ZFS Networker
Backup of ZFS snapshots on Solaris Cluster with Legato/EMC Networker
This describes how to setup a backup of the Solaris Cluster resource group named sample-rg.
The structure of my RGs is always:
RG: <name>-rg ZFS-HASP: <name>-hasp-zfs-res Logical Host: <name>-lh-res Logical Host Name: <name>-lh ZPOOL: <name>_pool
I used the bash as shell.
Define variables used in the following command lines
# NAME=sample
# RGname=${NAME}-rg
# NetworkerGroup=$(echo ${NAME} | tr 'a-z' 'A-Z' )
# ZPOOL=${NAME}_pool
# ZPOOL_BASEDIR=/local/${RGname}
Define a resource for Networker
What we need now is a resource definition in our Networker directory like this:
# mkdir /nsr/{bin,log,res}
# cat > /nsr/res/${NetworkerGroup}.res <<EOF
type: savepnpc;
precmd: "/nsr/bin/nsr_snapshot.sh pre >/nsr/log/networker_precmd.log 2>&1";
pstcmd: "/nsr/bin/nsr_snapshot.sh pst >/nsr/log/networker_pstcmd.log 2>&1";
timeout: "08:00am";
abort precmd with group: Yes;
EOF
The pre-/pstcmd-script
!!!THIS CODE IS UNTESTED DO NOT USE THIS!!!
!!!THIS JUST AN EXAMPLE!!!
#!/bin/bash
cmd_option=$1
export cmd_option
SNAPSHOT_NAME="nsr"
BASE_LOG_DIR="/nsr/logs"
NSR_BACKUP_CLONE="nsr_backup"
# Commands
ZFS_CMD="/usr/sbin/zfs"
ZPOOL_CMD="/usr/sbin/zpool"
ZLOGIN_CMD="/usr/bin/zlogin"
ZONECFG_CMD="/usr/sbin/zonecfg"
DF_CMD="/usr/bin/df"
AWK_CMD="/usr/bin/nawk"
MKNOD_CMD="/usr/sbin/mknod"
PARGS_CMD="/usr/bin/pargs"
PTREE_CMD="/usr/bin/ptree"
CLRS_CMD="/usr/cluster/bin/clrs"
CLRG_CMD="/usr/cluster/bin/clrg"
CLRT_CMD="/usr/cluster/bin/clrt"
BASENAME_CMD="/usr/bin/basename"
GETENT_CMD="/usr/bin/getent"
SCHA_RESOURCE_GET_CMD="/usr/cluster/bin/scha_resource_get"
# Subdir in ZFS where to put ZFS-config
ZFS_SETUP_SUBDIR="cluster_config"
ZFS_CONFIG_FILE=ZFS_Setup.sh
# Oracle parameter
ORACLE_SID=SAMPLE
ORACLE_USER=oracle
GLOBAL_LOGFILE=${BASE_LOG_DIR}/$(${BASENAME_CMD} $0 .sh).log
exec >>${GLOBAL_LOGFILE} 2>&1
function print_option () {
option=$1; shift
# now process line
while [ $# -gt 0 ]
do
case $1 in
${option})
echo $2
shift
shift
;;
*)
shift
;;
esac
done
}
function print_log () {
LOGFILE=$1 ; shift
if [ $# -gt 0 ]
then
printf "%s (%s): %s\n" "$(date '+%Y%m%d %H:%M:%S')" "${cmd_option}" "$*" >> ${LOGFILE}
else
#printf "%s (%s): " "$(date '+%Y%m%d %H:%M:%S')" "${cmd_option}" >> ${LOGFILE}
while read data
do
printf "%s (%s): %s\n" "$(date '+%Y%m%d %H:%M:%S')" "${cmd_option}" "${data}" >> ${LOGFILE}
done
fi
}
function dump_zfs_config {
ZPOOL=$1
OUTPUT_FILE=$2
printf "\n\n# Create ZPool ${ZPOOL} with size $(${ZPOOL_CMD} list -Ho size ${ZPOOL}):\n\n" >> ${OUTPUT_FILE}
