/usr/lib/ocf/resource.d/heartbeat/Filesystem is in resource-agents 1:3.9.2-5ubuntu4.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
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#
# Support: linux-ha@lists.linux-ha.org
# License: GNU General Public License (GPL)
#
# Filesystem
# Description: Manages a Filesystem on a shared storage medium.
# Original Author: Eric Z. Ayers (eric.ayers@compgen.com)
# Original Release: 25 Oct 2000
#
# usage: ./Filesystem {start|stop|status|monitor|validate-all|meta-data}
#
# OCF parameters are as below:
# OCF_RESKEY_device
# OCF_RESKEY_directory
# OCF_RESKEY_fstype
# OCF_RESKEY_options
# OCF_RESKEY_statusfile_prefix
# OCF_RESKEY_run_fsck
#
#OCF_RESKEY_device : name of block device for the filesystem. e.g. /dev/sda1, /dev/md0
# Or a -U or -L option for mount, or an NFS mount specification
#OCF_RESKEY_directory : the mount point for the filesystem
#OCF_RESKEY_fstype : optional name of the filesystem type. e.g. ext2
#OCF_RESKEY_options : options to be given to the mount command via -o
#OCF_RESKEY_statusfile_prefix : the prefix used for a status file for monitoring
#OCF_RESKEY_run_fsck : fsck execution mode: auto(default)/force/no
#
#
# This assumes you want to manage a filesystem on a shared (SCSI) bus,
# on a replicated device (such as DRBD), or a network filesystem (such
# as NFS or Samba).
#
# Do not put this filesystem in /etc/fstab. This script manages all of
# that for you.
#
# NOTE: If 2 or more nodes mount the same file system read-write, and
# that file system is not designed for that specific purpose
# (such as GFS or OCFS2), and is not a network file system like
# NFS or Samba, then the filesystem is going to become
# corrupted.
#
# As a result, you should use this together with the stonith
# option and redundant, independent communications paths.
#
# If you don't do this, don't blame us when you scramble your
# disk.
#######################################################################
# Initialization:
: ${OCF_FUNCTIONS_DIR=${OCF_ROOT}/lib/heartbeat}
. ${OCF_FUNCTIONS_DIR}/ocf-shellfuncs
# Defaults
DFLT_STATUSDIR=".Filesystem_status/"
# Variables used by multiple methods
HOSTOS=`uname`
# The status file is going to an extra directory, by default
#
prefix=${OCF_RESKEY_statusfile_prefix}
: ${prefix:=$DFLT_STATUSDIR}
suffix="${OCF_RESOURCE_INSTANCE}"
[ "$OCF_RESKEY_CRM_meta_clone" ] &&
suffix="${suffix}_$OCF_RESKEY_CRM_meta_clone"
suffix="${suffix}_`uname -n`"
STATUSFILE=${OCF_RESKEY_directory}/$prefix$suffix
#######################################################################
usage() {
cat <<-EOT
usage: $0 {start|stop|status|monitor|validate-all|meta-data}
EOT
}
meta_data() {
cat <<END
<?xml version="1.0"?>
<!DOCTYPE resource-agent SYSTEM "ra-api-1.dtd">
<resource-agent name="Filesystem">
<version>1.0</version>
<longdesc lang="en">
Resource script for Filesystem. It manages a Filesystem on a
shared storage medium.
The standard monitor operation of depth 0 (also known as probe)
checks if the filesystem is mounted. If you want deeper tests,
set OCF_CHECK_LEVEL to one of the following values:
10: read first 16 blocks of the device (raw read)
This doesn't exercise the filesystem at all, but the device on
which the filesystem lives. This is noop for non-block devices
such as NFS, SMBFS, or bind mounts.
20: test if a status file can be written and read
The status file must be writable by root. This is not always the
case with an NFS mount, as NFS exports usually have the
"root_squash" option set. In such a setup, you must either use
read-only monitoring (depth=10), export with "no_root_squash" on
your NFS server, or grant world write permissions on the
directory where the status file is to be placed.
</longdesc>
<shortdesc lang="en">Manages filesystem mounts</shortdesc>
<parameters>
<parameter name="device" required="1">
<longdesc lang="en">
The name of block device for the filesystem, or -U, -L options for mount, or NFS mount specification.
</longdesc>
<shortdesc lang="en">block device</shortdesc>
<content type="string" default="" />
</parameter>
<parameter name="directory" required="1">
<longdesc lang="en">
The mount point for the filesystem.
