#!/bin/bash # vim:expandtab:shiftwidth=4:softtabstop=4:tabstop=4: # this is an alternative FD for stdout, to be used especially when we are # taking stdout from a function as it's return value. i.e. foo=$(bar) # this is a workaround until a version of bash where we can put xtrace # on a specific FD exec 3>&1; STDOUT=3 #set -x xtrace="+x" if [[ $SHELLOPTS = *xtrace* ]]; then xtrace="-x" fi shopt -s extdebug # include the exit_traps library . ${0%/lbuild}/exit_traps.sh # our children should die when we do push_exit_trap "kill -INT -$$ || true" kill_children # increment this if you have made a change that should force a new kernel # to build built #BUILD_GEN=1 #BUILD_GEN=2 # bz19952: remove -lustre tag from kernel RPM names #BUILD_GEN=3 # bz19975: enable the building of src.rpms by default BUILD_GEN=4 # bz22281: use the git hash in the kernel extra version TOPDIR=$PWD # CVSROOT is inherited from the environment KERNELDIR= LINUX= LUSTRE= RELEASE=false # XXX - some recent hacking has pretty much neutered this option. # search through this file (and lbuild.old_school -- but that will # be going away soon) for "-bb" and see how many places # simply don't account for this option DO_SRC=true DOWNLOAD=true TAG= CANONICAL_TARGET= TARGET= TARGET_ARCH=$(uname -m) TARGET_ARCHS= TARGET_ARCHS_ALL=$TARGET_ARCH [ "$TARGET_ARCH" = "i686" ] && TARGET_ARCHS_ALL="i686 i586 i386" CONFIGURE_FLAGS= EXTERNAL_PATCHES= EXTRA_VERSION= STAGEDIR= TMPDIR=${TMPDIR:-"/var/tmp"} TIMESTAMP= # this is a dir to try reuse old kernel RPMs in (although, it seems to be # unused in any real manner REUSERPM= # this is the dir that should be used to store reuse products REUSEBUILD= # should cached products be used or force rebuilding? USE_BUILD_CACHE=true # what does this do exactly? does it imply no kernel build? NORPM=false LDISKFSRPM=true SKIPLDISKFSRPM="v1_4_* b1_4" SMPTYPES="smp bigsmp default ''" PATCHLESS=false XEN=false LINUXOBJ= DISTRO= KERNELTREE= # default to not adding -lustre- into the kernel RPM package names KERNEL_LUSTRE_NAMING=false # patchless build KERNELRPMSBASE= RPMSMPTYPE= # from target file SERIES= BASE_ARCHS= BIGMEM_ARCHS= BOOT_ARCHS= JENSEN_ARCHS= SMP_ARCHS= BIGSMP_ARCHS= PSERIES64_ARCHS= UP_ARCHS= # not in the target file any more CONFIG= # build the lustre-tests rpm? LUSTRE_TESTS=true DATE=$(date) USE_DATESTAMP=1 RPMBUILD= OLD_SCHOOL=false export CC=${CC:-gcc} # Readlink is not present on some older distributions: emulate it. readlink() { local path=$1 ll if [ -L "$path" ]; then ll="$(LC_ALL=C ls -l "$path" 2> /dev/null)" && echo "${ll/* -> }" else return 1 fi } cleanup() { true } error() { local msg="$1" [ -n "$msg" ] && echo -e "\n${0##*/}: $msg" >&3 } fatal() { cleanup error "$2" exit $1 } usage() { cat <] -d CVSROOT Specifies the CVS Root to use when pulling files from CVS. The environment variable \$CVSROOT is used if this option is not present. --external-patches=EXTERNAL_PATCHES Directory similar to lustre/lustre/kernel_patches/ that lbuild should look for seres and config files in before looking in the lustre tree. --extraversion=EXTRAVERSION Text to use for the rpm release and kernel extraversion. --timestamp=TIMESTAMP Date of building lustre in format YYYYMMDDhhmmss --reuserpm=DIR Try to reuse old kernel RPMs from DIR --reusebuild=DIR Try to reuse old kernel builds from DIR --kernelrpm=DIR Path to distro kernel RPM collection --ccache Use ccache --norpm Do not build RPMs (compile only mode) --patchless Build lustre client only --distro=DISTRO Which distro using. Autodetect by default --kerneldir=KERNELDIR Directory containing Linux source tarballs referenced by target files. --kerneltree=KERNELTREE Directory containing dirs with Linux source tarballs referenced by target files. Dir names in format kernel version ('2.6.9', etc.) --linux=LINUX --with-linux=LINUX Directory of Linux kernel sources. When this option is used, only Lustre modules and userspace are built. --lustre=LUSTRE Path to an existing lustre source tarball to use instead of pulling from CVS. --nodownload Do not try to download a kernel from downloads.lustre.org --nosrc Do not build a .src.rpm, a full kernel patch, or a patched kernel tarball. --ldiskfs Do ldiskfs RPM. Now true by default --publish Unused. --release Specifies that the files generated do not include timestamps, and that this is an official release. --src Build a .src.rpm, a full kernel patch, and a patched kernel tarball. --stage=DIR Directory used to stage packages for release. RPMs will be placed more or less in DIR/-, and the tarball will be placed in DIR. --tag=TAG A CVS branch/tag name to build from when pulling from CVS. --target=TARGET The name of the target to build. The available targets are listed below. --target-archs=TARGET_ARCHS A (space delimited) list of architectures to build. By default, all of the archs supported by the TARGET will be built, in addition to a .src.rpm. This option can limit those, for machines that can only build certain archs or if you only want a certain arch built (for testing, or a one-off kernel). Also note that by using a non-"base" arch (eg, i386) only kernels