# Copyright 1999-2014 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/multilib-build.eclass,v 1.64 2014/08/17 03:34:32 jcallen Exp $ # @ECLASS: multilib-build.eclass # @MAINTAINER: # gx86-multilib team <multilib@gentoo.org> # @AUTHOR: # Author: Michał Górny <mgorny@gentoo.org> # @BLURB: flags and utility functions for building multilib packages # @DESCRIPTION: # The multilib-build.eclass exports USE flags and utility functions # necessary to build packages for multilib in a clean and uniform # manner. # # Please note that dependency specifications for multilib-capable # dependencies shall use the USE dependency string in ${MULTILIB_USEDEP} # to properly request multilib enabled. if [[ ! ${_MULTILIB_BUILD} ]]; then # EAPI=4 is required for meaningful MULTILIB_USEDEP. case ${EAPI:-0} in 4|5) ;; *) die "EAPI=${EAPI} is not supported" ;; esac inherit multibuild multilib # @ECLASS-VARIABLE: _MULTILIB_FLAGS # @INTERNAL # @DESCRIPTION: # The list of multilib flags and corresponding ABI values. If the same # flag is reused for multiple ABIs (e.g. x86 on Linux&FreeBSD), multiple # ABIs may be separated by commas. # # Please contact multilib before modifying this list. This way we can # ensure that every *preliminary* work is done and the multilib can be # extended safely. _MULTILIB_FLAGS=( abi_x86_32:x86,x86_fbsd,x86_freebsd,x86_linux,x86_macos,x86_solaris abi_x86_64:amd64,amd64_fbsd,x64_freebsd,amd64_linux,x64_macos,x64_solaris abi_x86_x32:x32 abi_mips_n32:n32 abi_mips_n64:n64 abi_mips_o32:o32 abi_ppc_32:ppc,ppc_aix,ppc_macos abi_ppc_64:ppc64 abi_s390_32:s390 abi_s390_64:s390x ) # @ECLASS-VARIABLE: MULTILIB_COMPAT # @DEFAULT_UNSET # @DESCRIPTION: # List of multilib ABIs supported by the ebuild. If unset, defaults to # all ABIs supported by the eclass. # # This variable is intended for use in prebuilt multilib packages that # can provide binaries only for a limited set of ABIs. If ABIs need to # be limited due to a bug in source code, package.use.mask is to be used # instead. Along with MULTILIB_COMPAT, KEYWORDS should contain '-*'. # # Note that setting this variable effectively disables support for all # other ABIs, including other architectures. For example, specifying # abi_x86_{32,64} disables support for MIPS as well. # # The value of MULTILIB_COMPAT determines the value of IUSE. If set, it # also enables REQUIRED_USE constraints. # # Example use: # @CODE # # Upstream provides binaries for x86 & amd64 only # MULTILIB_COMPAT=( abi_x86_{32,64} ) # @CODE # @ECLASS-VARIABLE: MULTILIB_USEDEP # @DESCRIPTION: # The USE-dependency to be used on dependencies (libraries) needing # to support multilib as well. # # Example use: # @CODE # RDEPEND="dev-libs/libfoo[${MULTILIB_USEDEP}] # net-libs/libbar[ssl,${MULTILIB_USEDEP}]" # @CODE # @ECLASS-VARIABLE: MULTILIB_ABI_FLAG # @DEFAULT_UNSET # @DESCRIPTION: # The complete ABI name. Resembles the USE flag name. # # This is set within multilib_foreach_abi(), # multilib_parallel_foreach_abi() and multilib-minimal sub-phase # functions. # # It may be null (empty) when the build is done on ABI not controlled # by a USE flag (e.g. on non-multilib arch or when using multilib # portage). The build will always be done for a single ABI then. # # Example value: # @CODE # abi_x86_64 # @CODE _multilib_build_set_globals() { local flags=( "${_MULTILIB_FLAGS[@]%:*}" ) if [[ ${MULTILIB_COMPAT[@]} ]]; then # Validate MULTILIB_COMPAT and filter out the flags. local f for f in "${MULTILIB_COMPAT[@]}"; do if ! has "${f}" "${flags[@]}"; then die "Invalid value in MULTILIB_COMPAT: ${f}" fi done flags=( "${MULTILIB_COMPAT[@]}" ) REQUIRED_USE="|| ( ${flags[*]} )" fi local usedeps=${flags[@]/%/(-)?} IUSE=${flags[*]} MULTILIB_USEDEP=${usedeps// /,} } _multilib_build_set_globals # @FUNCTION: multilib_get_enabled_abis # @DESCRIPTION: # Return the ordered list of enabled ABIs if multilib builds # are enabled. The best (most preferred) ABI will come last. # # If multilib is disabled, the default ABI will be returned # in order to enforce consistent testing with multilib code. multilib_get_enabled_abis() { debug-print-function ${FUNCNAME} "${@}" local pairs=( $(multilib_get_enabled_abi_pairs) ) echo "${pairs[@]#*.