</longdesc>
<shortdesc lang="en">mount point</shortdesc>
<content type="string" default="" />
</parameter>
<parameter name="fstype" required="1">
<longdesc lang="en">
The type of filesystem to be mounted.
</longdesc>
<shortdesc lang="en">filesystem type</shortdesc>
<content type="string" default="" />
</parameter>
<parameter name="options">
<longdesc lang="en">
Any extra options to be given as -o options to mount.
For bind mounts, add "bind" here and set fstype to "none".
We will do the right thing for options such as "bind,ro".
</longdesc>
<shortdesc lang="en">options</shortdesc>
<content type="string" default="" />
</parameter>
<parameter name="statusfile_prefix">
<longdesc lang="en">
The prefix to be used for a status file for resource monitoring
with depth 20. If you don't specify this parameter, all status
files will be created in a separate directory.
</longdesc>
<shortdesc lang="en">status file prefix</shortdesc>
<content type="string" default="$DFLT_STATUSDIR" />
</parameter>
<parameter name="run_fsck">
<longdesc lang="en">
Specify how to decide whether to run fsck or not.
"auto" : decide to run fsck depending on the fstype(default)
"force" : always run fsck regardless of the fstype
"no" : do not run fsck ever.
</longdesc>
<shortdesc lang="en">run_fsck</shortdesc>
<content type="string" default="auto" />
</parameter>
<parameter name="fast_stop">
<longdesc lang="en">
Normally, we expect no users of the filesystem and the stop
operation to finish quickly. If you cannot control the filesystem
users easily and want to prevent the stop action from failing,
then set this parameter to "no" and add an appropriate timeout
for the stop operation.
</longdesc>
<shortdesc lang="en">fast stop</shortdesc>
<content type="boolean" default="yes" />
</parameter>
</parameters>
<actions>
<action name="start" timeout="60" />
<action name="stop" timeout="60" />
<action name="notify" timeout="60" />
<action name="monitor" depth="0" timeout="40" interval="20" />
<action name="validate-all" timeout="5" />
<action name="meta-data" timeout="5" />
</actions>
</resource-agent>
END
}
#
# Make sure the kernel does the right thing with the FS buffers
# This function should be called after unmounting and before mounting
# It may not be necessary in 2.4 and later kernels, but it shouldn't hurt
# anything either...
#
# It's really a bug that you have to do this at all...
#
flushbufs() {
if have_binary $BLOCKDEV ; then
if [ "$blockdevice" = "yes" ] ; then
$BLOCKDEV --flushbufs $1
return $?
fi
fi
return 0
}
# Take advantage of /etc/mtab if present, use portable mount command
# otherwise. Normalize format to "dev mountpoint fstype".
is_bind_mount() {
echo "$options" | grep -w bind >/dev/null 2>&1
}
list_mounts() {
local inpf=""
if [ -e "/proc/mounts" ] && ! is_bind_mount; then
inpf=/proc/mounts
elif [ -f "/etc/mtab" -a -r "/etc/mtab" ]; then
inpf=/etc/mtab
fi
if [ "$inpf" ]; then
cut -d' ' -f1,2,3 < $inpf
else
$MOUNT | cut -d' ' -f1,3,5
fi
}
determine_blockdevice() {
if [ $blockdevice = "yes" ]; then
return
fi
# Get the current real device name, if possible.
# (specified devname could be -L or -U...)
case "$FSTYPE" in
nfs|smbfs|cifs|none) ;;
*) DEVICE=`list_mounts | grep " $MOUNTPOINT " | cut -d' ' -f1`
if [ -b "$DEVICE" ]; then
blockdevice=yes
fi
;;
esac
}
# Lists all filesystems potentially mounted under a given path,
# excluding the path itself.
list_submounts() {
list_mounts | grep " $1/" | cut -d' ' -f2 | sort -r
}
ocfs2_del_cache() {
if [ -e "$_OCFS2_uuid_cache" ]; then
rm -f $_OCFS2_uuid_cache
fi
}
ocfs2_cleanup() {
# We'll never see the post-stop notification. We're gone now,
# have unmounted, and thus should remove the membership.
#
# (Do so regardless of whether we were unmounted already,
# because the admin might have manually unmounted but not
# cleared up the membership directory. Bad admin, no cookie.)
#
if [ ! -d "$OCFS2_FS_ROOT" ]; then
ocf_log info "$OCFS2_FS_ROOT: Filesystem membership already gone."
else
ocf_log info "$OCFS2_FS_ROOT: Removing membership directory."
