resource-agents 1:3.9.2-5ubuntu4 / usr / share / cluster / fs.sh

#!/bin/bash

#
# File system (normal) mount/umount/fsck/etc. agent
#
#
# Copyright (C) 1997-2003 Sistina Software, Inc.  All rights reserved.
# Copyright (C) 2004-2011 Red Hat, Inc.  All rights reserved.
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
#

. $(dirname $0)/utils/fs-lib.sh

do_metadata()
{
	cat <<EOT
<?xml version="1.0" encoding="ISO-8859-1" ?>
<resource-agent name="fs" version="rgmanager 2.0">
    <version>1.0</version>

    <longdesc lang="en">
        This defines a standard file system mount (= not a clustered
	or otherwise shared file system).
    </longdesc>
    <shortdesc lang="en">
        Defines a file system mount.
    </shortdesc>

    <parameters>
        <parameter name="name" primary="1">
	    <longdesc lang="en">
	        Symbolic name for this file system.
	    </longdesc>
            <shortdesc lang="en">
                File System Name
            </shortdesc>
	    <content type="string"/>
        </parameter>

        <parameter name="mountpoint" unique="1" required="1">
	    <longdesc lang="en">
	        Path in file system heirarchy to mount this file system.
	    </longdesc>
            <shortdesc lang="en">
                Mount Point
            </shortdesc>
	    <content type="string"/>
        </parameter>

        <parameter name="device" unique="1" required="1">
	    <longdesc lang="en">
	        Block device, file system label, or UUID of file system.
	    </longdesc>
            <shortdesc lang="en">
                Device or Label
            </shortdesc>
	    <content type="string"/>
        </parameter>

        <parameter name="fstype">
	    <longdesc lang="en">
	        File system type.  If not specified, mount(8) will attempt to
		determine the file system type.
	    </longdesc>
            <shortdesc lang="en">
                File system type
            </shortdesc>
	    <content type="string"/>
        </parameter>

        <parameter name="force_unmount">
            <longdesc lang="en">
                If set, the cluster will kill all processes using 
                this file system when the resource group is 
                stopped.  Otherwise, the unmount will fail, and
                the resource group will be restarted.
            </longdesc>
            <shortdesc lang="en">
                Force Unmount
            </shortdesc>
	    <content type="boolean"/>
        </parameter>

        <parameter name="quick_status">
            <longdesc lang="en">
		Use quick status checks.  When set to 0 (the default), this
		agent behaves normally.  When set to 1, this agent will not
		log errors incurred or perform the file system accessibility
		check (e.g. it will not try to read from/write to the file
		system).  You should only set this to 1 if you have lots of
		file systems on your cluster or you are seeing very high load
		spikes as a direct result of this agent.
            </longdesc>
            <shortdesc lang="en">
	    	Quick/brief status checks.
            </shortdesc>
	    <content type="boolean"/>
        </parameter>

	<parameter name="self_fence">
	    <longdesc lang="en">
	        If set and unmounting the file system fails, the node will
		immediately reboot.  Generally, this is used in conjunction
		with force-unmount support, but it is not required.
	    </longdesc>
	    <shortdesc lang="en">
	        Seppuku Unmount
	    </shortdesc>
	    <content type="boolean"/>
	</parameter>

	<parameter name="nfslock" inherit="nfslock">
	    <longdesc lang="en">
	        If set and unmounting the file system fails, the node will
		try to kill lockd and issue reclaims across all remaining
		network interface cards.
	    </longdesc>
	    <shortdesc lang="en">
	        Enable NFS lock workarounds
	    </shortdesc>
	    <content type="boolean"/>
	</parameter>

	<parameter name="fsid">
	    <longdesc lang="en">
	    	File system ID for NFS exports.  This can be overridden
		in individual nfsclient entries.
	    </longdesc>
	    <shortdesc lang="en">
	    	NFS File system ID
	    </shortdesc>
	    <content type="string"/>
	</parameter>

        <parameter name="force_fsck">
            <longdesc lang="en">
                If set, the file system will be checked (even if
                it is a journalled file system).  This option is
                ignored for non-journalled file systems such as
                ext2.
            </longdesc>
            <shortdesc lang="en">
                Force fsck support
            </shortdesc>
	    <content type="boolean"/>
        </parameter>