will be built - there will be no lustre-lite-utils package. --disable-datestamp Prevents the datestamp flag (-D) from being passed to cvs for checkouts. This is a workaround for a problem encountered when using lbuild with tinderbox. --xen Builds a Xen domX kernel. --set-value Set's a variable to a given value. EOF # list_targets fatal "$1" "$2" } # canonicalize a relative path to a file canon_filepath() { local PATH="$1" if [ ! -f "$PATH" ]; then return 1 fi local FILE=${PATH##*/} local DIR=${PATH%/*} echo $(canon_path "$DIR")/$FILE return 0 } # canonicalize a relative path to a dir canon_path() { local PATH="$1" if [ ! -d "$PATH" ]; then return 1 fi pushd "$PATH" >/dev/null || return 1 local CANONPATH=$PWD popd >/dev/null echo "$CANONPATH" return 0 } check_options() { if [ "$LUSTRE" ]; then [ -r "$LUSTRE" ] || \ usage 1 "Could not find Lustre source tarball '$LUSTRE'." else [ "$CVSROOT" ] || \ usage 1 "Either specify a CVS Root with -d, or a Lustre source tarball with --lustre." [ "$TAG" ] || \ usage 1 "A branch/tag name must be specified with --tag when not building from a tarball." fi if [ -z "$LINUX" ]; then [ "$KERNELDIR" -o "$KERNELTREE" ] || \ usage 1 "A kernel directory must be specified with --kerneldir or --kerneltree." [ -d "$KERNELDIR" -o -d "$KERNELTREE" ] || \ usage 1 "$KERNELDIR and $KERNELTREE are not a directory." if ! $RELEASE; then [ "$TAG" ] || \ usage 1 "When building a snapshot, a tag name must be used." fi [ "$TARGET" ] || usage 1 "A target must be specified with --target." # TARGET_FILE="$TOPDIR/lustre/kernel_patches/targets/$TARGET.target" # [ -r "$TARGET_FILE" ] || \ # usage 1 "Target '$TARGET' was not found." fi case $TARGET in 2.6-rhel5) CANONICAL_TARGET="rhel5" ;; 2.6-rhel4) CANONICAL_TARGET="rhel-2.6" ;; 2.6-suse) CANONICAL_TARGET="sles-2.6" ;; 2.6-sles10) CANONICAL_TARGET="sles10-2.6" ;; 2.6-sles11) CANONICAL_TARGET="sles11" ;; 2.6-oel5) CANONICAL_TARGET="oel5" ;; hp_pnnl-2.4) CANONICAL_TARGET="hp-pnnl-2.4" ;; 2.6-vanilla \ | suse-2.4.21-2 \ | rh-2.4 \ | rhel-2.4 \ | sles-2.4 \ | 2.6-patchless) CANONICAL_TARGET="$TARGET" ;; esac local timestampnodig=$(echo $TIMESTAMP | sed -e s/[0-9]*//g) [ "$timestampnodig" = "" ] || TIMESTAMP=$(date -d "$DATE" "+%Y%m%d%H%M%S") local timestamplength="${#TIMESTAMP}" if [ $timestamplength -eq 12 ]; then TIMESTAMP="${TIMESTAMP}00" elif [ $timestamplength -ne 14 ]; then TIMESTAMP=$(date -d "$DATE" "+%Y%m%d%H%M%S") fi RPMBUILD=$(which rpmbuild 2>/dev/null | head -1) if [ ! "$RPMBUILD" -o "$RPMBUILD" == "" ]; then RPMBUILD=$(which rpm 2>/dev/null | head -1) if [ ! "$RPMBUILD" -o "$RPMBUILD" == "" ]; then usage 1 "Could not find binary for making rpms (tried rpmbuild and rpm)." fi fi if [ -n "$CCACHE" ]; then which "$DISTCC" &>/dev/null && export DISTCC RPM_BUILD_NCPUS if which "$CCACHE" &>/dev/null; then local ccache=$(which "$CCACHE") local bindir="$TOPDIR/bin" if [ ! -d $bindir ]; then mkdir -p $bindir || fatal 1 "error trying to create $bindir" else rm ${bindir}/* > /dev/null 2>&1 || true fi ln -s "$ccache" ${bindir}/ccache ln -s "$ccache" ${bindir}/cc ln -s "$ccache" ${bindir}/$CC export PATH=$bindir:$PATH export CCACHE && export CC="ccache $CC" # zero the cache so we can see how effective we are being with it echo -n "ccache " ccache -z # get some ccache stats when we are done push_exit_trap '[ -n "$CCACHE" ] && ccache -s' "ccache_summary" # should remove the ccache trap if lbuild is interrupted trap 'echo "Received an INT TERM or HUP signal, terminating."; delete_exit_trap "ccache_summary"; exit 1' INT TERM HUP fi fi [ -z "$DISTRO" ] && DISTRO=$(autodetect_distro) return 0 } # autodetect used Distro autodetect_distro() { local name local version if [ -f /etc/SuSE-release ]; then name=sles version=$(grep ^VERSION /etc/SuSE-release) version=${version#*= } elif [ -f /etc/redhat-release ]; then name=$(head -1 /etc/redhat-release) version=$(echo "$distroname" | sed -e 's/^[^0-9.]*//g' | sed -e 's/[ \.].*//') fi if [ -z "$name" -o -z "$version" ]; then fatal 1 "I don't know how to determine distro type/version.\nEither update autodetect_distro() or use the --distro argument" fi echo ${name}${version} return 0 } uniqify() { echo $(echo "$*" | xargs -n 1 | sort -u) } download_srpm() { local target=$1 local srpm=$2 local force="${3:-false}" if $force || [ ! -r "$KERNELDIR/$srpm" ] || [ ! -s "$KERNELDIR/$srpm" ]; then if $DOWNLOAD; then local location="http://downloads.lustre.org/public/kernels/$target/old" echo "Downloading $location/$srpm..." if ! wget -nv "$location/$srpm" -O "$KERNELDIR/$srpm" 2>&1 || [ ! -s "$KERNELDIR/$srpm" ]; then rm -f $KERNELDIR/$srpm fatal 1 "Could not download target $target's kernel SRPM $srpm from $location." fi else fatal 1 "$srpm not found in directory $KERNELDIR." fi fi } download_file() { local from="$1" local to="$2" local force="$3" local file=${from##*/} if [ -d $to ]; then to="$to/$file" fi local semaphore="$to-downloading" is_downloading() { if [ ! -f $semaphore ]; then return 1 fi # make sure the download has not been aborted local now=$(date +%s) local file_mtime=$(stat -c %Y "$to") local staleness=$((now - file_mtime)) # let's