rm -rf $OCFS2_FS_ROOT/
fi
ocfs2_del_cache
}
ocfs2_fetch_uuid() {
mounted.ocfs2 -d $DEVICE|tail -1|awk '{print $3}'|tr -d -- -|tr '[a-z]' '[A-Z]'
}
ocfs2_set_uuid() {
_OCFS2_uuid_cache="$HA_RSCTMP/Filesystem.ocfs2_uuid.$(echo $DEVICE|tr / .)"
if [ "$OP" != "start" -a -e "$_OCFS2_uuid_cache" ]; then
# Trust the cache.
OCFS2_UUID=$(cat $_OCFS2_uuid_cache 2>/dev/null)
return 0
fi
OCFS2_UUID=$(ocfs2_fetch_uuid)
if [ -n "$OCFS2_UUID" -a "$OCFS2_UUID" != "UUID" ]; then
# UUID valid:
echo $OCFS2_UUID > $_OCFS2_uuid_cache
return 0
fi
# Ok, no UUID still, but that's alright for stop, because it
# very likely means we never got started -
if [ "$OP" = "stop" ]; then
ocf_log warn "$DEVICE: No UUID; assuming never started!"
OCFS2_UUID="UUID_NOT_SET"
return 0
fi
# Everything else - wrong:
ocf_log err "$DEVICE: Could not determine ocfs2 UUID for device."
exit $OCF_ERR_GENERIC
}
ocfs2_init()
{
# Check & initialize the OCFS2 specific variables.
# This check detects whether the special/legacy hooks to
# integrate OCFS2 with user-space clustering on SLES10 need to
# be activated.
# Newer kernels >= 2.6.28, with OCFS2+openAIS+Pacemaker, do
# not need this:
OCFS2_SLES10=""
if [ "X$HA_cluster_type" = "Xcman" ]; then
return
elif [ "X$HA_cluster_type" != "Xopenais" ]; then
if grep -q "SUSE Linux Enterprise Server 10" /etc/SuSE-release >/dev/null 2>&1 ; then
OCFS2_SLES10="yes"
ocf_log info "$DEVICE: Enabling SLES10 compatibility mode for OCFS2."
else
ocf_log err "$DEVICE: ocfs2 is not compatible with your environment."
exit $OCF_ERR_CONFIGURED
fi
else
return
fi
if [ $OP != "stop" ]; then
if [ -z "$OCF_RESKEY_CRM_meta_clone" ]; then
ocf_log err "ocfs2 must be run as a clone."
exit $OCF_ERR_GENERIC
fi
fi
if [ $blockdevice = "no" ]; then
ocf_log err "$DEVICE: ocfs2 needs a block device instead."
exit $OCF_ERR_GENERIC
fi
for f in "$OCF_RESKEY_ocfs2_configfs" /sys/kernel/config/cluster /configfs/cluster ; do
if [ -n "$f" -a -d "$f" ]; then
OCFS2_CONFIGFS="$f"
break
fi
done
if [ ! -d "$OCFS2_CONFIGFS" ]; then
ocf_log err "ocfs2 needs configfs mounted."
exit $OCF_ERR_GENERIC
fi
ocfs2_set_uuid
if [ -n "$OCF_RESKEY_ocfs2_cluster" ]; then
OCFS2_CLUSTER=$(echo $OCF_RESKEY_ocfs2_cluster)
else
OCFS2_CLUSTER=$(find "$OCFS2_CONFIGFS" -maxdepth 1 -mindepth 1 -type d -printf %f 2>/dev/null)
set -- $OCFS2_CLUSTER
local n; n="$#"
if [ $n -gt 1 ]; then
ocf_log err "$OCFS2_CLUSTER: several clusters found."
exit $OCF_ERR_GENERIC
fi
if [ $n -eq 0 ]; then
ocf_log err "$OCFS2_CONFIGFS: no clusters found."
exit $OCF_ERR_GENERIC
fi
fi
OCFS2_CLUSTER_ROOT="$OCFS2_CONFIGFS/$OCFS2_CLUSTER"
if [ ! -d "$OCFS2_CLUSTER_ROOT" ]; then
ocf_log err "$OCFS2_CLUSTER: Cluster doesn't exist. Maybe o2cb hasn't been run?"