${ZPOOL_CMD} status ${ZPOOL} | ${AWK_CMD} '/config:/,/errors:/{if(/NAME/){getline; printf "Zpool structure of %s:\n\nzpool create %s",$1,$1; getline ; device=0; while(!/^$/ && !/errors:/){gsub(/mirror-[0-9]+/,"mirror",$1);gsub(/logs/,"log",$1);gsub(/(\/dev\/(r)*dsk\/)*c[0-9]+t[0-9A-F]+d[0-9]+(s[0-9]+)*/,"<device"device">",$1);if(/device/)device++;printf " %s",$1 ; getline}};printf "\n" ;}' >> ${OUTPUT_FILE}
printf "\n\n# Create ZFS\n\n" >> ${OUTPUT_FILE}
${ZFS_CMD} list -Hrt filesystem -o name,origin ${ZPOOL} | ${AWK_CMD} -v zfs_cmd=${ZFS_CMD} 'NR>1 && $2=="-"{print zfs_cmd,"create -o mountpoint=none",$1}' >> ${OUTPUT_FILE}
printf "\n\n# Set ZFS values\n\n" >> ${OUTPUT_FILE}
${ZFS_CMD} get -s local -Ho name,property,value -pr all ${ZPOOL} | ${AWK_CMD} -v zfs_cmd=${ZFS_CMD} '$2!="readonly"{printf "%s set -p %s=%s %s\n",zfs_cmd,$2,$3,$1}' >> ${OUTPUT_FILE}
}
function dump_cluster_config {
RG=$1
OUTPUT_DIR=$2
${CLRG_CMD} export -o ${OUTPUT_DIR}/${RG}.clrg_export.xml ${RG}
for RES in $(${CLRS_CMD} list -g ${RG})
do
${CLRS_CMD} export -o ${OUTPUT_DIR}/${RES}.clrs_export.xml ${RES}
done
# Commands to recreate the RG
COMMAND_FILE="${OUTPUT_DIR}/${RG}.ClusterCreateCommands.txt"
printf "Recreate %s:\n%s create -i %s %s\n\n" "${RG}" "${CLRG_CMD}" "${OUTPUT_DIR}/${RG}.clrg_export.xml" "${RG}" > ${COMMAND_FILE}
for RT in SUNW.LogicalHostname SUNW.HAStoragePlus SUNW.gds LGTO.clnt
do
for RT_VERSION in $(${CLRT_CMD} list | ${AWK_CMD} -v rt=${RT} '$1 ~ rt')
do
for RES in $(${CLRS_CMD} list -g ${RG} -t ${RT_VERSION})
do
if [ "_${RT}_" == "_SUNW.LogicalHostname_" ]
then
printf "Add the following entries to all nodes!!!:\n/etc/inet/hosts:\n" >> ${COMMAND_FILE}
${GETENT_CMD} hosts $(${CLRS_CMD} show -p HostnameList ${RES} | nawk '$1=="HostnameList:"{$1="";print}') >> ${COMMAND_FILE}
printf "\n" >> ${COMMAND_FILE}
fi
printf "Recreate %s:\n%s create -i %s %s\n\n" "${RES}" "${CLRS_CMD}" "${OUTPUT_DIR}/${RES}.clrs_export.xml" "${RES}" >> ${COMMAND_FILE}
done
done
done
}
function snapshot_pre {
DB=$1
DBUSER=$2
if [ $# -eq 3 -a "_$3_" != "__" ]
then
ZONE=$3
ZONE_CMD="${ZLOGIN_CMD} -l ${DBUSER} ${ZONE}"
ZONE_BASE=$(/usr/sbin/zonecfg -z ${ZONE} info zonepath | ${AWK_CMD} '{print $NF;}')
ZONE_ROOT="${ZONE_BASE}/root"
else
ZONE_ROOT=""
ZONE_CMD="su - ${DBUSER} -c"
fi
if( ${ZONE_CMD} echo >/dev/null 2>&1 )
then
SCRIPT_NAME="tmp/.nsr-pre-snap-script.$$"
# Create script inside zone
cat >${ZONE_ROOT}/{SCRIPT_NAME} <<EOS
#!/bin/bash
DBDIR=\$(${AWK_CMD} -F':' -v ORACLE_SID=${ORACLE_SID} '\$1==ORACLE_SID {print \$2;}' /var/opt/oracle/oratab)
\${DBDIR}/bin/sqlplus sys/${DBUSER} as sysdba << EOF
create pfile from spfile;
alter system archive log current;
alter database backup controlfile to trace;
