#!/bin/bash # Copyright 2012 Holger Levsen # released under the GPLv=2 # $1 = vnc-display, each job should have a unique one, so jobs can run in parallel # $2 = name # $3 = disksize in GB # $4 = wget url/jigdo url if [ "$1" = "" ] || [ "$2" = "" ] || [ "$3" = "" ] || [ "$4" = "" ] ; then echo "need three params" echo '# $1 = vnc-display, each job should have a unique one, so jobs can run in parallel' echo '# $2 = name' echo '# $3 = disksize in GB' echo '# $4 = wget url/jigdo url' exit 1 fi # # default settings # set -x set -e export LC_ALL=C export MIRROR=http://ftp.de.debian.org/debian export http_proxy="http://localhost:3128" # # init # DISPLAY=localhost:$1 NAME=$2 # it should be possible to derive $NAME from $JOB_NAME DISKSIZE_IN_GB=$3 URL=$4 RAMSIZE=1024 if [ "$(basename $URL)" != "amd64" ] ; then IMAGE=$(pwd)/$(basename $URL) IMAGE_MNT="/media/cd-$NAME.iso" else KERNEL=linux INITRD=initrd.gz fi # # define workspace + results # rm -rf results mkdir -p results WORKSPACE=$(pwd) RESULTS=$WORKSPACE/results fetch_if_newer() { url="$2" file="$1" curlopts="-L" if [ -f "$file" ] ; then curlopts="$curlopts -z $file" fi curl $curlopts -o $file $url } cleanup_all() { set +x set +e # # kill qemu # sudo kill -9 $(ps fax | grep [q]emu-system | grep vnc=$DISPLAY 2>/dev/null | awk '{print $1}') || true sleep 0.3s rm $WORKSPACE/$NAME.raw # # cleanup image mount # sudo umount -l $IMAGE_MNT & cd $RESULTS echo -n "Last screenshot: " if [ -f snapshot_000000.ppm ] ; then ls -t1 snapshot_??????.ppm | tail -1 fi # # create video # ffmpeg2theora --videobitrate 700 --no-upscaling snapshot_%06d.ppm --framerate 12 --max_size 800x600 -o g-i-installation-$NAME.ogv rm snapshot_??????.ppm # rename .bak files back to .ppm if find . -name "*.ppm.bak" > /dev/null ; then for i in *.ppm.bak ; do mv $i $(echo $i | sed -s 's#.ppm.bak#.ppm#') done # convert to png (less space and better supported in browsers) for i in *.ppm ; do convert $i ${i%.ppm}.png rm $i done fi } show_preseed() { url="$1" echo "Preseeding from $url:" echo curl -s "$url" | grep -v ^# | grep -v "^$" } bootstrap_system() { cd $WORKSPACE echo "Creating raw disk image with ${DISKSIZE_IN_GB} GiB now." qemu-img create -f raw $NAME.raw ${DISKSIZE_IN_GB}G echo "Doing g-i installation test for $NAME now." # qemu related variables (incl kernel+initrd) - display first, as we grep for this in the process list QEMU_OPTS="-display vnc=$DISPLAY -no-shutdown" if [ -n "$IMAGE" ] ; then QEMU_OPTS="$QEMU_OPTS -cdrom $IMAGE -boot d" QEMU_KERNEL="--kernel $IMAGE_MNT/install.amd/vmlinuz --initrd $IMAGE_MNT/install.amd/gtk/initrd.gz" else QEMU_KERNEL="--kernel $KERNEL --initrd $INITRD" fi QEMU_OPTS="$QEMU_OPTS -drive file=$NAME.raw,index=0,media=disk,cache=writeback -m $RAMSIZE" QEMU_WEBSERVER=http://10.0.2.2/ # preseeding related variables PRESEED_PATH=d-i-preseed-cfgs