}" } # @FUNCTION: multilib_get_enabled_abi_pairs # @DESCRIPTION: # Return the ordered list of enabled <use-flag>.<ABI> pairs # if multilib builds are enabled. The best (most preferred) # ABI will come last. # # If multilib is disabled, the default ABI will be returned # along with empty <use-flag>. multilib_get_enabled_abi_pairs() { debug-print-function ${FUNCNAME} "${@}" local abis=( $(get_all_abis) ) local abi i found for abi in "${abis[@]}"; do for i in "${_MULTILIB_FLAGS[@]}"; do local m_abis=${i#*:} m_abi local m_flag=${i%:*} # split on ,; we can't switch IFS for function scope because # paludis is broken (bug #486592), and switching it locally # for the split is more complex than cheating like this for m_abi in ${m_abis//,/ }; do if [[ ${m_abi} == ${abi} ]] \ && { [[ ! "${MULTILIB_COMPAT[@]}" ]] || has "${m_flag}" "${MULTILIB_COMPAT[@]}"; } \ && use "${m_flag}" then echo "${m_flag}.${abi}" found=1 break 2 fi done done done if [[ ! ${found} ]]; then # ${ABI} can be used to override the fallback (multilib-portage), # ${DEFAULT_ABI} is the safe fallback. local abi=${ABI:-${DEFAULT_ABI}} debug-print "${FUNCNAME}: no ABIs enabled, fallback to ${abi}" debug-print "${FUNCNAME}: ABI=${ABI}, DEFAULT_ABI=${DEFAULT_ABI}" echo ".${abi}" fi } # @FUNCTION: _multilib_multibuild_wrapper # @USAGE: <argv>... # @INTERNAL # @DESCRIPTION: # Initialize the environment for ABI selected for multibuild. _multilib_multibuild_wrapper() { debug-print-function ${FUNCNAME} "${@}" local ABI=${MULTIBUILD_VARIANT#*.} local MULTILIB_ABI_FLAG=${MULTIBUILD_VARIANT%.*} multilib_toolchain_setup "${ABI}" "${@}" } # @FUNCTION: multilib_foreach_abi # @USAGE: <argv>... # @DESCRIPTION: # If multilib support is enabled, sets the toolchain up for each # supported ABI along with the ABI variable and correct BUILD_DIR, # and runs the given commands with them. # # If multilib support is disabled, it just runs the commands. No setup # is done. multilib_foreach_abi() { debug-print-function ${FUNCNAME} "${@}" local MULTIBUILD_VARIANTS=( $(multilib_get_enabled_abi_pairs) ) multibuild_foreach_variant _multilib_multibuild_wrapper "${@}" } # @FUNCTION: multilib_parallel_foreach_abi # @USAGE: <argv>... # @DESCRIPTION: # If multilib support is enabled, sets the toolchain up for each # supported ABI along with the ABI variable and correct BUILD_DIR, # and runs the given commands with them. The commands are run # in parallel with number of jobs being determined from MAKEOPTS. # # If multilib support is disabled, it just runs the commands. No setup # is done. # # Useful for running configure scripts. multilib_parallel_foreach_abi() { debug-print-function ${FUNCNAME} "${@}" local MULTIBUILD_VARIANTS=( $(multilib_get_enabled_abi_pairs) ) multibuild_parallel_foreach_variant _multilib_multibuild_wrapper "${@}" } # @FUNCTION: multilib_for_best_abi # @USAGE: <argv>... # @DESCRIPTION: # Runs the given command with setup for the 'best' (usually native) ABI. multilib_for_best_abi() { debug-print-function ${FUNCNAME} "${@}" eqawarn "QA warning: multilib_for_best_abi() function is deprecated and should" eqawarn "not be used. The multilib_is_native_abi() check may be used instead." local MULTIBUILD_VARIANTS=( $(multilib_get_enabled_abi_pairs) ) multibuild_for_best_variant _multilib_multibuild_wrapper "${@}" } # @FUNCTION: multilib_check_headers # @DESCRIPTION: # Check whether the header files are consistent between ABIs. # # This function needs to be called after each ABI's installation phase. # It obtains the header file checksums and compares them with previous # runs (if any). Dies if header files differ. multilib_check_headers() { _multilib_header_cksum() { [[ -d ${ED}usr/include ]] && \ find "${ED}"usr/include -type f \ -exec cksum {} + | sort -k2 } local cksum=$(_multilib_header_cksum) local cksum_file=${T}/.multilib_header_cksum if [[ -f ${cksum_file} ]]; then local cksum_prev=$(< "${cksum_file}") if [[ ${cksum} != ${cksum_prev} ]]; then echo "${cksum}" > "${cksum_file}.new" eerror "Header files have changed between ABIs." if type -p diff &>/dev/null; then eerror "$(diff -du "${cksum_file}" "${cksum_file}.new")" else eerror "Old checksums in: ${cksum_file}" eerror "New checksums in: ${cksum_file}.new" fi die "Header checksum mismatch, aborting." fi else echo "${cksum}" > "${cksum_file}" fi } # @FUNCTION: multilib_copy_sources # @DESCRIPTION: # Create a single copy of the package sources for each enabled ABI. # # The sources are always copied from initial BUILD_DIR (or S if unset) # to ABI-specific build directory matching BUILD_DIR used by # multilib_foreach_abi(). multilib_copy_sources() { debug-print-function ${FUNCNAME} "${@}" local MULTIBUILD_VARIANTS=( $(multilib_get_enabled_abi_pairs) ) multibuild_copy_sources } # @ECLASS-VARIABLE: MULTILIB_WRAPPED_HEADERS # @DESCRIPTION: # A list of headers to wrap for multilib support. The listed headers # will be moved to a non-standard location and replaced with a file # including them conditionally to current ABI. # # This variable has to be a bash array. Paths shall be relative to # installation root (${ED}), and name regular files. Recursive wrapping # is not supported. # # Please note that header wrapping is *discouraged*. It is preferred to # install all headers in a subdirectory of libdir and use pkg-config to # locate the headers. Some C preprocessors will not work with wrapped # headers. # # Example: # @CODE # MULTILIB_WRAPPED_HEADERS=( # /usr/include/foobar/config.h # ) # @CODE # @ECLASS-VARIABLE: MULTILIB_CHOST_TOOLS # @DESCRIPTION: # A list of tool executables to preserve for each multilib ABI. # The listed executables will be renamed to ${CHOST}-${basename}, # and the native variant will be symlinked to the generic name. # # This variable has to be a bash array. Paths shall be relative to # installation root (${ED}), and name regular files or symbolic # links to regular files. Recursive wrapping is not supported. # # If symbolic link is passed, both symlink path and symlink target # will be changed. As a result, the symlink target is expected # to be wrapped as well (either by listing in MULTILIB_CHOST_TOOLS # or externally). # # Please note that tool wrapping is *discouraged*. It is preferred to # install pkg-config files for each ABI, and require reverse # dependencies to use that. # # Packages that search for tools properly (e.g. using AC_PATH_TOOL # macro) will find the wrapper executables automatically. Other packages # will need explicit override of tool paths. # # Example: # @CODE # MULTILIB_CHOST_TOOLS=( # /usr/bin/foo-config # ) # @CODE # @FUNCTION: multilib_prepare_wrappers # @USAGE: [<install-root>] # @DESCRIPTION: # Perform the preparation of all kinds of wrappers for the current ABI. # This function shall be called once per each ABI, after installing # the files to be wrapped. # # Takes an optional custom <install-root> from which files will be # used. If no root is specified, uses ${ED}. # # The files to be wrapped are specified using separate variables, # e.g. MULTILIB_WRAPPED_HEADERS. Those variables shall not be changed # between the successive calls to multilib_prepare_wrappers # and multilib_install_wrappers. # # After all wrappers are prepared, multilib_install_wrappers shall # be called to commit them to the installation tree. multilib_prepare_wrappers() { debug-print-function ${FUNCNAME} "${@}" [[ ${#} -le 1 ]] || die "${FUNCNAME}: too many arguments" local root=${1:-${ED}} local f if [[ ${COMPLETE_MULTILIB} == yes ]]; then # symlink '${CHOST}-foo -> foo' to support abi-wrapper while # keeping ${CHOST}-foo calls correct. for f in "${MULTILIB_CHOST_TOOLS[@]}"; do # drop leading slash if it's