# Workloads dry run for several seconds; no failures will be introduced.
# This option is useful to verify the loads.
# -u is ignored in this case
+# -m
+# Reboot victim nodes simultaneously.
#
#
# ASSUMPTIONS
# applications are run in short loops so that their exit status can be waited
# for and checked within reasonable time by ha_wait_loads.
# The set of MPI and non-MPI workloads are configurable by parameters:
-# ha_mpi_loads
-# default set: dd, tar, iozone
# ha_nonmpi_loads
-# default set: ior, simul.
+# default set: dd, tar, iozone
+# ha_mpi_loads
+# default set: ior, simul, mdtest
#
# The number of clients run MPI loads is configured by parameter
# ha_mpi_instances. Only one client runs MPI workloads by default.
#
+# MPI workloads can be run from several users. The list of users to use is
+# configured by parameter ha_mpi_users, default is "mpiuser".
+#
# PROCESS STRUCTURE AND IPC
#
# On the node where this script is run, the processes look like this:
# ~ mpirun IOR
# ~ ha.sh (ha_repeat_mpi_load simul)
# ~ mpirun simul
+# ~ ha.sh (ha_repeat_mpi_load mdtest)
+# ~ mpirun mdtest
# ~ ... (one for each MPI load)
#
# ~ ha.sh (ha_repeat_nonmpi_load client2 dbench)
SIMUL=${SIMUL:-$(which simul 2> /dev/null || true)}
IOR=${IOR:-$(which IOR 2> /dev/null || true)}
+MDTEST=${MDTEST:-$(which mdtest 2> /dev/null || true)}
ior_blockSize=${ior_blockSize:-6g}
mpi_threads_per_client=${mpi_threads_per_client:-2}
declare ha_tmp_dir=/tmp/$(basename $0)-$$
declare ha_stop_file=$ha_tmp_dir/stop
declare ha_fail_file=$ha_tmp_dir/fail
+declare ha_pm_states=$ha_tmp_dir/ha_pm_states
declare ha_status_file_prefix=$ha_tmp_dir/status
declare -a ha_status_files
declare ha_machine_file=$ha_tmp_dir/machine_file
+declare ha_lfsck_log=$ha_tmp_dir/lfsck.log
+declare ha_lfsck_lock=$ha_tmp_dir/lfsck.lock
+declare ha_lfsck_stop=$ha_tmp_dir/lfsck.stop
+declare ha_lfsck_bg=${LFSCK_BG:-false}
+declare ha_lfsck_after=${LFSCK_AFTER:-false}
+declare ha_lfsck_node=${LFSCK_NODE:-""}
+declare ha_lfsck_device=${LFSCK_DEV:-""}
+declare ha_lfsck_types=${LFSCK_TYPES:-"namespace layout"}
+declare ha_lfsck_custom_params=${LFSCK_CUSTOM_PARAMS:-""}
+declare ha_lfsck_wait=${LFSCK_WAIT:-1200}
+declare ha_lfsck_fail_on_repaired=${LFSCK_FAIL_ON_REPAIRED:-false}
declare ha_power_down_cmd=${POWER_DOWN:-"pm -0"}
declare ha_power_up_cmd=${POWER_UP:-"pm -1"}
+declare ha_power_delay=${POWER_DELAY:-60}
+declare ha_node_up_delay=${NODE_UP_DELAY:-10}
+declare ha_pm_host=${PM_HOST:-$(hostname)}
declare ha_failback_delay=${DELAY:-5}
declare ha_failback_cmd=${FAILBACK:-""}
declare ha_stripe_params=${STRIPEPARAMS:-"-c 0"}
+declare ha_test_dir_stripe_count=${TDSTRIPECOUNT:-"1"}
+declare ha_test_dir_mdt_index=${TDMDTINDEX:-"0"}
+declare ha_test_dir_mdt_index_random=${TDMDTINDEXRAND:-false}
+declare ha_dir_stripe_count=${DSTRIPECOUNT:-"1"}
+declare ha_mdt_index=${MDTINDEX:-"0"}
+declare ha_mdt_index_random=${MDTINDEXRAND:-false}
declare -a ha_clients
declare -a ha_servers
declare -a ha_victims
+declare -a ha_victims_pair