        <parameter name="options">
            <longdesc lang="en">
	    	Options used when the file system is mounted.  These
		are often file-system specific.  See mount(8) for supported
		mount options.
            </longdesc>
            <shortdesc lang="en">
                Mount Options
            </shortdesc>
	    <content type="string"/>
        </parameter>

    </parameters>

    <actions>
        <action name="start" timeout="900"/>
	<action name="stop" timeout="30"/>
	<!-- Recovery isn't possible; we don't know if resources are using
	     the file system. -->

	<!-- Checks to see if it's mounted in the right place -->
	<action name="status" interval="1m" timeout="10"/>
	<action name="monitor" interval="1m" timeout="10"/>

	<!-- Note: active monitoring is constant and supplants all
	     check depths -->
	<!-- Checks to see if we can read from the mountpoint -->
	<action name="status" depth="10" timeout="30" interval="30"/>
	<action name="monitor" depth="10" timeout="30" interval="30"/>

	<!-- Checks to see if we can write to the mountpoint (if !ROFS) -->
	<action name="status" depth="20" timeout="30" interval="1m"/>
	<action name="monitor" depth="20" timeout="30" interval="1m"/>

	<action name="meta-data" timeout="5"/>
	<action name="validate-all" timeout="5"/>
    </actions>

    <special tag="rgmanager">
	<attributes maxinstances="1"/>
        <child type="fs" start="1" stop="3"/>
        <child type="clusterfs" start="1" stop="3"/>
        <child type="nfsexport" start="3" stop="1"/>
    </special>
</resource-agent>
EOT
}


verify_fstype()
{
	# Auto detect?
	[ -z "$OCF_RESKEY_fstype" ] && return 0

	case $OCF_RESKEY_fstype in
	ext2|ext3|ext4|btrfs|jfs|xfs|reiserfs|vfat|tmpfs|vxfs)
		return 0
		;;
	*)
		echo "File system type $OCF_RESKEY_fstype not supported"
		return $OCF_ERR_ARGS
		;;
	esac
}


verify_options()
{
	declare -i ret=$OCF_SUCCESS
	declare o

	#
	# From mount(8)
	#
	for o in `echo $OCF_RESKEY_options | sed -e s/,/\ /g`; do
		case $o in
		async|atime|auto|defaults|dev|exec|_netdev|noatime)
			continue
			;;
		noauto|nodev|noexec|nosuid|nouser|ro|rw|suid|sync)
			continue
			;;
		dirsync|user|users)
			continue
			;;
		esac

		do_verify_option $OCF_RESKEY_fstype "$o"

		case $OCF_RESKEY_fstype in
		ext2|ext3|ext4)
			case $o in
			bsddf|minixdf|check|check=*|nocheck|debug)
				continue
				;;
			errors=*|grpid|bsdgroups|nogrpid|sysvgroups)
				continue
				;;
			resgid=*|resuid=*|sb=*|grpquota|noquota)
				continue
				;;
			quota|usrquota|nouid32)
				continue
				;;
			esac

			if [ "$OCF_RESKEY_fstype" = "ext3" ] ||
			   [ "$OCF_RESKEY_fstype" = "ext4" ]; then
				case $0 in
				noload|data=*)
					continue
					;;
				esac
			fi
			;;
		vfat)
			case $o in
			blocksize=512|blocksize=1024|blocksize=2048)
				continue
				;;
			uid=*|gid=*|umask=*|dmask=*|fmask=*)
				continue
				;;
			check=r*|check=n*|check=s*|codepage=*)
				continue
				;;
			conv=b*|conv=t*|conv=a*|cvf_format=*)
				continue
				;;
			cvf_option=*|debug|fat=12|fat=16|fat=32)
				continue
				;;
			iocharset=*|quiet)
				continue
				;;
			esac
			;;

		jfs)
			case $o in
			conv|hash=rupasov|hash=tea|hash=r5|hash=detect)
				continue
				;;
			hashed_relocation|no_unhashed_relocation)
				continue
				;;
			noborder|nolog|notail|resize=*)
				continue
				;;
			esac
			;;