alter database begin backup;
EOF
EOS
chmod 755 ${ZONE_ROOT}/${SCRIPT_NAME}
${ZONE_CMD} /${SCRIPT_NAME} 2>&1 | print_log ${LOGFILE}
rm -f ${ZONE_ROOT}/${SCRIPT_NAME}
fi
}
function snapshot_pst {
DB=$1
DBUSER=$2
if [ $# -eq 3 -a "_$3_" != "__" ]
then
ZONE=$3
ZONE_CMD="${ZLOGIN_CMD} -l ${DBUSER} ${ZONE}"
ZONE_BASE=$(/usr/sbin/zonecfg -z ${ZONE} info zonepath | ${AWK_CMD} '{print $NF;}')
ZONE_ROOT="${ZONE_BASE}/root"
else
ZONE_ROOT=""
ZONE_CMD="su - ${DBUSER} -c"
fi
if( ${ZONE_CMD} echo >/dev/null 2>&1 )
then
SCRIPT_NAME="tmp/.nsr-pre-snap-script.$$"
# Create script inside zone
cat >${ZONE_ROOT}/{SCRIPT_NAME} <<EOS
#!/bin/bash
DBDIR=\$(${AWK_CMD} -F':' -v ORACLE_SID=${ORACLE_SID} '\$1==ORACLE_SID {print \$2;}' /var/opt/oracle/oratab)
\${DBDIR}/bin/sqlplus sys/${DBUSER} as sysdba << EOF
alter database end backup;
alter system archive log current;
EOF
EOS
chmod 755 ${ZONE_ROOT}/${SCRIPT_NAME}
${ZONE_CMD} /${SCRIPT_NAME} 2>&1 | print_log ${LOGFILE}
rm -f ${ZONE_ROOT}/${SCRIPT_NAME}
fi
}
function snapshot_create {
ZPOOL=$1
SNAPSHOT_NAME=$2
print_log ${LOGFILE} "Create ZFS snapshot -r ${ZPOOL}@${SNAPSHOT_NAME}"
${ZFS_CMD} snapshot -r ${ZPOOL}@${SNAPSHOT_NAME}
for zfs_snapshot in $(${ZFS_CMD} list -Ho name -t snapshot -r ${ZPOOL} | grep ${SNAPSHOT_NAME})
do
${ZFS_CMD} clone -o readonly=on ${zfs_snapshot} ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE}
${ZFS_CMD} mount ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE} 2>/dev/null
if [ "_$(${ZFS_CMD} get -Ho value mounted ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE})_" == "_yes_" ]
then
# echo /usr/sbin/save -s ${SERVER_NAME} -g ${GROUP_NAME} -LL -m ${CLIENT_NAME} $(${ZFS_CMD} get -Ho value mountpoint ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE})
${ZFS_CMD} list -Ho creation,name ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE} | print_log ${LOGFILE}
fi
done
}
function snapshot_destroy {
ZPOOL=$1
SNAPSHOT_NAME=$2
if (${ZFS_CMD} list -t snapshot ${ZPOOL}@${SNAPSHOT_NAME} > /dev/null)
then
for zfs_snapshot in $(${ZFS_CMD} list -Ho name -t snapshot -r ${ZPOOL} | grep ${SNAPSHOT_NAME})
do
if [ "_$(${ZFS_CMD} get -Ho value mounted ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE})_" == "_yes_" ]
then
print_log ${LOGFILE} "Unmount ZFS clone ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE}"
${ZFS_CMD} unmount ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE}
fi
# If this is a clone of ${zfs_snapshot}, then destroy it
if [ "_$(${ZFS_CMD} list -Ho origin ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE})_" == "_${zfs_snapshot}_" ]
then