declare ha_test_dir=/mnt/lustre/$(basename $0)-$$
declare ha_start_time=$(date +%s)
declare ha_expected_duration=$((60 * 60 * 24))
declare ha_max_failover_period=10
declare ha_nr_loops=0
declare ha_stop_signals="SIGINT SIGTERM SIGHUP"
-declare ha_load_timeout=$((60 * 10))
+declare ha_load_timeout=${LOAD_TIMEOUT:-$((60 * 10))}
declare ha_workloads_only=false
declare ha_workloads_dry_run=false
+declare ha_simultaneous=false
declare ha_mpi_instances=${ha_mpi_instances:-1}
-declare ha_mpi_loads=${ha_mpi_loads="ior simul"}
+declare ha_mpi_loads=${ha_mpi_loads="ior simul mdtest"}
declare -a ha_mpi_load_tags=($ha_mpi_loads)
+declare -a ha_mpiusers=(${ha_mpi_users="mpiuser"})
+declare -a ha_users
+declare -A ha_mpiopts
+
+for ((i=0; i<${#ha_mpiusers[@]}; i++)); do
+ u=${ha_mpiusers[i]%%:*}
+ o=""
+ # user gets empty option if ha_mpi_users does not specify it explicitly
+ [[ ${ha_mpiusers[i]} =~ : ]] && o=${ha_mpiusers[i]##*:}
+ ha_users[i]=$u
+ ha_mpiopts[$u]+=" $o"
+done
+ha_users=(${!ha_mpiopts[@]})
declare ha_ior_params=${IORP:-'" -b $ior_blockSize -t 2m -w -W -T 1"'}
declare ha_simul_params=${SIMULP:-'" -n 10"'}
+declare ha_mdtest_params=${MDTESTP:-'" -i 1 -n 1000"'}
declare ha_mpirun_options=${MPIRUN_OPTIONS:-""}
+declare ha_clients_stripe=${CLIENTSSTRIPE:-'"$STRIPEPARAMS"'}
+declare ha_nclientsset=${NCLIENTSSET:-1}
+declare ha_ninstmustfail=${NINSTMUSTFAIL:-0}
+
+declare ha_racer_params=${RACERP:-"MDSCOUNT=1"}
eval ha_params_ior=($ha_ior_params)
eval ha_params_simul=($ha_simul_params)
+eval ha_params_mdtest=($ha_mdtest_params)
+eval ha_stripe_clients=($ha_clients_stripe)
declare ha_nparams_ior=${#ha_params_ior[@]}
declare ha_nparams_simul=${#ha_params_simul[@]}
+declare ha_nparams_mdtest=${#ha_params_mdtest[@]}
+declare ha_nstripe_clients=${#ha_stripe_clients[@]}
declare -A ha_mpi_load_cmds=(
- [ior]="$IOR -o {}/f.ior {params}"
- [simul]="$SIMUL {params} -d {}"
+ [ior]="$IOR -o {}/f.ior {params}"
+ [simul]="$SIMUL {params} -d {}"
+ [mdtest]="$MDTEST {params} -d {}"
)
+declare racer=${RACER:-"$(dirname $0)/racer/racer.sh"}
+
declare ha_nonmpi_loads=${ha_nonmpi_loads="dd tar iozone"}
declare -a ha_nonmpi_load_tags=($ha_nonmpi_loads)
-declare -a ha_nonmpi_load_cmds=(
- "dd if=/dev/zero of={}/f.dd bs=1M count=256"
- "tar cf - /etc | tar xf - -C {}"
- "iozone -a -e -+d -s $iozone_SIZE {}/f.iozone"
+declare -A ha_nonmpi_load_cmds=(
+ [dd]="dd if=/dev/zero of={}/f.dd bs=1M count=256"
+ [tar]="tar cf - /etc | tar xf - -C {}"
+ [iozone]="iozone -a -e -+d -s $iozone_SIZE {}/f.iozone"
+ [racer]="$ha_racer_params $racer {}"
)
ha_usage()
{
- ha_info "Usage: $0 -c HOST[,...] -s HOST[,...]" \
- "-v HOST[,...] [-d DIRECTORY] [-u SECONDS]"
+ ha_info "Usage: $0 -c HOST[,...] -s HOST[,...]" \
+ "-v HOST[,...] -f HOST[,...] [-d DIRECTORY] [-u SECONDS]"
}
ha_process_arguments()
{
local opt
- while getopts hc:s:v:d:p:u:wr opt; do
+ while getopts hc:s:v:d:p:u:wrmf: opt; do
case $opt in
h)
ha_usage
r)
ha_workloads_dry_run=true
;;
+ m)
+ ha_simultaneous=true
+ ;;
+ f)
+ ha_victims_pair=(${OPTARG//,/ })
+ ;;
\?)