PRESEED_URL="url=$QEMU_WEBSERVER/$PRESEED_PATH/${NAME}_preseed.cfg" INST_LOCALE="locale=en_US" INST_KEYMAP="keymap=us" INST_VIDEO="video=vesa:ywrap,mtrr vga=788" EXTRA_APPEND="" case $JOB_NAME in *debian-edu_squeeze-test*) INST_KEYMAP="console-keymaps-at/$INST_KEYMAP" ;; *_sid_daily*) EXTRA_APPEND="mirror/suite=sid" ;; esac case $JOB_NAME in *debian_*lxde) EXTRA_APPEND="$EXTRA_APPEND desktop=lxde" ;; *debian_*kde) EXTRA_APPEND="$EXTRA_APPEND desktop=kde" ;; *debian_*rescue) EXTRA_APPEND="$EXTRA_APPEND rescue/enable=true" ;; esac APPEND="auto=true priority=critical $EXTRA_APPEND $INST_LOCALE $INST_KEYMAP $PRESEED_URL $INST_VIDEO -- quiet" show_preseed $(hostname -f)/$PRESEED_PATH/${NAME}_preseed.cfg echo echo "Starting QEMU_ now:" (sudo qemu-system-x86_64 \ $QEMU_OPTS \ $QEMU_KERNEL \ --append "$APPEND" && touch $RESULTS/qemu_quit ) & } boot_system() { cd $WORKSPACE echo "Booting system installed with g-i installation test for $NAME." # qemu related variables (incl kernel+initrd) - display first, as we grep for this in the process list QEMU_OPTS="-display vnc=$DISPLAY -no-shutdown" QEMU_OPTS="$QEMU_OPTS -drive file=$NAME.raw,index=0,media=disk,cache=writeback -m $RAMSIZE" echo echo "Starting QEMU_ now:" (sudo qemu-system-x86_64 \ $QEMU_OPTS && touch $RESULTS/qemu_quit ) & } backup_screenshot() { cp snapshot_${PRINTF_NR}.ppm snapshot_${PRINTF_NR}.ppm.bak } do_and_report() { vncdo -s $DISPLAY $1 $2 echo "Sending $1 $2" backup_screenshot } rescue_action() { # boot in rescue mode let MY_NR=NR-TRIGGER_NR TOKEN=$(printf "%03d" $MY_NR) case $TOKEN in 010) do_and_report key tab ;; 020) do_and_report key enter ;; 100) do_and_report key tab ;; 110) do_and_report key enter ;; 150) do_and_report type df ;; 160) do_and_report key enter ;; 170) do_and_report type exit ;; 200) do_and_report key enter ;; 210) do_and_report key down ;; 220) do_and_report key enter ;; *) ;; esac } normal_action() { # normal boot after installation let MY_NR=NR-TRIGGER_NR TOKEN=$(printf "%03d" $MY_NR) case $TOKEN in 010) do_and_report type jenkins ;; 020) do_and_report key enter ;; 030) do_and_report type insecure ;; 040) do_and_report key enter ;; *) ;; esac } monitor_system() { MODE=$1 # FIXME: this is kind of wicked / badly named: # if called with $2=something, TRIGGER_NR will be 0, thus there will never be any keys pressed.... TRIGGERED=$2 TRIGGER_NR=0 cd $RESULTS sleep 4 echo "Taking screenshots every 2 seconds now, until qemu ends for whatever reasons or 6h have passed or if the test seems to hang." echo let MAX_RUNS=NR+10800 while [ $NR -lt $MAX_RUNS ] ; do set +x # # break if qemu-system has finished # PRINTF_NR=$(printf "%06d" $NR) vncsnapshot -quiet -allowblank $DISPLAY snapshot_${PRINTF_NR}.jpg 2>/dev/null || touch $RESULTS/qemu_quit if [ ! -f "$RESULTS/qemu_quit" ] ; then convert snapshot_${PRINTF_NR}.jpg snapshot_${PRINTF_NR}.ppm rm snapshot_${PRINTF_NR}.jpg else echo "could not take