there f=${f#/} local dir=${f%/*} local fn=${f##*/} ln -s "${fn}" "${root}/${dir}/${CHOST}-${fn}" || die done return fi for f in "${MULTILIB_CHOST_TOOLS[@]}"; do # drop leading slash if it's there f=${f#/} local dir=${f%/*} local fn=${f##*/} if [[ -L ${root}/${f} ]]; then # rewrite the symlink target local target=$(readlink "${root}/${f}") local target_dir local target_fn=${target##*/} [[ ${target} == */* ]] && target_dir=${target%/*} ln -f -s "${target_dir+${target_dir}/}${CHOST}-${target_fn}" \ "${root}/${f}" || die fi mv "${root}/${f}" "${root}/${dir}/${CHOST}-${fn}" || die # symlink the native one back if multilib_is_native_abi; then ln -s "${CHOST}-${fn}" "${root}/${f}" || die fi done if [[ ${MULTILIB_WRAPPED_HEADERS[@]} ]]; then # If abi_flag is unset, then header wrapping is unsupported on # this ABI. This means the arch doesn't support multilib at all # -- in this case, the headers are not wrapped and everything # works as expected. if [[ ${MULTILIB_ABI_FLAG} ]]; then for f in "${MULTILIB_WRAPPED_HEADERS[@]}"; do # drop leading slash if it's there f=${f#/} if [[ ${f} != usr/include/* ]]; then die "Wrapping headers outside of /usr/include is not supported at the moment." fi # and then usr/include f=${f#usr/include} local dir=${f%/*} # Some ABIs may have install less files than others. if [[ -f ${root}/usr/include${f} ]]; then local wrapper=${ED}/tmp/multilib-include${f} if [[ ! -f ${ED}/tmp/multilib-include${f} ]]; then dodir "/tmp/multilib-include${dir}" # a generic template cat > "${wrapper}" <<_EOF_ /* This file is auto-generated by multilib-build.eclass * as a multilib-friendly wrapper. For the original content, * please see the files that are #included below. */ #if defined(__x86_64__) /* amd64 */ # if defined(__ILP32__) /* x32 ABI */ # error "abi_x86_x32 not supported by the package." # else /* 64-bit ABI */ # error "abi_x86_64 not supported by the package." # endif #elif defined(__i386__) /* plain x86 */ # error "abi_x86_32 not supported by the package." #elif defined(__mips__) # if(_MIPS_SIM == _ABIN32) /* n32 */ # error "abi_mips_n32 not supported by the package." # elif(_MIPS_SIM == _ABI64) /* n64 */ # error "abi_mips_n64 not supported by the package." # elif(_MIPS_SIM == _ABIO32) /* o32 */ # error "abi_mips_o32 not supported by the package." # endif #elif defined(__sparc__) # if defined(__arch64__) # error "abi_sparc_64 not supported by the package." # else # error "abi_sparc_32 not supported by the package." # endif #elif defined(__s390__) # if defined(__s390x__) # error "abi_s390_64 not supported by the package." # else # error "abi_s390_32 not supported by the package." # endif #elif defined(__powerpc__) # if defined(__powerpc64__) # error "abi_ppc_64 not supported by the package." # else # error "abi_ppc_32 not supported by the package." # endif #elif defined(SWIG) /* https://sourceforge.net/p/swig/bugs/799/ */ # error "Native ABI not supported by the package." #else # error "No ABI matched, please report a bug to bugs.gentoo.org" #endif _EOF_ fi if ! grep -q "${MULTILIB_ABI_FLAG} " "${wrapper}" then die "Flag ${MULTILIB_ABI_FLAG} not listed in wrapper template. Please report a bug to https://bugs.gentoo.org." fi # $CHOST shall be set by multilib_toolchain_setup dodir "/tmp/multilib-include/${CHOST}${dir}" mv "${root}/usr/include${f}" "${ED}/tmp/multilib-include/${CHOST}${dir}/" || die # Note: match a space afterwards to avoid collision potential. sed -e "/${MULTILIB_ABI_FLAG} /s&error.*&include <${CHOST}${f}>&" \ -i "${wrapper}" || die # Hack for emul-linux-x86 compatibility. # It assumes amd64 will come after x86, and will use amd64 # headers if no specific x86 headers were installed. if [[ ${ABI} == amd64 ]]; then sed -e "/abi_x86_32 /s&error.*&include <${CHOST}${f}>&" \ -i "${wrapper}" || die fi # Needed for swig. if multilib_is_native_abi; then sed -e "/Native ABI/s&error.