#!/usr/bin/ksh # CDDL HEADER START # # The contents of this file are subject to the terms of the # Common Development and Distribution License (the "License"). # You may not use this file except in compliance with the License. # # You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE # or http://www.opensolaris.org/os/licensing. # See the License for the specific language governing permissions # and limitations under the License. # # When distributing Covered Code, include this CDDL HEADER in each # file and include the License file at usr/src/OPENSOLARIS.LICENSE. # If applicable, add the following below this CDDL HEADER, with the # fields enclosed by brackets "[]" replaced with your own identifying # information: Portions Copyright [yyyy] [name of copyright owner] # # CDDL HEADER END # # # Copyright 2010 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # typeset -r PROG=$(basename $0) typeset -r CTAG_NULL="-" # # help message # help() { $xopt cluster_configured CLUSTER_CONFIGURED=$? echo "\ usage: $PROG $PROG -i $PROG -e [-r][-p] $PROG -d [-r]" >&2 if [ $CLUSTER_CONFIGURED -eq 1 ]; then echo "\ $PROG -s" >&2 fi echo "\ -i : display information on the Availability Suite services -e : enable Availability Suite services (all, by default) -d : disable Availability Suite services (all, by default) -r : enable/disable Remote Mirror -p : enable Point in Time Copy" >&2 if [ $CLUSTER_CONFIGURED -eq 1 ]; then echo "\ -s : set the location of the cluster configuration database" >&2 fi echo "\ -x : turn on script debugging (may be used with any valid option) When executed with no options or with nothing but -x, $PROG runs in interactive fashion, allowing the user to initialize the local (and if applicable, the cluster) configuration database, and to start the Availability Suite services." >&2 exit 2 } ########################## SET GLOBAL VARIABLES ###################### # root directory PKG_INSTALL_ROOT="" export PKG_INSTALL_ROOT # set lib path LD_LIBRARY_PATH=/usr/lib:/usr/lib export LD_LIBRARY_PATH # set dscfg DSCFG="/usr/sbin/dscfg" export DSCFG # set parser config location PCONFIG="/etc/dscfg_format" export PCONFIG # set local dscfg location export LOCAL_DSCFG="/etc/dscfg_local" # set cluster dscfg reference file export CLUSTER_REF="/etc/dscfg_cluster" # a service that has a dependency on us FS_LOCAL_SVC="svc:/system/filesystem/local" NODELIST="/tmp/nodelist" DSCFGLOCKDCF="/etc/dscfg_lockdb" DSCFG_DEPEND_NOCHK="/tmp/.dscfgadm_pid" # SMF defines MANIFEST_PATH=/lib/svc/manifest/system # SMF services (enable and disable) SMF_ENABLE="nws_scm nws_sv nws_ii nws_rdc nws_rdcsyncd" SMF_DISABLE="nws_rdcsyncd nws_rdc nws_ii nws_sv nws_scm" # state of each service nws_scm_enabled=0 nws_sv_enabled=0 nws_ii_enabled=0 nws_rdc_enabled=0 nws_rdcsyncd_enabled=0 # set path PATH=/usr/bin:/usr/sbin:/sbin/sh export PATH # set architecture ARCH=`uname -p` export ARCH OS_MINOR=`uname -r | cut -d '.' -f2` # number of sectors required for database # 1024*1024*5.5/512 REQUIRED=11264 # must set here, else seen as null in MAIN VALID_DB_ENTERED=0 NO_ARGS=0 # for debugging xopt= # set lengthy message here CLUST_LOC_MESS="The current location is invalid for a Sun StorageTek \ Data Services configuration database. Once a valid location is \ entered (raw slice on \"did\" device), you may upgrade the existing \ database to this new location - following the procedure outlined \ in the Installation and Configuration Guide." ########################## SET GLOBAL VARIABLES ###################### ########################## ERROR #################################### # called with optional error msg $1 # prints basic guidelines for configuration of the database location error() { $xopt echo >&2 echo "INSTALLATION ERROR" >&2 echo "Error: $1" >&2 echo >&2 in_cluster if [ $? -eq 1 ]; then echo "GENERAL INSTALLATION RULES:" >&2 echo "\tBecause you are installing on a cluster," >&2 echo "\tthe database must be located on a raw slice of a did device.">&2 echo "\t e.g. /dev/did/rdsk/d17s1" >&2 fi # let? MB=`expr $REQUIRED / 2 / 1024` echo "\t$REQUIRED sectors ($MB MBs) are required for the database." >&2 } ########################## ERROR #################################### ########################## ALL LOCATION TESTS ######################## # sets numerous environment variables describing the state of the system get_system_state() { $xopt valid_local_dscfg_exists VALID_LOCAL_DB=$? OLD_VALID_LOCAL_DB=$VALID_LOCAL_DB in_cluster IN_CLUSTER=$? cluster_configured CLUSTER_CONFIGURED=$? if [ $IN_CLUSTER = 1 ]; then valid_cluster_dscfg_exists VALID_CLUSTER_DB=$? OLD_VALID_CLUSTER_DB=$VALID_CLUSTER_DB else VALID_CLUSTER_DB=0 fi } # Checks if in cluster # returns 1 if in cluster, else 0 # in_cluster() { $xopt if [ -x /usr/sbin/clinfo ]; then clinfo if [ $? -eq 0 ]; then return 1 else return 0 fi else return 0 fi } # checks if a system is configured as a cluster # returns 1 if configured as a cluster, 0 if not # cluster_configured() { $xopt if [ -f /etc/cluster/nodeid ]; then return 1 else return 0 fi } # Check the list of Sun Cluster device groups known in the dscfg, determing # if they are currently enabled on this Sun Cluster node. If so, fail allowing # the system administator to scswitch them elsewhere. # check_device_groups() { $xopt if [ $VALID_CLUSTER_DB == 1 ]; then DEVICE_GROUPS=`$DSCFG -s $FILE_LOC -l 2>/dev/null | \ grep "^dsvol:" | cut -d' ' -f3 | sort | uniq | xargs` for x in $DEVICE_GROUPS do $DSCFG -D $x 2>/dev/null if [ $? -eq 1 ] then IN_USE="$IN_USE $x" fi done if [ -n "$IN_USE" ] then print "The following Sun Cluster device groups are in use " print "by Availability Suite on this node." print "" print "$IN_USE" print "" print "'scswitch' them to another Sun Cluster node before " print "attempting to disable any data services." return 1 else return 0 fi fi return 0 } # checks to see if this is a char device in the # /dev/did/rdsk directory returns 1 if so. # is_did_device() { $xopt DID=`echo $1 | awk -F/ '{print $3}'` RDSK=`echo $1 | awk -F/ '{print $4}'` if [ "did" = $DID -a "rdsk" = $RDSK -a -c $1 ]; then return 1 else return 0 fi } # # checks size of area for db location # check_size() { $xopt # if in cluster look for d*s* SLICE=`echo $1 | sed -n 's/.*d.*s\(.*\)/\1/p'` SECTORS=`prtvtoc $1 | tr -s ' '| grep "^ $SLICE " | awk '{print $5}'` if [ -z "$SECTORS" ]; then echo "SLICE at $1 not found on this device" return 0 fi # if required size is greater than space available, then fail if [ $REQUIRED -gt $SECTORS ]; then return 0 else return 1 fi } # looks in dscfg_cluster reference file. if a location is configured, # tests to see if it is a valid database. if so, returns 1 # valid_cluster_dscfg_exists() { $xopt if [ -s $CLUSTER_REF ]; then FILE_LOC=`head -1 $CLUSTER_REF` contains_data $FILE_LOC return $? else return 0 fi } # checks for the existence of dscfg_local database, and if it exists, # tests to see if it is a valid database. if so, returns 1 # valid_local_dscfg_exists() { $xopt if [ -s $LOCAL_DSCFG ]; then contains_data $LOCAL_DSCFG return $? else return 0 fi } # used to test if a valid DS config database exists on machine already # MAGIC_STRING