Linux server.jmdstrack.com 3.10.0-1160.119.1.el7.tuxcare.els10.x86_64 #1 SMP Fri Oct 11 21:40:41 UTC 2024 x86_64
/ usr/ bin/ |
|
#!/bin/bash # Skript to rescan SCSI bus, using the # scsi add-single-device mechanism # (c) 1998--2010 Kurt Garloff <kurt@garloff.de>, GNU GPL v2 or v3 # (c) 2006--2013 Hannes Reinecke, GNU GPL v2 or later # $Id: rescan-scsi-bus.sh,v 1.57 2012/03/31 14:08:48 garloff Exp $ SCAN_WILD_CARD=4294967295 setcolor () { red="\e[0;31m" green="\e[0;32m" yellow="\e[0;33m" bold="\e[0;1m" norm="\e[0;0m" } unsetcolor () { red=""; green="" yellow=""; norm="" } echo_debug() { if [ $debug -eq 1 ] ; then echo "$1" fi } # Output some text and return cursor to previous position # (only works for simple strings) # Stores length of string in LN and returns it print_and_scroll_back () { STRG="$1" LN=${#STRG} BK="" declare -i cntr=0 while test $cntr -lt $LN; do BK="$BK\e[D"; let cntr+=1; done echo -en "$STRG$BK" return $LN } # Overwrite a text of length $1 (fallback to $LN) with whitespace white_out () { BK=""; WH="" if test -n "$1"; then LN=$1; fi declare -i cntr=0 while test $cntr -lt $LN; do BK="$BK\e[D"; WH="$WH "; let cntr+=1; done echo -en "$WH$BK" } # Return hosts. sysfs must be mounted findhosts_26 () { hosts=`find /sys/class/scsi_host/host* -maxdepth 4 -type d -o -type l 2> /dev/null | awk -F'/' '{print $5}' | sed -e 's~host~~' | sort -nu` scsi_host_data=`echo "$hosts" | sed -e 's~^~/sys/class/scsi_host/host~'` for hostdir in $scsi_host_data; do hostno=${hostdir#/sys/class/scsi_host/host} if [ -f $hostdir/isp_name ] ; then hostname="qla2xxx" elif [ -f $hostdir/lpfc_drvr_version ] ; then hostname="lpfc" else hostname=`cat $hostdir/proc_name` fi #hosts="$hosts $hostno" echo_debug "Host adapter $hostno ($hostname) found." done if [ -z "$hosts" ] ; then echo "No SCSI host adapters found in sysfs" exit 1; fi # Not necessary just use double quotes around variable to preserve new lines #hosts=`echo $hosts | tr ' ' '\n'` } # Return hosts. /proc/scsi/HOSTADAPTER/? must exist findhosts () { hosts= for driverdir in /proc/scsi/*; do driver=${driverdir#/proc/scsi/} if test $driver = scsi -o $driver = sg -o $driver = dummy -o $driver = device_info; then continue; fi for hostdir in $driverdir/*; do name=${hostdir#/proc/scsi/*/} if test $name = add_map -o $name = map -o $name = mod_parm; then continue; fi num=$name driverinfo=$driver if test -r $hostdir/status; then num=$(printf '%d\n' `sed -n 's/SCSI host number://p' $hostdir/status`) driverinfo="$driver:$name" fi hosts="$hosts $num" echo "Host adapter $num ($driverinfo) found." done done } printtype () { local type=$1 case "$type" in 0) echo "Direct-Access " ;; 1) echo "Sequential-Access" ;; 2) echo "Printer " ;; 3) echo "Processor " ;; 4) echo "WORM " ;; 5) echo "CD-ROM " ;; 6) echo "Scanner " ;; 7) echo "Optical Device " ;; 8) echo "Medium Changer " ;; 9) echo "Communications " ;; 10) echo "Unknown " ;; 11) echo "Unknown " ;; 12) echo "RAID " ;; 13) echo "Enclosure " ;; 14) echo "Direct-Access-RBC" ;; *) echo "Unknown " ;; esac } print02i() { if [ "$1" = "*" ] ; then echo "00" else printf "%02i" "$1" fi } # Get /proc/scsi/scsi info for device $host:$channel:$id:$lun # Optional parameter: Number of lines after first (default = 2), # result in SCSISTR, return code 1 means empty. procscsiscsi () { if test -z "$1"; then LN=2; else LN=$1; fi CHANNEL=`print02i "$channel"` ID=`print02i "$id"` LUN=`print02i "$lun"` if [ -d /sys/class/scsi_device ]; then SCSIPATH="/sys/class/scsi_device/${host}:${channel}:${id}:${lun}" if [ -d "$SCSIPATH" ] ; then SCSISTR="Host: scsi${host} Channel: $CHANNEL Id: $ID Lun: $LUN" if [ "$LN" -gt 0 ] ; then IVEND=$(cat ${SCSIPATH}/device/vendor) IPROD=$(cat ${SCSIPATH}/device/model) IPREV=$(cat ${SCSIPATH}/device/rev) SCSIDEV=$(printf ' Vendor: %-08s Model: %-16s Rev: %-4s' "$IVEND" "$IPROD" "$IPREV") SCSISTR="$SCSISTR $SCSIDEV" fi if [ "$LN" -gt 1 ] ; then ILVL=$(cat ${SCSIPATH}/device/scsi_level) type=$(cat ${SCSIPATH}/device/type) ITYPE=$(printtype $type) SCSITMP=$(printf ' Type: %-16s ANSI SCSI revision: %02d' "$ITYPE" "$((ILVL - 1))") SCSISTR="$SCSISTR $SCSITMP" fi else return 1 fi else grepstr="scsi$host Channel: $CHANNEL Id: $ID Lun: $LUN" SCSISTR=`cat /proc/scsi/scsi | grep -A$LN -e"$grepstr"` fi if test -z "$SCSISTR"; then return 1; else return 0; fi } # Find sg device with 2.6 sysfs support sgdevice26 () { if test -e /sys/class/scsi_device/$host\:$channel\:$id\:$lun/device/generic; then SGDEV=`readlink /sys/class/scsi_device/$host\:$channel\:$id\:$lun/device/generic` SGDEV=`basename $SGDEV` else for SGDEV in /sys/class/scsi_generic/sg*; do DEV=`readlink $SGDEV/device` if test "${DEV##*/}" = "$host:$channel:$id:$lun"; then SGDEV=`basename $SGDEV`; return fi done SGDEV="" fi } # Find sg device with 2.4 report-devs extensions sgdevice24 () { if procscsiscsi 3; then SGDEV=`echo "$SCSISTR" | grep 'Attached drivers:' | sed 's/^ *Attached drivers: \(sg[0-9]*\).*/\1/'` fi } # Find sg device that belongs to SCSI device $host $channel $id $lun # and return in SGDEV sgdevice () { SGDEV= if test -d /sys/class/scsi_device; then sgdevice26 else DRV=`grep 'Attached drivers:' /proc/scsi/scsi 2>/dev/null` repdevstat=$((1-$?)) if [ $repdevstat = 0 ]; then echo "scsi report-devs 1" >/proc/scsi/scsi DRV=`grep 'Attached drivers:' /proc/scsi/scsi 2>/dev/null` if [ $? = 1 ]; then return; fi fi if ! `echo $DRV | grep 'drivers: sg' >/dev/null`; then modprobe sg fi sgdevice24 if [ $repdevstat = 0 ]; then echo "scsi report-devs 0" >/proc/scsi/scsi fi fi } # Test if SCSI device is still responding to commands # Return values: # 0 device is present # 1 device has changed # 2 device has been removed testonline () { : testonline RC=0 if test ! -x /usr/bin/sg_turs; then return 0; fi sgdevice if test -z "$SGDEV"; then return 0; fi sg_turs /dev/$SGDEV &>/dev/null RC=$? # Handle in progress of becoming ready and unit attention -- wait at max 11s declare -i ctr=0 if test $RC = 2 -o $RC = 6; then RMB=`sg_inq /dev/$SGDEV | grep 'RMB=' | sed 's/^.*RMB=\(.\).*$/\1/'` print_and_scroll_back "$host:$channel:$id:$lun $SGDEV ($RMB) " fi while test $RC = 2 -o $RC = 6 && test $ctr -le 8; do if test $RC = 2 -a "$RMB" != "1"; then echo -n "."; let LN+=1; sleep 1 else usleep 20000; fi let ctr+=1 sg_turs /dev/$SGDEV &>/dev/null RC=$? done if test $ctr != 0; then white_out; fi # echo -e "\e[A\e[A\e[A${yellow}Test existence of $SGDEV = $RC ${norm} \n\n\n" if test $RC = 1; then return $RC; fi # Reset RC (might be !=0 for passive paths) RC=0 # OK, device online, compare INQUIRY string INQ=`sg_inq $sg_len_arg /dev/$SGDEV 2>/dev/null` IVEND=`echo "$INQ" | grep 'Vendor identification:' | sed 's/^[^:]*: \(.*\)$/\1/'` IPROD=`echo "$INQ" | grep 'Product identification:' | sed 's/^[^:]*: \(.*\)$/\1/'` IPREV=`echo "$INQ" | grep 'Product revision level:' | sed 's/^[^:]*: \(.*\)$/\1/'` STR=`printf " Vendor: %-08s Model: %-16s Rev: %-4s" "$IVEND" "$IPROD" "$IPREV"` IPTYPE=`echo "$INQ" | sed -n 's/.* Device_type=\([0-9]*\) .*/\1/p'` IPQUAL=`echo "$INQ" | sed -n 's/ *PQual=\([0-9]*\) Device.*/\1/p'` if [ "$IPQUAL" != 0 ] ; then echo -e "\e[A\e[A\e[A\e[A${red}$SGDEV changed: ${bold}LU not available (PQual $IPQUAL)${norm} \n\n\n" return 2 fi TYPE=$(printtype $IPTYPE) if ! procscsiscsi ; then echo -e "\e[A\e[A\e[A\e[A${red}$SGDEV removed.\n\n\n" return 2 fi TMPSTR=`echo "$SCSISTR" | grep 'Vendor:'` if test $ignore_rev -eq 0 ; then if [ "$TMPSTR" != "$STR" ]; then echo -e "\e[A\e[A\e[A\e[A${red}$SGDEV changed: ${bold}\nfrom:${SCSISTR#* } \nto: $STR ${norm} \n\n\n" return 1 fi else # Ignore disk revision change local old_str_no_rev=`echo "$TMPSTR" | sed -e 's/.\{4\}$//'` local new_str_no_rev=`echo "$STR" | sed -e 's/.