# Copyright 1999-2013 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/dev-lang/ghc/ghc-7.4.2.ebuild,v 1.2 2013/02/13 21:46:44 slyfox Exp $ # Brief explanation of the bootstrap logic: # # Previous ghc ebuilds have been split into two: ghc and ghc-bin, # where ghc-bin was primarily used for bootstrapping purposes. # From now on, these two ebuilds have been combined, with the # binary USE flag used to determine whether or not the pre-built # binary package should be emerged or whether ghc should be compiled # from source. If the latter, then the relevant ghc-bin for the # arch in question will be used in the working directory to compile # ghc from source. # # This solution has the advantage of allowing us to retain the one # ebuild for both packages, and thus phase out virtual/ghc. # Note to users of hardened gcc-3.x: # # If you emerge ghc with hardened gcc it should work fine (because we # turn off the hardened features that would otherwise break ghc). # However, emerging ghc while using a vanilla gcc and then switching to # hardened gcc (using gcc-config) will leave you with a broken ghc. To # fix it you would need to either switch back to vanilla gcc or re-emerge # ghc (or ghc-bin). Note that also if you are using hardened gcc-3.x and # you switch to gcc-4.x that this will also break ghc and you'll need to # re-emerge ghc (or ghc-bin). People using vanilla gcc can switch between # gcc-3.x and 4.x with no problems. EAPI="5" inherit base autotools bash-completion-r1 eutils flag-o-matic multilib toolchain-funcs ghc-package versionator pax-utils DESCRIPTION="The Glasgow Haskell Compiler" HOMEPAGE="http://www.haskell.org/ghc/" # we don't have any binaries yet arch_binaries="" # sorted! arch_binaries="$arch_binaries alpha? ( http://code.haskell.org/~slyfox/ghc-alpha/ghc-bin-${PV}-alpha.tbz2 )" #arch_binaries="$arch_binaries arm? ( http://code.haskell.org/~slyfox/ghc-arm/ghc-bin-${PV}-arm.tbz2 )" arch_binaries="$arch_binaries amd64? ( http://code.haskell.org/~slyfox/ghc-amd64/ghc-bin-${PV}-amd64-stable-glibc.tbz2 )" #arch_binaries="$arch_binaries ia64? ( http://code.haskell.org/~slyfox/ghc-ia64/ghc-bin-${PV}-ia64-fixed-fiw.tbz2 )" arch_binaries="$arch_binaries ppc? ( http://code.haskell.org/~slyfox/ghc-ppc/ghc-bin-${PV}-ppc.tbz2 )" arch_binaries="$arch_binaries ppc64? ( http://code.haskell.org/~slyfox/ghc-ppc64/ghc-bin-${PV}-ppc64.tbz2 )" arch_binaries="$arch_binaries sparc? ( http://code.haskell.org/~slyfox/ghc-sparc/ghc-bin-${PV}-sparc.tbz2 )" arch_binaries="$arch_binaries x86? ( http://code.haskell.org/~slyfox/ghc-x86/ghc-bin-${PV}-x86-stable-glibc.tbz2 )" # various ports: #arch_binaries="$arch_binaries x86-fbsd? ( http://code.haskell.org/~slyfox/ghc-x86-fbsd/ghc-bin-${PV}-x86-fbsd.tbz2 )" # 0 - yet yet_binary() { case "${ARCH}" in alpha) return 0 ;; #arm) # ewarn "ARM binary is built on armv5tel-eabi toolchain. Use with caution." # return 0 #;; amd64) return 0 ;; ppc) return 0 ;; ppc64) return 0 ;; sparc) return 0 ;; x86) return 0 ;; *) return 1 ;; esac } SRC_URI="!binary? ( http://www.haskell.org/ghc/dist/${PV}/${P}-src.tar.bz2 )" [[ -n $arch_binaries ]] && SRC_URI+=" !ghcbootstrap? ( $arch_binaries )" LICENSE="BSD" SLOT="0/${PV}" # ghc on ia64 needs gcc to support -mcmodel=medium (or some dark hackery) to avoid TOC overflow KEYWORDS="~alpha ~amd64 -ia64 ~ppc ~ppc64 ~sparc ~x86 ~x86-fbsd ~amd64-linux ~x86-linux ~ppc-macos ~x86-macos ~sparc-solaris ~x86-solaris" IUSE="doc ghcbootstrap ghcmakebinary llvm" IUSE+=" binary" # don't forget about me later! IUSE+=" elibc_glibc" # system stuff RDEPEND=" !kernel_Darwin? ( >=sys-devel/gcc-2.95.3 ) kernel_linux? ( >=sys-devel/binutils-2.17 ) kernel_SunOS? ( >=sys-devel/binutils-2.17 ) >=dev-lang/perl-5.6.1 >=dev-libs/gmp-5 virtual/libffi !