ha_usage
exit 1
# -S is to be used here to track the
# remote command return values
#
- pdsh -S -w $nodes PATH=/usr/local/sbin:/usr/local/bin:/sbin:\
-/bin:/usr/sbin:/usr/bin "$@" ||
+ pdsh -S -w $nodes "PATH=/usr/local/sbin:/usr/local/bin:/sbin:\
+/bin:/usr/sbin:/usr/bin; $@" ||
rc=$?
return $rc
}
sleep $n || true
}
+ha_wait_unlock()
+{
+ local lock=$1
+
+ while [ -e $lock ]; do
+ sleep 1
+ done
+}
+
ha_lock()
{
local lock=$1
ha_dump_logs()
{
- local nodes=${1// /,}
- local file=/tmp/$(basename $0)-$$-$(date +%s).dk
- local lock=$ha_tmp_dir/lock-dump-logs
+ local nodes=${1// /,}
+ local file=/tmp/$(basename $0)-$$-$(date +%s).dk
+ local lock=$ha_tmp_dir/lock-dump-logs
+ local rc=0
- ha_lock "$lock"
- ha_info "Dumping lctl log to $file"
+ ha_lock "$lock"
+ ha_info "Dumping lctl log to $file"
#
# some nodes could crash, so
# do not exit with error if not all logs are dumped
#
- ha_on $nodes "lctl dk >$file" ||
+ ha_on $nodes "lctl dk >>$file" || rc=$?
+
+ [ $rc -eq 0 ] ||
ha_error "not all logs are dumped! Some nodes are unreachable."
ha_unlock "$lock"
}
local load=$2
local status=$3
local parameter=$4
+ local machines=$5
+ local stripeparams=$6
+ local mpiuser=$7
+ local mustpass=$8
+ local mpirunoptions=$9
local tag=${ha_mpi_load_tags[$load]}
local cmd=${ha_mpi_load_cmds[$tag]}
local dir=$ha_test_dir/$client-$tag
local log=$ha_tmp_dir/$client-$tag
local rc=0
local nr_loops=0
+ local avg_loop_time=0
local start_time=$(date +%s)
cmd=${cmd//"{}"/$dir}
cmd=${cmd//"{params}"/$parameter}
+ [[ -n "$ha_postcmd" ]] && ha_postcmd=${ha_postcmd//"{}"/$dir}
+ [[ -n "$ha_precmd" ]] && ha_precmd=${ha_precmd//"{}"/$dir}
ha_info "Starting $tag"
- local machines="-machinefile $ha_machine_file"
+ machines="-machinefile $machines"
while [ ! -e "$ha_stop_file" ] && ((rc == 0)); do
+ ha_info "$client Starts: $mpiuser: $cmd" 2>&1 | tee -a $log
{
- ha_on $client mkdir -p "$dir" &&
+ local mdt_index
+ if $ha_mdt_index_random && [ $ha_mdt_index -ne 0 ]; then
+ mdt_index=$(ha_rand $ha_mdt_index)
+ else
+ mdt_index=$ha_mdt_index
+ fi
+ [[ -n "$ha_precmd" ]] && ha_info "$ha_precmd" &&
+ ha_on $client "$ha_precmd" >>"$log" 2>&1
+ ha_on $client $LFS mkdir -i$mdt_index -c$ha_dir_stripe_count "$dir" &&
+ ha_on $client $LFS getdirstripe "$dir" &&
+ ha_on $client $LFS setstripe $stripeparams $dir &&
+ ha_on $client $LFS getstripe $dir &&
ha_on $client chmod a+xwr $dir &&
- ha_on $client "su mpiuser sh -c \" $mpirun $ha_mpirun_options \
+ ha_on $client "su $mpiuser sh -c \" $mpirun $mpirunoptions \
-np $((${#ha_clients[@]} * mpi_threads_per_client )) \
- $machines $cmd \" " &&
+ $machines $cmd \" " || rc=$?
