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# 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 1.27 2014/01/16 20:05:12 mgorny Exp $
# @ECLASS: multilib-build.eclass
# @MAINTAINER:
# 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.
_MULTILIB_FLAGS=(
abi_x86_32:x86,x86_fbsd
abi_x86_64:amd64,amd64_fbsd
abi_x86_x32:x32
abi_mips_n32:n32
abi_mips_n64:n64
abi_mips_o32:o32
)
# @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
_multilib_build_set_globals() {
local flags=( "${_MULTILIB_FLAGS[@]%:*}" )
local usedeps=${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 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} == ${abi} ]] && use "${m_flag}"; then
echo "${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=${MULTIBUILD_VARIANT}
multilib_toolchain_setup "${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=( $(multilib_get_enabled_abis) )
multibuild_foreach_variant _multilib_multibuild_wrapper "${@}"
}
# @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=( $(multilib_get_enabled_abis) )
multibuild_parallel_foreach_variant _multilib_multibuild_wrapper "${@}"
}
# @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 ${FUNCNAME} "${@}"
local MULTIBUILD_VARIANTS=( $(multilib_get_enabled_abis) )
multibuild_for_best_variant _multilib_multibuild_wrapper "${@}"
}
# @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=( $(multilib_get_enabled_abis) )
multibuild_copy_sources
}
# @ECLASS-VARIABLE: MULTILIB_WRAPPED_HEADERS
# @DESCRIPTION:
# A list of headers to wrap for multilib support. The listed headers
# will be moved to a non-standard location and replaced with a file
# including them conditionally to current ABI.
#
# This variable has to be a bash array. Paths shall be relative to
# installation root (${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. Recursive wrapping
# is not supported.
#
# 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
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%/*}
if [[ ! -f ${ED}/tmp/multilib-include${f} ]]; then
dodir "/tmp/multilib-include${dir}"
# a generic template
cat > "${ED}/tmp/multilib-include${f}" <<_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
#else
# error "No ABI matched, please report a bug to bugs.gentoo.org"
#endif
_EOF_
fi
# Some ABIs may have install less files than others.
if [[ -f ${root}/usr/include${f} ]]; then
# $CHOST shall be set by multilib_toolchain_setup
dodir "/tmp/multilib-include/${CHOST}${dir}"
mv "${root}/usr/include${f}" "${ED}/tmp/multilib-include/${CHOST}${dir}/" || die
# XXX: get abi_* directly
local abi_flag
case "${ABI}" in
amd64|amd64_fbsd)
abi_flag=abi_x86_64;;
x86|x86_fbsd)
abi_flag=abi_x86_32;;
x32)
abi_flag=abi_x86_x32;;
n32)
abi_flag=abi_mips_n32;;
n64)
abi_flag=abi_mips_n64;;
o32)
abi_flag=abi_mips_o32;;
*)
die "Header wrapping for ${ABI} not supported yet";;
esac
# Note: match a space afterwards to avoid collision potential.
sed -e "/${abi_flag} /s&error.*&include <${CHOST}${f}>&" \
-i "${ED}/tmp/multilib-include${f}" || die
fi
done
for f in "${MULTILIB_CHOST_TOOLS[@]}"; do
# drop leading slash if it's there
f=${f#/}
local dir=${f%/*}
local fn=${f##*/}
mv "${root}/${f}" "${root}/${dir}/${CHOST}-${fn}" || die
# symlink the native one back
if multilib_build_binaries; then
ln -s "${CHOST}-${fn}" "${root}/${f}" || die
fi
done
}
# @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"
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).
#
# This function is not intended to be used directly. Please use
# multilib_build_binaries instead.
multilib_is_native_abi() {
debug-print-function ${FUNCNAME} "${@}"
[[ ${#} -eq 0 ]] || die "${FUNCNAME}: too many arguments"
[[ ${ABI} == ${DEFAULT_ABI} ]]
}
# @FUNCTION: multilib_build_binaries
# @DESCRIPTION:
# Determine whether to build binaries for the currently built ABI.
# Returns true status (0) if the currently built ABI is the profile
# native or COMPLETE_MULTILIB variable is set to 'yes', otherwise
# false (1).
#
# This is often useful for configure calls when some of the options are
# supposed to be disabled for multilib ABIs (like those used for
# executables only).
multilib_build_binaries() {
debug-print-function ${FUNCNAME} "${@}"
[[ ${#} -eq 0 ]] || die "${FUNCNAME}: too many arguments"
[[ ${COMPLETE_MULTILIB} == yes ]] || multilib_is_native_abi
}
_MULTILIB_BUILD=1
fi
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