assume an active download will write at least once a minute if [ $staleness -gt 60 ]; then return 1 fi return 0 } is_downloaded() { # if the semaphore file exists, the file is either still downloading # or a download was aborted and we cannot trust the target file if [ -f $semaphore ]; then return 1 fi if ! is_downloading && [ -r "$to" ] && [ -s "$to" ]; then return 0 fi return 1 } if $force || ! is_downloaded; then if is_downloading; then echo "Somebody else is downloading $from..." while is_downloading; do echo "Waiting for $to to finish downloading" sleep 60 done if is_downloaded; then return 0 else echo "The download we were waiting for seems to have been aborted" fi fi if $DOWNLOAD; then echo "Downloading $from..." # flag others so they don't try to download also push_exit_trap "rm -f $to $semaphore" "download" touch $semaphore if ! wget -nv "$from" -O "$to" || [ ! -s "$to" ]; then # the trap will remove the files via the fatal below fatal 1 "Could not download ${to##*/} from ${from%/*}/." fi rm -f $semaphore delete_exit_trap "download" else fatal 1 "${to##*/} not found in directory ${to%/*}." fi fi return 0 } download_ofed() { local force="${1:-false}" if [ -z "$OFED_VERSION" -o "$OFED_VERSION" = "inkernel" ]; then return 0 fi local location="http://www.openfabrics.org/downloads/OFED/ofed-${OFED_VERSION}/" if [[ $OFED_VERSION = daily-* ]]; then local Mmv daily OFED_VERSION=${OFED_VERSION/daily-/} Mmv=${OFED_VERSION%%-*} daily=${OFED_VERSION##$Mmv-} location="http://www.openfabrics.org/downloads/OFED/ofed-${Mmv}-daily/" # find the filename for the version for the date specified OFED_VERSION=$(curl -s "$location" | sed -nre "/${daily}-/s/.*href=\"OFED-(${Mmv//./\\.}-${daily}-[0-9]{4,4}).tgz.*$/\1/p" | tail -1) if [ -z "$OFED_VERSION" ]; then fatal 1 "Could not determine the filename of the OFED snapshot for ${daily}" fi fi local file="OFED-${OFED_VERSION}.tgz" download_file "$location/$file" "$KERNELTREE" "$force" } load_target() { EXTRA_VERSION_save="$EXTRA_VERSION" for patchesdir in "$EXTERNAL_PATCHES" \ "$TOPDIR/lustre/lustre/kernel_patches"; do TARGET_FILE="$patchesdir/targets/$TARGET.target" [ -r "$TARGET_FILE" ] && break done [ -r "$TARGET_FILE" ] || fatal 1 "Target $TARGET was not found." echo "Loading target config file $TARGET.target..." # if the caller specified an OFED_VERSION it should override whatever # the target file specifies local env_OFED_VERSION="$OFED_VERSION" . "$TARGET_FILE" if [ -n "$env_OFED_VERSION" ]; then OFED_VERSION="$env_OFED_VERSION" fi # doesn't make any sense to build OFED for xen domX's if $XEN; then OFED_VERSION="" fi # XXX - set_rpm_smp_type is an ugly undeterministic hack. it needs to # go away and the target just specify the $RPMSMPTYPE [ -z "$RPMSMPTYPE" ] && set_rpm_smp_type # CC might have been overwriten in TARGET_FILE if [[ $CC != ccache\ * ]] && which "$CCACHE" &>/dev/null; then export CCACHE && export CC="ccache $CC" fi if [ ! "$KERNELTREE" = "" ] && [ -d "$KERNELTREE" ]; then KERNELDIR="$KERNELTREE/${lnxmaj}" [ -d "$KERNELDIR" ] || mkdir "$KERNELDIR" fi # verify the series is available if [ "$SERIES" ]; then for series in $SERIES; do for patchesdir in "$EXTERNAL_PATCHES" "$TOPDIR/lustre/lustre/kernel_patches"; do [ -r "$patchesdir/series/$series" ] && continue 2 done fatal 1 "Target $TARGET's series $SERIES could not be found.\nSearched:\n\t$EXTERNAL_PATCHES/series\n\t$TOPDIR/lustre/lustre/kernel_patches/series." done fi # set the location of the .config file local XENPOSTFIX="" if $XEN; then XENPOSTFIX="-xen" fi if [ -f $TOPDIR/lustre/lustre/kernel_patches/kernel_configs/kernel-$lnxmaj-$TARGET-$TARGET_ARCH.config ]; then CONFIG_FILE="$TOPDIR/lustre/lustre/kernel_patches/kernel_configs/kernel-$lnxmaj-$TARGET$XENPOSTFIX-$TARGET_ARCH${RPMSMPTYPE:+-}${RPMSMPTYPE}.config" fi local lnxrelnew=${lnxrel//-/_} # remember the EXTRA_VERSION before we diddle it here # XXX - we really should not diddle with any values read in from the # target file. if we want to modify a value, we should create # a new variable. PRISTINE_EXTRA_VERSION=$EXTRA_VERSION if ! $PATCHLESS && [ ! -f "$CONFIG_FILE" ]; then fatal 1 "Config file for target $TARGET missing from $TOPDIR/lustre/lustre/kernel_patches/kernel_configs/." fi if [ "$EXTRA_VERSION_save" ]; then EXTRA_VERSION="$EXTRA_VERSION_save" elif ! $RELEASE; then # if there is no patch series, then this is not a lustre specific # kernel. don't make it look like one if $PATCHLESS || [ -n "$SERIES" ]; then EXTRA_VERSION=$(echo $EXTRA_VERSION | sed -e "s/\(.*_lustre\)\..*/\1/") # EXTRA_VERSION="${EXTRA_VERSION}-${TAG}.${TIMESTAMP}" if ! $PATCHLESS && [ -n "$BUILDID" ]; then EXTRA_VERSION="${EXTRA_VERSION}.