+ [[ -n "$ha_postcmd" ]] && ha_info "$ha_postcmd" &&
+ ha_on $client "$ha_postcmd" >>"$log" 2>&1
+ (( ((rc == 0)) && (( mustpass != 0 )) )) ||
+ (( ((rc != 0)) && (( mustpass == 0 )) )) &&
ha_on $client rm -rf "$dir";
} >>"$log" 2>&1 || rc=$?
- ha_info rc=$rc
-
- if ((rc != 0)); then
+ ha_info $client: rc=$rc mustpass=$mustpass
+
+ # mustpass=0 means that failure is expected
+ if (( rc !=0 )); then
+ if (( mustpass != 0 )); then
+ touch "$ha_fail_file"
+ touch "$ha_stop_file"
+ ha_dump_logs "${ha_clients[*]} ${ha_servers[*]}"
+ else
+ # Ok to fail
+ rc=0
+ fi
+ elif (( mustpass == 0 )); then
touch "$ha_fail_file"
touch "$ha_stop_file"
ha_dump_logs "${ha_clients[*]} ${ha_servers[*]}"
fi
- echo $rc >"$status"
+ echo rc=$rc mustpass=$mustpass >"$status"
nr_loops=$((nr_loops + 1))
done
- avg_loop_time=$((($(date +%s) - start_time) / nr_loops))
+ [ $nr_loops -ne 0 ] &&
+ avg_loop_time=$((($(date +%s) - start_time) / nr_loops))
- ha_info "$tag stopped: rc $rc avg loop time $avg_loop_time"
+ ha_info "$tag stopped: rc=$rc mustpass=$mustpass \
+ avg loop time $avg_loop_time"
}
ha_start_mpi_loads()
local status
local n
local nparam
+ local machines
+ local m
+ local -a mach
+ local mpiuser
+ local nmpi
- for client in ${ha_clients[@]}; do
- ha_info ha_machine_file=$ha_machine_file
- echo $client >> $ha_machine_file
+ # ha_mpi_instances defines the number of
+ # clients start mpi loads; should be <= ${#ha_clients[@]}
+ # do nothing if
+ # ha_mpi_instances = 0
+ # or
+ # ${#ha_mpi_load_tags[@]} =0
+ local inst=$ha_mpi_instances
+ (( inst == 0 )) || (( ${#ha_mpi_load_tags[@]} == 0 )) &&
+ ha_info "no mpi load to start" &&
+ return 0
+
+ (( inst <= ${#ha_clients[@]} )) || inst=${#ha_clients[@]}
+
+ # Define names for machinefiles for each client set
+ for (( n=0; n < $ha_nclientsset; n++ )); do
+ mach[$n]=$ha_machine_file$n
+ done
+
+ for ((n = 0; n < ${#ha_clients[@]}; n++)); do
+ m=$(( n % ha_nclientsset))
+ machines=${mach[m]}
+ ha_info machine_file=$machines
+ echo ${ha_clients[n]} >> $machines
done
local dirname=$(dirname $ha_machine_file)
for client in ${ha_clients[@]}; do
ha_on $client mkdir -p $dirname
- scp $ha_machine_file $client:$ha_machine_file
+ scp $ha_machine_file* $client:$dirname
done
- # ha_mpi_instances defines the number of
- # clients start mpi loads; should be <= ${#ha_clients[@]}
- local inst=$ha_mpi_instances
- (( inst <= ${#ha_clients[@]} )) || inst=${#ha_clients[@]}
-
