# Copyright 1999-2013 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/multibuild.eclass,v 1.13 2013/09/10 09:10:22 mgorny Exp $ # @ECLASS: multibuild # @MAINTAINER: # Michał Górny # @AUTHOR: # Author: Michał Górny # @BLURB: A generic eclass for building multiple variants of packages. # @DESCRIPTION: # The multibuild eclass aims to provide a generic framework for building # multiple 'variants' of a package (e.g. multilib, Python # implementations). case "${EAPI:-0}" in 0|1|2|3) die "Unsupported EAPI=${EAPI:-0} (too old) for ${ECLASS}" ;; 4|5) ;; *) die "Unsupported EAPI=${EAPI} (unknown) for ${ECLASS}" ;; esac if [[ ! ${_MULTIBUILD} ]]; then inherit multiprocessing RDEPEND="userland_GNU? ( >=sys-apps/coreutils-8.5 )" # @ECLASS-VARIABLE: MULTIBUILD_VARIANTS # @DESCRIPTION: # An array specifying all enabled variants which multibuild_foreach* # can execute the process for. # # In ebuild, it can be set in global scope. Eclasses should set it # locally in function scope to support nesting properly. # # Example: # @CODE # python_foreach_impl() { # local MULTIBUILD_VARIANTS=( python{2_5,2_6,2_7} ... ) # multibuild_foreach_variant python_compile # } # @CODE # @ECLASS-VARIABLE: MULTIBUILD_VARIANT # @DESCRIPTION: # The current variant which the function was executed for. # # Example value: # @CODE # python2_6 # @CODE # @ECLASS-VARIABLE: MULTIBUILD_ID # @DESCRIPTION: # The unique identifier for a multibuild run. In a simple run, it is # equal to MULTIBUILD_VARIANT. In a nested multibuild environment, it # contains the complete selection tree. # # It can be used to create variant-unique directories and files. # # Example value: # @CODE # amd64-double # @CODE # @ECLASS-VARIABLE: BUILD_DIR # @DESCRIPTION: # The current build directory. In global scope, it is supposed # to contain an 'initial' build directory. If unset, ${S} is used. # # multibuild_foreach_variant() sets BUILD_DIR locally # to variant-specific build directories based on the initial value # of BUILD_DIR. # # Example value: # @CODE # ${WORKDIR}/foo-1.3-python2_6 # @CODE # @FUNCTION: multibuild_foreach_variant # @USAGE: [...] # @DESCRIPTION: # Run the passed command repeatedly for each of the enabled package # variants. # # Each of the runs will have variant-specific BUILD_DIR set, and output # teed to a separate log in ${T}. # # The function returns 0 if all commands return 0, or the first non-zero # exit status otherwise. However, it performs all the invocations # nevertheless. It is preferred to call 'die' inside of the passed # function. multibuild_foreach_variant() { debug-print-function ${FUNCNAME} "${@}" [[ ${MULTIBUILD_VARIANTS} ]] \ || die "MULTIBUILD_VARIANTS need to be set" local bdir=${BUILD_DIR:-${S}} # Avoid writing outside WORKDIR if S=${WORKDIR}. [[ ${bdir%%/} == ${WORKDIR%%/} ]] && bdir=${WORKDIR}/build local prev_id=${MULTIBUILD_ID:+${MULTIBUILD_ID}-} local ret=0 lret=0 v debug-print "${FUNCNAME}: initial build_dir = ${bdir}" for v in "${MULTIBUILD_VARIANTS[@]}"; do local MULTIBUILD_VARIANT=${v} local MULTIBUILD_ID=${prev_id}${v} local BUILD_DIR=${bdir%%/}-${v} _multibuild_run() { # find the first non-private command local i=1 while [[ ${!i} == _* ]]; do (( i += 1 )) done [[ ${i} -le ${#} ]] && einfo "${v}: running ${@:${i}}" "${@}" } _multibuild_run "${@}" \ > >(exec tee -a "${T}/build-${MULTIBUILD_ID}.log") 2>&1 lret=${?