exit $OCF_ERR_GENERIC
fi
OCFS2_FS_ROOT=$OCFS2_CLUSTER_ROOT/heartbeat/$OCFS2_UUID
}
# kernels < 2.6.26 can't handle bind remounts
bind_kernel_check() {
echo "$options" | grep -w ro >/dev/null 2>&1 ||
return
uname -r | awk -F. '
$1==2 && $2==6 {
sub("[^0-9].*","",$3);
if ($3<26)
exit(1);
}'
[ $? -ne 0 ] &&
ocf_log warn "kernel `uname -r` cannot handle read only bind mounts"
}
bind_mount() {
if is_bind_mount && [ "$options" != "-o bind" ]
then
bind_kernel_check
bind_opts=`echo $options | sed 's/bind/remount/'`
$MOUNT $bind_opts $MOUNTPOINT
else
true # make sure to return OK
fi
}
is_option() {
echo $OCF_RESKEY_options | grep -w "$1" >/dev/null 2>&1
}
is_fsck_needed() {
case $OCF_RESKEY_run_fsck in
force) true;;
no) false;;
""|auto)
case $FSTYPE in
ext4|ext4dev|ext3|reiserfs|reiser4|nss|xfs|jfs|vfat|fat|nfs|cifs|smbfs|ocfs2|gfs2|none|lustre)
false;;
*)
true;;
esac;;
*)
ocf_log warn "Invalid parameter value for fsck: '$OCF_RESKEY_run_fsck'; setting to 'auto'"
OCF_RESKEY_run_fsck="auto"
is_fsck_needed;;
esac
}
#
# START: Start up the filesystem
#
Filesystem_start()
{
if [ -n "$OCFS2_SLES10" ]; then
# "start" now has the notification data available; that
# we're being started means we didn't get the
# pre-notification, because we weren't running, so
# process the information now first.
ocf_log info "$OCFS2_UUID: Faking pre-notification on start."
OCF_RESKEY_CRM_meta_notify_type="pre"
OCF_RESKEY_CRM_meta_notify_operation="start"
Filesystem_notify
fi
# See if the device is already mounted.
if Filesystem_status >/dev/null 2>&1 ; then
ocf_log info "Filesystem $MOUNTPOINT is already mounted."
return $OCF_SUCCESS
fi
if [ "X${HOSTOS}" != "XOpenBSD" ];then
# Insert SCSI module
# TODO: This probably should go away. Why should the filesystem
# RA magically load a kernel module?
$MODPROBE scsi_hostadapter >/dev/null
if [ -z "$FSTYPE" -o "$FSTYPE" = none ]; then
: No FSTYPE specified, rely on the system has the right file-system support already
else
# Insert Filesystem module
$MODPROBE $FSTYPE >/dev/null
grep -e "$FSTYPE"'$' /proc/filesystems >/dev/null
if [ $? -ne 0 ] ; then
ocf_log err "Couldn't find filesystem $FSTYPE in /proc/filesystems"
return $OCF_ERR_INSTALLED
fi
fi
fi
# Check the filesystem & auto repair.
# NOTE: Some filesystem types don't need this step... Please modify
# accordingly
if [ $blockdevice = "yes" ]; then
if [ "$DEVICE" != "/dev/null" -a ! -b "$DEVICE" ] ; then
ocf_log err "Couldn't find device [$DEVICE]. Expected /dev/??? to exist"
exit $OCF_ERR_INSTALLED
fi
if is_fsck_needed; then
ocf_log info "Starting filesystem check on $DEVICE"
if [ -z "$FSTYPE" ]; then
$FSCK -p $DEVICE
else
$FSCK -t $FSTYPE -p $DEVICE
fi
# NOTE: if any errors at all are detected, it returns non-zero
# if the error is >= 4 then there is a big problem
if [ $? -ge 4 ]; then
ocf_log err "Couldn't sucessfully fsck filesystem for $DEVICE"
return $OCF_ERR_GENERIC
fi
fi
fi
if [ ! -d "$MOUNTPOINT" ] ; then
ocf_log err "Couldn't find directory [$MOUNTPOINT] to use as a mount point"
exit $OCF_ERR_INSTALLED
fi
flushbufs $DEVICE
# Mount the filesystem.
case "$FSTYPE" in
none) $MOUNT $options $DEVICE $MOUNTPOINT &&
bind_mount
;;
"") $MOUNT $options $DEVICE $MOUNTPOINT ;;
*) $MOUNT -t $FSTYPE $options $DEVICE $MOUNTPOINT ;;
esac
if [ $? -ne 0 ]; then
ocf_log err "Couldn't mount filesystem $DEVICE on $MOUNTPOINT"
