#!/bin/bash # We test mdadm on loop-back block devices. # dir for storing files should be settable by command line maybe size=20000 # super0, round down to multiple of 64 and substract 64 mdsize0=19904 # super00 is nested, subtract 128 mdsize00=19840 # super1.0 round down to multiple of 2, subtract 8 mdsize1=19992 mdsize1a=19988 mdsize12=19988 # super1.2 for linear: round to multiple of 2, subtract 4 mdsize1_l=19996 mdsize2_l=19996 # subtract another 4 for bitmaps mdsize1b=19988 mdsize11=19992 mdsize11a=19456 mdsize12=19988 # ddf needs bigger devices as 32Meg is reserved! ddfsize=65536 # $1 is optional parameter, it shows why to save log save_log() { status=$1 logfile="$status""$_basename".log cat $targetdir/stderr >> $targetdir/log cp $targetdir/log $logdir/$_basename.log echo "## $HOSTNAME: saving dmesg." >> $logdir/$logfile dmesg -c >> $logdir/$logfile echo "## $HOSTNAME: saving proc mdstat." >> $logdir/$logfile cat /proc/mdstat >> $logdir/$logfile array=($(mdadm -Ds | cut -d' ' -f2)) [ "$1" == "fail" ] && echo "FAILED - see $logdir/$_basename.log and $logdir/$logfile for details" if [ $DEVTYPE == 'lvm' ] then # not supported lvm type yet echo elif [ "$DEVTYPE" == 'loop' -o "$DEVTYPE" == 'disk' ] then if [ ! -z "$array" -a ${#array[@]} -ge 1 ] then echo "## $HOSTNAME: mdadm -D ${array[@]}" >> $logdir/$logfile $mdadm -D ${array[@]} >> $logdir/$logfile # ignore saving external(external file, imsm...) bitmap cat /proc/mdstat | grep -q "linear\|external" && return 0 md_disks=($($mdadm -D -Y ${array[@]} | grep "/dev/" | cut -d'=' -f2)) cat /proc/mdstat | grep -q "bitmap" if [ $? -eq 0 ] then echo "## $HOSTNAME: mdadm -X ${md_disks[@]}" >> $logdir/$logfile $mdadm -X ${md_disks[@]} >> $logdir/$logfile echo "## $HOSTNAME: mdadm -E ${md_disks[@]}" >> $logdir/$logfile $mdadm -E ${md_disks[@]} >> $logdir/$logfile fi else echo "## $HOSTNAME: no array assembled!" >> $logdir/$logfile fi fi } cleanup() { udevadm settle $mdadm -Ssq 2> /dev/null case $DEVTYPE in loop ) for d in 0 1 2 3 4 5 6 7 8 9 10 11 12 13 do losetup -d /dev/loop$d &> /dev/null rm -f /dev/disk/by-path/loop* rm -f /var/tmp/mdtest$d done ;; lvm ) for d in 0 1 2 3 4 5 6 7 8 9 10 11 12 13 do eval "lvremove --quiet -f \$dev$d" done ;; disk ) $mdadm --zero ${disks[@]} &> /dev/null ;; esac } do_clean() { mdadm -Ss > /dev/null mdadm --zero $devlist 2> /dev/null dmesg -c > /dev/null } check_env() { user=$(id -un) [ "X$user" != "Xroot" ] && { echo "test: testing can only be done as 'root'." exit 1 } [ \! -x $mdadm ] && { echo "test: please run make everything before perform testing." exit 1 } cmds=(mdadm lsblk df udevadm losetup mkfs.ext3 fsck seq) for cmd in ${cmds[@]} do which $cmd > /dev/null || { echo "$cmd command not found!" exit 1 } done if $(lsblk -a | grep -iq raid) then # donot run mdadm -Ss directly if there are RAIDs working. echo "test: please run test suite without running RAIDs environment." exit 1 fi # Check whether to run multipath tests modprobe multipath 2> /dev/null grep -sq 'Personalities : .*multipath' /proc/mdstat && MULTIPATH="yes" } do_setup() { trap cleanup 0 1 3 15 trap ctrl_c 2 check_env [ -d $logdir ] || mkdir -p $logdir devlist= if [ "$DEVTYPE" == "loop" ] then # make sure there are no loop devices remaining. # udev started things can sometimes prevent them being stopped # immediately while grep loop /proc/partitions > /dev/null 2>&1 do $mdadm -Ssq losetup -d /dev/loop[0-9]* 2> /dev/null sleep 0.2 done elif [ "$DEVTYPE" == "disk" ] then if [ ! -z "$disks" ] then for d in $(seq 0 ${#disks[@]}) do eval "dev$d=${disks[$d]}" eval devlist=\"\$devlist \$dev$d\" eval devlist$d=\"\$devlist\" done $mdadm --zero ${disks[@]} &> /dev/null else echo "Forget to provide physical devices for disk mode." exit 1 fi fi for d in 0 1 2 3 4 5 6 7 8 9 10 11 12 13 do sz=$size [ $d -gt 7 ] && sz=$ddfsize case $DEVTYPE in loop) [ -f $targetdir/mdtest$d ] || dd if=/dev/zero of=$targetdir/mdtest$d count=$sz