is the top line in the config used in v3.1 & v3.2 # contains_data() { $xopt # dscfg distinct strings, varies on the architecture if [ $ARCH = "sparc" ] then MAGIC_STRING="MAGI" elif [ $ARCH = "i386" ] then MAGIC_STRING="IGAM" fi # Create a PID unique temporary file TMP_FILE=/tmp/$$ # Write the first or 16th block (skipping over VTOC) to # the TMP_FILE, then scan for the presence of the "MAGI" # for offset in 0 16 do if [ ! -z "$1" ]; then dd if=$1 of=$TMP_FILE count=1 iseek=$offset 2>/dev/null FILECONTENTS=`strings $TMP_FILE | head -1 2>/dev/null` if [ `echo $FILECONTENTS | grep -c "$MAGIC_STRING"` -gt 0 ]; then rm $TMP_FILE return 1 fi fi done rm $TMP_FILE return 0 } ########################## ALL LOCATION TESTS ######################## ########################## MAIN FUNCTIONS ############################ # since location already has been set, asks what to do now? keeping # it still checks the size (since an upgrade from 3.0 may still be # occuring) and also checks if was an old cluster config on disallowed # /dev/did/dsk directory # # returns: # 0 if cluster location is invalid or the user does not want to keep it # 1 if the location is valid and the user wants to keep it. # keep_it() { $xopt NOTE="\nThe Sun StorageTek Data Services database configuration" NOTE="$NOTE location has already been set." echo $NOTE echo "\nCurrent location: $PKG_INSTALL_ROOT$FILE_LOC" QUEST="Would you like to preserve the existing configuration" QUEST="$QUEST information at its current location? " ANS=`ckyorn -Qd n -p "$QUEST"` case $ANS in y|Y|yes|YES|Yes) #Since the user has said "yes I want to keep this current one" #it may actually be a 3.x database, which only required 4.5mb #space, so now will check that there is room to grow another 1mb" check_location $FILE_LOC if [ $? = 0 ]; then error "$CLUST_LOC_MESS" return 0 else OLD_FILE_LOC=$FILE_LOC FILE_LOC=$NULL return 1 fi ;; *) return 0 ;; esac } # # asks if user wants to keep existing db information, overwrite with # a new db, or view the contents, and be asked again... # returns: # 0 if old location is bad # 1 if old location is good # preserve_overwrite_maybe() { $xopt echo "\nIt appears a valid database configuration exists here already." while true do SAFE_LOC=$FILE_LOC echo "\nWould you like to preserve this information and continue?" echo "\ty - preserve current configuration" echo "\tn - overwrite with new configuration" echo "\tmaybe - view contents of current configuration" ANS=`ckkeywd -Q y n maybe` case $ANS in y) check_location $FILE_LOC if [ $? = 0 ]; then error "$CLUST_LOC_MESS" return 0 else $DSCFG -s "$FILE_LOC" -C $CTAG_NULL >/dev/null 2>&1 OLD_FILE_LOC=$FILE_LOC FILE_LOC=$NULL return 1 fi ;; n) check_location $FILE_LOC if [ $? = 0 ]; then error "$CLUST_LOC_MESS" return 0 else return 1 fi ;; maybe) # print contents of this db config. echo "\nContents of database configuration found at $SAFE_LOC are:" $DSCFG -l -s "$FILE_LOC" | more FILE_LOC=$SAFE_LOC continue ;; esac done } # gets location from user # get_location() { $xopt #Checks for absolute path name, and if file name and file doesn't #exist, creates it. echo "\n\n----------ENTER DATABASE CONFIGURATION LOCATION-----------------" echo "Note: Please ensure this location meets all requirements specified" echo "in the Availability Suite Installation Guide." FILE_LOC=`ckpath -artwQ -p "Enter location:"` if [ $? = 1 ] then exit 1 fi # allow non-root user to access for least privileges chmod 666 $FILE_LOC } # # tests for proper config # # returns: # 0 if bad location # 1 if good location # check_location() { $xopt # set to FILE_LOC LOCATION=$1 did_clust_msg="You are in cluster and $LOCATION is not valid DID device" # Set "actual file location" variable here to equal file location # entered by user because getting here means contains_data was already # successfully called before and now the two can equal each other for # future testing. SAFE_LOC=$FILE_LOC if [ $IN_CLUSTER = 1 -o $CLUSTER_CONFIGURED = 1 ]; then if [ -b "$LOCATION" ] || [ -c "$LOCATION" ]; then is_did_device $LOCATION if [ $? = 0 ]; then error "$did_clust_msg" return 0 fi else error "$did_clust_msg" return 0 fi else echo "Location may not be changed in a non Sun Cluster OE." 2>&1 return 0 fi check_size $LOCATION if [ $? != 1 ]; then error "$LOCATION does not meet minimum space requirement." return 0 else return 1 fi } # # Notifies the user that the SMF services are online, # and gives him the option to disable the services before proceeding. If # the services are not disabled, the program cannot proceed with setting # a new dscfg location. # ask_to_disable() { $xopt echo "\ \nYour services must be disabled before a new configuration location is set.\n" QUEST="Would you like to disable the services now and continue with the" QUEST="$QUEST Availability Suite setup? " ANS=`ckyorn -Qd n -p "$QUEST"` case $ANS in y|Y|yes|YES|Yes) return 1 ;; *) return 0 ;; esac } # # Asks the user if he would like to enable the services now. If so, # import them (if necessary) and enable them. # ask_to_enable() { $xopt echo "\ \nIf you would like to start using the Availability Suite immediately, you may start the SMF services now. You may also choose to start the services later using the $PROG -e command." QUEST="Would you like to start the services now? " ANS=`ckyorn -Qd n -p "$QUEST"` case $ANS in y|Y|yes|YES|Yes) return 1 ;; *) return 0 ;; esac } # # display information about the system # display_info() { $xopt typeset grp_error_flg=0 typeset -L15 svc state en SVC="SERVICE" STATE="STATE" EN="ENABLED" echo "$SVC\t$STATE\t$EN" for i in $SMF_ENABLE do is_imported $i if [ $? = 1 ] then state=`svcprop -c -p restarter/state \ svc:/system/${i}:default` en=`svcprop -c -p general/enabled \ svc:/system/${i}:default` check_fs_local_grouping $i if [ $? -ne 0 ] then svc="${i}***" grp_error_flg=$((grp_error_flg + 1)) else svc=$i fi echo "$svc\t$state\t$en" fi done print "\nAvailability Suite Configuration:" printf "Local configuration database: " if [ $VALID_LOCAL_DB = 1 ] then print "valid" else print "invalid" fi if [ $CLUSTER_CONFIGURED = 1 ] then printf "cluster configuration database: " if [ $VALID_CLUSTER_DB = 1 ] then print "valid" print "cluster configuration location: ${FILE_LOC}" else print "invalid" fi fi if [ $grp_error_flg -gt 0 ] then typeset p typeset p_has if [ $grp_error_flg -gt 1 ] then p="s" p_has="have" else p="" p_has="has" fi printf "\n*** Warning: The service$p above $p_has an incorrect " printf "dependency. To repair the\n" printf "problem, run \"dscfgadm\".\n" fi } # # initialize the local configuration database (only called if none exists) # returns 0 if successful, 1 if failed # initialize_local_db() { $xopt echo "Could not find a valid local configuration database." echo "Initializing local configuration database..." echo y | ${DSCFG} -i > /dev/null 2>&1 ${DSCFG} -i -p ${PCONFIG} > /dev/null 2>&1 # Make sure the new location is initialized properly valid_local_dscfg_exists VALID_LOCAL_DB=$? if [ $VALID_LOCAL_DB != 1 ] then echo "Unable to initialize local configuration database" >&2 return 1 else echo "Successfully initialized local configuration