=gmp-5, even if >=gmp-4.1 would be enough. this is due to # that we want the binaries to use the latest versioun available, and not to be # built against gmp-4 # similar for glibc. we have bootstrapped binaries against glibc-2.14 DEPEND="${RDEPEND} ghcbootstrap? ( >=dev-haskell/alex-2.3 >=dev-haskell/happy-1.18 doc? ( app-text/docbook-xml-dtd:4.2 app-text/docbook-xml-dtd:4.5 app-text/docbook-xsl-stylesheets >=dev-libs/libxslt-1.1.2 ) ) !ghcbootstrap? ( !prefix? ( elibc_glibc? ( >=sys-libs/glibc-2.14 ) ) )" PDEPEND="!ghcbootstrap? ( =app-admin/haskell-updater-1.2* )" PDEPEND=" ${PDEPEND} llvm? ( sys-devel/llvm )" append-ghc-cflags() { local flag compile assemble link for flag in $*; do case ${flag} in compile) compile="yes";; assemble) assemble="yes";; link) link="yes";; *) [[ ${compile} ]] && GHC_FLAGS="${GHC_FLAGS} -optc${flag}" CFLAGS="${CFLAGS} ${flag}" [[ ${assemble} ]] && GHC_FLAGS="${GHC_FLAGS} -opta${flag}" CFLAGS="${CFLAGS} ${flag}" [[ ${link} ]] && GHC_FLAGS="${GHC_FLAGS} -optl${flag}" FILTERED_LDFLAGS="${FILTERED_LDFLAGS} ${flag}";; esac done } ghc_setup_cflags() { # We need to be very careful with the CFLAGS we ask ghc to pass through to # gcc. There are plenty of flags which will make gcc produce output that # breaks ghc in various ways. The main ones we want to pass through are # -mcpu / -march flags. These are important for arches like alpha & sparc. # We also use these CFLAGS for building the C parts of ghc, ie the rts. strip-flags strip-unsupported-flags GHC_FLAGS="" for flag in ${CFLAGS}; do case ${flag} in # Ignore extra optimisation (ghc passes -O to gcc anyway) # -O2 and above break on too many systems -O*) ;; # Arch and ABI flags are what we're really after -m*) append-ghc-cflags compile assemble ${flag};; # Debugging flags don't help either. You can't debug Haskell code # at the C source level and the mangler discards the debug info. -g*) ;; # Ignore all other flags, including all -f* flags esac done FILTERED_LDFLAGS="" for flag in ${LDFLAGS}; do case ${flag} in # Pass the canary. we don't quite respect LDFLAGS, but we have an excuse! "-Wl,--hash-style="*) append-ghc-cflags link ${flag};; # Ignore all other flags esac done # hardened-gcc needs to be disabled, because the mangler doesn't accept # its output. gcc-specs-pie && append-ghc-cflags compile link -nopie gcc-specs-ssp && append-ghc-cflags compile -fno-stack-protector # prevent from failind building unregisterised ghc: # http://www.mail-archive.com/debian-bugs-dist@lists.debian.org/msg171602.html use ppc64 && append-ghc-cflags compile -mminimal-toc # fix the similar issue as ppc64 TOC on ia64. ia64 has limited size of small data # currently ghc fails to build haddock # http://osdir.com/ml/gnu.binutils.bugs/2004-10/msg00050.html use ia64 && append-ghc-cflags compile -G0 # Unfortunately driver/split/ghc-split.lprl is dumb # enough to preserve stack marking for each split object # and it flags stack marking violation: # * !WX --- --- usr/lib64/ghc-7.4.1/base-4.5.0.0/libHSbase-4.5.0.0.a:Fingerprint__1.o # * !WX --- --- usr/lib64/ghc-7.4.1/base-4.5.0.0/libHSbase-4.5.0.0.a:Fingerprint__2.o # * !WX --- --- usr/lib64/ghc-7.4.1/base-4.5.0.0/libHSbase-4.5.0.0.a:Fingerprint__3.o case $($(tc-getAS) -v 2>&1 /dev/null || die use sparc-solaris && unpack ghc-6.10.4-sparc-sun-solaris2.tar.bz2 use x86-solaris && unpack ghc-7.0.3-i386-unknown-solaris2.tar.bz2 use x86-macos && unpack ghc-7.4.1-i386-apple-darwin.tar.bz2 use x64-macos && unpack ghc-7.4.1-x86_64-apple-darwin.tar.bz2 popd > /dev/null pushd "${WORKDIR}"/ghc-bin-installer/ghc-[67].?*.? > /dev/null || die # fix the binaries so they run, on Solaris we need an # LD_LIBRARY_PATH which has our prefix libdirs, on # Darwin we need to replace the frameworks with our libs # from the prefix fix before installation, because some # of the tools are actually used during configure/make if [[ ${CHOST} == *-solaris* ]] ; then export LD_LIBRARY_PATH="${EPREFIX}/$(get_libdir):${EPREFIX}/usr/$(get_libdir):${LD_LIBRARY_PATH}" elif [[ ${CHOST} == *-darwin* ]] ; then local readline_framework=GNUreadline.framework/GNUreadline local gmp_framework=/opt/local/lib/libgmp.10.dylib local ncurses_file=/opt/local/lib/libncurses.5.dylib for binary in $(scanmacho -BRE MH_EXECUTE -F '%F' .) ; do install_name_tool -change \ ${readline_framework} \ "${EPREFIX}"/lib/libreadline.dylib \ ${binary} || die install_name_tool -change \ ${gmp_framework} \ "${EPREFIX}"/usr/lib/libgmp.dylib \ ${binary} || die install_name_tool -change \ ${ncurses_file} \ "${EPREFIX}"/usr/lib/libncurses.dylib \ ${binary} || die done # we don't do frameworks! sed -i \ -e 's/\(frameworks = \)\["GMP"\]/\1[]/g' \ -e 's/\(extraLibraries = \)\["m"\]/\1["m","gmp"]/g' \ rts/package.conf.in || die fi # it is autoconf, but we really don't want to give it too # much arguments, in fact we do the make in-place anyway ./configure --prefix="${WORKDIR}"/usr || die make install || die popd > /dev/null ;; *) relocate_ghc "${WORKDIR}" ;; esac fi sed -i -e "s|\"\$topdir\"|\"\$topdir\" ${GHC_FLAGS}|" \ "${S}/ghc/ghc.wrapper" cd "${S}" # otherwise epatch will break epatch "${FILESDIR}"/${PN}-7.0.4-CHOST-prefix.patch epatch "${FILESDIR}"/${PN}-7.0.4-darwin8.patch # failed to apply. FIXME #epatch "${FILESDIR}"/${PN}-6.12.3-mach-o-relocation-limit.patch epatch "${FILESDIR}"/${PN}-7.4-rc2-macos-prefix-respect-gcc.patch epatch "${FILESDIR}"/${PN}-7.4.1-darwin-CHOST.patch epatch "${FILESDIR}"/${PN}-7.2.1-freebsd-CHOST.patch # one mode external depend with unstable ABI be careful to stash it # avoid external libffi runtime when we build binaries use ghcmakebinary || epatch "${FILESDIR}"/${PN}-7.4.2-system-libffi.patch epatch "${FILESDIR}"/${PN}-7.4.1-ticket-7339-fix-unaligned-unreg.patch if use prefix; then # Make configure find docbook-xsl-stylesheets from Prefix sed -i -e '/^FP_DIR_DOCBOOK_XSL/s:\[.