\{4\}$//'` if [ "$old_str_no_rev" != "$new_str_no_rev" ]; then echo -e "\e[A\e[A\e[A\e[A${red}$SGDEV changed: ${bold}\nfrom:${SCSISTR#* } \nto: $STR ${norm} \n\n\n" return 1 fi fi TMPSTR=`echo "$SCSISTR" | sed -n 's/.*Type: *\(.*\) *ANSI.*/\1/p'` NTMPSTR="$(sed -e 's/[[:space:]]*$//' -e 's/^[[:space:]]*//' <<<${TMPSTR})" NTYPE="$(sed -e 's/[[:space:]]*$//' -e 's/^[[:space:]]*//' <<<${TYPE})" if [ "$NTMPSTR" != "$NTYPE" ] ; then echo -e "\e[A\e[A\e[A\e[A${red}$SGDEV changed: ${bold}\nfrom:${TMPSTR} \nto: $TYPE ${norm} \n\n\n" return 1 fi return $RC } # Test if SCSI device $host $channen $id $lun exists # Outputs description from /proc/scsi/scsi (unless arg passed) # Returns SCSISTR (empty if no dev) testexist () { : testexist SCSISTR= if procscsiscsi && test -z "$1"; then echo "$SCSISTR" | head -n1 echo "$SCSISTR" | tail -n2 | pr -o4 -l1 fi } # Returns the list of existing channels per host chanlist () { local hcil local cil local chan local tmpchan for dev in /sys/class/scsi_device/${host}:* ; do [ -d $dev ] || continue; hcil=${dev##*/} cil=${hcil#*:} chan=${cil%%:*} for tmpchan in $channelsearch ; do if test "$chan" -eq $tmpchan ; then chan= fi done if test -n "$chan" ; then channelsearch="$channelsearch $chan" fi done if test -z "$channelsearch"; then channelsearch="0"; fi } # Returns the list of existing targets per host idlist () { local hcil local target local tmpid local newid idsearch=$(ls /sys/class/scsi_device/ | sed -n "s/${host}:${channel}:\([0-9]*\):[0-9]*/\1/p" | uniq) echo "${channel} - -" > /sys/class/scsi_host/host${host}/scan # Rescan to check if we found new targets newsearch=$(ls /sys/class/scsi_device/ | sed -n "s/${host}:${channel}:\([0-9]*\):[0-9]*/\1/p" | uniq) for id in $newsearch ; do newid=$id for tmpid in $idsearch ; do if test $id -eq $tmpid ; then newid= break fi done if test -n "$newid" ; then id=$newid for dev in /sys/class/scsi_device/${host}:${channel}:${newid}:* ; do [ -d $dev ] || continue; hcil=${dev##*/} lun=${hcil##*:} printf "\r${green}NEW: $norm" testexist if test "$SCSISTR" ; then incrfound "$hcil" fi done fi done } # Returns the list of existing LUNs from device $host $channel $id $lun # and returns list to stdout getluns() { sgdevice if test -z "$SGDEV"; then return 1; fi if test ! -x /usr/bin/sg_luns; then echo 0; return 1; fi LLUN=`sg_luns /dev/$SGDEV 2>/dev/null | sed -n 's/ \(.*\)/\1/p'` # Added -z $LLUN condition because $? gets the RC from sed, not sg_luns if test $? != 0 -o -z "$LLUN"; then echo 0; return 1; fi for lun in $LLUN ; do # Swap LUN number l0=$(printf '%u' 0x$lun) l1=$(( ($l0 >> 48) & 0xffff )) l2=$(( ($l0 >> 32) & 0xffff )) l3=$(( ($l0 >> 16) & 0xffff )) l4=$(( $l0 & 0xffff )) l0=$(( ( ( ($l4 * 0xffff) + $l3 ) * 0xffff + $l2 ) * 0xffff + $l1 )) printf "%u\n" $l0 done return 0 } # Wait for udev to settle (create device nodes etc.) udevadm_settle() { if test -x /sbin/udevadm; then print_and_scroll_back " Calling udevadm settle (can take a while) " /sbin/udevadm settle white_out elif test -x /sbin/udevsettle; then print_and_scroll_back " Calling udevsettle (can take a while) " /sbin/udevsettle white_out else usleep 20000 fi } # Perform scan on a single lun $host $channel $id $lun dolunscan() { local remappedlun0= SCSISTR= devnr="$host $channel $id $lun" echo -e " Scanning for device $devnr ... " printf "${yellow}OLD: $norm" testexist # Device exists: Test whether it's still online # (testonline returns 2 if it's gone and 1 if it has changed) if test "$SCSISTR" ; then testonline RC=$? # Well known lun transition case. Only for Direct-Access devs (type 0) # If block directory exists && and PQUAL != 0, we unmapped lun0 and just have a well-known lun # If block directory doesn't exist && PQUAL == 0, we mapped a real lun0 if test $lun -eq 0 -a $IPTYPE -eq 0 ; then if test $RC = 2 ; then if test -e /sys/class/scsi_device/${host}:${channel}:${id}:${lun}/device; then if test -d /sys/class/scsi_device/${host}:${channel}:${id}:${lun}/device/block ; then remappedlun0=2 # Transition from real lun 0 to well-known else RC=0 # Set this so the system leaves the existing well known lun alone. This is a lun 0 with no block directory fi fi elif test $RC = 0 -a $IPTYPE -eq 0; then if test -e /sys/class/scsi_device/${host}:${channel}:${id}:${lun}/device; then if test ! -d /sys/class/scsi_device/${host}:${channel}:${id}:${lun}/device/block ; then remappedlun0=1 # Transition from well-known to real lun 0 fi fi fi fi fi # Special case: lun 0 just got added (for reportlunscan), # so make sure we correctly treat it as new if test "$lun" = "0" -a "$1" = "1" -a -z "$remappedlun0"; then SCSISTR="" printf "\r\e[A\e[A\e[A" fi : f $remove s $SCSISTR if test "$remove" -a "$SCSISTR" -o "$remappedlun0" = "1"; then if test $RC != 0 -o ! -z "$forceremove" -o -n "$remappedlun0"; then if test "$remappedlun0" != "1" ; then echo -en "\r\e[A\e[A\e[A${red}REM: " echo "$SCSISTR" | head -n1 echo -e "${norm}\e[B\e[B" fi if test -e /sys/class/scsi_device/${host}:${channel}:${id}:${lun}/device; then # have to preemptively do this so we can figure out the mpath device # Don't do this if we're deleting a well known lun to replace it if test "$remappedlun0" != "1" ; then incrrmvd "$host:$channel:$id:$lun" fi echo 1 > /sys/class/scsi_device/${host}:${channel}:${id}:${lun}/device/delete usleep 20000 else echo "scsi remove-single-device $devnr" > /proc/scsi/scsi if test $RC -eq 1 -o $lun -eq 0 ; then # Try readding, should fail if device is gone echo "scsi add-single-device $devnr" > /proc/scsi/scsi fi fi fi if test $RC = 0 -o "$forcerescan" ; then if test -e /sys/class/scsi_device/${host}:${channel}:${id}:${lun}/device; then echo 1 > /sys/class/scsi_device/${host}:${channel}:${id}:${lun}/device/rescan fi fi printf "\r\e[A\e[A\e[A${yellow}OLD: $norm" testexist if test -z "$SCSISTR" -a $RC != 1 -a "$remappedlun0" != "1"; then printf "\r${red}DEL: $norm\r\n\n" # In the event we're replacing with a well known node, we need to let it continue, to create the replacement node test "$remappedlun0" != "2" && return 1 fi fi if test -z "$SCSISTR" -o -n "$remappedlun0"; then if test "$remappedlun0" != "2" ; then # Device does not exist, try to add printf "\r${green}NEW: $norm" fi if test -e /sys/class/scsi_host/host${host}/scan; then echo "$channel $id $lun" > /sys/class/scsi_host/host${host}/scan 2> /dev/null else echo "scsi add-single-device $devnr" > /proc/scsi/scsi fi testexist if test -z "$SCSISTR"; then # Device not present printf "\r\e[A"; # Optimization: if lun==0, stop here (only if in non-remove mode) if test $lun = 0 -a -z "$remove" -a $optscan = 1; then break; fi else if test "$remappedlun0" != "2" ; then incrfound "$host:$channel:$id:$lun" fi fi fi } # Perform report lun scan on $host $channel $id using REPORT_LUNS doreportlun() { lun=0 SCSISTR= devnr="$host $channel $id $lun" echo -en " Scanning for device $devnr ...\r" lun0added= #printf "${yellow}OLD: $norm" # Phase one: If LUN0 does not exist, try to add testexist -q if test -z "$SCSISTR"; then # Device does not exist, try to add #printf "\r${green}NEW: $norm" if test -e /sys/class/scsi_host/host${host}/scan; then echo "$channel $id $lun" > /sys/class/scsi_host/host${host}/scan 2> /dev/null udevadm_settle else echo "scsi add-single-device $devnr" > /proc/scsi/scsi fi testexist -q if test -n "$SCSISTR"; then lun0added=1 #testonline else # Device not present # return # Find alternative LUN to send getluns to for dev in /sys/class/scsi_device/${host}:${channel}:${id}:*; do [ -d "$dev" ] || continue lun=${dev##*:} break done fi fi targetluns=`getluns` REPLUNSTAT=$? lunremove= #echo "getluns reports " $targetluns olddev=`find /sys/class/scsi_device/ -name $host:$channel:$id:* 