if [ -n "$OCFS2_SLES10" ]; then
ocfs2_cleanup
fi
return $OCF_ERR_GENERIC
fi
return $OCF_SUCCESS
}
# end of Filesystem_start
Filesystem_notify() {
# Process notifications; this is the essential glue level for
# giving user-space membership events to a cluster-aware
# filesystem. Right now, only OCFS2 is supported.
#
# When we get a pre-start notification, we set up all the nodes
# which will be active in our membership for the filesystem.
# (For the resource to be started, this happens at the time of
# the actual 'start' operation.)
#
# At a post-start, actually there's nothing to do for us really,
# but no harm done in re-syncing either.
#
# pre-stop is meaningless; we can't remove any node yet, it
# first needs to unmount.
#
# post-stop: the node is removed from the membership of the
# other nodes.
#
# Note that this expects that the base cluster is already
# active; ie o2cb has been started and populated
# $OCFS2_CLUSTER_ROOT/node/ already. This can be achieved by
# simply having o2cb run on all nodes by the CRM too. This
# probably ought to be mentioned somewhere in the to be written
# documentation. ;-)
#
if [ -z "$OCFS2_SLES10" ]; then
# One of the cases which shouldn't occur; it should have
# been caught much earlier. Still, you know ...
ocf_log err "$DEVICE: Please only enable notifications for SLES10 OCFS2 mounts."
# Yes, in theory this is a configuration error, but
# simply discarding them allows users to switch from the
# SLES10 stack to the new one w/o downtime.
# Ignoring the notifications is harmless, afterall, and
# they can simply disable them in their own time.
return $OCF_SUCCESS
fi
local n_type; n_type="$OCF_RESKEY_CRM_meta_notify_type"
local n_op; n_op="$OCF_RESKEY_CRM_meta_notify_operation"
local n_active; n_active="$OCF_RESKEY_CRM_meta_notify_active_uname"
local n_stop; n_stop="$OCF_RESKEY_CRM_meta_notify_stop_uname"
local n_start; n_start="$OCF_RESKEY_CRM_meta_notify_start_uname"
ocf_log info "$OCFS2_UUID: notify: $n_type for $n_op"
ocf_log info "$OCFS2_UUID: notify active: $n_active"
ocf_log info "$OCFS2_UUID: notify stop: $n_stop"
ocf_log info "$OCFS2_UUID: notify start: $n_start"
case "$n_type" in
pre)
case "$n_op" in
stop)
ocf_log info "$OCFS2_UUID: ignoring pre-notify for stop."
return $OCF_SUCCESS
;;
start)
# These are about to become active; prepare to
# communicate with them.
# Duplicate removal - start can contain nodes
# already on the active list, confusing the
# script later on:
for UNAME in $n_active; do
n_start=`echo ${n_start} | sed s/$UNAME//`
done
# Merge pruned lists again:
n_active="$n_active $n_start"
;;
esac
;;
post)
case "$n_op" in
stop)
# remove unames from notify_stop_uname; these have been
# stopped and can no longer be considered active.
for UNAME in $n_stop; do
n_active=`echo ${n_active} | sed s/$UNAME//`
done
;;
start)
if [ "$n_op" = "start" ]; then
ocf_log info "$OCFS2_UUID: ignoring post-notify for start."
return $OCF_SUCCESS
fi
;;
esac
;;
esac
ocf_log info "$OCFS2_UUID: post-processed active: $n_active"
local n_myself; n_myself=${HA_CURHOST:-$(uname -n | tr '[A-Z]' '[a-z]')}
ocf_log info "$OCFS2_UUID: I am node $n_myself."
case " $n_active " in
*" $n_myself "*) ;;
*) ocf_log err "$OCFS2_UUID: $n_myself (local) not on active list!"
return $OCF_ERR_GENERIC
;;
esac
if [ -d "$OCFS2_FS_ROOT" ]; then
entry_prefix=$OCFS2_FS_ROOT/
for entry in $OCFS2_FS_ROOT/* ; do
n_fs="${entry##$entry_prefix}"
# ocf_log info "$OCFS2_UUID: Found current node $n_fs"
case " $n_active " in
*" $n_fs "*)
# Construct a list of nodes which are present
# already in the membership.
n_exists="$n_exists $n_fs"
ocf_log info "$OCFS2_UUID: Keeping node: $n_fs"
;;
*)
# Node is in the membership currently, but not on our
# active list. Must be removed.
if [ "$n_op" = "start" ]; then
ocf_log warn "$OCFS2_UUID: Removing nodes on start"
fi
ocf_log info "$OCFS2_UUID: Removing dead node: $n_fs"
if ! rm -f $entry ; then
ocf_log err "$OCFS2_UUID: Removal of $n_fs failed!"