${BUILDID}" fi fi fi # EXTRA_VERSION=${EXTRA_VERSION//-/_} ALL_ARCHS="$BASE_ARCHS $BIGMEM_ARCHS $BOOT_ARCHS $JENSEN_ARCHS $SMP_ARCHS $BIGSMP_ARCHS $PSERIES64_ARCHS $UP_ARCHS" BUILD_ARCHS= for arch in $(uniqify "$ALL_ARCHS"); do if [ -z "$TARGET_ARCHS" ] || [[ \ $TARGET_ARCHS\ = *\ $arch\ * ]]; then BUILD_ARCHS="$BUILD_ARCHS $arch" fi done [ "$BUILD_ARCHS" ] || usage 1 "No available target archs to build." echo "Building for: $BUILD_ARCHS" } tarflags() { local file="$1" case "$file" in '') fatal 1 "tarflags(): File name argument missing." ;; *.tar.gz | *.tgz) echo 'zxf' ;; *.tar.bz2) echo 'jxf' ;; *.tar) echo 'xf' ;; *) fatal 1 "tarflags(): Unrecognized tar extension in file: $1" ;; esac } untar() { local tarfile="$1" shift local extractfile="$@" echo "Untarring ${tarfile##*/}..." tar $(tarflags "$tarfile") "$tarfile" $extractfile } unpack_ofed() { if ! untar "$KERNELTREE/OFED-${OFED_VERSION}.tgz"; then return 1 fi [ -d OFED ] || ln -sf OFED-[0-9].[0-9]* OFED } unpack_lustre() { if [ -z "$LUSTRE" ]; then local DATESTAMP="" if [ -n "$USE_DATESTAMP" ]; then DATESTAMP="-D '$DATE'" fi local DIRNAME="lustre-$TAG-$TIMESTAMP" cvs -d "$CVSROOT" -qz3 co $DATESTAMP -d "$DIRNAME" lustre || \ fatal 1 "There was an error checking out toplevel Lustre from CVS." pushd "$DIRNAME" > /dev/null ./lustrecvs "$TAG" || \ fatal 1 "There was an error checking out Lustre/Portals/Build from CVS." echo "Creating lustre tarball..." sh autogen.sh || fatal 1 "There was an error running autogen.sh." ./configure --enable-dist || \ fatal 1 "There was an error running ./configure to create makefiles." make dist || fatal 1 "There was an error running 'make dist'." LUSTRE=$PWD/lustre-*.tar.gz popd > /dev/null fi untar "$LUSTRE" || fatal 1 "Error unpacking Lustre tarball" [ -d lustre ] || ln -sf lustre-[0-9].[0-9]* lustre } do_patch_linux() { local do_patch=${1:-true} FULL_PATCH="$PWD/lustre-kernel-${TARGET}-${EXTRA_VERSION}.patch" [ -f "$FULL_PATCH" ] && rm -f "$FULL_PATCH" $do_patch && pushd linux >/dev/null for series in $SERIES; do echo -n "Applying series $series:" for patchesdir in "$EXTERNAL_PATCHES" "$TOPDIR/lustre/lustre/kernel_patches"; do [ -r "$patchesdir/series/$series" ] || continue SERIES_FILE="$patchesdir/series/$series" for patch in $(<"$SERIES_FILE"); do echo -n " $patch" PATCH_FILE="$patchesdir/patches/$patch" [ -r "$PATCH_FILE" ] || \ fatal 1 "Patch $patch does not exist in Lustre tree." cat "$PATCH_FILE" >> "$FULL_PATCH" || { rm -f $FULL_PATCH fatal 1 "Error adding patch $patch to full patch." } if $do_patch; then patch -s -p1 < "$PATCH_FILE" 2>&1 || { rm -f $FULL_PATCH fatal 1 "Error applying patch $patch." } fi done break done echo done $do_patch && popd >/dev/null echo "Full patch has been saved in ${FULL_PATCH##*/}." } build_lustre() { local linux="$1" local linuxobj="$2" cp "$LUSTRE" SOURCES pushd lustre >/dev/null echo "Building Lustre RPMs for: $BUILD_ARCHS..." local targets arch for arch in $BUILD_ARCHS; do targets="--target $arch $targets" done local confoptions="" if $PATCHLESS; then confoptions="$confoptions --disable-server" fi local rpmbuildopt='-tb' if $NORPM; then rpmbuildopt='-tc' echo NORPM mode. Only compiling. fi ( $(skeep_ldiskfs_rpm $TAG) ) || { pushd ldiskfs > /dev/null || return 255 if ! ./configure --enable-dist; then echo "failed to configure in ldiskfs" popd >/dev/null # pushd ldiskfs popd >/dev/null # pushd lustre return 255 fi if ! make dist 2>&1; then popd >/dev/null # pushd ldiskfs popd >/dev/null # pushd lustre return 255 fi #cp lustre-ldiskfs*.tar.gz $TOPDIR/SOURCES || \ # fatal 1 "Could not copy lustre-ldiskfs*.tar.gz to $TOPDIR/SOURCES" if ! $RPMBUILD $targets $rpmbuildopt lustre-ldiskfs*.tar.gz \ --define "configure_args $confoptions ${CONFIGURE_FLAGS}" \ --define "kdir $linux" \ ${linuxobj:+--define "kobjdir $linuxobj"} \ --define "_tmppath /var/tmp" \ --define "_topdir $TOPDIR" 2>&1; then popd >/dev/null # pushd ldiskfs popd >/dev/null # pushd lustre return 255 fi if $DO_SRC; then if ! $RPMBUILD -ts lustre-ldiskfs*.tar.gz \ --define "configure_args $confoptions ${CONFIGURE_FLAGS}" \ --define "kdir $linux" \ ${linuxobj:+--define "kobjdir $linuxobj"} \ --define "_tmppath /var/tmp" \ --define "_topdir $TOPDIR" 2>&1; then popd >/dev/null # pushd ldiskfs popd >/dev/null # pushd lustre return 255 fi fi popd >/dev/null # pushd ldiskfs # tell lustre where ldiskfs is # XXX - pointing to the RPM BUILD dir is a hack. we need to flesh # out the ldiskfs RPM build so that it builds a # lustre-ldiskfs-devel RPM and install that and point lustre # to that instead confoptions="$confoptions --with-ldiskfs=$(ls -d $TOPDIR/BUILD/lustre-ldiskfs-*)" } # convert the $PATCHLESS boolean to an empty/not-empty boolean # as silly as this seems, it makes the syntax of the rpmbuild command # simpler and not need an eval to deal with the quotes in the quotes local is_patchless="" if $PATCHLESS; then is_patchless="yes" fi # ditto for the lustre-tests boolean local lustre_tests="" if ! $LUSTRE_TESTS; then lustre_tests="no" fi $RPMBUILD $targets $rpmbuildopt "$LUSTRE" \ ${is_patchless:+--define "lustre_name lustre-client"} \ ${lustre_tests:+--define "build_lustre_tests 0"} \ ${FIND_REQUIRES:+--define "__find_requires $FIND_REQUIRES"} \ --define "configure_args $confoptions ${CONFIGURE_FLAGS}" \ --define "kdir $linux" \ ${linuxobj:+--define "kobjdir $linuxobj"} \ --define "_tmppath $TMPDIR" \ --define "_topdir $TOPDIR" 2>&1 || \ fatal 1 "Error building rpms for $BUILD_ARCHS." popd >/dev/null } stage() { [ "$STAGEDIR" ] || return 0 for arch in $BUILD_ARCHS; do