print_log ${LOGFILE} "Destroy ZFS clone ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE}"
${ZFS_CMD} destroy ${zfs_snapshot/@*/}/${NSR_BACKUP_CLONE}
fi
done
print_log ${LOGFILE} "Destroy ZFS snapshot -r ${ZPOOL}@${SNAPSHOT_NAME}"
${ZFS_CMD} destroy -r ${ZPOOL}@${SNAPSHOT_NAME}
fi
}
function usage {
echo "Usage: $0 (pre|pst)"
echo "Usage: $0 init <ZPool-Name>"
echo "Usage: $0 dump <ZPool-Name> <Output-File>"
exit 1
}
case ${cmd_option} in
pre|pst)
case ${cmd_option} in
pre)
# Get commandline from parent pid
# pre /usr/sbin/savepnpc -c <NetworkerClient> -s <NetworkerServer> -g <NetworkerGroup> -LL
print_log ${GLOBAL_LOGFILE} "Begin (${cmd_option}) Called from $(${PTREE_CMD} $$ | ${AWK_CMD} '/savepnpc/{print $0}')"
pid=$(${PTREE_CMD} $$ | ${AWK_CMD} '/savepnpc/{print $1}')
;;
pst)
# Get commandline from parent pid
# pst /usr/bin/pstclntsave -s <NetworkerServer> -g <NetworkerGroup> -c <NetworkerClient>
print_log ${GLOBAL_LOGFILE} "Begin (${cmd_option}) Called from $(${PTREE_CMD} $$ | ${AWK_CMD} '/pstclntsave/{print $0}')"
pid=$(${PTREE_CMD} $$ | ${AWK_CMD} '/pstclntsave/{print $1}')
;;
esac
commandline="$(${PARGS_CMD} -c ${pid} | ${AWK_CMD} -F':' '$1 ~ /^argv/{printf $2}END{print;}')"
# Called from backupserver use -c
CLIENT_NAME=$(print_option -c ${commandline})
# If called from cmdline use -m
CLIENT_NAME=${CLIENT_NAME:-$(print_option -m ${commandline})}
# Last resort pre/post
CLIENT_NAME=${CLIENT_NAME:-${cmd_option}}
SERVER_NAME=$(print_option -s ${commandline})
GROUP_NAME=$(print_option -g ${commandline})
LOGFILE=${BASE_LOG_DIR}/${CLIENT_NAME}.log
print_log ${LOGFILE} "Called from ${commandline}"
named_pipe=/tmp/.named_pipe.$$
# Delete named pipe on exit
trap "rm -f ${named_pipe}" EXIT
# Create named pipe
${MKNOD_CMD} ${named_pipe} p
# Read from named pipe and send it to print_log
tee <${named_pipe} | print_log ${LOGFILE}&
# Close STDOUT & STDERR
exec 1>&-
exec 2>&-
# Redirect them to named pipe
exec >${named_pipe} 2>&1
print_log ${LOGFILE} "Begin backup of ${CLIENT_NAME}"
# Get resource name from hostname
LH_RES=$(${CLRS_CMD} show -t SUNW.LogicalHostname -p HostnameList | ${AWK_CMD} -v Hostname="${CLIENT_NAME}" '/^Resource:/{res=$NF} /HostnameList:/ {for(i=2;i<=NF;i++){if($i == Hostname){print res}}}')
print_log ${LOGFILE} "LogicalHostname of ${CLIENT_NAME} is ${LH_RES}"
# Get ressourceGroup name from ressource name
RG=$(${SCHA_RESOURCE_GET_CMD} -O GROUP -R ${LH_RES})
print_log ${LOGFILE} "RessourceGroup of ${LH_RES} is ${RG}"
ZPOOLS=$(${CLRS_CMD} show -g ${RG} -p Zpools | ${AWK_CMD} '$1=="Zpools:"{$1="";print $0}')
print_log ${LOGFILE} "ZPools used in ${RG}: ${ZPOOLS}"