for ((n = 0; n < $inst; n++)); do
client=${ha_clients[n]}
+ nmpi=$((n % ${#ha_users[@]}))
+ mpiuser=${ha_users[nmpi]}
for ((load = 0; load < ${#ha_mpi_load_tags[@]}; load++)); do
tag=${ha_mpi_load_tags[$load]}
status=$ha_status_file_prefix-$tag-$client
nparam=$((n % num))
local aref=ha_params_$tag[nparam]
local parameter=${!aref}
- ha_repeat_mpi_load $client $load $status "$parameter" &
+ local nstripe=$((n % ha_nstripe_clients))
+ aref=ha_stripe_clients[nstripe]
+ local stripe=${!aref}
+ local m=$(( n % ha_nclientsset))
+ machines=${mach[m]}
+ local mustpass=1
+ [[ $ha_ninstmustfail == 0 ]] ||
+ mustpass=$(( n % ha_ninstmustfail ))
+ ha_repeat_mpi_load $client $load $status "$parameter" \
+ $machines "$stripe" "$mpiuser" "$mustpass" \
+ "${ha_mpiopts[$mpiuser]} $ha_mpirun_options" &
ha_status_files+=("$status")
done
done
ha_repeat_nonmpi_load()
{
- local client=$1
- local load=$2
- local status=$3
- local tag=${ha_nonmpi_load_tags[$load]}
- local cmd=${ha_nonmpi_load_cmds[$load]}
- local dir=$ha_test_dir/$client-$tag
- local log=$ha_tmp_dir/$client-$tag
- local rc=0
- local nr_loops=0
- local start_time=$(date +%s)
+ local client=$1
+ local load=$2
+ local status=$3
+ local tag=${ha_nonmpi_load_tags[$load]}
+ local cmd=${ha_nonmpi_load_cmds[$tag]}
+ local dir=$ha_test_dir/$client-$tag
+ local log=$ha_tmp_dir/$client-$tag
+ local rc=0
+ local nr_loops=0
+ local avg_loop_time=0
+ local start_time=$(date +%s)
- cmd=${cmd//"{}"/$dir}
+ cmd=${cmd//"{}"/$dir}
- ha_info "Starting $tag on $client"
+ ha_info "Starting $tag on $client"
while [ ! -e "$ha_stop_file" ] && ((rc == 0)); do
+ ha_info "$client Starts: $cmd" 2>&1 | tee -a $log
ha_on $client "mkdir -p $dir && \
$cmd && \
rm -rf $dir" >>"$log" 2>&1 || rc=$?
nr_loops=$((nr_loops + 1))
done
- avg_loop_time=$((($(date +%s) - start_time) / nr_loops))
+ [ $nr_loops -ne 0 ] &&
+ avg_loop_time=$((($(date +%s) - start_time) / nr_loops))
- ha_info "$tag on $client stopped: rc $rc avg loop time ${avg_loop_time}s"
+ ha_info "$tag on $client stopped: rc $rc avg loop time ${avg_loop_time}s"
}
ha_start_nonmpi_loads()
done
}
+ha_lfsck_bg () {
+ rm -f $ha_lfsck_log
+ rm -f $ha_lfsck_stop
+
+ ha_info "LFSCK BG"
+ while [ true ]; do
+ [ -f $ha_lfsck_stop ] && ha_info "LFSCK stopped" && break
+ [ -f $ha_stop_file ] &&
+ ha_info "$ha_stop_file found! LFSCK not started" &&
+ break
+ ha_start_lfsck 2>&1 | tee -a $ha_lfsck_log
+ sleep 1
+ done &
+ LFSCK_BG_PID=$!
