#!/bin/bash # Copyright 2014-2017 Holger Levsen # © 2015 Reiner Herrmann # 2016-2017 Alexander Couzens # released under the GPLv=2 # configuration GENERIC_NODE1=profitbricks-build3-amd64.debian.net GENERIC_NODE2=profitbricks-build4-amd64.debian.net # run on jenkins master node_debug() { ls -al "$1" || true ls -al "$1/" || true ls -al "$1/download" || true } # only called direct on a remote build node node_cleanup_tmpdirs() { export TMPDIR=$1 cd # (very simple) check we are deleting the right stuff if [ "${TMPDIR:0:26}" != "/srv/reproducible-results/" ] || [ ${#TMPDIR} -le 26 ] ; then echo "Something very strange with \$TMPDIR=$TMPDIR exiting instead of doing cleanup." exit 1 fi rm -rf $TMPDIR } node_create_tmpdirs() { export TMPDIR=$1 # (very simple) check what we are creating if [ "${TMPDIR:0:26}" != "/srv/reproducible-results/" ] || [ ${#TMPDIR} -le 26 ] ; then echo "Something very strange with \$TMPDIR=$TMPDIR exiting instead of doing create." exit 1 fi mkdir -p $TMPDIR/download } # called as trap handler and also to cleanup after a success build master_cleanup_tmpdirs() { # we will save the logs in case we got called as trap handler # in a success build the logs are saved on a different function if [ "$1" != "success" ] ; then # job failed ssh $GENERIC_NODE1 reproducible_$TYPE node node_save_logs $TMPDIR || true ssh $GENERIC_NODE2 reproducible_$TYPE node node_save_logs $TMPDIR || true # save failure logs mkdir -p $WORKSPACE/results/ rsync -av $GENERIC_NODE1:$TMPDIR/build_logs.tar.xz $WORKSPACE/results/build_logs_b1.tar.xz || true rsync -av $GENERIC_NODE2:$TMPDIR/build_logs.tar.xz $WORKSPACE/results/build_logs_b2.tar.xz || true fi ssh $GENERIC_NODE1 reproducible_$TYPE node node_cleanup_tmpdirs $TMPDIR || true ssh $GENERIC_NODE2 reproducible_$TYPE node node_cleanup_tmpdirs $TMPDIR || true cd # (very simple) check we are deleting the right stuff if [ "${TMPDIR:0:26}" != "/srv/reproducible-results/" ] || [ ${#TMPDIR} -le 26 ] || \ [ "${TMPBUILDDIR:0:23}" != "/srv/workspace/chroots/" ] || [ ${#TMPBUILDDIR} -le 23 ] ; then echo "Something very strange with \$TMPDIR=$TMPDIR or \$TMPBUILDDIR=$TMPBUILDDIR, exiting instead of doing cleanup." exit 1 fi rm -rf $TMPDIR rm -rf $TMPBUILDDIR if [ -f $BANNER_HTML ] ; then rm -f $BANNER_HTML fi } create_results_dirs() { local project=$1 mkdir -p $BASE/$project/dbd } node_document_environment() { local tmpdir=$1 local toolchain_html=$tmpdir/toolchain.html cd $tmpdir/build/source cat /dev/null > $toolchain_html echo "
git commit built
" >> $toolchain_html git log -1 >> $toolchain_html echo "
" >> $toolchain_html echo "" >> $toolchain_html for i in $(ls -1d staging_dir/toolchain*|cut -d "-" -f2-|xargs echo) ; do echo " " >> $toolchain_html done echo "
Target toolchains built
$i
" >> $toolchain_html echo "" >> $toolchain_html for i in $(ls -1 build_dir/host/) ; do echo " " >> $toolchain_html done echo "
Contents of build_dir/host/
$i
" >> $toolchain_html echo "" >> $toolchain_html for i in $(ls -1 dl/) ; do echo " " >> $toolchain_html done echo "
Downloaded software
$i
" >> $toolchain_html echo "" >> $toolchain_html for i in gcc binutils bzip2 flex python perl make findutils grep diffutils unzip gawk util-linux zlib1g-dev libc6-dev git subversion ; do echo " " >> $toolchain_html done echo "
Debian $(cat /etc/debian_version) package on $(dpkg --print-architecture)installed version