Start_command=$(${CLRS_CMD} show -p Start_command -g ${RG} | ${AWK_CMD} -F ':' '$1 ~ /Start_command/ && $2 ~ /sczbt/')
print_log ${LOGFILE} "sczbt Start_command is: ${Start_command}"
sczbt_config=$(print_option -P ${Start_command})/sczbt_$(print_option -R ${Start_command})
print_log ${LOGFILE} "sczbt_config is ${sczbt_config}"
ZONE=$(${AWK_CMD} -F '=' '$1=="Zonename"{gsub(/"/,"",$2);print $2}' ${sczbt_config})
print_log ${LOGFILE} "Zone from ${sczbt_config} is ${ZONE}"
;;
init)
LOGFILE=${BASE_LOG_DIR}/init.log
if [ $# -ne 2 ]
then
echo "Wrong count of parameters."
echo "Use $0 init <ZPool-Name>"
exit 1
fi
ZPOOL=$2
print_log ${GLOBAL_LOGFILE} "Begin (${cmd_option}) of zpool ${ZPOOL}"
print_log ${LOGFILE} "Begin init of zpool ${ZPOOL}"
;;
esac
case ${cmd_option} in
dump_cluster)
if [ $# -ne 3 ]
then
echo "Wrong count of parameters."
echo "Use $0 dump_cluster <Ressource_Group> <DIR>"
exit 1
fi
dump_cluster_config $2 $3
;;
dump)
if [ $# -ne 3 ]
then
echo "Wrong count of parameters."
echo "Use $0 dump <ZPool-Name> <File>"
exit 1
fi
dump_zfs_config $2 $3
;;
init)
snapshot_destroy ${ZPOOL} ${SNAPSHOT_NAME}
snapshot_create ${ZPOOL} ${SNAPSHOT_NAME}
print_log ${LOGFILE} "End init of zpool ${ZPOOL}"
;;
pre)
for ZPOOL in ${ZPOOLS}
do
snapshot_destroy ${ZPOOL} ${SNAPSHOT_NAME}
done
# snapshot_pre ${DB} ${DBUSER} ${ZONE}
# Find the dir to write down zfs-setup
for ZPOOL in ${ZPOOLS}
do
if [ "_$(${ZFS_CMD} list -Ho name ${ZPOOL}/${ZFS_SETUP_SUBDIR} 2>/dev/null)_" != "__" ]
then
CONFIG_DIR=$(${ZFS_CMD} get -Ho value mountpoint ${ZPOOL}/${ZFS_SETUP_SUBDIR})
else
if [ -d $(${ZFS_CMD} get -Ho value mountpoint ${ZPOOL})/${ZFS_SETUP_SUBDIR} ]
then
CONFIG_DIR=$(${ZFS_CMD} get -Ho value mountpoint ${ZPOOL})/${ZFS_SETUP_SUBDIR}
fi
fi
if [ -d ${CONFIG_DIR} ]
then
printf "# Settings for ZFS\n\n" > ${CONFIG_DIR}/${ZFS_CONFIG_FILE}
ZONE_CONFIG_FILE=zonecfg_${ZONE}.export
${ZONECFG_CMD} -z ${ZONE} export > ${CONFIG_DIR}/${ZONE_CONFIG_FILE}
fi
done
for ZPOOL in ${ZPOOLS}
do
if [ "_${CONFIG_DIR}_" != "__" ]
then
dump_zfs_config ${ZPOOL} ${CONFIG_DIR}/${ZFS_CONFIG_FILE}
dump_cluster_config ${RG} ${CONFIG_DIR}
fi
snapshot_create ${ZPOOL} ${SNAPSHOT_NAME}
done
# snapshot_pst ${DB} ${DBUSER} ${ZONE}
print_log ${LOGFILE} "End backup of ${CLIENT_NAME}"
;;
pst)
#for ZPOOL in ${ZPOOLS}
#do
# snapshot_destroy ${ZPOOL} ${SNAPSHOT_NAME}
#done
print_log ${LOGFILE} "End backup of ${CLIENT_NAME}"
;;
*)
usage
;;
esac
print_log ${GLOBAL_LOGFILE} "End (${cmd_option}) Called from:"
${PTREE_CMD} $$ | print_log ${GLOBAL_LOGFILE}
exit 0
MD5-Checksum
# digest -a md5 /nsr/bin/nsr_snapshot.sh
aedff1a8bfa8ee0a012cd7def115e626
!!!THIS CODE IS UNTESTED DO NOT USE THIS!!!