vncsnapshot, no qemu running on $DISPLAY" break fi # give signal we are still running if [ $(($NR % 14)) -eq 0 ] ; then date fi if [ $(($NR % 100)) -eq 0 ] ; then # press ctrl-key to avoid screensaver kicking in vncdo -s $DISPLAY key ctrl # take a screenshot for later publishing backup_screenshot # # search for known text ocr of screenshot and break out of this loop if certain content is found # GOCR=$(mktemp) gocr snapshot_${PRINTF_NR}.ppm > $GOCR LAST_LINE=$(tail -1 $GOCR |cut -d "]" -f2- || true) STACK_LINE=$(egrep "(Call Trace|end trace)" $GOCR || true) rm $GOCR if [ "$LAST_LINE" = " Power down." ] ; then echo "QEMU was powered down, continuing." break elif [ ! -z "$STACK_LINE" ] ; then echo "WARNING: got a stack-trace, probably on power-down." break fi fi # let's drive this further (once/if triggered) if [ $TRIGGER_NR -ne 0 ] && [ $TRIGGER_NR -ne $NR ] ; then case $MODE in rescue) rescue_action ;; normal) normal_action ;; *) ;; esac fi # every 100 screenshots, starting from the 400ths one... if [ $(($NR % 100)) -eq 0 ] && [ $NR -gt 400 ] ; then # from help let: "Exit Status: If the last ARG evaluates to 0, let returns 1; let returns 0 otherwise." let OLD=NR-400 PRINTF_OLD=$(printf "%06d" $OLD) # test if this screenshot is the same as the one 400 screenshots ago if diff -q snapshot_${PRINTF_NR}.ppm snapshot_${PRINTF_OLD}.ppm ; then set -x # if so and if TRIGGERED != "" if [ ! -z "$TRIGGERED" ] ; then echo ERROR snapshot_${PRINTF_NR}.ppm snapshot_${PRINTF_OLD}.ppm match, ending installation. ls -la snapshot_${PRINTF_NR}.ppm snapshot_${PRINTF_OLD}.ppm figlet "Installation hangs." break else # fail next time screenshot matchs TRIGGERED="true" # really kick off trigger: let TRIGGER_NR=NR fi fi fi let NR=NR+1 sleep 2 done set -x if [ $NR -eq $MAX_RUNS ] ; then echo Warning: running for 6h, forceing termination. fi if [ -f "$RESULTS/qemu_quit" ] ; then let NR=NR-2 rm $RESULTS/qemu_quit else let NR=NR-1 fi PRINTF_NR=$(printf "%06d" $NR) cp snapshot_${PRINTF_NR}.ppm snapshot_${PRINTF_NR}.ppm.bak } trap cleanup_all INT TERM EXIT # # if there is a CD image... # if [ ! -z "$IMAGE" ] ; then fetch_if_newer "$IMAGE" "$URL" sudo mkdir -p $IMAGE_MNT grep -q $IMAGE_MNT /proc/mounts && sudo umount -l $IMAGE_MNT sleep 1 sudo mount -o loop,ro $IMAGE $IMAGE_MNT else # # else netboot gtk # fetch_if_newer "$KERNEL" "$URL/$KERNEL" fetch_if_newer "$INITRD" "$URL/$INITRD" fi # # run g-i # NR=0 bootstrap_system case $JOB_NAME in *rescue) monitor_system rescue ;; *) monitor_system install true ;; esac # # boot up installed system # case $JOB_NAME in *rescue) ;; *) # # kill qemu and image # sudo kill -9 $(ps fax | grep [q]emu-system | grep vnc=$DISPLAY 2>/dev/null | awk '{print $1}') || true if [ ! -z "$IMAGE" ] ; then sudo umount -l $IMAGE_MNT || true fi boot_system monitor_system normal ;; esac cleanup_all # don't cleanup twice trap - INT TERM EXIT