+ ha_info LFSCK BG PID: $LFSCK_BG_PID
+}
+
+ha_wait_lfsck_completed () {
+ local -a status
+ local -a types=($ha_lfsck_types)
+ local type
+ local s
+
+ local nodes="${ha_servers[@]}"
+ nodes=${nodes// /,}
+
+ # -A start LFSCK on all nodes
+ # -t default all
+ [ ${#types[@]} -eq 0 ] && types=(namespace layout)
+ ha_info "Waiting LFSCK completed in $ha_lfsck_wait sec: types ${types[@]}"
+ for type in ${types[@]}; do
+ eval var_$type=0
+ for (( i=0; i<=ha_lfsck_wait; i++)); do
+ status=($(ha_on $nodes lctl get_param -n *.*.lfsck_$type 2>/dev/null | \
+ awk '/status/ { print $3 }'))
+ for (( s=0; s<${#status[@]}; s++ )); do
+ # "partial" is expected after HARD failover
+ [[ "${status[s]}" = "completed" ]] ||
+ [[ "${status[s]}" = "partial" ]] || break
+ done
+ [[ $s -eq ${#status[@]} ]] && eval var_$type=1 && break
+ sleep 1
+ done
+ ha_info "LFSCK $type status in $i sec:"
+ ha_on $nodes lctl get_param -n *.*.lfsck_$type 2>/dev/null | grep status
+
+ done
+
+ for type in ${types[@]}; do
+ local var=var_$type
+ ha_on $nodes lctl get_param -n *.*.lfsck_$type 2>/dev/null
+ [[ ${!var} -eq 1 ]] ||
+ { ha_info "lfsck not completed in $ha_lfsck_wait sec";
+ return 1; }
+ done
+ return 0
+}
+
+ha_start_lfsck()
+{
+ local -a types=($ha_lfsck_types)
+ local rc=0
+
+ # -A: start LFSCK on all nodes via the specified MDT device
+ # (see "-M" option) by single LFSCK command
+ local params=" -A -r $ha_lfsck_custom_params"
+
+ # use specified device if set
+ [ -n "$ha_lfsck_device" ] && params="-M $ha_lfsck_device $params"
+
+ # -t: check type(s) to be performed (default all)
+ # check only specified types if set
+ if [ ${#types[@]} -ne 0 ]; then
+ local type="${types[@]}"
+ params="$params -t ${type// /,}"
+ fi
+
+ ha_info "LFSCK start $params"
+ ha_on $ha_lfsck_node "lctl lfsck_start $params" || rc=1
+ if [ $rc -ne 0 ]; then
+ if [ -e $ha_lfsck_lock ]; then
+ rc=0
+ ha_wait_unlock $ha_lfsck_lock
+ ha_sleep 120
+ ha_on $ha_lfsck_node "lctl lfsck_start $params" || rc=1
+ fi
+ fi
+
+ [ $rc -eq 0 ] ||
+ { touch "$ha_fail_file"; touch "$ha_stop_file";
+ touch $ha_lfsck_stop; return 1; }
+
+ ha_wait_lfsck_completed ||
+ { touch "$ha_fail_file"; touch "$ha_stop_file";
+ touch $ha_lfsck_stop; return 1; }
+
+ return 0
+}
+
+ha_lfsck_repaired()
+{
+ local n=0
+
+ n=$(cat $ha_lfsck_log | awk '/repaired/ {print $3}' |\
+ awk '{sum += $1} END { print sum }')
+ [ $n -eq 0] ||
+ { ha_info "Total repaired: $n";
+ touch "$ha_fail_file"; return 1; }
+ return 0
+}
+
ha_start_loads()
{
- trap ha_trap_stop_signals $ha_stop_signals
- ha_start_nonmpi_loads
- ha_start_mpi_loads
+ $ha_lfsck_bg && ha_lfsck_bg
+ trap ha_trap_stop_signals $ha_stop_signals
+ ha_start_nonmpi_loads
+ ha_start_mpi_loads
}
ha_stop_loads()
{
- touch $ha_stop_file
- trap - $ha_stop_signals
- ha_info "Waiting for workloads to stop"
- wait
+ touch $ha_stop_file
+ # true because of lfsck_bg could be stopped already
+ $ha_lfsck_bg && wait $LFSCK_BG_PID || true
+ trap - $ha_stop_signals
+ ha_info "Waiting for workloads to stop"
+ wait
}
ha_wait_loads()
local file
local end=$(($(date +%s) + ha_load_timeout))
- ha_info "Waiting for workload status"
+ ha_info "Waiting $ha_load_timeout sec for workload status..."