!!!THIS JUST AN EXAMPLE!!!
Restore/Recover
Set some variables
NSR_CLIENT="sample-cl"
NSR_SERVER="nsr-server"
ZPOOL="sample_pool"
RG="${NSR_CLIENT%-cl}-rg"
ZONE="${NSR_CLIENT%-cl}-zone"
Look for a valid backup
# /usr/sbin/mminfo -s ${NSR_SERVER} -o t -N /local/${RG}/cluster_config/nsr_backup
Restore ZFS configuration
# /usr/sbin/recover -s ${NSR_SERVER} -c ${NSR_CLIENT} -d /tmp -a /local/${RG}/cluster_config/nsr_backup/ZFS_Setup.sh
Look into file /tmp/ZFS_Setup.sh which should look like this:
# Create ZPool sample_pool with size 1.02T:
Zpool structure of sample_pool:
zpool create sample_pool mirror <device0> <device1>
# Create ZFS
/usr/sbin/zfs create -o mountpoint=none sample_pool/app
/usr/sbin/zfs create -o mountpoint=none sample_pool/cluster_config
/usr/sbin/zfs create -o mountpoint=none sample_pool/data1
/usr/sbin/zfs create -o mountpoint=none sample_pool/data2
/usr/sbin/zfs create -o mountpoint=none sample_pool/home
/usr/sbin/zfs create -o mountpoint=none sample_pool/log
/usr/sbin/zfs create -o mountpoint=none sample_pool/usr_local
/usr/sbin/zfs create -o mountpoint=none sample_pool/zone
# Set ZFS values
/usr/sbin/zfs set -p reservation=104857600 sample_pool
/usr/sbin/zfs set -p mountpoint=none sample_pool
/usr/sbin/zfs set -p mountpoint=/local/sample-rg/app sample_pool/app
/usr/sbin/zfs set -p mountpoint=/local/sample-rg/cluster_config sample_pool/cluster_config
/usr/sbin/zfs set -p mountpoint=/local/sample-rg/data1 sample_pool/data1
/usr/sbin/zfs set -p mountpoint=/local/sample-rg/data2 sample_pool/data2
/usr/sbin/zfs set -p mountpoint=/local/sample-rg/home sample_pool/home
/usr/sbin/zfs set -p mountpoint=/local/sample-rg/log sample_pool/log
/usr/sbin/zfs set -p mountpoint=/local/sample-rg/usr_local sample_pool/usr_local
/usr/sbin/zfs set -p mountpoint=/local/sample-rg/zone sample_pool/zone
/usr/sbin/zfs set -p zpdata:zn=sample-zone sample_pool/zone
/usr/sbin/zfs set -p zpdata:rbe=S10_U9 sample_pool/zone
/usr/sbin/zfs set -p mountpoint=/local/sample-rg/zone-zfsBE_20121105 sample_pool/zone-zfsBE_20121105
/usr/sbin/zfs set -p zoned=off sample_pool/zone-zfsBE_20121105
/usr/sbin/zfs set -p canmount=on sample_pool/zone-zfsBE_20121105
/usr/sbin/zfs set -p zpdata:zn=sample-zone sample_pool/zone-zfsBE_20121105
/usr/sbin/zfs set -p zpdata:rbe=S10_U9 sample_pool/zone-zfsBE_20121105
Mount the needed ZFS filesystems.