*&include <${CHOST}${f}>&" \ -i "${wrapper}" || die fi fi done fi fi } # @FUNCTION: multilib_install_wrappers # @USAGE: [<install-root>] # @DESCRIPTION: # Install the previously-prepared wrappers. This function shall # be called once, after all wrappers were prepared. # # Takes an optional custom <install-root> to which the wrappers will be # installed. If no root is specified, uses ${ED}. There is no need to # use the same root as when preparing the wrappers. # # The files to be wrapped are specified using separate variables, # e.g. MULTILIB_WRAPPED_HEADERS. Those variables shall not be changed # between the calls to multilib_prepare_wrappers # and multilib_install_wrappers. multilib_install_wrappers() { debug-print-function ${FUNCNAME} "${@}" [[ ${#} -le 1 ]] || die "${FUNCNAME}: too many arguments" [[ ${COMPLETE_MULTILIB} == yes ]] && return local root=${1:-${ED}} if [[ -d "${ED}"/tmp/multilib-include ]]; then multibuild_merge_root \ "${ED}"/tmp/multilib-include "${root}"/usr/include # it can fail if something else uses /tmp rmdir "${ED}"/tmp &>/dev/null fi } # @FUNCTION: multilib_is_native_abi # @DESCRIPTION: # Determine whether the currently built ABI is the profile native. # Return true status (0) if that is true, otherwise false (1). multilib_is_native_abi() { debug-print-function ${FUNCNAME} "${@}" [[ ${#} -eq 0 ]] || die "${FUNCNAME}: too many arguments" [[ ${COMPLETE_MULTILIB} == yes || ${ABI} == ${DEFAULT_ABI} ]] } # @FUNCTION: multilib_build_binaries # @DESCRIPTION: # Deprecated synonym for multilib_is_native_abi multilib_build_binaries() { debug-print-function ${FUNCNAME} "${@}" eqawarn "QA warning: multilib_build_binaries is deprecated. Please use the equivalent" eqawarn "multilib_is_native_abi function instead." multilib_is_native_abi "${@}" } # @FUNCTION: multilib_native_use_with # @USAGE: <flag> [<opt-name> [<opt-value>]] # @DESCRIPTION: # Output --with configure option alike use_with if USE <flag> is enabled # and executables are being built (multilib_is_native_abi is true). # Otherwise, outputs --without configure option. Arguments are the same # as for use_with in the EAPI. multilib_native_use_with() { if multilib_is_native_abi; then use_with "${@}" else echo "--without-${2:-${1}}" fi } # @FUNCTION: multilib_native_use_enable # @USAGE: <flag> [<opt-name> [<opt-value>]] # @DESCRIPTION: # Output --enable configure option alike use_enable if USE <flag> # is enabled and executables are being built (multilib_is_native_abi # is true). Otherwise, outputs --disable configure option. Arguments are # the same as for use_enable in the EAPI. multilib_native_use_enable() { if multilib_is_native_abi; then use_enable "${@}" else echo "--disable-${2:-${1}}" fi } # @FUNCTION: multilib_native_enable # @USAGE: <opt-name> [<opt-value>] # @DESCRIPTION: # Output --enable configure option if executables are being built # (multilib_is_native_abi is true). Otherwise, output --disable configure # option. multilib_native_enable() { if multilib_is_native_abi; then echo "--enable-${1}${2+=${2}}" else echo "--disable-${1}" fi } # @FUNCTION: multilib_native_with # @USAGE: <opt-name> [<opt-value>] # @DESCRIPTION: # Output --with configure option if executables are being built # (multilib_is_native_abi is true). Otherwise, output --without configure # option. multilib_native_with() { if multilib_is_native_abi; then echo "--with-${1}${2+=${2}}" else echo "--without-${1}" fi } # @FUNCTION: multilib_native_usex # @USAGE: <flag> [<true1> [<false1> [<true2> [<false2>]]]] # @DESCRIPTION: # Output the concatenation of <true1> (or 'yes' if unspecified) # and <true2> if USE <flag> is enabled and executables are being built # (multilib_is_native_abi is true). Otherwise, output the concatenation # of <false1> (or 'no' if unspecified) and <false2>. Arguments # are the same as for usex in the EAPI. # # Note: in EAPI 4 you need to inherit eutils to use this function. multilib_native_usex() { if multilib_is_native_abi; then usex "${@}" else echo "${3-no}${5}" fi } _MULTILIB_BUILD=1 fi