*\]:['"${EPREFIX}"'/usr/share/sgml/docbook/xsl-stylesheets/]:' utils/haddock/doc/configure.ac || die fi cd "${S}"/libraries/terminfo # bug #454216 epatch "${FILESDIR}"/terminfo-0.3.2.5-tinfo.patch cd "${S}" # as we have changed the build system eautoreconf fi } src_configure() { if ! use binary; then # initialize build.mk echo '# Gentoo changes' > mk/build.mk # Put docs into the right place, ie /usr/share/doc/ghc-${PV} echo "docdir = ${EPREFIX}/usr/share/doc/${P}" >> mk/build.mk echo "htmldir = ${EPREFIX}/usr/share/doc/${P}" >> mk/build.mk # We also need to use the GHC_FLAGS flags when building ghc itself echo "SRC_HC_OPTS+=${GHC_FLAGS}" >> mk/build.mk echo "SRC_CC_OPTS+=${CFLAGS}" >> mk/build.mk echo "SRC_LD_OPTS+=${FILTERED_LDFLAGS}" >> mk/build.mk # We can't depend on haddock except when bootstrapping when we # must build docs and include them into the binary .tbz2 package if use ghcbootstrap && use doc; then echo "BUILD_DOCBOOK_PDF = NO" >> mk/build.mk echo "BUILD_DOCBOOK_PS = NO" >> mk/build.mk echo "BUILD_DOCBOOK_HTML = YES" >> mk/build.mk echo "HADDOCK_DOCS = YES" >> mk/build.mk else echo "BUILD_DOCBOOK_PDF = NO" >> mk/build.mk echo "BUILD_DOCBOOK_PS = NO" >> mk/build.mk echo "BUILD_DOCBOOK_HTML = NO" >> mk/build.mk echo "HADDOCK_DOCS = NO" >> mk/build.mk fi # circumvent a very strange bug that seems related with ghc producing # too much output while being filtered through tee (e.g. due to # portage logging) reported as bug #111183 echo "SRC_HC_OPTS+=-w" >> mk/build.mk # some arches do not support ELF parsing for ghci module loading # PPC64: never worked (should be easy to implement) # alpha: never worked # arm: unimplemented or never worked if use alpha || use ppc64 || use arm; then echo "GhcWithInterpreter=NO" >> mk/build.mk fi # we have to tell it to build unregisterised on some arches # ppc64: EvilMangler currently does not understand some TOCs # ia64: EvilMangler bitrot if use alpha || use ia64 || use ppc64; then echo "GhcUnregisterised=YES" >> mk/build.mk echo "GhcWithNativeCodeGen=NO" >> mk/build.mk echo "SplitObjs=NO" >> mk/build.mk echo "GhcRTSWays := debug" >> mk/build.mk echo "GhcNotThreaded=YES" >> mk/build.mk fi # arm: no EvilMangler support, no NCG support if use arm; then echo "GhcUnregisterised=YES" >> mk/build.mk echo "GhcWithNativeCodeGen=NO" >> mk/build.mk fi # Have "ld -r --relax" problem with split-objs on sparc: if use sparc; then echo "SplitObjs=NO" >> mk/build.mk fi if ! use llvm; then echo "GhcWithLlvmCodeGen=NO" >> mk/build.mk fi # allows overriding build flavours for libraries: # v - vanilla (static libs) # p - profiled # dyn - shared libraries # example: GHC_LIBRARY_WAYS="v dyn" if [[ -n ${GHC_LIBRARY_WAYS} ]]; then echo "GhcLibWays=${GHC_LIBRARY_WAYS}" >> mk/build.mk fi # Get ghc from the unpacked binary .tbz2 # except when bootstrapping we just pick ghc up off the path if ! use ghcbootstrap; then export PATH="${WORKDIR}/usr/bin:${PATH}" fi # Since GHC 6.12.2 the GHC wrappers store which GCC version GHC was # compiled with, by saving the path to it. The purpose is to make sure # that GHC will use the very same gcc version when it compiles haskell # sources, as the extra-gcc-opts files contains extra gcc options which # match only this GCC version. # However, this is not required in Gentoo, as only modern GCCs are used # (>4). # Instead, this causes trouble when for example ccache is used during # compilation, but we don't want the wrappers to point to ccache. # Due to the above, we simply set GCC to be "gcc". When compiling ghc it # might point to ccache, once installed it will point to the users # regular gcc. econf --with-gcc=gcc || die "econf failed" fi # ! use binary } src_compile() { if ! use binary; then limit_jobs() { if [[ -n ${I_DEMAND_MY_CORES_LOADED} ]]; then ewarn "You have requested parallel build which is known to break." ewarn "Please