rpmdir="${STAGEDIR}/${CANONICAL_TARGET}-${arch}" echo "${0##*/}: Copying RPMs into ${rpmdir}" mkdir -p "${rpmdir}" cp -v RPMS/${arch}/*.rpm "${rpmdir}" if [ -d RPMS/noarch ]; then cp -v RPMS/noarch/*.rpm "${rpmdir}" fi done cp -v "$LUSTRE" "$STAGEDIR" } #check if we need to build separate ldiskfs RPM skeep_ldiskfs_rpm() { local tag="$1" local skip=false if ! $LDISKFSRPM; then skip=true elif $PATCHLESS; then skip=true else for skiptag in $SKIPLDISKFSRPM; do [[ $tag == $skiptag ]] && skip=true && break done fi echo $skip } set_rpm_smp_type() { local infact_arch="${TARGET_ARCH}" RPMSMPTYPE="" [ "$infact_arch" == "i586" ] && infact_arch="i686" local smp_type for smp_type in $SMP_ARCHS; do [ $infact_arch == $smp_type ] && RPMSMPTYPE=smp && break done for smp_type in $BIGSMP_ARCHS; do [ $infact_arch == $smp_type ] && RPMSMPTYPE=bigsmp && break done for smp_type in $PPC64_ARCHS; do [ $infact_arch == $smp_type ] && RPMSMPTYPE=ppc64 && break done for smp_type in $DEFAULT_ARCHS; do [ $infact_arch == $smp_type ] && RPMSMPTYPE=default && break done } # This function takes a linux source pool and digs out the linux release # from it find_linux_release() { local SRCDIR="$1" local LINUXRELEASEHEADER=$SRCDIR/include/linux/version.h if [ -s $SRCDIR/include/linux/utsrelease.h ]; then LINUXRELEASEHEADER=$SRCDIR/include/linux/utsrelease.h fi sed -ne 's/#define UTS_RELEASE "\(.*\)"$/\1/p' $LINUXRELEASEHEADER } # XXX this needs to be re-written as a wrapper around find_rpm # or just gotten rid of. :-) find_linux_rpm() { local prefix="$1" local pathtorpms="${KERNELRPMSBASE}/${lnxmaj}/${DISTRO}" [ -d $pathtorpms ] || return 255 local kernelbinaryrpm rpmfile local wanted_kernel="${lnxmaj}${lnxmin}-${lnxrel}" local arch ret=1 for arch in $TARGET_ARCHS_ALL; do local found_rpm="" rpm for rpm in ${pathtorpms}/${arch}/*.rpm; do if rpm -q --provides -p "$rpm" 2>&3 | grep -q "kernel${prefix} = $wanted_kernel" 2>&3; then found_rpm="$rpm" ret=0 break fi done [ -f "$found_rpm" ] && break done echo "$found_rpm" return $ret } # unpack kernel(/source/devel) RPM # # This function and it's setting of $LINUX and $LINUXOBJ is a total hack that # needs to completely refactored. It completely ingores that $BUILD_ARCHS may # contain a list of arches for which rpmbuild commands (including the one for # lustre itself) unpack_linux_devel_rpm() { local kernelrpm="${1}" [ -f "$kernelrpm" ] || return 255 [ -d $TOPDIR/reused ] || mkdir $TOPDIR/reused || return 255 pushd $TOPDIR/reused &>/dev/null || return 255 if ! rpm2cpio < "$kernelrpm" | cpio -id > /dev/null 2>&1; then return 255 fi # call a distro specific hook, if available if type -p unpack_linux_devel_rpm-$DISTRO; then if ! unpack_linux_devel_rpm-$DISTRO "$kernelrpm"; then return 255 fi fi popd &>/dev/null find_linux_devel_paths $TOPDIR/reused return 0 } build_kernel_ib() { local linux="$1" # build kernel-ib{,-devel} local K_SRC="K_SRC" # ofed 1.3 had a bug in the rpm spec if [ "$OFED_VERSION" = "1.3" ]; then K_SRC="KSRC" fi local OFED_CORE="--with-core-mod --with-ipoib-mod --with-sdp-mod --with-user_mad-mod --with-user_access-mod --with-addr_trans-mod --with-rds-mod --with-qlgc_vnic-mod --with-madeye-mod" local OFED_HARDWARE="--with-mthca-mod --with-mlx4-mod --with-mlx4_en-mod --with-cxgb3-mod --with-nes-mod" # some I/B drivers are architecture dependent and kernel-ib's configure # does not figure it out for us ~sigh~ case "$TARGET_ARCH" in ppc64) OFED_HARDWARE="$OFED_HARDWARE --with-ehca-mod" ;; esac # we're no longer shipping the OFED iSCSI #OFED_ISCSI="--with-srp-mod --with-srp-target-mod" ## ISER module has no backport support as of OFED 1.5 (i.e. only builds on ##kernels >= 2.6.30) #if [[ $OFED_VERSION = 1.[0-4]* ]]; then # OFED_ISCSI="$OFED_ISCSI --with-iser-mod" #fi # assume we are just rebuilding the SRPM local BUILD_TYPE=${BUILD_TYPE:-"--rebuild"} local SOURCE="${TOPDIR}/OFED/SRPMS/ofa_kernel-*.src.rpm" # but switch to building from the SPEC if we need to apply patches if ls ${TOPDIR}/lustre/build/patches/ofed/* >/dev/null; then BUILD_TYPE="-bb" rpm --define "_topdir ${TOPDIR}" -ivh $SOURCE SOURCE="${TOPDIR}/SPECS/ofa_kernel.spec" local file ed_fragment1 ed_fragment2 n=1 for file in $(ls ${TOPDIR}/lustre/build/patches/ofed/*); do ed_fragment1="$ed_fragment1 Patch$n: ${file%%*/}" ed_fragment2="$ed_fragment2 %patch$n -p0" cp $file ${TOPDIR}/SOURCES let n=$n+1 done if [ $n -gt 1 ]; then ed $SOURCE <&1; then fatal 1 "Error building kernel-ib" fi } store_for_reuse() { local articles="$1" local module="$2" local location="$3" local signature="$4" local use_links="$5" local linkflag="" if $use_links; then linkflag="l" fi location="$location"/"$signature"/"$module" mkdir -p "$location" # the cleanup script removes any directory that doesn't have a # .lastused, so let's try to prevent that as soon as we can # this solution still slightly racy with the cleanup script # but the race is a lot tighter now touch -t 197001010000 "$location/.lastused" ## use eval/echo here to make sure shell expansions are performed #if ! cp -a${linkflag} $(eval echo $articles) "$location"; then local article for article in $(eval echo $articles); do if ! cp -a${linkflag} "$article" "$location"; then error "Failed to copy \"$article\" to \"$location\" in store_for_reuse()" # rename the cache location so that it's not cached # product, but is around for analysis mv "$location"{,-bad-$(date +%s)} || error "failed to clean up a failed cache attempt" \ "in \"$location\" -- manual cleanup will be" \ "necessary" return 1 fi done # flag the cache as complete (i.e. in case lbuild was previously # interrupted while caching) touch "$location/.lastused" return 0 } reuse() { local module="$1" local dest="$2" local use_links="${3:-false}" local signature="$4" if [ -n "$REUSEBUILD" ] && [ -d "$REUSEBUILD/$signature/$module" ]; then if [ ! -f "$REUSEBUILD/$signature/$module/.lastused" ]; then # the .lastused flag is populated at the end of the caching to # signal that the caching was completed. if that flag is not # there, then the cache is invalid (and should be removed in fact) mv "$REUSEBUILD/$signature/$module"{,-bad-$(date +%s)} || fatal 1 "failed to clean up a bad cache in location $REUSEBUILD/$signature/$module\" -- manual cleanup will be necessary" return 1 fi # so that we know how stale this entry is touch $REUSEBUILD/$signature/$module/.lastused if $use_links; then if ls $REUSEBUILD/$signature/$module/* >/dev/null 2>&1; then cp -al $REUSEBUILD/$signature/$module/* $dest/ fi else # copying is pretty heavy # cp -a $REUSEBUILD/$signature/$module/* $dest/ # do some creative symlinking instead local dir for dir in BUILD SRPMS SPECS; do if ls $REUSEBUILD/$signature/$module/$dir/* >/dev/null 2>&1; then ln -s $REUSEBUILD/$signature/$module/$dir/* $dest/$dir fi done # sources have to be copied by file because we need SOURCES to # be a dir we can write into # could overrun ls's arg list here #ls $REUSEBUILD/$signature/$module/SOURCES/* | find $REUSEBUILD/$signature/$module/SOURCES/ -type f | xargs ln -t $dest/SOURCES -s # same for RPMS/* dirs # could overrun ls's arg list here #ls $REUSEBUILD/$signature/$module/RPMS/$TARGET_ARCH/* | local dir for dir in $REUSEBUILD/$signature/$module/RPMS/*; do mkdir -p $dest/RPMS/${dir##*/} find $dir -type f | xargs ln -t $dest/RPMS/${dir##*/} -s done fi return 0 else return 1 fi } basearch() { local arch="$1" if [[ $arch = i[3456]86 ]]; then echo "i386" else echo "$arch" fi } # # in a given directory, find the first rpm matching given requirements # find_rpm() { local dir="$1" local match_type="$2" local match="$3" pushd "$dir" > /dev/null || \ fatal 1 "Unable to chdir to directory \"$dir\" in find_rpm()" local file for file in $(ls *.rpm); do if [ ! -f "$file" ]; then continue fi case "$match_type" in provides) # match is any valid ERE (i.e. given to egrep) match if rpm -q --provides -p "$file" 2>&3 | egrep -q "$match"; then echo "$file" popd >/dev/null return 0 fi ;; *) popd >/dev/null fatal 1 "Unknown match type \"$match_type\" given to find_rpm()" ;; esac done popd >/dev/null return 1 } build_kernel_with_srpm() { local outfd=$1 if [ -z "$outfd" ] || [ $outfd = 1 ]; then fatal 1 "You must supply a file descriptor to ${FUNCNAME[0]} and it cannot be 1" fi # need to generate the patch for this target do_patch_linux false >&${outfd} # sets global $FULL_PATCH (yeah, yuck) # get an md5sum of the kernel patch + config for reuse check # XXX really, there needs to be a signature and a CONFIG_FILE per arch # in BUILD_ARCHS local release_str if $RELEASE; then local release_str="RELEASE=$RELEASE\n" fi if $USE_BUILD_CACHE && [ -n "$REUSEBUILD" ]; then local REUSE_SIGNATURE=$({ echo -en $release_str; echo $BUILD_GEN; cat $CONFIG_FILE $TARGET_FILE $FULL_PATCH; } | md5sum | cut -d" " -f1) # see if we can link to the reuse pool # XXX - hrm. i'm not convinced this doesn't belong in the reuse # "library" local CAN_LINK_FOR_REUSE=false touch $REUSEBUILD/$$ if cp -al $REUSEBUILD/$$ $TOPDIR/ 2>/dev/null; then CAN_LINK_FOR_REUSE=true fi rm $REUSEBUILD/$$ fi # the extra version string to use for the kernel (which might be a reused # kernel, remember) local kernel_extra_version="" if ! $USE_BUILD_CACHE || ! reuse kernel "$TOPDIR" "$CAN_LINK_FOR_REUSE" \ "$REUSE_SIGNATURE"; then # nothing cached, build from scratch if [ ! -r "$KERNELDIR/$KERNEL_SRPM" ]; then echo "Downloading kernel SRPM" download_srpm "$CANONICAL_TARGET" "$KERNEL_SRPM" >&${outfd} fi if ! rpm -ivh $KERNELDIR/$KERNEL_SRPM \ --define "_topdir $TOPDIR" >&${outfd} 2>&1; then # should we clean this up or leave it for analysis? #rm -rf $RPMTOPDIR fatal 1 "Error installing kernel SRPM." fi # put the Lustre kernel patch into the RPM build tree cp $FULL_PATCH $TOPDIR/SOURCES/linux-${lnxmaj}-lustre.patch prepare_and_build_srpm >&${outfd} || fatal 1 "failed to prepare_and_build_srpm" if [ -z "$REUSE_SIGNATURE" ]; then echo "No reuse signature was caculated so not storing the built kernel" >&${outfd} else # store the resulting kernel RPM build tree for future use echo "Storing the built kernel for future reuse" >&${outfd} if ! store_for_reuse "$TOPDIR/{SPECS,SOURCES,BUILD,SRPMS,RPMS}" \ "kernel" "$REUSEBUILD" "$REUSE_SIGNATURE" \ "$CAN_LINK_FOR_REUSE"; then error "Failed to store kernel RPMS for reuse" echo "unknown" return 1 fi fi fi # build reuse # figure out the EXTRA_VERSION of the kernel we built or are re-using local KERNEL_RPM if ! KERNEL_RPM=$(find_rpm "$TOPDIR/RPMS/$TARGET_ARCH/" provides "^kernel ="); then fatal 1 "Failed to find a kernel RPM in $TOPDIR/RPMS/$TARGET_ARCH/" fi kernel_extra_version=$(rpm -q --queryformat "%{RELEASE}" -p $TOPDIR/RPMS/$TARGET_ARCH/$KERNEL_RPM) # should now have the following RPMs # $TOPDIR/RPMS/$arch/kernel-lustre-2.6.18-53.1.21.el5_lustre.1.6.5.1.$arch.rpm # $TOPDIR/RPMS/$arch/kernel-lustre-devel-2.6.18-53.1.21.el5_lustre.1.6.5.1.$arch.rpm # $TOPDIR/RPMS/$arch/kernel-lustre-headers-2.6.18-53.1.21.el5_lustre.1.6.5.1.$arch.rpm # $TOPDIR/RPMS/$arch/kernel-lustre-debuginfo-common-2.6.18-53.1.21.el5_lustre.1.6.5.1.$arch.rpm # $TOPDIR/RPMS/$arch/kernel-lustre-debuginfo-2.6.18-53.1.21.el5_lustre.1.6.5.1.$arch.rpm echo $kernel_extra_version return 0 } # build OFED # globals used: # TOPDIR # REUSEBUILD, USE_BUILD_CACHE # CONFIGURE_FLAGS build_ofed() { local linux="$1" local ofed_version="$2" # if an ofed version is given, then it means use OFED proper, # not any vendor specific "inkernel" version if [ -z "$ofed_version" ]; then return 0 fi if [ "$ofed_version" = "inkernel" ]; then # see if there is a distro specific override for this and use # that if it exists # XXX we need to better integrate a distro specific override with # the rest of this function so that all of the reuse cache # stuff is leveraged given that 80% of this function is reuse if type -p build_ofed-${DISTRO}; then local ofed_location ofed_location=$(build_ofed-${DISTRO} ${STDOUT}) local rc=${PIPESTATUS[0]} CONFIGURE_FLAGS="--with-o2ib=${ofed_location} ${CONFIGURE_FLAGS}" return $rc else return 0 fi fi # build kernel-ib if $USE_BUILD_CACHE && [ -n "$REUSEBUILD" ]; then local REUSE_SIGNATURE=$({ echo "$ofed_version"; echo "$(find_linux_release ${linux})"; cat "${linux}/include/linux/autoconf.h"; } | md5sum | cut -d" " -f1) # see if we can link to the reuse pool # XXX - hrm. i'm not convinced this doesn't belong in the reuse # "library" local CAN_LINK_FOR_REUSE=false touch $REUSEBUILD/$$ if cp -al $REUSEBUILD/$$ $TOPDIR/; then CAN_LINK_FOR_REUSE=true fi rm $REUSEBUILD/$$ fi if ! $USE_BUILD_CACHE || ! reuse ofed "$TOPDIR" "$CAN_LINK_FOR_REUSE" \ "$REUSE_SIGNATURE"; then if [ -n "$REUSE_SIGNATURE" ]; then # stash away the existing built articles for a moment mkdir bak mv {BUILD,{S,}RPMS,S{OURCE,PEC}S} bak function mv_back { pushd bak find . | cpio -pudlm .. popd rm -rf bak } create_rpmbuild_dirs fi # build it build_kernel_ib "${linux}" if [ -z "$REUSE_SIGNATURE" ]; then echo "No reuse signature was caculated so not storing the built ofed" else # store the resulting RPM build tree for future use echo "Storing the built ofed for future reuse" if ! store_for_reuse "$TOPDIR/{SPECS,SOURCES,BUILD,SRPMS,RPMS}" \ "ofed" "$REUSEBUILD" "$REUSE_SIGNATURE" \ "$CAN_LINK_FOR_REUSE"; then error "Failed to store OFED RPMS for reuse" mv_back return 1 fi # put the stuff we stashed away back mv_back fi fi pushd "$TOPDIR" >/dev/null rm -rf kernel-ib-devel mkdir kernel-ib-devel cd kernel-ib-devel # the actual ofed RPMs don't have the -rc$n or -$date string appened that # might be present on the file local linuxrelease=$(find_linux_release "$linux") ofed_version=$(echo $ofed_version | sed -re 's/-(20[0-9]{6,6}-[0-9]{4,4}|rc[0-9]*)$//') local rpm=$(ls $TOPDIR/RPMS/*/kernel-ib-devel-${ofed_version}-${linuxrelease//-/_}.*.rpm) if ! rpm2cpio < $rpm | cpio -id; then fatal 1 "could not unpack the kernel-ib-devel rpm." fi CONFIGURE_FLAGS="--with-o2ib=$(pwd)/usr/src/ofa_kernel ${CONFIGURE_FLAGS}" popd >/dev/null } build_with_srpm() { if ! $PATCHLESS; then local kernel_extra_version if ! kernel_extra_version=$(build_kernel_with_srpm ${STDOUT}); then fatal 1 "Failed to build the kernel from it's SRPM" fi for arch in $BUILD_ARCHS; do local kernel_devel_rpm if ! kernel_devel_rpm=$(find_rpm "$TOPDIR/RPMS/$arch/" provides "^$(devel_kernel_name $KERNEL_LUSTRE_NAMING) ="); then fatal 1 "Failed to find a kernel development RPM in $TOPDIR/RPMS/$arch/" fi # install the -devel RPM in preparation for modules builds if ! lnxrel="$kernel_extra_version" unpack_linux_devel_rpm \ "$TOPDIR/RPMS/$arch/$kernel_devel_rpm"; then fatal 1 "Could not find the Linux tree in $TOPDIR/RPMS/$arch/$kernel_devel_rpm" fi done else # need to find and unpack the vendor's own kernel-devel for patchless # client build local kernelrpm if ! kernelrpm=$(find_linux_rpm "-$DEVEL_KERNEL_TYPE"); then fatal 1 "Could not find the kernel-$DEVEL_KERNEL_TYPE RPM in ${KERNELRPMSBASE}/${lnxmaj}/${DISTRO}" fi if ! lnxrel="$lnxrel" unpack_linux_devel_rpm "$kernelrpm" "-"; then fatal 1 "Could not find the Linux tree in $kernelrpm" fi fi # ~sigh~ have to make copies of and modify some of the rpm # infrastructure files so that find-requires can find our unpacked # kernel-devel artifacts cp $RPM_HELPERS_DIR/{symset-table,find-requires{,.ksyms}} . FIND_REQUIRES="$(pwd)/find-requires" chmod 755 {symset-table,find-requires{,.ksyms}} local tmp="$(pwd)" tmp="${tmp//\//\\/}" ed find-requires < 0; j-- )); do newarg=${BASH_ARGV[$j + $p - 1]} args="${args:+${args} }'${newarg}'" done let p+=${BASH_ARGC[$n - 1]} fi echo " ${funcname} ${args:+${args} }at ${sourcefile}:${lineno}" done echo echo "BEGIN BACKTRACE" #echo ${BASH_LINENO[*]} #echo ${BASH_SOURCE[*]} #echo ${FUNCNAME[*]} local i=$((${#FUNCNAME[@]} - 1)) while [ $i -ge 0 ]; do local lineno=${BASH_LINENO[$i]} if [ $i = 0 ]; then let lineno-=11 fi local SOURCELINE="${BASH_SOURCE[$i + 1]}:${lineno}" # Can't figure out how to get function args from other frames... local FUNCTION="${FUNCNAME[$i]}()" echo "$SOURCELINE:$FUNCTION" i=$((i - 1)) done echo "END BACKTRACE" echo $BACKTRACE } seen_list=$(new_list) trap 'set +x; echo "An unexpected error has occurred at ${BASH_SOURCE[0]##*/}:$((LINENO-1)). Unfortunately the above line number in the message may or may not be correct, but details have been send to the lbuild maintainer. Attempting to continue."; (echo "Untrapped error" echo # have we seen this one echo "checking seen list for ${BASH_SOURCE[0]}:${BASH_LINENO[0]}" if is_list_member "$seen_list" "${BASH_SOURCE[0]}:${BASH_LINENO[0]}"; then echo "seen this one already" else seen_list=$(add_list "$seen_list" "${BASH_SOURCE[0]}:${BASH_LINENO[0]}") fi backtrace echo echo "Environment:" set ) | mail -s "Untrapped error at ${BASH_SOURCE[0]##*/}:$((LINENO-15)) on $HOSTNAME" brian@sun.com >&2; set $xtrace' ERR set -E [ -r ~/.lbuildrc ] && . ~/.lbuildrc options=$(getopt -o d:D:h -l kerneltree:,distro:,kernelrpm:,reusebuild:,patchless,ldiskfs,ccache,reuse:,norpm,disable-datestamp,external-patches:,timestamp:,extraversion:,kerneldir:,linux:,lustre:,nodownload,nosrc,ofed-version:,publish,release,set-value:,src,stage:,tag:,target:,target-archs:,with-linux:,xen -- "$@") if [ $? != 0 ]; then usage 1 fi eval set -- "$options" while [ "$1" ]; do case "$1" in '') usage 1 ;; --ccache) CCACHE='ccache' shift ;; -d) CVSROOT=$2 shift 2 ;; -D) DATE=$2 shift 2 ;; --external-patches) EXTERNAL_PATCHES=$2 shift 2 ;; --extraversion) EXTRA_VERSION=$2 shift 2 ;; --help | -h) usage 0 ;; --kerneldir) KERNELDIR=$2 shift 2 ;; --kerneltree) if ! KERNELTREE=$(canon_path "$2"); then fatal 1 "Could not determine the canonical location of $2" fi shift 2 ;; --linux | --with-linux) if ! LINUX=$(canon_path "$2"); then fatal 1 "Could not determine the canonical location of $2" fi shift 2 ;; --distro) DISTRO=$2 shift 2 ;; --reuserpm) REUSERPM=$2 shift 2 ;; --reusebuild) if ! REUSEBUILD=$(canon_path "$2"); then fatal 1 "Could not determine the canonical location of $2" fi shift 2 ;; --norpm) NORPM=true shift ;; --ldiskfs) LDISKFSRPM=true shift ;; --patchless) PATCHLESS=true shift ;; --kernelrpm) if ! KERNELRPMSBASE=$(canon_path "$2"); then fatal 1 "Could not determine the canonical location of $2" fi shift 2 ;; --timestamp) TIMESTAMP=$2 shift 2 ;; --lustre) if ! LUSTRE=$(canon_filepath "$2"); then fatal 1 "Could not determine the canonical location of $2" fi shift 2 ;; --nodownload) DOWNLOAD=false shift 1 ;; --nosrc) DO_SRC=false shift 1 ;; --ofed-version) OFED_VERSION="$2" shift 2 ;; --publish) shift ;; --release) RELEASE=true shift ;; --src) DO_SRC=true shift 1 ;; --stage) STAGEDIR=$2 shift 2 ;; --tag) TAG=$2 shift 2 ;; --target) TARGET=$2 shift 2 ;; --target-archs) TARGET_ARCHS=$2 shift 2 ;; --disable-datestamp) USE_DATESTAMP= shift ;; --xen) XEN=true shift ;; --set-value) eval $2 shift 2 ;; --) shift # there are actually some lustre configure flags that we need to # handle ourselves (but we still give them to configure) if [[ \ $@\ == *\ --disable-tests\ * ]]; then LUSTRE_TESTS=false fi CONFIGURE_FLAGS=$@ CONFIGURE_FLAGS="$CONFIGURE_FLAGS --enable-liblustre --enable-liblustre-tests" break ;; *) usage 1 "Unrecognized option: $1" ;; esac done check_options unpack_lustre # XXX - should we _always_ get the buildid from the META file? what are the # other (i.e. non-lustre-tarball use cases of lbuild)? BUILDID=$(sed -ne '/^BUILDID =/s/.*= *//p' lustre/META) load_target if [ -n "$OFED_VERSION" -a "$OFED_VERSION" != "inkernel" ]; then download_ofed unpack_ofed || fatal 1 "Error unpacking OFED tarball" fi # make sure the RPM build environment is set up create_rpmbuild_dirs # if an unpacked kernel source tree was given on the command line # just build lustre with it (nothing distro kernel specific here) if [ -n "$LINUX" ]; then build_ofed "${LINUXOBJ:-$LINUX}" "$OFED_VERSION" || fatal 1 "error building OFED" build_lustre "$LINUX" "$LINUXOBJ" else if [ -f "${0%/*}/lbuild-$DISTRO" ]; then source ${0%/*}/lbuild-$DISTRO build_with_srpm || fatal 1 "Failed to build_with_srpm" else EXTRA_VERSION_DELIMITER=${EXTRA_VERSION_DELIMITER:-"-"} source ${0%/*}/lbuild.old_school old_school_download_kernel build_success=false if $PATCHLESS; then patchless_build_sequence && build_success=true else [ "$DISTRO" = "sles9" ] && build_sequence_rpm_reuse && build_success=true if ! $build_success; then build_sequence_reuse && build_success=true if ! $build_success; then build_sequence && build_success=true if $build_success; then store_for_reuse || echo "Cannot store for future reuse" fi fi fi fi ( $build_success ) || fatal 1 "Cannot build lustre" fi fi stage