#!/bin/ksh # IBM_PROLOG_BEGIN_TAG # This is an automatically generated prolog. # # # # Licensed Materials - Property of IBM # # (C) COPYRIGHT International Business Machines Corp. 1999,2007 # All Rights Reserved # # US Government Users Restricted Rights - Use, duplication or # disclosure restricted by GSA ADP Schedule Contract with IBM Corp. # # IBM_PROLOG_END_TAG # @(#)82 1.30.1.2 src/avs/fs/mmfs/ts/admin/mmfsck.sh, mmfs, avs_rgpfs24, rgpfs24s010a 2/12/07 10:38:18 ######################################################################### # # Usage: # mmfsck Device [-n | -y] [-s | -v | -V] [-c | -o] [-t Directory] # [-N {all | mount | Node[,Node...] | NodeFile | NodeClass}] # ######################################################################### # Include global declarations and service routines. . /usr/lpp/mmfs/bin/mmglobfuncs . /usr/lpp/mmfs/bin/mmsdrfsdef . /usr/lpp/mmfs/bin/mmfsfuncs sourceFile="mmfsck.sh" [[ -n $DEBUG || -n $DEBUGmmfsck ]] && set -x $mmTRACE_ENTER "$*" # Local variables usageMsg=300 integer rc=0 integer nodeCount=0 ###################### # Mainline processing ###################### ##################################################################### # Process the command arguments. # Note that we do not use getopts to check the syntax. tsfsck has some # unorthodox debugging options that cannot be handled with getopts. # The detailed syntax checking is left for the ts command. # Here we make sure that we have the minimum needed to continue. ##################################################################### [[ $arg1 = '-?' || $arg1 = '-h' || $arg1 = '--help' || $arg1 = '--' ]] && \ syntaxError "help" $usageMsg [[ $argc -lt 1 ]] && \ syntaxError "missingArgs" $usageMsg device=$arg1 # Save stripe group device (always the first parameter). shift 1 # Drop the device name from the parameter list. while [[ -n $1 ]] do if [[ $1 = "-N"* ]] then # Intercept the -N parameter. [[ -n $Nflag ]] && syntaxError "multiple" $noUsageMsg "-N" Nflag="-N" if [[ $1 = "-N" ]] then [[ -z $2 ]] && syntaxError "missingValue" $noUsageMsg "-N" Narg="$2" nodeList="$2" shift else Narg=${1#-N} nodeList=${1#-N} fi else # Pass all other parameters to the tsfsck command. argList="$argList $1" fi # end of if [[ $token = "-N"* ]] # Move to the next token [[ -n $1 ]] && shift done # end of while [[ -n $token ]] ##################################################################### # Set up trap exception handling and ensure that the local copy of # the mmsdrfs is up-to-date. There is no need to lock mmsdrfs file. ##################################################################### trap pretrap2 HUP INT QUIT KILL gpfsInitOutput=$(gpfsInit nolock) setGlobalVar $? $gpfsInitOutput ########################################################### # Make sure the specified file system exists and is local. ########################################################### findFSoutput=$(findFS "$device" $mmsdrfsFile) [[ -z $findFSoutput ]] && cleanupAndExit # Parse the output from the findFS function. set -f ; set -- $findFSoutput ; set +f fqDeviceName=$1 deviceName=$2 fsHomeCluster=$3 # Exit with a message if the command was invoked for a remote file system. if [[ $fsHomeCluster != $HOME_CLUSTER ]] then # Command is not allowed for remote file systems. printErrorMsg 106 $mmcmd $device $fsHomeCluster cleanupAndExit fi ####################################################### # If a list of nodes was specified via the -N option, # convert it to a verified list of daemon node names. ####################################################### if [[ -n $Nflag ]] then if [[ $nodeList = all || $nodeList = mount ]] then # Add the keyword ("all" or "mount") to the argList string. argList="$argList -N $nodeList " else # Verify the node list and convert it to a file of daemon node names. createVerifiedNodefile "$nodeList" $DAEMON_NODENAME_Field no $nodefile [[ $? -ne 0 ]] && cleanupAndExit # Convert the output data from a file to a comma-separated list. newNodeList=$(print -- $(cat $nodefile) | $sed 's/ /,/g') # Add the verified node list to the argList string. argList="$argList -N $newNodeList " fi # end of if [[ $nodeList = all || $nodeList = mount ]] fi # end of if [[ -n $Nflag ]] ################################################## # First try to run the command on the local node. ################################################## ${mmcmdDir}/${links}/mmfsck $fqDeviceName $argList rc=$(remapRC $?) # If acceptable error (daemon not running, waiting for quorum), # try some other node. Otherwise, get out; the command either # worked or the errors are not acceptable. if [[ $rc -ne $MM_DaemonDown && $rc -ne $MM_QuorumWait || $MMMODE = single ]] then if [[ $rc -eq $MM_ConnectionReset ]] then # An internode connection was reset. printErrorMsg 257 $mmcmd fi cleanupAndExit $rc fi ############################################################################ # If the local daemon is not available, send the command to an active node. ############################################################################ # Create a file with the reliable names of the nodes in the cluster. nodeCount=$(getNodeFile $REL_HOSTNAME_Field $GLOBAL_ID $mmsdrfsFile $nodefile) [[ $nodeCount = 0 ]] && \ checkForErrors "$mmcmd: No nodes found in the cluster." 1 # Try the nodes one by one until you find a node that can execute the command. preferredNode=0 # We have no idea where to go first; let mmcommon decide. $mmcommon linkCommand $preferredNode $nodefile mmfsck $fqDeviceName $argList rc=$? cleanupAndExit $rc