rm -f "${ha_status_files[@]}"
#
done
}
+ha_powermanage()
+{
+ local nodes=$1
+ local expected_state=$2
+ local state
+ local -a states
+ local i
+ local rc=0
+
+ # store pm -x -q $nodes results in a file to have
+ # more information about nodes statuses
+ ha_on $ha_pm_host pm -x -q $nodes | awk '{print $2 $3}' > $ha_pm_states
+ rc=${PIPESTATUS[0]}
+ echo pmrc=$rc
+
+ while IFS=": " read node state; do
+ [[ "$state" = "$expected_state" ]] && {
+ nodes=${nodes/$node/}
+ nodes=${nodes//,,/,}
+ nodes=${nodes/#,}
+ nodes=${nodes/%,}
+ }
+ done < $ha_pm_states
+
+ if [ -n "$nodes" ]; then
+ cat $ha_pm_states
+ return 1
+ fi
+ return 0
+}
+
+ha_power_down_cmd_fn()
+{
+ local nodes=$1
+ local cmd
+
+ case $ha_power_down_cmd in
+ # format is: POWER_DOWN=sysrqcrash
+ sysrqcrash) cmd="pdsh -S -w $nodes 'echo c > /proc/sysrq-trigger' &" ;;
+ *) cmd="$ha_power_down_cmd $nodes" ;;
+ esac
+
+ eval $cmd
+}
+
ha_power_down()
{
- local node=$1
+ local nodes=$1
+ local rc=1
+ local i
+ local state
+
+ case $ha_power_down_cmd in
+ *pm*) state=off ;;
+ sysrqcrash) state=off ;;
+ *) state=on;;
+ esac
+
+ if $ha_lfsck_bg && [[ ${nodes//,/ /} =~ $ha_lfsck_node ]]; then
+ ha_info "$ha_lfsck_node down, delay start LFSCK"
+ ha_lock $ha_lfsck_lock
+ fi
+
+ ha_info "Powering down $nodes : cmd: $ha_power_down_cmd"
+ for (( i=0; i<10; i++ )) {
+ ha_info "attempt: $i"
+ ha_power_down_cmd_fn $nodes &&
+ ha_powermanage $nodes $state && rc=0 && break
+ sleep $ha_power_delay
+ }
+
+ [ $rc -eq 0 ] || {
+ ha_info "Failed Powering down in $i attempts:" \
+ "$ha_power_down_cmd"
+ cat $ha_pm_states
+ exit 1
+ }
+}
+
+ha_get_pair()
+{
+ local node=$1
+ local i
- ha_info "Powering down $node"
- $ha_power_down_cmd $node
+ for ((i=0; i<${#ha_victims[@]}; i++)) {
+ [[ ${ha_victims[i]} == $node ]] && echo ${ha_victims_pair[i]} &&
+ return
+ }
+ [[ $i -ne ${#ha_victims[@]} ]] ||
+ ha_error "No pair found!"
+}
+
+ha_power_up_delay()
+{
+ local nodes=$1
+ local end=$(($(date +%s) + ha_node_up_delay))
+ local rc
+
+ if [[ ${#ha_victims_pair[@]} -eq 0 ]]; then
+ ha_sleep $ha_node_up_delay
+ return 0
+ fi
+
+ # Check CRM status on failover pair
+ while (($(date +%s) <= end)); do
+ rc=0
+ for n in ${nodes//,/ }; do
+ local pair=$(ha_get_pair $n)
+ local status=$(ha_on $pair crm_mon -1rQ | \
+ grep -w $n | head -1)
+
+ ha_info "$n pair: $pair status: $status"
+ [[ "$status" == *OFFLINE* ]] ||
+ rc=$((rc + $?))