2>/dev/null` oldluns=`echo "$olddev" | awk -F'/' '{print $5}' | awk -F':' '{print $4}'` oldtargets="$targetluns" # OK -- if we don't have a LUN to send a REPORT_LUNS to, we could # fall back to wildcard scanning. Same thing if the device does not # support REPORT_LUNS # TODO: We might be better off to ALWAYS use wildcard scanning if # it works if test "$REPLUNSTAT" = "1"; then if test -e /sys/class/scsi_host/host${host}/scan; then echo "$channel $id -" > /sys/class/scsi_host/host${host}/scan 2> /dev/null udevadm_settle else echo "scsi add-single-device $host $channel $id $SCAN_WILD_CARD" > /proc/scsi/scsi fi targetluns=`find /sys/class/scsi_device/ -name $host:$channel:$id:* 2>/dev/null | awk -F'/' '{print $5}' | awk -F':' '{print $4}' | sort -n` let found+=`echo "$targetluns" | wc -l` let found-=`echo "$olddev" | wc -l` fi if test -z "$targetluns"; then targetluns="$oldtargets"; fi # Check existing luns for dev in $olddev; do [ -d "$dev" ] || continue lun=${dev##*:} newsearch= inlist= # OK, is existing $lun (still) in reported list for tmplun in $targetluns; do if test $tmplun -eq $lun ; then inlist=1 dolunscan $lun0added else newsearch="$newsearch $tmplun" fi done # OK, we have now done a lunscan on $lun and # $newsearch is the old $targetluns without $lun if [ -z "$inlist" ]; then # Stale lun lunremove="$lunremove $lun" fi # $lun removed from $lunsearch (echo for whitespace cleanup) targetluns=`echo $newsearch` done # Add new ones and check stale ones for lun in $targetluns $lunremove; do dolunscan $lun0added done } # Perform search (scan $host) dosearch () { if test -z "$channelsearch" ; then chanlist fi for channel in $channelsearch; do if test -z "$idsearch" ; then idlist fi for id in $idsearch; do if test -z "$lunsearch" ; then doreportlun else for lun in $lunsearch; do dolunscan done fi done done } expandlist () { list=$1 result="" first=${list%%,*} rest=${list#*,} while test ! -z "$first"; do beg=${first%%-*}; if test "$beg" = "$first"; then result="$result $beg"; else end=${first#*-} result="$result `seq $beg $end`" fi test "$rest" = "$first" && rest="" first=${rest%%,*} rest=${rest#*,} done echo $result } searchexisting() { local tmpch; local tmpid local match=0 local targets=`ls -d /sys/class/scsi_device/$host:* 2> /dev/null | egrep -o $host:[0-9]+:[0-9]+ | sort | uniq` # Nothing came back on this host, so we should skip it test -z "$targets" && return local target=; for target in $targets ; do channel=`echo $target | cut -d":" -f2` id=`echo $target | cut -d":" -f 3` if [ -n "$channelsearch" ] ; then for tmpch in $channelsearch ; do test $tmpch -eq $channel && match=1 done else match=1 fi test $match -eq 0 && continue match=0 if [ $filter_ids -eq 1 ] ; then for tmpid in $idsearch ; do if [ $tmpid -eq $id ] ; then match=1 fi done else match=1 fi test $match -eq 0 && continue if [ -z "$lunsearch" ] ; then doreportlun else for lun in $lunsearch ; do dolunscan done fi done } # Go through all of the existing devices and figure out any that have been remapped findremapped() { local hctl=; local devs=`ls /sys/class/scsi_device/` local sddev= local id_serial= local id_serial_old= local sysfs_devpath= mpaths="" local tmpfile="/tmp/rescan-scsi-bus-`date +s`" test -f $tmpfile && rm $tmpfile # Get all of the ID_SERIAL attributes, after finding their sd node for hctl in $devs ; do if [ -d /sys/class/scsi_device/$hctl/device/block ] ; then sddev=`ls /sys/class/scsi_device/$hctl/device/block` id_serial_old=`udevadm info -q all -n $sddev | grep "ID_SERIAL=" | cut -d"=" -f2` [ -z "$id_serial_old" ] && id_serial_old="none" echo "$hctl $sddev $id_serial_old" >> $tmpfile fi done # Trigger udev to update the info echo -n "Triggering udev to update device information... " /sbin/udevadm trigger udevadm_settle &>/dev/null echo "Done" # See what changed and reload the respective multipath