database" fi return 0 } # # initialize the cluster configuration database, if necessary # returns 0 if successful, 1 if failed # initialize_cluster_db() { $xopt if [ ! -n "$FILE_LOC" ] then return 0 fi echo "Initializing cluster configuration database..." ${DSCFG} -s ${FILE_LOC} -C $CTAG_NULL > /dev/null 2>&1 echo y | ${DSCFG} -i -C $CTAG_NULL > /dev/null 2>&1 ${DSCFG} -i -p ${PCONFIG} -C $CTAG_NULL > /dev/null 2>&1 # make sure the cluster db is valid now valid_cluster_dscfg_exists VALID_CLUSTER_DB=$? if [ $VALID_CLUSTER_DB != 1 ] then echo "Unable to initialize cluster configuration database" >&2 return 1 else echo "Successfully initialized cluster configuration database" fi return 0 } # # prompt the user for a config location and set AVS to use that location # set_cluster_config() { $xopt REPEAT=0 while [ $REPEAT -eq 0 ]; do # See if user has entered location already, and it was an existing # db. Retruns FILE_LOC value if [ $VALID_DB_ENTERED = 1 ]; then # reset VALID_DB_ENTERED=0 preserve_overwrite_maybe # if 1, location passes, and FILE_LOC being passed to end, else # set VALID_CLUSTER_DB to 0 since the "valid one" isn't valid anymore # (bad size, etc) thereby when looping go straight to get_location if [ $? = 1 ]; then REPEAT=1 continue else VALID_CLUSTER_DB=0 continue fi fi # if 1, then valid db exists, now see what user wants to do if [ $VALID_CLUSTER_DB = 1 ]; then SAFE_LOC=$FILE_LOC keep_it # if 0, then user can't or won't keep location. set PROMPT # so we will get new location from user. if [ $? = 0 ]; then PROMPT=0 else PROMPT=1 fi fi # if either are 0, then user wants or needs new db as outlined in # earlier comments if [ $VALID_CLUSTER_DB = 0 ] || [ $PROMPT = 0 ]; then # # We cannot proceed if the services are running. Give the user # a chance to stop the services. If he chooses not to, bail. # check_enabled if [ $? = 1 ] then show_enabled ask_to_disable if [ $? = 0 ] then echo "A new configuration location was not set." exit 1 else disable_services if [ $? != 0 ] then exit 1 fi fi fi get_location contains_data $FILE_LOC # if 1, then user entered an existsing db location, loop # back to ask what to do with it if [ $? = 1 ]; then VALID_DB_ENTERED=1 continue else check_location $FILE_LOC # if 0, that means location has failed, loop and # get_location again if [ $? = 0 ]; then VALID_CLUSTER_DB=0 continue fi # entered location passes tests REPEAT=1 continue fi else # user wants to leave location where and how it is # FILE_LOC being passed all the way to end REPEAT=1 continue fi done } ########################## MAIN FUNCTIONS ############################ ######################## SMF HELPER FUNCTIONS ######################## # # check if any SMF service is online (enabled) # check_enabled() { $xopt typeset ret=0 typeset svc for svc in $SMF_ENABLE do is_enabled $svc eval ${svc}_enabled=$? ret=$((ret | ${svc}_enabled)) done return $ret } # # Display which services are enabled. (Must be called after check_enabled) # show_enabled() { $xopt typeset svc echo "\nThe following Availability Suite services are enabled:" for svc in $SMF_ENABLE do if (( ${svc}_enabled == 1 )) then printf "$svc " fi done echo "" } # # check if the given SMF service is online (enabled) # # $1: service name to check for # is_enabled() { $xopt typeset en is_imported $1 if [ $? = 1 ] then en=`svcprop -c -p general/enabled svc:/system/${1}:default` if [ $en = "true" ] then return 1 fi fi return 0 } # # If necessary, flag no dependency check # no_depend_check() { $xopt typeset pid typeset msg=0 if [ $OS_MINOR -lt 11 ] then if [ -f $DSCFG_DEPEND_NOCHK ] then pid=`cat $DSCFG_DEPEND_NOCHK` echo "Another dscfgadm disable is in progress." echo "Waiting for pid: $pid to terminate..." while [ -f $DSCFG_DEPEND_NOCHK ] do if (( msg && (msg % 6 == 0))) then printf "\nAnother dscfgadm disable " printf "(pid: $pid) still appears to " printf " be in progress.