} done [[ ${ret} -eq 0 && ${lret} -ne 0 ]] && ret=${lret} return ${ret} } # @FUNCTION: multibuild_parallel_foreach_variant # @USAGE: [...] # @DESCRIPTION: # Run the passed command repeatedly for each of the enabled package # variants alike multibuild_foreach_variant. Multiple invocations of the command # will be performed in parallel, up to MULTIBUILD_JOBS tasks. # # The function returns 0 if all commands return 0, or the first non-zero # exit status otherwise. However, it performs all the invocations # nevertheless. It is preferred to call 'die' inside of the passed # function. multibuild_parallel_foreach_variant() { debug-print-function ${FUNCNAME} "${@}" local ret lret _multibuild_parallel() { ( multijob_child_init "${@}" ) & multijob_post_fork } local opts if [[ ${MULTIBUILD_JOBS} ]]; then opts=-j${MULTIBUILD_JOBS} else opts=${MAKEOPTS} fi multijob_init "${opts}" multibuild_foreach_variant _multibuild_parallel "${@}" ret=${?} multijob_finish lret=${?} [[ ${ret} -eq 0 ]] && ret=${lret} return ${ret} } # @FUNCTION: multibuild_for_best_variant # @USAGE: [...] # @DESCRIPTION: # Run the passed command once, for the best of the enabled package # variants. # # The run will have a proper, variant-specificBUILD_DIR set, and output # teed to a separate log in ${T}. # # The function returns command exit status. multibuild_for_best_variant() { debug-print-function ${FUNCNAME} "${@}" [[ ${MULTIBUILD_VARIANTS} ]] \ || die "MULTIBUILD_VARIANTS need to be set" # bash-4.1 can't handle negative subscripts local MULTIBUILD_VARIANTS=( "${MULTIBUILD_VARIANTS[$(( ${#MULTIBUILD_VARIANTS[@]} - 1 ))]}" ) multibuild_foreach_variant "${@}" } # @FUNCTION: multibuild_copy_sources # @DESCRIPTION: # Create per-variant copies of source tree. The source tree is assumed # to be in ${BUILD_DIR}, or ${S} if the former is unset. The copies will # be placed in directories matching BUILD_DIRs used by # multibuild_foreach(). multibuild_copy_sources() { debug-print-function ${FUNCNAME} "${@}" local _MULTIBUILD_INITIAL_BUILD_DIR=${BUILD_DIR:-${S}} einfo "Will copy sources from ${_MULTIBUILD_INITIAL_BUILD_DIR}" _multibuild_create_source_copy() { einfo "${MULTIBUILD_VARIANT}: copying to ${BUILD_DIR}" cp -pr "${_MULTIBUILD_INITIAL_BUILD_DIR}" "${BUILD_DIR}" || die } multibuild_foreach_variant _multibuild_create_source_copy } # @FUNCTION: run_in_build_dir # @USAGE: ... # @DESCRIPTION: # Run the given command in the directory pointed by BUILD_DIR. run_in_build_dir() { debug-print-function ${FUNCNAME} "${@}" local ret [[ ${#} -ne 0 ]] || die "${FUNCNAME}: no command specified." [[ ${BUILD_DIR} ]] || die "${FUNCNAME}: BUILD_DIR not set." pushd "${BUILD_DIR}" >/dev/null || die "${@}" ret=${?} popd >/dev/null || die return ${ret} } # @FUNCTION: multibuild_merge_root # @USAGE: # @DESCRIPTION: # Merge the directory tree (fake root) from to # (the real root). Both directories have to be real, absolute paths # (i.e. including ${D}). Source root will be removed. # # This functions uses locking to support merging during parallel # installs. multibuild_merge_root() { local src=${1} local dest=${2} local lockfile=${T}/.multibuild_merge_lock local lockfile_l=${lockfile}.${BASHPID} local ret # Lock the install tree for merge. The touch+ln method ensures race # condition-free locking with maximum portability. touch "${lockfile_l}" || die until ln "${lockfile_l}" "${lockfile}" &>/dev/null; do sleep 1 done rm "${lockfile_l}" || die if use userland_BSD; then # 'cp -a -n' is broken: # http://www.freebsd.org/cgi/query-pr.cgi?pr=174489 # using tar instead which is universal but terribly slow. tar -C "${src}" -f - -c . \ | tar -x -f - -C "${dest}" [[ ${PIPESTATUS[*]} == '0 0' ]] ret=${?} elif use userland_GNU; then # cp works with '-a -n'. cp -a -l -n "${src}"/. "${dest}"/ ret=${?} else die "Unsupported userland (${USERLAND}), please report." fi # Remove the lock. rm "${lockfile}" || die if [[ ${ret} -ne 0 ]]; then die "${MULTIBUILD_VARIANT:-(unknown)}: merging image failed." fi rm -rf "${src}" } _MULTIBUILD=1 fi