fi
;;
esac
done
else
ocf_log info "$OCFS2_UUID: heartbeat directory doesn't exist yet, creating."
mkdir -p $OCFS2_FS_ROOT
fi
ocf_log info "$OCFS2_UUID: Existing node list: $n_exists"
# (2)
for entry in $n_active ; do
# ocf_log info "$OCFS2_UUID: Expected active node: $entry"
case " $n_exists " in
*" $entry "*)
ocf_log info "$OCFS2_UUID: Already active: $entry"
;;
*)
if [ "$n_op" = "stop" ]; then
ocf_log warn "$OCFS2_UUID: Adding nodes on stop"
fi
ocf_log info "$OCFS2_UUID: Activating node: $entry"
if ! ln -s $OCFS2_CLUSTER_ROOT/node/$entry $OCFS2_FS_ROOT/$entry ; then
ocf_log err "$OCFS2_CLUSTER_ROOT/node/$entry: failed to link"
fi
;;
esac
done
}
signal_processes() {
local dir=$1
local sig=$2
# fuser returns a non-zero return code if none of the
# specified files is accessed or in case of a fatal
# error.
if [ "X${HOSTOS}" = "XOpenBSD" ];then
PIDS=`fstat | grep $dir | awk '{print $3}'`
for PID in ${PIDS};do
kill -s $sig ${PID}
ocf_log info "Sent signal $sig to ${PID}"
done
else
if $FUSER -$sig -m -k $dir ; then
ocf_log info "Some processes on $dir were signalled"
else
ocf_log info "No processes on $dir were signalled"
fi
fi
}
try_umount() {
local SUB=$1
$UMOUNT $umount_force $SUB
list_mounts | grep -q " $SUB " >/dev/null 2>&1 || {
ocf_log info "unmounted $SUB successfully"
return $OCF_SUCCESS
}
return $OCF_ERR_GENERIC
}
fs_stop() {
local SUB=$1 timeout=$2 sig cnt
for sig in TERM KILL; do
cnt=$((timeout/2)) # try half time with TERM
while [ $cnt -gt 0 ]; do
try_umount $SUB &&
return $OCF_SUCCESS
ocf_log err "Couldn't unmount $SUB; trying cleanup with $sig"
signal_processes $SUB $sig
cnt=$((cnt-1))
sleep 1
done
done
return $OCF_ERR_GENERIC
}
#
# STOP: Unmount the filesystem
#
Filesystem_stop()
{
# See if the device is currently mounted
Filesystem_status >/dev/null 2>&1
if [ $? -eq $OCF_NOT_RUNNING ]; then
# Already unmounted, wonderful.
rc=$OCF_SUCCESS
else
# Wipe the status file, but continue with a warning if
# removal fails -- the file system might be read only
if [ -f "$STATUSFILE" ]; then
rm -f ${STATUSFILE}
if [ $? -ne 0 ]; then
ocf_log warn "Failed to remove status file ${STATUSFILE}."
fi
fi
# Determine the real blockdevice this is mounted on (if
# possible) prior to unmounting.
determine_blockdevice
# For networked filesystems, there's merit in trying -f:
case "$FSTYPE" in
nfs|cifs|smbfs) umount_force="-f" ;;
esac
# Umount all sub-filesystems mounted under $MOUNTPOINT/ too.
local timeout
for SUB in `list_submounts $MOUNTPOINT` $MOUNTPOINT; do
ocf_log info "Trying to unmount $SUB"
if ocf_is_true "$FAST_STOP"; then
timeout=6
else
timeout=${OCF_RESKEY_CRM_meta_timeout:="20000"}
timeout=$((timeout/1000))
fi
fs_stop $SUB $timeout
rc=$?
if [ $rc -ne $OCF_SUCCESS ]; then
ocf_log err "Couldn't unmount $SUB, giving up!"
fi
done
fi
flushbufs $DEVICE
# Yes I know the next blob is ugly, sorry.
if [ $rc -eq $OCF_SUCCESS ]; then
if [ "$FSTYPE" = "ocfs2" ]; then
ocfs2_init
if [ -n "$OCFS2_SLES10" ]; then
ocfs2_cleanup
fi
fi
fi
return $rc
}
# end of Filesystem_stop
#
# STATUS: is the filesystem mounted or not?
#
Filesystem_status()
{
if list_mounts | grep -q " $MOUNTPOINT " >/dev/null 2>&1; then
rc=$OCF_SUCCESS
msg="$MOUNTPOINT is mounted (running)"
else
rc=$OCF_NOT_RUNNING
msg="$MOUNTPOINT is unmounted (stopped)"
