src_install pkg_preinst pkg_postinst pkg_postrm