device if applicable while read hctl sddev id_serial_old ; do id_serial=`udevadm info -q all -n $sddev | grep "ID_SERIAL=" | cut -d"=" -f2` [ -z "$id_serial" ] && id_serial="none" if [ "$id_serial_old" != "$id_serial" ] ; then if [ "$id_serial" = "1" ] ; then continue # the lun was unmapped and is getting the blank scsi id (1) fi printf "${yellow}REMAPPED: $norm" host=`echo $hctl | cut -d":" -f1` channel=`echo $hctl | cut -d":" -f2` id=`echo $hctl | cut -d":" -f3` lun=`echo $hctl | cut -d":" -f4` procscsiscsi echo "$SCSISTR" incrchgd "$hctl" fi done < $tmpfile rm $tmpfile &>/dev/null if test -n "$mp_enable" -a -n "$mpaths" ; then echo "Updating multipath device mappings" flushmpaths $MULTIPATH | grep "create:" 2> /dev/null fi } incrfound() { local hctl="$1" if test -n "$hctl" ; then let found+=1 FOUNDDEVS="$FOUNDDEVS\t[$hctl]\n" else return fi } incrchgd() { local hctl="$1" if test -n "$hctl" ; then let updated+=1 CHGDEVS="$CHGDEVS\t[$hctl]\n" else return fi if test -n "$mp_enable" ; then local sdev="`findsddev \"$hctl\"`" if test -n "$sdev" ; then findmultipath "$sdev" fi fi } incrrmvd() { local hctl="$1" if test -n "$hctl" ; then let rmvd+=1; RMVDDEVS="$RMVDDEVS\t[$hctl]\n" else return fi if test -n "$mp_enable" ; then local sdev="`findsddev \"$hctl\"`" if test -n "$sdev" ; then findmultipath "$sdev" fi fi } findsddev() { local hctl="$1" local sddev= if test ! -e /sys/class/scsi_device/$hctl/device/block ; then return 1 fi sddev=`ls /sys/class/scsi_device/$hctl/device/block` echo $sddev return 0 } findmultipath() { local dev="$1" local mp= local mp2= # Need a sdev, and executable multipath and dmsetup command here if [ -z "$dev" ] || [ ! -x $DMSETUP ] ; then return 1 fi local maj_min=`cat /sys/block/$dev/dev` for mp in $($DMSETUP ls --target=multipath | cut -f 1) ; do if $($DMSETUP status $mp | grep -q " $maj_min ") ; then for mp2 in $mpaths ; do # mp device is already there, return if [ "$mp2" = "$mp" ] ; then return fi done mpaths="$mpaths $mp" return fi done } reloadmpaths() { local mpath if [ ! -x $MULTIPATH ] ; then echo "no -x multipath" return fi if [ "$1" = "1" ] ; then echo "Reloading all multipath devices" $MULTIPATH -r &>/dev/null return fi # Reload the multipath devices for mpath in $mpaths ; do echo "Reloading multipath device $mpath" $MULTIPATH -r $mpath &>/dev/null done } flushmpaths() { local mpath # Mode: flush only failed if test -n "$1" ; then for mpath in $($DMSETUP ls --target=multipath | cut -f 1) ; do num=$($DMSETUP status $mpath | awk 'BEGIN{RS=" ";active=0}/[0-9]+:[0-9]+/{dev=1}/A/{if (dev == 1) active++; dev=0} END{ print active }') if [ $num -eq 0 ] ; then echo -n "Flushing multipath device $mpath... " $DMSETUP message $mpath 0 fail_if_no_path &>/dev/null $MULTIPATH -f $mpath &>/dev/null $DMSETUP status $mpath &>/dev/null if test "$?" = "1" ; then echo "Done" else echo "Fail" fi fi done return fi # Flush all the devs specified in $mpaths for mpath in $mpaths ; do echo -n "Flushing multipath device $mpath... " $DMSETUP message $mpath 0 fail_if_no_path &>/dev/null $MULTIPATH -f $mpath &>/dev/null $DMSETUP status $mpath &>/dev/null if test "$?" = "1" ; then echo "Done" else echo "Fail" fi done } # Find resized luns findresized() { local devs=`ls /sys/class/scsi_device/` local size= local new_size= local sysfs_path= local sddev= for hctl in $devs ; do sysfs_path="/sys/class/scsi_device/$hctl/device" if [ -d "$sysfs_path/block" ] ; then sddev=`ls $sysfs_path/block` size=`cat $sysfs_path/block/$sddev/size` echo 1 > $sysfs_path/rescan new_size=`cat $sysfs_path/block/$sddev/size` if [ "$size" != "$new_size" ] && [ "$size" != "0" ] && [ "$new_size" != "0" ] ; then printf "${yellow}RESIZED: $norm" host=`echo $hctl | cut -d":" -f1` channel=`echo $hctl | cut -d":" -f2` id=`echo $hctl | cut -d":" -f3` lun=`echo $hctl | cut -d":" -f4` procscsiscsi echo "$SCSISTR" incrchgd "$hctl" fi fi done if test -n "$mp_enable" -a -n "$mpaths" ; then reloadmpaths fi } FOUNDDEVS="" CHGDEVS="" RMVDDEVS="" # main if test @$1 = @--help -o @$1 = @-h -o @$1 = @-?; then echo "Usage: rescan-scsi-bus.sh [options] [host [host ...]]" echo "Options:" echo " -a scan all targets, not just currently existing [default: disabled]" echo " -d enable debug [default: 0]" echo " -l activates scanning for LUNs 0--7 [default: 0]" echo " -L NUM activates scanning for LUNs 0--NUM [default: 0]" echo " -w scan for target device IDs 0--15 [default: 0--7]" echo " -c enables scanning of channels 0 1 [default: 0 / all detected ones]" echo " -m update multipath devices [default: disabled]" echo " -r enables removing of devices [default: disabled]" echo " -f flush failed multipath devices [default: disabled]" echo " -i issue a FibreChannel LIP reset [default: disabled]" echo " -u look for existing disks that have been remapped" echo " -s look for resized disks and reload associated multipath devices, if applicable" echo "--alltargets: same as -a" echo "--remove: same as -r" echo "--flush: same as -f" echo "--issue-lip: same as -i" echo "--wide: same as -w" echo "--multipath: same as -m" echo "--forceremove: Remove stale devices (DANGEROUS)" echo "--forcerescan: Remove and readd existing devices (DANGEROUS)" echo "--nooptscan: don't stop looking for LUNs if 0 is not found" echo "--color: use coloured prefixes OLD/NEW/DEL" echo "--hosts=LIST: Scan only host(s) in LIST" echo "--channels=LIST: Scan only channel(s) in LIST" echo "--ids=LIST: Scan only target ID(s) in LIST" echo "--luns=LIST: Scan only lun(s) in LIST" echo "--sync/nosync: Issue a sync / no sync [default: sync if remove]" echo "--attachpq3: Tell kernel to attach sg to LUN 0 that reports PQ=3" echo "--reportlun2: Tell kernel to try REPORT_LUN even on SCSI2 devices" echo "--largelun: Tell kernel to support LUNs > 7 even on SCSI2 devs" echo "--sparselun: Tell kernel to support sparse LUN numbering" echo "--update: same as -u" echo "--resize: same as -s" echo "--ignore-rev: Ignore the revision change" echo " Host numbers may thus be specified either directly on cmd line (deprecated) or" echo " or with the --hosts=LIST parameter (recommended)." echo "LIST: A[-B][,C[-D]]... is a comma separated list of single values and ranges" echo " (No spaces allowed.)" exit 0 fi if test ! -d /sys/class/scsi_host/ -a ! -d /proc/scsi/; then echo "Error: SCSI subsystem not active" exit 1 fi # Make sure sg is there modprobe sg &>/dev/null if test -x /usr/bin/sg_inq; then sg_version=$(sg_inq -V 2>&1 | cut -d " " -f 3) if test -n "$sg_version"; then sg_ver_maj=${sg_version:0:1} sg_version=${sg_version##?.} let sg_version+=$((100*$sg_ver_maj)) fi sg_version=${sg_version##0.} #echo "\"$sg_version\"" if [ -z "$sg_version" -o "$sg_version" -lt 70 ] ; then sg_len_arg="-36" else sg_len_arg="--len=36" fi else echo "WARN: /usr/bin/sg_inq not present -- please install sg3_utils" echo " or rescan-scsi-bus.sh might not fully work." fi # defaults unsetcolor debug=0 lunsearch= opt_idsearch=`seq 0 7` filter_ids=0 opt_channelsearch= remove= updated=0 update=0 resize=0 forceremove= optscan=1 sync=1 existing_targets=1 mp_enable= declare -i scan_flags=0 ignore_rev=0 # Scan options opt="$1" while test ! -z "$opt" -a -z "${opt##-*}"; do opt=${opt#-} case "$opt" in a) existing_targets=;; #Scan ALL targets when specified d) debug=1 ;; f) flush=1 ;; l) lunsearch=`seq 0 7` ;; L) lunsearch=`seq 0 $2`; shift ;; m) mp_enable=1 ;; w) opt_idsearch=`seq 0 15` ;; c) opt_channelsearch="0 1" ;; r) remove=1 ;; s) resize=1 ;; i) lipreset=1 ;; u) update=1 ;; -alltargets) existing_targets=;; -flush) flush=1 ;; -remove) remove=1 ;; -forcerescan) remove=1; forcerescan=1 ;; -forceremove) remove=1; forceremove=1 ;; -hosts=*) arg=${opt#-hosts=}; hosts=`expandlist $arg` ;; -channels=*) arg=${opt#-channels=};opt_channelsearch=`expandlist $arg` ;; -ids=*) arg=${opt#-ids=}; opt_idsearch=`expandlist $arg` ; filter_ids=1;; -luns=*) arg=${opt#-luns=}; lunsearch=`expandlist $arg` ;; -color) setcolor ;; -nooptscan) optscan=0 ;; -issue-lip) lipreset=1 ;; -sync) sync=2 ;; -nosync) sync=0 ;; -multipath) mp_enable=1 ;; -attachpq3) scan_flags=$(($scan_flags|0x1000000)) ;; -reportlun2) scan_flags=$(($scan_flags|0x20000)) ;; -resize) resize=1;; -largelun) scan_flags=$(($scan_flags|0x200)) ;; -sparselun) scan_flags=$((scan_flags|0x40)) ;; -update) update=1;; -wide) opt_idsearch=`seq 0 15` ;; -ignore-rev) ignore_rev=1;; *) echo "Unknown option -$opt !" ;; esac shift opt="$1" done if [ -z "$hosts" ] ; then if test -d /sys/class/scsi_host; then findhosts_26 else findhosts fi fi if [ -d /sys/class/scsi_host -a ! -w /sys/class/scsi_host ]; then echo "You need to run scsi-rescan-bus.sh as root" exit 2 fi if test "$sync" = 1 -a "$remove" = 1; then sync=2; fi if test "$sync" = 2; then echo "Syncing file systems"; sync; fi if test -w /sys/module/scsi_mod/parameters/default_dev_flags -a $scan_flags != 0; then OLD_SCANFLAGS=`cat /sys/module/scsi_mod/parameters/default_dev_flags` NEW_SCANFLAGS=$(($OLD_SCANFLAGS|$scan_flags)) if test "$OLD_SCANFLAGS" != "$NEW_SCANFLAGS"; then echo -n "Temporarily setting kernel scanning flags from " printf "0x%08x to 0x%08x\n" $OLD_SCANFLAGS $NEW_SCANFLAGS echo $NEW_SCANFLAGS > /sys/module/scsi_mod/parameters/default_dev_flags else unset OLD_SCANFLAGS fi fi DMSETUP=$(which dmsetup) [ -z "$DMSETUP" ] && flush= && mp_enable= MULTIPATH=$(which multipath) [ -z "$MULTIPATH" ] && flush= && mp_enable= echo -n "Scanning SCSI subsystem for new devices" test -z "$flush" || echo -n ", flush failed multipath devices," test -z "$remove" || echo -n " and remove devices that have disappeared" echo declare -i found=0 declare -i updated=0 declare -i rmvd=0 if [ -n "$flush" ] ; then if [ -x $MULTIPATH ] ; then flushmpaths 1 fi fi # Update existing mappings if [ $update -eq 1 ] ; then echo "Searching for remapped LUNs" findremapped # Search for resized LUNs elif [ $resize -eq 1 ] ; then echo "Searching for resized LUNs" findresized # Normal rescan mode else for host in $hosts; do echo -n "Scanning host $host " if test -e /sys/class/fc_host/host$host ; then # It's pointless to do a target scan on FC if test -n "$lipreset" ; then echo 1 > /sys/class/fc_host/host$host/issue_lip 2> /dev/null; udevadm_settle fi channelsearch= idsearch= else channelsearch=$opt_channelsearch idsearch=$opt_idsearch fi [ -n "$channelsearch" ] && echo -n "channels $channelsearch " echo -n "for " if [ -n "$idsearch" ] ; then echo -n " SCSI target IDs " $idsearch else echo -n " all SCSI target IDs" fi if [ -n "$lunsearch" ] ; then echo ", LUNs " $lunsearch else echo ", all LUNs" fi if [ -n "$existing_targets" ] ; then searchexisting else dosearch fi done if test -n "$OLD_SCANFLAGS"; then echo $OLD_SCANFLAGS > /sys/module/scsi_mod/parameters/default_dev_flags fi fi let rmvd_found=$rmvd+$found if test -n "$mp_enable" -a $rmvd_found -gt 0 ; then echo "Attempting to update multipath devices..." if test $rmvd -gt 0 ; then /sbin/udevadm trigger udevadm_settle echo "Removing multipath mappings for removed devices if all paths are now failed... " flushmpaths 1 fi if test $found -gt 0 ; then /sbin/udevadm trigger udevadm_settle echo "Trying to discover new multipath mappings for newly discovered devices... " $MULTIPATH | grep "create:" 2> /dev/null fi fi echo "$found new or changed device(s) found. " if test ! -z "$FOUNDDEVS" ; then printf "$FOUNDDEVS" fi echo "$updated remapped or resized device(s) found. " if test ! -z "$CHGDEVS" ; then printf "$CHGDEVS" fi echo "$rmvd device(s) removed. " if test ! -z "$RMVDDEVS" ; then printf "$RMVDDEVS" fi # Local Variables: # sh-basic-offset: 2 # End: