}
sync_all_data() {
- do_node $(osts_nodes) "lctl set_param -n osd*.*OS*.force_sync 1" 2>&1 |
+ do_nodes $(comma_list $(mdts_nodes)) \
+ "lctl set_param -n osd*.*MDT*.force_sync 1"
+ do_nodes $(comma_list $(osts_nodes)) \
+ "lctl set_param -n osd*.*OS*.force_sync 1" 2>&1 |
grep -v 'Found no match'
}
fi
}
+# Get the passive failover partner host of facet.
+facet_passive_host() {
+ local facet=$1
+ [[ $facet = client ]] && return
+
+ local host=${facet}_HOST
+ local failover_host=${facet}failover_HOST
+ local active_host=$(facet_active_host $facet)
+
+ [[ -z ${!failover_host} || ${!failover_host} = ${!host} ]] && return
+
+ if [[ $active_host = ${!host} ]]; then
+ echo -n ${!failover_host}
+ else
+ echo -n ${!host}
+ fi
+}
+
change_active() {
local facetlist=$1
local facet
if [ $fstype == ldiskfs ]; then
fs_mkfs_opts+=${MDSJOURNALSIZE:+" -J size=$MDSJOURNALSIZE"}
+ if [ ! -z $EJOURNAL ]; then
+ fs_mkfs_opts+=${MDSJOURNALSIZE:+" device=$EJOURNAL"}
+ fi
fs_mkfs_opts+=${MDSISIZE:+" -i $MDSISIZE"}
fi
fi
local dev=$2
stop ${facet} -f
- rm -f ${facet}active
+ rm -f $TMP/${facet}active
do_facet ${facet} "$TUNEFS --quiet --writeconf $dev" || return 1
return 0
}
elif [ $current_jobid_var != $JOBID_VAR ]; then
echo "seting jobstats to $JOBID_VAR"
- set_conf_param_and_check $HOSTNAME \
+ set_conf_param_and_check client \
"$LCTL get_param -n jobid_var" \
"$FSNAME.sys.jobid_var" $JOBID_VAR
fi
set_default_debug_nodes $(comma_list $(nodes_list))
fi
+ if [ -n "$OSD_TRACK_DECLARES_LBUG" ] ; then
+ do_nodes $(comma_list $(mdts_nodes) $(osts_nodes)) \
+ "$LCTL set_param osd-*.track_declares_assert=1" \
+ > /dev/null
+ fi
+
init_gss
if $GSS; then
set_flavor_all $SEC
$(single_local_node $(comma_list $(nodes_list)))
}
-mdts_nodes () {
- local MDSNODES
- local NODES_sort
- for num in `seq $MDSCOUNT`; do
- MDSNODES="$MDSNODES $(facet_host mds$num)"
- done
- NODES_sort=$(for i in $MDSNODES; do echo $i; done | sort -u)
-
- echo $NODES_sort
-}
-
remote_servers () {
remote_ost && remote_mds
}
+# Get the active nodes for facets.
facets_nodes () {
- local facets=$1
- local nodes
- local NODES_sort
+ local facets=$1
+ local facet
+ local nodes
+ local nodes_sort
+ local i
- for facet in ${facets//,/ }; do
- if [ "$FAILURE_MODE" = HARD ]; then
- nodes="$nodes $(facet_active_host $facet)"
- else
- nodes="$nodes $(facet_host $facet)"
- fi
- done
- NODES_sort=$(for i in $nodes; do echo $i; done | sort -u)
+ for facet in ${facets//,/ }; do
+ nodes="$nodes $(facet_active_host $facet)"
+ done
- echo $NODES_sort
+ nodes_sort=$(for i in $nodes; do echo $i; done | sort -u)
+ echo -n $nodes_sort
}
-osts_nodes () {
- local facets=$(get_facets OST)
- local nodes=$(facets_nodes $facets)
+# Get all of the active MDS nodes.
+mdts_nodes () {
+ echo -n $(facets_nodes $(get_facets MDS))
+}
- echo $nodes
+# Get all of the active OSS nodes.
+osts_nodes () {
+ echo -n $(facets_nodes $(get_facets OST))
}
+# Get all of the client nodes and active server nodes.
nodes_list () {
- # FIXME. We need a list of clients
- local myNODES=$HOSTNAME
- local myNODES_sort
-
- # CLIENTS (if specified) contains the local client
- [ -n "$CLIENTS" ] && myNODES=${CLIENTS//,/ }
+ local nodes=$HOSTNAME
+ local nodes_sort
+ local i
- if [ "$PDSH" -a "$PDSH" != "no_dsh" ]; then
- myNODES="$myNODES $(facets_nodes $(get_facets))"
- fi
+ # CLIENTS (if specified) contains the local client
+ [ -n "$CLIENTS" ] && nodes=${CLIENTS//,/ }
- myNODES_sort=$(for i in $myNODES; do echo $i; done | sort -u)
+ if [ "$PDSH" -a "$PDSH" != "no_dsh" ]; then
+ nodes="$nodes $(facets_nodes $(get_facets))"
+ fi
- echo $myNODES_sort
+ nodes_sort=$(for i in $nodes; do echo $i; done | sort -u)
+ echo -n $nodes_sort
}
+# Get all of the remote client nodes and remote active server nodes.
remote_nodes_list () {
- echo $(nodes_list) | sed -re "s/\<$HOSTNAME\>//g"
+ echo -n $(nodes_list) | sed -re "s/\<$HOSTNAME\>//g"
+}
+
+# Get all of the MDS nodes, including active and passive nodes.
+all_mdts_nodes () {
+ local host
+ local failover_host
+ local nodes
+ local nodes_sort
+ local i
+
+ for i in $(seq $MDSCOUNT); do
+ host=mds${i}_HOST
+ failover_host=mds${i}failover_HOST
+ nodes="$nodes ${!host} ${!failover_host}"
+ done
+
+ nodes_sort=$(for i in $nodes; do echo $i; done | sort -u)
+ echo -n $nodes_sort
+}
+
+# Get all of the OSS nodes, including active and passive nodes.
+all_osts_nodes () {
+ local host
+ local failover_host
+ local nodes
+ local nodes_sort
+ local i
+
+ for i in $(seq $OSTCOUNT); do
+ host=ost${i}_HOST
+ failover_host=ost${i}failover_HOST
+ nodes="$nodes ${!host} ${!failover_host}"
+ done
+
+ nodes_sort=$(for i in $nodes; do echo $i; done | sort -u)
+ echo -n $nodes_sort
+}
+
+# Get all of the server nodes, including active and passive nodes.
+all_server_nodes () {
+ local nodes
+ local nodes_sort
+ local i
+
+ nodes="$mgs_HOST $mgsfailover_HOST $(all_mdts_nodes) $(all_osts_nodes)"
+
+ nodes_sort=$(for i in $nodes; do echo $i; done | sort -u)
+ echo -n $nodes_sort
+}
+
+# Get all of the client and server nodes, including active and passive nodes.
+all_nodes () {
+ local nodes=$HOSTNAME
+ local nodes_sort
+ local i
+
+ # CLIENTS (if specified) contains the local client
+ [ -n "$CLIENTS" ] && nodes=${CLIENTS//,/ }
+
+ if [ "$PDSH" -a "$PDSH" != "no_dsh" ]; then
+ nodes="$nodes $(all_server_nodes)"
+ fi
+
+ nodes_sort=$(for i in $nodes; do echo $i; done | sort -u)
+ echo -n $nodes_sort
}
init_clients_lists () {
$LCTL get_param -n osc.*[oO][sS][cC][-_][0-9a-f]*.$1 | calc_sum
}
-# save_lustre_params(node, parameter_mask)
-# generate a stream of formatted strings (<node> <param name>=<param value>)
+# save_lustre_params(comma separated facet list, parameter_mask)
+# generate a stream of formatted strings (<facet> <param name>=<param value>)
save_lustre_params() {
- local s
- do_nodesv $1 "lctl get_param $2 | while read s; do echo \\\$s; done"
+ local facets=$1
+ local facet
+ local nodes
+ local node
+
+ for facet in ${facets//,/ }; do
+ node=$(facet_active_host $facet)
+ [[ *\ $node\ * = " $nodes " ]] && continue
+ nodes="$nodes $node"
+
+ do_node $node "$LCTL get_param $2 |
+ while read s; do echo $facet \\\$s; done"
+ done
}
# restore lustre parameters from input stream, produces by save_lustre_params
restore_lustre_params() {
- local node
- local name
- local val
- while IFS=" =" read node name val; do
- do_node ${node//:/} "lctl set_param -n $name $val"
- done
+ local facet
+ local name
+ local val
+
+ while IFS=" =" read facet name val; do
+ do_facet $facet "$LCTL set_param -n $name $val"
+ done
}
check_catastrophe() {
echo $(( init_connect_timeout + at_min ))
}
-wait_osc_import_state() {
+_wait_osc_import_state() {
local facet=$1
local ost_facet=$2
local expected=$3
#until list_param can return valid value. And also if there
#are mulitple osc entries we should list all of them before
#go to wait.
- local params=$($LCTL list_param $param || true)
+ local params=$($LCTL list_param $param 2>/dev/null || true)
while [ -z "$params" ]; do
if [ $i -ge $maxtime ]; then
echo "can't get $param by list_param in $maxtime secs"
fi
sleep 1
i=$((i + 1))
- params=$($LCTL list_param $param || true)
+ params=$($LCTL list_param $param 2>/dev/null || true)
done
- if ! do_rpc_nodes "$(facet_host $facet)" \
+ if ! do_rpc_nodes "$(facet_active_host $facet)" \
wait_import_state $expected "$params" $maxtime; then
error "import is not in ${expected} state"
return 1
return 0
}
+wait_osc_import_state() {
+ local facet=$1
+ local ost_facet=$2
+ local expected=$3
+ local num
+
+ if [[ $facet = mds ]]; then
+ for num in $(seq $MDSCOUNT); do
+ _wait_osc_import_state mds$num "$ost_facet" "$expected"
+ done
+ else
+ _wait_osc_import_state "$facet" "$ost_facet" "$expected"
+ fi
+}
+
get_clientmdc_proc_path() {
echo "${1}-mdc-*"
}
[ -z "$list" ] && return 0
# Add paths to lustre tests for 32 and 64 bit systems.
- local RPATH="PATH=$RLUSTRE/tests:/usr/lib/lustre/tests:/usr/lib64/lustre/tests:$PATH"
+ local LIBPATH="/usr/lib/lustre/tests:/usr/lib64/lustre/tests:"
+ local TESTPATH="$RLUSTRE/tests:"
+ local RPATH="PATH=${TESTPATH}${LIBPATH}${PATH}:/sbin:/bin:/usr/sbin:"
do_nodesv $list "${RPATH} NAME=${NAME} sh rpc.sh $@ "
}
llverfs $partial_arg $llverfs_opts $dir
}
+#Remove objects from OST
+remove_ost_objects() {
+ shift
+ local ostdev=$1
+ local group=$2
+ shift 2
+ local objids="$@"
+ local facet=ost$((OSTIDX + 1))
+ local mntpt=$(facet_mntpt $facet)
+ local opts=$OST_MOUNT_OPTS
+ local i
+ local rc
+
+ echo "removing objects from $ostdev on $facet: $objids"
+ if ! do_facet $facet test -b $ostdev; then
+ opts=$(csa_add "$opts" -o loop)
+ fi
+ mount -t $(facet_fstype $facet) $opts $ostdev $mntpt ||
+ return $?
+ rc=0;
+ for i in $objids; do
+ rm $mntpt/O/$group/d$((i % 32))/$i || { rc=$?; break; }
+ done
+ umount -f $mntpt || return $?
+ return $rc
+}
+
+#Remove files from MDT
remove_mdt_files() {
local facet=$1
local mdtdev=$2
reformat_external_journal || return 5
# step 8: reformat dev
echo "reformat new device"
- add ${SINGLEMDS} $(mkfs_opts ${SINGLEMDS}) --backfstype ldiskfs \
- --reformat $devname > /dev/null || return 6
+ add ${SINGLEMDS} $(mkfs_opts ${SINGLEMDS} ${devname}) --backfstype \
+ ldiskfs --reformat ${devname} $(mdsvdevname 1) > /dev/null ||
+ exit 6
# step 9: mount dev
${rcmd} mount -t ldiskfs $opts $devname $mntpt || return 7
# step 10: restore metadata