Restore zone configuration
# /usr/sbin/recover -s ${NSR_SERVER} -c ${NSR_CLIENT} -d /tmp -a /local/${RG}/cluster_config/nsr_backup/zonecfg_${ZONE}.export
# zonecfg -z ${ZONE} -f /tmp/zonecfg_${ZONE}.export
# zonecfg -z ${ZONE} info
Restore cluster configuration
# /usr/sbin/recover -s ${NSR_SERVER} -c ${NSR_CLIENT} -d /tmp -a /local/${RG}/cluster_config/nsr_backup/*_export.xml
# /usr/sbin/recover -s ${NSR_SERVER} -c ${NSR_CLIENT} -d /tmp -a /local/${RG}/cluster_config/nsr_backup/*.ClusterCreateCommands.txt
# /usr/bin/perl -pi -e "s#/local/${RG}/cluster_config/nsr_backup/#/tmp/#g" /tmp/${RG}.ClusterCreateCommands.txt
Follow the instructions in /tmp/${RG}.ClusterCreateCommands.txt:
Recreate sample-rg:
/usr/cluster/bin/clrg create -i /tmp/sample-rg.clrg_export.xml sample-rg
Add the following entries to all nodes!!!:
/etc/inet/hosts:
10.29.7.96 sample-cl
Recreate sample-lh-res:
/usr/cluster/bin/clrs create -i /tmp/sample-lh-res.clrs_export.xml sample-lh-res
Recreate sample-hasp-zfs-res:
/usr/cluster/bin/clrs create -i /tmp/sample-hasp-zfs-res.clrs_export.xml sample-hasp-zfs-res
Recreate sample-emctl-res:
/usr/cluster/bin/clrs create -i /tmp/sample-emctl-res.clrs_export.xml sample-emctl-res
Recreate sample-oracle-res:
/usr/cluster/bin/clrs create -i /tmp/sample-oracle-res.clrs_export.xml sample-oracle-res
Recreate sample-zone-res:
/usr/cluster/bin/clrs create -i /tmp/sample-zone-res.clrs_export.xml sample-zone-res
Recreate sample-nsr-res:
/usr/cluster/bin/clrs create -i /tmp/sample-nsr-res.clrs_export.xml sample-nsr-res
Registering new resource type LGTO.clnt
1. Install Solaris client package LGTOclnt 2. Register new resource type in cluster. One one node do:
# clrt register -f /usr/sbin/LGTO.clnt.rtr LGTO.clnt
Now you have a new resource type LGTO.clnt in your cluster.
Create client resource of type LGTO.clnt
So I use scripts like this:
# RGname=sample-rg
# clrs create \
-t LGTO.clnt \
-g ${RGname} \
-p Resource_dependencies=$(basename ${RGname} -rg)-hasp-zfs-res \
-p clientname=$(basename ${RGname} -rg)-lh \
-p Network_resource=$(basename ${RGname} -rg)-lh-res \
-p owned_paths=${ZPOOL_BASEDIR} \
$(basename ${RGname} -rg)-nsr-res
This expands to:
# clrs create \
-t LGTO.clnt \
-g sample-rg \
-p Resource_dependencies=sample-hasp-zfs-res \
-p clientname=sample-lh \
-p Network_resource=sample-lh-res \
-p owned_paths=/local/sample-rg \
sample-nsr-res
Now we have a client name to which we can connect to: sample-lh