fi
# TODO: For ocfs2, or other cluster filesystems, should we be
# checking connectivity to other nodes here, or the IO path to
# the storage?
# Special case "monitor" to check whether the UUID cached and
# on-disk still match?
case "$OP" in
status) ocf_log info "$msg";;
esac
return $rc
}
# end of Filesystem_status
# Note: the read/write tests below will stall in case the
# underlying block device (or in the case of a NAS mount, the
# NAS server) has gone away. In that case, if I/O does not
# return to normal in time, the operation hits its timeout
# and it is up to the CRM to initiate appropriate recovery
# actions (such as fencing the node).
#
# MONITOR 10: read the device
#
Filesystem_monitor_10()
{
if [ "$blockdevice" = "no" ] ; then
ocf_log warn "$DEVICE is not a block device, monitor 10 is noop"
return $OCF_SUCCESS
fi
dd_opts="iflag=direct bs=512 count=16"
err_output=`dd if=$DEVICE $dd_opts 2>&1 >/dev/null`
if [ $? -ne 0 ]; then
ocf_log err "Failed to read device $DEVICE"
ocf_log err "dd said: $err_output"
return $OCF_ERR_GENERIC
fi
return $OCF_SUCCESS
}
#
# MONITOR 20: write and read a status file
#
Filesystem_monitor_20()
{
# Writing to the device in O_DIRECT mode is imperative
# to bypass caches.
dd_opts="oflag=direct,sync bs=512 conv=fsync,sync"
status_dir=`dirname $STATUSFILE`
[ -d "$status_dir" ] ||
mkdir -p "$status_dir"
err_output=`
echo "${OCF_RESOURCE_INSTANCE}" | dd of=${STATUSFILE} $dd_opts 2>&1`
if [ $? -ne 0 ]; then
ocf_log err "Failed to write status file ${STATUSFILE}"
ocf_log err "dd said: $err_output"
return $OCF_ERR_GENERIC
fi
test -f ${STATUSFILE}
if [ $? -ne 0 ]; then
ocf_log err "Cannot stat the status file ${STATUSFILE}"
return $OCF_ERR_GENERIC
fi
cat ${STATUSFILE} > /dev/null
if [ $? -ne 0 ]; then
ocf_log err "Cannot read the status file ${STATUSFILE}"
return $OCF_ERR_GENERIC
fi
return $OCF_SUCCESS
}
Filesystem_monitor()
{
Filesystem_status
rc=$?
if [ $rc -ne $OCF_SUCCESS ]; then
return $rc
fi
if [ $rc -eq $OCF_SUCCESS -a $OCF_CHECK_LEVEL -gt 0 ]; then
case "$OCF_CHECK_LEVEL" in
10) Filesystem_monitor_10; rc=$?;;
20) Filesystem_monitor_20; rc=$?;;
*)
ocf_log err "unsupported monitor level $OCF_CHECK_LEVEL"
rc=$OCF_ERR_CONFIGURED
;;
esac
fi
return $rc
}
# end of Filesystem_monitor
#
# VALIDATE_ALL: Are the instance parameters valid?
# FIXME!! The only part that's useful is the return code.
# This code always returns $OCF_SUCCESS (!)
#
Filesystem_validate_all()
{
if [ -n $MOUNTPOINT -a ! -d $MOUNTPOINT ]; then
ocf_log warn "Mountpoint $MOUNTPOINT does not exist"
fi
# Check if the $FSTYPE is workable
# NOTE: Without inserting the $FSTYPE module, this step may be imprecise
# TODO: This is Linux specific crap.
if [ ! -z "$FSTYPE" -a "$FSTYPE" != none ]; then
cut -f2 /proc/filesystems |grep -q ^$FSTYPE$
if [ $? -ne 0 ]; then
modpath=/lib/modules/`uname -r`
moddep=$modpath/modules.dep
# Do we have $FSTYPE in modules.dep?
cut -d' ' -f1 $moddep |grep -q "^$modpath.*$FSTYPE\.k\?o:$"
if [ $? -ne 0 ]; then
ocf_log info "It seems we do not have $FSTYPE support"
fi
fi
fi
# If we are supposed to do monitoring with status files, then
# we need a utility to write in O_DIRECT mode.
if [ $OCF_CHECK_LEVEL -gt 0 ]; then
check_binary dd
# Note: really old coreutils version do not support
# the "oflag" option for dd. We don't check for that
# here. In case dd does not support oflag, monitor is
# bound to fail, with dd spewing an error message to
# the logs. On such systems, we must do without status
# file monitoring.
fi
#TODO: How to check the $options ?