\n" printf "If this is not the case, you " printf "may remove " printf "$DSCFG_DEPEND_NOCHK.\n" fi sleep 5 msg=$((msg + 1)) done fi touch $DSCFG_DEPEND_NOCHK echo $$ >> $DSCFG_DEPEND_NOCHK fi } # # If necessary, remove the no dependency check flag # rm_no_depend_check() { $xopt if [ $OS_MINOR -lt 11 ] then rm -f $DSCFG_DEPEND_NOCHK fi } # # set the filesystem/local dependency type and refresh # # $1: service name # $2: either "require_all" or "optional_all" # set_fs_local_grouping() { $xopt typeset svc=$1 typeset dep_group=$2 # set proper dependency type for fs-local if [ $svc != nws_rdcsyncd ]; then svccfg -s $FS_LOCAL_SVC setprop \ ${svc}-local-fs/grouping=$dep_group if [ $? -ne 0 ] then printf "command failed: svccfg -s $FS_LOCAL_SVC " printf "setprop ${svc}-local-fs/grouping=$dep_group " printf ">&2\n" return 1 fi # we need local-fs to know about the new grouping attributes svcadm refresh ${FS_LOCAL_SVC}:default if [ $? -ne 0 ] then print "Failed to refresh ${FS_LOCAL_SVC} >&2" return 1 fi fi return 0 } # # check if the grouping dependency type for filesystem/local is correct # # input: # $1: service name # # returns: # 0 if the setting is correct # 1 if the setting is incorrect # outputs: sets CORRECT_GROUPING with the value of what the grouping should be. # check_fs_local_grouping() { $xopt typeset svc=$1 typeset cur_grouping if [ $svc = nws_rdcsyncd ] then return 0 fi # If it's not imported, we just return success, since we don't want # further processing is_imported $svc if [ $? = 0 ] then return 0 fi # get the current grouping value from the repository cur_grouping=`svcprop -c -p ${svc}-local-fs/grouping $FS_LOCAL_SVC` # Figure out what the grouping should be (based on enabled status) is_enabled $svc if [ $? = 1 ] then CORRECT_GROUPING="require_all" else CORRECT_GROUPING="optional_all" fi if [ "$cur_grouping" != "$CORRECT_GROUPING" ] then # grouping is incorrect return 1 else # grouping is just fine return 0 fi } # # enable/disable the given SMF service. Also, update the filesystem-local # dependency, if appropriate. # # $1: service name to check for # $2: "enable" or "disable" # svc_operation() { $xopt typeset svc=$1 typeset command=$2 typeset enable_state typeset dep_group # If disabling, then enable_state better be true, and we are # transitioning to "option_all" grouping if [ $command = "disable" ] then enable_state=1 dep_group="optional_all" # If enabling, then enable_state better be false, and we are # transitioning to "require_all" grouping elif [ $command = "enable" ] then enable_state=0 dep_group="require_all" else echo "invalid command: $command" >&2 fi is_imported $svc if [ $? = 1 ] then is_enabled $svc if [ $? = $enable_state ] then if [ $enable_state -eq 1 ] then # we're doing a disable--remove hard dependency set_fs_local_grouping $svc $dep_group if [ $? -ne 0 ] then return 1 fi fi svcadm $command -s svc:/system/$svc if [ $? != 0 ] then echo "$svc failed to $command" >&2 return 1 fi if [ $enable_state -eq 0 ] then # we just did an enable--create hard dependency set_fs_local_grouping $svc $dep_group if [ $? -ne 0 ] then return 1 fi fi else echo "$svc service already ${command}d... skipping" fi fi return 0 } # # This chart summarizes the behavior of the -r and -p sub-options for the # -e and -d options. # There are 5 possible states, and 5 transitions out of each state. # # states: (vertical axis) # ------- # 0: no services enabled # C: one or both core services enabled (illegal state) # R: both core services and RM services enabled # P: both core services and PITC service enabled # A: all services enabled # # transitions: (horizontal axis) # ------------ # +/-a: enable/disable, respectively, with neither -r nor -p # +/-r: enable/disable, respectively, with -r flag # +p: enable with -p flag # # The result of the function is the next state after the action has been # successfully performed. # # +a | -a | +r | -r | +p | # ++----+----+----+----+----+ # ++----+----+----+----+----+ # 0 || A | 0* | R | 0* | P | # --++----+----+----+----+----+ # C || A* | 0* | R | 0 | P | # --++----+----+----+----+----+ # R || A* | 0* | R* | 0 | A | # --++----+----+----+----+----+ # P || A* | 0* | A* | P* | P* | # --++----+----+----+----+----+ # A || A* | 0 | A* | P | A* | # --++----+----+----+----+----+ # # *: warning message is displayed, stating that a service is already # enabled/disabled. # # enable the SMF services needed for the Availability Suite # enable_services() { $xopt typeset svc # first, import them if they have not yet been imported import_services # if neither r_flag nor p_flag is set, enable all services if (( (r_flag | p_flag) == 0 )) then for svc in $SMF_ENABLE do if ! svc_operation $svc enable then return 1 fi done else # figure out which services are enabled check_enabled # First, make sure both core services are enabled for svc in nws_scm nws_sv do if (( ${svc}_enabled == 0 )) && \ ! svc_operation $svc enable then return 1 fi done if ((p_flag)) then if ! svc_operation nws_ii enable then return 1 fi fi if ((r_flag)) then for svc in nws_rdc nws_rdcsyncd do if ! svc_operation $svc enable then return 1 fi done fi fi return 0 } # # disable the SMF services needed for the Availability Suite # disable_services() { $xopt typeset svc check_device_groups if [ $? == 1 ] then return 1 fi # This flags the shutdown scripts to not check to make sure the # services' dependents have been disabled. The flag must be removed # before returning from this function. no_depend_check # NB: p_flag is not allowed for disables. II should not be # disabled if sndr is enabled. If rdc is not enabled, disabling just # II is equivalent to disabling all the remaining services. # If no flags passed in, just disable everything if (( r_flag == 0 )) then for svc in $SMF_DISABLE do if ! svc_operation $svc disable then rm_no_depend_check return 1 fi done # Now that we've disable the services, lets unload them # from the Solaris kernel # modinfo | grep '(nws:' | grep -v "kRPC Stub" | sort -r | cut -d' ' -f1 | xargs -l modunload -i 2>/dev/null modinfo | grep '(nws:' | grep -v "kRPC Stub" | sort -r | cut -d' ' -f1 | xargs -l modunload -i 2>/dev/null else # we're disabling just rdc. If II is not already enabled, # we disable core services, as well. # figure out which services are enabled check_enabled for svc in nws_rdcsyncd nws_rdc do if ! svc_operation $svc disable then rm_no_depend_check return 1 fi done if (( nws_ii_enabled == 0 )) then for svc in nws_sv nws_scm do if ((${svc}_enabled)) && \ ! svc_operation $svc disable then rm_no_depend_check return 1 fi done fi fi rm_no_depend_check return 0 } # # check if a service has been imported into the repository # $1: service to check # returns 1 if it is imported, 0 if it is not # is_imported() { $xopt typeset svc=$1 svcprop -q -p general/entity_stability svc:/system/${svc} if [ $? = 1 ] then return 0 else return 1 fi } # # import the SMF services into the repository, if necessary # import_services() { $xopt typeset svc for svc in $SMF_ENABLE do import_service $svc done } # # check to see if an SMF service is in the repository. If it is not, # import it in. # $1: name of service to import # import_service() { $xopt typeset svc=$1 is_imported $svc if [ $? = 0 ] then if [ -f $PKG_INSTALL_ROOT/$MANIFEST_PATH/$svc.xml ] then svccfg import $PKG_INSTALL_ROOT/$MANIFEST_PATH/$svc.xml if [ $OS_MINOR -lt 11 ] then # workaround for 6221374--let local-fs know # that it depends on us. svcadm refresh ${FS_LOCAL_SVC}:default fi fi fi } ########################## MAIN ###################################### # getopt processing enable=0 disable=0 set_location=0 get_info=0 r_flag=0 p_flag=0 while getopts "xedsirp" opt 2>/dev/null do case $opt in \?) help ;; e) enable=1 ;; d) disable=1 ;; x) xopt="set -x" set -x ;; s) set_location=1 ;; i) get_info=1 ;; r) r_flag=1 ;; p) p_flag=1 ;; esac done # at most one option (besides -x) may be specified at a time options_count=$((enable + disable + set_location + get_info)) if [ $options_count -gt 1 ] then help elif [ $options_count = 0 ] then NO_ARGS=1 fi if (( ((r_flag + p_flag) > 0) && ((enable | disable) == 0) )) then echo "-r and -p options may only be used with -d or -e options" >&2 return 1 elif (( p_flag && disable )) then echo "The -p option may not be used with the -d option" >&2 return 1 fi # set all the system information variables get_system_state # if we're enabling, we need to make sure we have a valid dscfg out there. if [ $enable = 1 -a $VALID_LOCAL_DB != 1 ] then echo "Cannot find a valid configuration database" >&2 return 1 fi if [ $NO_ARGS = 1 ] then # only initialize the database if necessary if [ $VALID_LOCAL_DB = 1 ]; then echo "Local configuration database is already initialized." else initialize_local_db if [ $? != 0 ]; then return 1 fi fi if [ $CLUSTER_CONFIGURED = 1 ] then if [ $VALID_CLUSTER_DB = 1 ]; then printf "Cluster configuration database is already " printf "initialized.\n" else # ask the user for a cluster database location set_cluster_config # initialize the new db initialize_cluster_db if [ $? != 0 ]; then return 1 fi fi fi # make sure that the local filesystem dependency type is correct for svc in $SMF_ENABLE do check_fs_local_grouping $svc if [ $? -ne 0 ] then # NOTE: check_fs_local_grouping sets CORRECT_GROUPING # To avoid this issue in the future, always administer # the services using dscfgadm. printf "Warning: Fixing dependency for $svc.\n" set_fs_local_grouping $svc $CORRECT_GROUPING if [ $? -ne 0 ] then return 1 fi fi done # give the user the chance to startup AVS services, if not started check_enabled if [ $? = 1 ]; then if [ $OLD_VALID_LOCAL_DB = 0 ]; then printf "WARNING: AVS services are running on a system " printf "which had no valid configuration\ndatabase\n" fi show_enabled else ask_to_enable if [ $? = 1 ]; then enable_services if [ $? != 0 ] then return 1 fi fi fi elif [ $enable = 1 ] then enable_services if [ $? != 0 ] then return 1 fi elif [ $disable = 1 ] then disable_services if [ $? != 0 ] then return 1 fi elif [ $get_info = 1 ] then display_info elif [ $set_location = 1 ] then if [ $CLUSTER_CONFIGURED = 1 ] then # ask the user for a cluster database location set_cluster_config # initialize the new db initialize_cluster_db if [ $? != 0 ]; then return 1 fi else echo "$PROG -s is only available on Sun Cluster OE systems" >&2 return 1 fi fi return 0 ########################## MAIN ######################################