bs=1K > /dev/null 2>&1 # make sure udev doesn't touch mdadm --zero $targetdir/mdtest$d 2> /dev/null [ -b /dev/loop$d ] || mknod /dev/loop$d b 7 $d if [ $d -eq 7 ] then losetup /dev/loop$d $targetdir/mdtest6 # for multipath use else losetup /dev/loop$d $targetdir/mdtest$d fi eval dev$d=/dev/loop$d eval file$d=$targetdir/mdtest$d ;; lvm) unset MULTIPATH eval dev$d=/dev/mapper/${LVM_VOLGROUP}-mdtest$d if ! lvcreate --quiet -L ${sz}K -n mdtest$d $LVM_VOLGROUP then trap '' 0 # make sure lvremove is not called eval echo error creating \$dev$d exit 129 fi ;; ram) unset MULTIPATH eval dev$d=/dev/ram$d ;; esac eval devlist=\"\$devlist \$dev$d\" eval devlist$d=\"\$devlist\" #" <-- add this quote to un-confuse vim syntax highlighting done path0=$dev6 path1=$dev7 ulimit -c unlimited [ -f /proc/mdstat ] || modprobe md_mod echo 2000 > /proc/sys/dev/raid/speed_limit_max echo 0 > /sys/module/md_mod/parameters/start_ro } # check various things check() { case $1 in opposite_result ) if [ $? -eq 0 ]; then die "This command shouldn't run successfully" fi ;; spares ) spares=$(tr '] ' '\012\012' < /proc/mdstat | grep -c '(S)' || exit 0) [ $spares -ne $2 ] && die "expected $2 spares, found $spares" ;; raid* | linear ) grep -sq "active $1 " /proc/mdstat || die "active $1 not found" ;; algorithm ) grep -sq " algorithm $2 " /proc/mdstat || die "algorithm $2 not found" ;; resync | recovery | reshape ) cnt=5 while ! grep -sq $1 /proc/mdstat do if [ $cnt -gt 0 ] && grep -v idle /sys/block/md*/md/sync_action > /dev/null then # Something isn't idle - wait a bit sleep 0.5 cnt=$[cnt-1] else die "no $1 happening" fi done ;; nosync ) sleep 0.5 # Since 4.2 we delay the close of recovery until there has been a chance for # spares to be activated. That means that a recovery that finds nothing # to do can still take a little longer than expected. # add an extra check: is sync_completed shows the end is reached, assume # there is no recovery. if grep -sq -E '(resync|recovery|reshape) *=' /proc/mdstat then incomplete=`grep / /sys/block/md*/md/sync_completed 2> /dev/null | sed '/^ *\([0-9]*\) \/ \1/d'` [ -n "$incomplete" ] && die "resync or recovery is happening!" fi ;; wait ) p=`cat /proc/sys/dev/raid/speed_limit_max` echo 2000000 > /proc/sys/dev/raid/speed_limit_max sleep 0.1 while grep -Eq '(resync|recovery|reshape|check|repair) *=' /proc/mdstat || grep -v idle > /dev/null /sys/block/md*/md/sync_action do sleep 0.5 done echo $p > /proc/sys/dev/raid/speed_limit_max ;; state ) grep -sq "blocks.*\[$2\]\$" /proc/mdstat || die "state $2 not found!" sleep 0.5 ;; bitmap ) grep -sq bitmap /proc/mdstat || die "no bitmap" ;; nobitmap ) grep -sq "bitmap" /proc/mdstat && die "bitmap present" ;; readonly ) grep -sq "read-only" /proc/mdstat || die "array is not read-only!" ;; inactive ) grep -sq "inactive" /proc/mdstat || die "array is not inactive!" ;; # It only can be used when there is only one raid chunk ) chunk_size=`awk -F',' '/chunk/{print $2}' /proc/mdstat | awk -F'[a-z]' '{print $1}'` if [ "$chunk_size" -ne "$2" ] ; then die "chunksize should be $2, but it's $chunk_size" fi ;; * ) die "unknown check $1" ;; esac } no_errors() { if [ -s $targetdir/stderr ] then echo Bad errors from mdadm: cat $targetdir/stderr exit 2 fi } # basic device test testdev() { [ -b $1 ] || die "$1 isn't a block device." [ "$DEVTYPE" == "disk" ] && return 0 udevadm settle dev=$1 cnt=$2 dvsize=$3 chunk=$4 if [ -z "$5" ] then mkfs.ext3 -F -j $dev > /dev/null 2>&1 && fsck -fn $dev >&2 fi dsize=$[dvsize/chunk] dsize=$[dsize*chunk] rasize=$[dsize*2*cnt] # rasize is in sectors if [ -n "$DEV_ROUND_K" ] then rasize=$[rasize/DEV_ROUND_K/2] rasize=$[rasize*DEV_ROUND_K*2] fi [ `/sbin/blockdev --getsize $dev` -eq 0 ] && sleep 2 _sz=`/sbin/blockdev --getsize $dev` [ $rasize -lt $_sz -o $[rasize*4/5] -gt $_sz ] && die "size is wrong for $dev: $cnt * $dvsize (chunk=$chunk) = $rasize, not $_sz" return 0 } rotest() { dev=$1 fsck -fn $dev >&2 }