return $OCF_SUCCESS
}
# Check the arguments passed to this script
if [ $# -ne 1 ]; then
usage
exit $OCF_ERR_ARGS
fi
# Check the OCF_RESKEY_ environment variables...
DEVICE=$OCF_RESKEY_device
FSTYPE=$OCF_RESKEY_fstype
if [ ! -z "$OCF_RESKEY_options" ]; then
options="-o $OCF_RESKEY_options"
fi
FAST_STOP={$OCF_RESKEY_fast_stop:="yes"}
OP=$1
# These operations do not require instance parameters
case $OP in
meta-data) meta_data
exit $OCF_SUCCESS
;;
usage) usage
exit $OCF_SUCCESS
;;
esac
blockdevice=no
case $DEVICE in
"") ocf_log err "Please set OCF_RESKEY_device to the device to be managed"
exit $OCF_ERR_CONFIGURED
;;
-*) # Oh... An option to mount instead... Typically -U or -L
;;
[!/]*:/*) # An NFS filesystem specification...
;;
//[!/]*/*) # An SMB filesystem specification...
;;
/dev/null) # Special case for BSC
blockdevice=yes
;;
*) if [ ! -b "$DEVICE" -a ! -d "$DEVICE" -a "X$OP" != Xstart ] ; then
ocf_log warn "Couldn't find device [$DEVICE]. Expected /dev/??? to exist"
fi
if [ ! -d "$DEVICE" ];then
blockdevice=yes
fi
;;
esac
# Normalize instance parameters:
# It is possible that OCF_RESKEY_directory has one or even multiple trailing "/".
# But the output of `mount` and /proc/mounts do not.
if [ -z "$OCF_RESKEY_directory" ]; then
if [ X$OP = "Xstart" -o $blockdevice = "no" ]; then
ocf_log err "Please specify the directory"
exit $OCF_ERR_CONFIGURED
fi
else
MOUNTPOINT=$(echo $OCF_RESKEY_directory | sed 's/\/*$//')
: ${MOUNTPOINT:=/}
# At this stage, $MOUNTPOINT does not contain trailing "/" unless it is "/"
# TODO: / mounted via Filesystem sounds dangerous. On stop, we'll
# kill the whole system. Is that a good idea?
fi
# Check to make sure the utilites are found
if [ "X${HOSTOS}" != "XOpenBSD" ];then
check_binary $MODPROBE
check_binary $FUSER
fi
check_binary $FSCK
check_binary $MOUNT
check_binary $UMOUNT
if [ "$OP" != "monitor" ]; then
ocf_log info "Running $OP for $DEVICE on $MOUNTPOINT"
fi
# These operations do not require the clone checking + OCFS2
# initialization.
case $OP in
status) Filesystem_status
exit $?
;;
monitor) Filesystem_monitor
exit $?
;;
validate-all) Filesystem_validate_all
exit $?
;;
stop) Filesystem_stop
exit $?
;;
esac
CLUSTERSAFE=0
is_option "ro" &&
CLUSTERSAFE=2
case $FSTYPE in
ocfs2) ocfs2_init
CLUSTERSAFE=1
;;
nfs|smbfs|none|gfs2) CLUSTERSAFE=1 # this is kind of safe too
;;
# add here CLUSTERSAFE=0 for all filesystems which are not
# cluster aware and which, even if when mounted read-only,
# could still modify parts of it such as journal/metadata
ext4|ext4dev|ext3|reiserfs|reiser4|xfs|jfs)
CLUSTERSAFE=0 # these are not allowed
;;
esac
if [ -n "$OCF_RESKEY_CRM_meta_clone" ]; then
case $CLUSTERSAFE in
0)
ocf_log err "DANGER! $FSTYPE on $DEVICE is NOT cluster-aware!"
ocf_log err "DO NOT RUN IT AS A CLONE!"
ocf_log err "Politely refusing to proceed to avoid data corruption."
exit $OCF_ERR_CONFIGURED
;;
2)
ocf_log warn "$FSTYPE on $DEVICE is NOT cluster-aware!"
ocf_log warn "But we'll let it run because it is mounted read-only."
ocf_log warn "Please make sure that it's meta data is read-only too!"
;;
esac
fi
case $OP in
start) Filesystem_start
;;
notify) Filesystem_notify
;;
*) usage
exit $OCF_ERR_UNIMPLEMENTED
;;
esac
exit $?
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