report all breakages upstream." return fi echo $@ } # ghc massively parallel make: #409631, #409873 # but let users screw it by setting 'I_DEMAND_MY_CORES_LOADED' emake $(limit_jobs -j1) all fi # ! use binary } src_install() { if use binary; then use prefix && mkdir -p "${ED}" mv "${S}/usr" "${ED}" # Remove the docs if not requested if ! use doc; then rm -rf "${ED}/usr/share/doc/${P}/*/" \ "${ED}/usr/share/doc/${P}/*.html" \ || die "could not remove docs (P vs PF revision mismatch?)" fi else local insttarget="install" # We only built docs if we were bootstrapping, otherwise # we copy them out of the unpacked binary .tbz2 if use doc && ! use ghcbootstrap; then mkdir -p "${ED}/usr/share/doc" mv "${WORKDIR}/usr/share/doc/${P}" "${ED}/usr/share/doc" \ || die "failed to copy docs" else dodoc "${S}/README" "${S}/ANNOUNCE" "${S}/LICENSE" "${S}/VERSION" fi emake -j1 ${insttarget} \ DESTDIR="${D}" \ || die "make ${insttarget} failed" # remove wrapper and linker rm -f "${ED}"/usr/bin/haddock* # ghci uses mmap with rwx protection at it implements dynamic # linking on it's own (bug #299709) # so mark resulting binary pax-mark -m "${ED}/usr/$(get_libdir)/${P}/ghc" dobashcomp "${FILESDIR}/ghc-bash-completion" fi # path to the package.cache local package_confdir="${ED}/usr/$(get_libdir)/${P}/package.conf.d" PKGCACHE="${package_confdir}"/package.cache cp -pR "${package_confdir}"{,.initial} || die "failed to backup intial package.conf.d" # copy the package.conf, including timestamp, save it so we later can put it # back before uninstalling, or when upgrading. cp -p "${PKGCACHE}"{,.shipped} \ || die "failed to copy package.conf.d/package.cache" } pkg_preinst() { # have we got an earlier version of ghc installed? if has_version "<${CATEGORY}/${PF}"; then haskell_updater_warn="1" fi } pkg_postinst() { ghc-reregister # path to the package.cache PKGCACHE="${EROOT}/usr/$(get_libdir)/${P}/package.conf.d/package.cache" # give the cache a new timestamp, it must be as recent as # the package.conf.d directory. touch "${PKGCACHE}" if [[ "${haskell_updater_warn}" == "1" ]]; then ewarn ewarn "\e[1;31m************************************************************************\e[0m" ewarn ewarn "You have just upgraded from an older version of GHC." ewarn "You may have to run" ewarn " 'haskell-updater --upgrade'" ewarn "to rebuild all ghc-based Haskell libraries." ewarn ewarn "\e[1;31m************************************************************************\e[0m" ewarn fi } pkg_prerm() { # Be very careful here... Call order when upgrading is (according to PMS): # * src_install for new package # * pkg_preinst for new package # * pkg_postinst for new package # * pkg_prerm for the package being replaced # * pkg_postrm for the package being replaced # so you'll actually be touching the new packages files, not the one you # uninstall, due to that or installation directory ${P} will be the same for # both packages. # Call order for reinstalling is (according to PMS): # * src_install # * pkg_preinst # * pkg_prerm for the package being replaced # * pkg_postrm for the package being replaced # * pkg_postinst # Overwrite the modified package.cache with a copy of the # original one, so that it will be removed during uninstall. PKGCACHE="${EROOT}/usr/$(get_libdir)/${P}/package.conf.d/package.cache" rm -rf "${PKGCACHE}" cp -p "${PKGCACHE}"{.shipped,} }