+ ha_info "rc: $rc"
+ done
+
+ if [[ $rc -eq 0 ]]; then
+ ha_info "CRM: Got all victims status OFFLINE"
+ return 0
+ fi
+ sleep 60
+ done
+
+ ha_info "$nodes CRM status not OFFLINE"
+ for n in ${nodes//,/ }; do
+ local pair=$(ha_get_pair $n)
+
+ ha_info "CRM --- $n"
+ ha_on $pair crm_mon -1rQ
+ done
+ ha_error "CRM: some of $nodes are not OFFLINE in $ha_node_up_delay sec"
+ exit 1
}
ha_power_up()
{
- local node=$1
+ local nodes=$1
+ local rc=1
+ local i
+
+ ha_power_up_delay $nodes
+ ha_info "Powering up $nodes : cmd: $ha_power_up_cmd"
+ for (( i=0; i<10; i++ )) {
+ ha_info "attempt: $i"
+ $ha_power_up_cmd $nodes &&
+ ha_powermanage $nodes on && rc=0 && break
+ sleep $ha_power_delay
+ }
- ha_info "Powering up $node"
- $ha_power_up_cmd $node
+ [ $rc -eq 0 ] || {
+ ha_info "Failed Powering up in $i attempts: $ha_power_up_cmd"
+ cat $ha_pm_states
+ exit 1
+ }
}
#
ha_aim()
{
- local i=$(ha_rand ${#ha_victims[@]})
+ local i
+ local nodes
- echo -n ${ha_victims[$i]}
+ if $ha_simultaneous ; then
+ nodes=$(echo ${ha_victims[@]})
+ nodes=${nodes// /,}
+ else
+ i=$(ha_rand ${#ha_victims[@]})
+ nodes=${ha_victims[$i]}
+ fi
+
+ echo -n $nodes
}
-ha_wait_node()
+ha_wait_nodes()
{
- local node=$1
+ local nodes=$1
local end=$(($(date +%s) + 10 * 60))
- ha_info "Waiting for $node to boot up"
- until ha_on $node hostname >/dev/null 2>&1 ||
+ ha_info "Waiting for $nodes to boot up"
+ until ha_on $nodes hostname >/dev/null 2>&1 ||
[ -e "$ha_stop_file" ] ||
(($(date +%s) >= end)); do
ha_sleep 1 >/dev/null
ha_failback()
{
- local node=$1
- ha_info "Failback resources on $node in $ha_failback_delay sec"
+ local nodes=$1
+ ha_info "Failback resources on $nodes in $ha_failback_delay sec"
ha_sleep $ha_failback_delay
[ "$ha_failback_cmd" ] ||
return 0
}
- $ha_failback_cmd $node
+ $ha_failback_cmd $nodes
+ [ -e $ha_lfsck_lock ] && ha_unlock $ha_lfsck_lock || true
}
ha_summarize()
ha_killer()
{
- local node
+ local nodes
while (($(date +%s) < ha_start_time + ha_expected_duration)) &&
[ ! -e "$ha_stop_file" ]; do
ha_info "---------------8<---------------"
- $ha_workloads_only || node=$(ha_aim)
+ $ha_workloads_only || nodes=$(ha_aim)
- ha_info "Failing $node"
+ ha_info "Failing $nodes"
$ha_workloads_only && ha_info " is skipped: workload only..."
ha_sleep $(ha_rand $ha_max_failover_period)
- $ha_workloads_only || ha_power_down $node
+ $ha_workloads_only || ha_power_down $nodes
ha_sleep 10
ha_wait_loads || return
if [ -e $ha_stop_file ]; then
- $ha_workloads_only || ha_power_up $node
+ $ha_workloads_only || ha_power_up $nodes
break
fi
- ha_info "Bringing $node back"
+ ha_info "Bringing $nodes back"
ha_sleep $(ha_rand 10)
$ha_workloads_only ||
{
- ha_power_up $node
- ha_wait_node $node
- ha_failback $node
+ ha_power_up $nodes
+ ha_wait_nodes $nodes
+ ha_failback $nodes
}
#
"START: $0: $(date +%H:%M:%S' '%s)"
trap ha_trap_exit EXIT
mkdir "$ha_tmp_dir"
- ha_on ${ha_clients[0]} mkdir "$ha_test_dir"
+
+ local mdt_index
+ if $ha_test_dir_mdt_index_random &&
+ [ $ha_test_dir_mdt_index -ne 0 ]; then
+ mdt_index=$(ha_rand $ha_test_dir_mdt_index)
+ else
+ mdt_index=$ha_test_dir_mdt_index
+ fi
+ ha_on ${ha_clients[0]} "$LFS mkdir -i$mdt_index \
+ -c$ha_test_dir_stripe_count $ha_test_dir"
+ ha_on ${ha_clients[0]} $LFS getdirstripe $ha_test_dir
ha_on ${ha_clients[0]} " \
$LFS setstripe $ha_stripe_params $ha_test_dir"
ha_stop_loads
+ $ha_lfsck_after && ha_start_lfsck | tee -a $ha_lfsck_log
+
+ $ha_lfsck_fail_on_repaired && ha_lfsck_repaired
+
if [ -e "$ha_fail_file" ]; then
exit 1
else