		xfs)
			case $o in
			biosize=*|dmapi|xdsm|logbufs=*|logbsize=*)
				continue
				;;
			logdev=*|rtdev=*|noalign|noatime)
				continue
				;;
			norecovery|osyncisdsync|quota|userquota)
				continue
				;;
			uqnoenforce|grpquota|gqnoenforce)
				continue
				;;
			sunit=*|swidth=*)
				continue
				;;
			esac
			;;

		tmpfs)
			case $o in
			size=*|nr_blocks=*|mode=*)
				continue
				;;
			esac
			;;
		btrfs)
			# tbd
			continue
			;;
		esac

		echo Option $o not supported for $OCF_RESKEY_fstype
		ret=$OCF_ERR_ARGS
	done

	return $ret
}


do_validate()
{
	verify_name || return $OCF_ERR_ARGS
	verify_fstype || return $OCF_ERR_ARGS
	verify_device || return $OCF_ERR_ARGS
	verify_mountpoint || return $OCF_ERR_ARGS
	verify_options || return $OCF_ERR_ARGS
}


do_pre_mount()
{
	declare fstype="$OCF_RESKEY_fstype"

	#
	# Check to determine if we need to fsck the filesystem.
	#
	# Note: this code should not indicate in any manner suggested
	# file systems to use in the cluster.  Known filesystems are
	# listed here for correct operation.
	#
        case "$fstype" in
        reiserfs) typeset fsck_needed="" ;;
        ext3)     typeset fsck_needed="" ;;
        ext4)     typeset fsck_needed="" ;;
        btrfs)    typeset fsck_needed="" ;;
        jfs)      typeset fsck_needed="" ;;
        xfs)      typeset fsck_needed="" ;;
	vxfs)	  typeset fsck_needed="" ;;
        ext2)     typeset fsck_needed=yes ;;
        minix)    typeset fsck_needed=yes ;;
        vfat)     typeset fsck_needed=yes ;;
        msdos)    typeset fsck_needed=yes ;;
	"")       typeset fsck_needed=yes ;;		# assume fsck
	*)
		typeset fsck_needed=yes 		# assume fsck
	     	ocf_log warn "\
Unknown file system type '$fstype' for device $dev.  Assuming fsck is required."
		;;
	esac


	#
	# Fsck the device, if needed.
	#
	if [ -n "$fsck_needed" ] || [ "${OCF_RESKEY_force_fsck}" = "yes" ] ||\
	   [ "${OCF_RESKEY_force_fsck}" = "1" ]; then
		typeset fsck_log=/var/log/cluster/$(basename $dev).fsck.log
		ocf_log debug "Running fsck on $dev"
		fsck -p $dev >> $fsck_log 2>&1
		ret_val=$?
		if [ $ret_val -gt 1 ]; then
			ocf_log err "\
'fsck -p $dev' failed, error=$ret_val; check $fsck_log for errors"
			ocf_log debug "Invalidating buffers for $dev"
			$INVALIDATEBUFFERS -f $dev
			return $OCF_ERR_GENERIC
		fi
		rm -f $fsck_log
	fi

	return 0
}

do_post_mount() {
	#
	# Create this for the NFS NLM broadcast bit
	#
	if [ $NFS_TRICKS -eq 0 ]; then
		if [ "$OCF_RESKEY_nfslock" = "yes" ] || \
	   	   [ "$OCF_RESKEY_nfslock" = "1" ]; then
			mkdir -p "$mp"/.clumanager/statd
			notify_list_merge "$mp"/.clumanager/statd
		fi
	fi

	return 0
}


do_force_unmount() {
	if [ "$OCF_RESKEY_nfslock" = "yes" ] || \
	   [ "$OCF_RESKEY_nfslock" = "1" ]; then
		ocf_log warning "Dropping node-wide NFS locks"
		pkill -KILL -x lockd
		mkdir -p "$mp"/.clumanager/statd
		# Copy out the notify list; our
		# IPs are already torn down
		notify_list_store "$mp"/.clumanager/statd

		# Save for post-umount phase
		export nfslock_reclaim=1
	fi

	return 0
}


do_post_unmount() {
	if [ "$nfslock_reclaim" = "1" ]; then
		# If we have this flag set, do a full reclaim broadcast
		notify_list_broadcast "$mp"/.clumanager/statd
	fi

	return 0
}

main $*