$i" >> $toolchain_html dpkg -s $i|grep '^Version'|cut -d " " -f2 >> $toolchain_html echo "
" >> $toolchain_html cd - } # node_save_logs can be called over ssh OR called within openwrt_build node_save_logs() { local tmpdir=$1 if [ "${tmpdir:0:26}" != "/srv/reproducible-results/" ] || [ ${#tmpdir} -le 26 ] ; then echo "Something very strange with \$TMPDIR=$tmpdir exiting instead of doing node_save_logs." exit 1 fi if [ ! -d "$tmpdir/build/source/logs" ] ; then # we create an empty tar.xz instead of failing touch "$tmpdir/build_logs.tar.xz" else tar cJf "$tmpdir/build_logs.tar.xz" -C "$tmpdir/build/source" ./logs fi node_document_environment $tmpdir } # RUN - is b1 or b2. b1 for first run, b2 for second # save the images and packages under $TMPDIR/$RUN save_lede_results() { RUN=$1 # first save all images and target specific packages pushd bin/targets for target in * ; do pushd $target || continue for subtarget in * ; do pushd $subtarget || continue # save firmware images mkdir -p $TMPDIR/$RUN/targets/$target/$subtarget/ for image in $(find * -name "*.bin" -o -name "*.squashfs") ; do cp -p $image $TMPDIR/$RUN/targets/$target/$subtarget/ done # save subtarget specific packages if [ -d packages ] ; then pushd packages for package in $(find * -name "*.ipk") ; do mkdir -p $TMPDIR/$RUN/packages/$target/$subtarget/$(dirname $package) cp -p $package $TMPDIR/$RUN/packages/$target/$subtarget/$(dirname $package)/ done popd fi popd done popd done popd # save all generic packages # arch is like mips_34kc_dsp pushd bin/packages/ for arch in * ; do pushd $arch || continue for feed in * ; do pushd $feed || continue for package in $(find * -name "*.ipk") ; do mkdir -p $TMPDIR/$RUN/packages/$arch/$feed/$(dirname $package) cp -p $package $TMPDIR/$RUN/packages/$arch/$feed/$(dirname $package)/ done popd done popd done popd } # RUN - is b1 or b2. b1 for first run, b2 for second # save the images and packages under $TMPDIR/$RUN save_openwrt_results() { RUN=$1 cd bin for i in * ; do cd $i # save images mkdir -p $TMPDIR/$RUN/$i for j in $(find * -name "*.bin" -o -name "*.squashfs") ; do cp -p $j $TMPDIR/$RUN/$i/ done # save packages cd packages for j in $(find * -name "*.ipk") ; do mkdir -p $TMPDIR/$RUN/$i/$(dirname $j) cp -p $j $TMPDIR/$RUN/$i/$(dirname $j)/ done cd ../.. done cd .. } # apply variations change the environment for # the subsequent run # RUN - b1 or b2. b1 for first run, b2 for the second openwrt_apply_variations() { RUN=$1 if [ "$RUN" = "b1" ] ; then export TZ="/usr/share/zoneinfo/Etc/GMT+12" export MAKE=make else export TZ="/usr/share/zoneinfo/Etc/GMT-14" export LANG="fr_CH.UTF-8" export LC_ALL="fr_CH.UTF-8" export PATH="/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/i/capture/the/path" export CAPTURE_ENVIRONMENT="I capture the environment" # needs to fix openwrt/lede ;) # umask 0002 # use allmost all cores for second build export NEW_NUM_CPU=$(echo $NUM_CPU-1|bc) export MAKE=make fi } openwrt_config() { CONFIG=$1 printf "$CONFIG" > .config printf "CONFIG_ALL=y\n" >> .config printf "CONFIG_AUTOREMOVE=y\n" >> .config printf "CONFIG_CLEAN_IPKG=y\n" >> .config printf "CONFIG_TARGET_ROOTFS_TARGZ=y\n" >> .config printf 'CONFIG_KERNEL_BUILD_USER="lede"\n' >> .config printf 'CONFIG_KERNEL_BUILD_DOMAIN="buildhost"\n' >> .config make defconfig } openwrt_build_toolchain() { echo "=============================================================================" echo "$(date -u) - Building the toolchain." echo "=============================================================================" OPTIONS="-j $NUM_CPU IGNORE_ERRORS=ym BUILD_LOG=1" ionice -c 3 make $OPTIONS tools/install ionice -c 3 make $OPTIONS toolchain/install } # TYPE - openwrt or lede # RUN - b1 or b2. b1 means first run, b2 second # TARGET - a target including subtarget. E.g. ar71xx_generic openwrt_compile() { local TYPE=$1 local RUN=$2 local TARGET=$3 OPTIONS="-j $NUM_CPU IGNORE_ERRORS=ym BUILD_LOG=1" # make $RUN more human readable [ "$RUN" = "b1" ] && RUN="first" [ "$RUN" = "b2" ] && RUN="second" echo "=============================================================================" echo "$(date -u) - Building $TYPE ${OPENWRT_VERSION} ($TARGET) - $RUN build run." echo "=============================================================================" ionice -c 3 $MAKE $OPTIONS } openwrt_create_signing_keys() { echo "=============================================================================" cat <<- EOF # LEDE signs the release with a signing key, but generate the signing key if not # present. To have a reproducible release we need to take care of signing keys. # LEDE will also put the key-build.pub into the resulting image (pkg: base-files)! # At the end of the build it will use the key-build to sign the Packages repo list. # Use a workaround this problem: # key-build.pub contains the pubkey of LEDE buildbot # key-build contains our build key # Meaning only signed files will be different but not the images. # Packages.sig is unreproducible. # here is our random signing key # chosen by fair dice roll. # guaranteed to be random. # private key EOF echo -e 'untrusted comment: Local build key\nRWRCSwAAAAB12EzgExgKPrR4LMduadFAw1Z8teYQAbg/EgKaN9SUNrgteVb81/bjFcvfnKF7jS1WU8cDdT2VjWE4Cp4cxoxJNrZoBnlXI+ISUeHMbUaFmOzzBR7B9u/LhX3KAmLsrPc=' | tee key-build echo "\n# public key" echo -e 'untrusted comment: Local build key\nRWQ/EgKaN9SUNja2aAZ5VyPiElHhzG1GhZjs8wUewfbvy4V9ygJi7Kz3' | tee key-build.pub echo "# override the pubkey with 'LEDE usign key for unattended build jobs' to have the same base-files pkg and images" echo -e 'untrusted comment: LEDE usign key for unattended build jobs\nRWS1BD5w+adc3j2Hqg9+b66CvLR7NlHbsj7wjNVj0XGt/othDgIAOJS+' | tee key-build.pub echo "=============================================================================" } # called by openwrt_two_times # ssh $GENERIC_NODE1 reproducible_$TYPE node openwrt_download $TYPE $TARGET $CONFIG $TMPDIR openwrt_download() { local TARGET=$1 local CONFIG=$2 local TMPDIR=$3 local tries=5 cd $TMPDIR/download # checkout the repo echo "================================================================================" echo "$(date -u) - Cloning git repository from $OPENWRT_GIT_REPO $OPENWRT_GIT_BRANCH. " echo "================================================================================" git clone -b $OPENWRT_GIT_BRANCH $OPENWRT_GIT_REPO source cd source # otherwise LEDE will generate new release keys every build openwrt_create_signing_keys # update feeds ./scripts/feeds update ./scripts/feeds install -a # configure openwrt because otherwise it wont download everything openwrt_config $CONFIG while ! make tools/tar/compile download -j $NUM_CPU IGNORE_ERRORS=ym BUILD_LOG=1 ; do tries=$((tries - 1)) if [ $tries -eq 0 ] ; then echo "================================================================================" echo "$(date -u) - Failed to download sources" echo "================================================================================" exit 1 fi done } openwrt_get_banner() { TMPDIR=$1 TYPE=$2 cd $TMPDIR/build/source echo "===bannerbegin===" find staging_dir/ -name banner | grep etc/banner|head -1| xargs cat /dev/null echo "===bannerend===" } # openwrt_build is run on a remote host # TYPE - openwrt or lede # RUN - b1 or b2. b1 means first run, b2 second # TARGET - a target including subtarget. E.g. ar71xx_generic # CONFIG - a simple basic .config as string. Use \n to seperate lines # TMPPATH - is a unique path generated with mktmp # lede has a different output directory than openwrt openwrt_build() { local TYPE=$1 local RUN=$2 local TARGET=$3 local CONFIG=$4 export TMPDIR=$5 export TMPBUILDDIR=$TMPDIR/build/ mv "$TMPDIR/download" "$TMPBUILDDIR" # openwrt/lede is checkouted under /download cd $TMPBUILDDIR/source # set tz, date, core, .. openwrt_apply_variations $RUN openwrt_build_toolchain # build images and packages openwrt_compile $TYPE $RUN $TARGET # save the results [ "$TYPE" = "lede" ] && save_lede_results $RUN [ "$TYPE" = "openwrt" ] && save_openwrt_results $RUN # copy logs node_save_logs "$TMPDIR" } # build openwrt/lede on two different hosts # TARGET a target including subtarget. E.g. ar71xx_generic # CONFIG - a simple basic .config as string. Use \n to seperate lines # TYPE - openwrt or lede # lede has a different output directory than openwrt build_two_times() { TYPE=$1 TARGET=$2 CONFIG=$3 # create openwrt ssh $GENERIC_NODE1 reproducible_$TYPE node node_create_tmpdirs $TMPDIR ssh $GENERIC_NODE2 reproducible_$TYPE node node_create_tmpdirs $TMPDIR mkdir -p $TMPDIR/download/ # create results directory saved by jenkins as artifacts mkdir -p $WORKSPACE/results/ # download and prepare openwrt on node b1 ssh $GENERIC_NODE1 reproducible_$TYPE node openwrt_download $TARGET $CONFIG $TMPDIR echo "== master" ls -la "$TMPDIR/download/" || true echo "== node1" ssh $GENERIC_NODE1 reproducible_$TYPE node node_debug $TMPDIR echo "== node2" ssh $GENERIC_NODE2 reproducible_$TYPE node node_debug $TMPDIR rsync -a $GENERIC_NODE1:$TMPDIR/download/ $TMPDIR/download/ rsync -a $TMPDIR/download/ $GENERIC_NODE2:$TMPDIR/download/ ## first run RUN=b1 ssh $GENERIC_NODE1 reproducible_$TYPE node openwrt_build $TYPE $RUN $TARGET $CONFIG $TMPDIR ssh $GENERIC_NODE1 reproducible_$TYPE node openwrt_get_banner $TMPDIR $TYPE > $BANNER_HTML # cut away everything before begin and after the end… # (thats noise generated by the way we run this via reproducible_common.sh) cat $BANNER_HTML | sed '/===bannerend===/,$d' | tac | sed '/===bannerbegin===/,$d' | tac > $BANNER_HTML # rsync back logs and images rsync -av $GENERIC_NODE1:$TMPDIR/$RUN/ $TMPDIR/$RUN/ rsync -av $GENERIC_NODE1:$TMPDIR/build_logs.tar.xz $WORKSPACE/results/build_logs_b1.tar.xz rsync -av $GENERIC_NODE1:$TMPDIR/toolchain.html $TMPDIR/toolchain.html ssh $GENERIC_NODE1 reproducible_$TYPE node node_cleanup_tmpdirs $TMPDIR ## second run RUN=b2 ssh $GENERIC_NODE2 reproducible_$TYPE node openwrt_build $TYPE $RUN $TARGET $CONFIG $TMPDIR # rsync back logs and images rsync -av $GENERIC_NODE2:$TMPDIR/$RUN/ $TMPDIR/$RUN/ rsync -av $GENERIC_NODE2:$TMPDIR/build_logs.tar.xz $WORKSPACE/results/build_logs_b2.tar.xz ssh $GENERIC_NODE2 reproducible_$TYPE node node_cleanup_tmpdirs $TMPDIR }