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	diff --git a/heartbeat/portblock b/heartbeat/portblock
	index 362545828..5e6ed93d4 100755
	--- a/heartbeat/portblock
	+++ b/heartbeat/portblock
	@@ -1,548 +1,548 @@
	#!/bin/sh
	#
	# portblock: iptables temporary portblocking control
	#
	# Author: Sun Jiang Dong (initial version)
	# Philipp Reisner (per-IP filtering)
	#
	# License: GNU General Public License (GPL)
	#
	# Copyright: (C) 2005 International Business Machines
	#
	# OCF parameters are as below:
	# OCF_RESKEY_protocol
	# OCF_RESKEY_portno
	# OCF_RESKEY_action
	# OCF_RESKEY_ip
	# OCF_RESKEY_tickle_dir
	# OCF_RESKEY_sync_script
	#######################################################################
	# Initialization:

	: ${OCF_FUNCTIONS_DIR=${OCF_ROOT}/lib/heartbeat}
	. ${OCF_FUNCTIONS_DIR}/ocf-shellfuncs

	# Defaults
	OCF_RESKEY_ip_default="0.0.0.0/0"
	OCF_RESKEY_reset_local_on_unblock_stop_default="false"

	: ${OCF_RESKEY_ip=${OCF_RESKEY_ip_default}}
	: ${OCF_RESKEY_reset_local_on_unblock_stop=${OCF_RESKEY_reset_local_on_unblock_stop_default}}
	#######################################################################
	CMD=`basename $0`
	TICKLETCP=$HA_BIN/tickle_tcp

	usage()
	{
	cat <<END >&2
	usage: $CMD {start\|stop\|status\|monitor\|meta-data\|validate-all}

	$CMD is used to temporarily block ports using iptables.

	- It can be used to turn off a port before bringing
	+ It can be used to blackhole a port before bringing
	up an IP address, and enable it after a service is started.
	To do that for samba, the following resource line can be used:

	$CMD::tcp::137,138::block \\
	10.10.10.20 \\
	nmbd smbd \\
	$CMD::tcp::137,138::unblock

	This will do the following things:

	- DROP all incoming packets for TCP ports 137 and 138
	- Bring up the IP alias 10.10.10.20
	- start the nmbd and smbd services
	- Re-enable TCP ports 137 and 138
	(enable normal firewall rules on those ports)

	This prevents clients from getting ICMP port unreachable
	if they try to reconnect to the service after the alias is
	enabled but before nmbd and smbd are running. These packets
	will cause some clients to give up attempting to reconnect to
	the server.

	NOTE: iptables is linux-specific...

	An additional feature in the portblock RA is the tickle ACK function
	enabled by specifying the tickle_dir parameter. The tickle ACK
	triggers the clients to faster reconnect their TCP connections to the
	fail-overed server.

	Please note that this feature is often used for the floating IP fail-
	over scenario where the long-lived TCP connections need to be tickled.
	It doesn't support the cluster alias IP scenario.

	When using the tickle ACK function, in addition to the normal usage
	of portblock RA, the parameter tickle_dir must be specified in the
	action=unblock instance of the portblock resources.
	For example, you may stack resources like below:
	portblock action=block
	services
	portblock action=unblock tickle_dir=/tickle/state/dir

	If you want to tickle all the TCP connections which connected to _one_
	floating IP but different ports, no matter how many portblock resources
	you have defined, you should enable tickles for _one_ portblock
	resource(action=unblock) only.

	The tickle_dir is a location which stores the established TCP
	connections. It can be a shared directory(which is cluster-visible to
	all nodes) or a local directory.
	If you use the shared directory, you needn't do any other things.
	If you use the local directory, you must also specify the sync_script
	paramater. We recommend you to use csync2 as the sync_script.
	For example, if you use the local directory /tmp/tickle as tickle_dir,
	you could setup the csync2 as the csync2 documentation says and
	configure your /etc/csync2/csync2.cfg like:
	group ticklegroup {
	host node1;
	host node2;
	key /etc/csync2/ticklegroup.key;
	include /etc/csync2/csync2.cfg;
	include /tmp/tickle;
	auto younger;
	}
	Then specify the parameter sync_script as "csync2 -xv".

	END
	}

	meta_data() {
	cat <<END
	<?xml version="1.0"?>
	<!DOCTYPE resource-agent SYSTEM "ra-api-1.dtd">
	<resource-agent name="portblock">
	<version>1.0</version>

	<longdesc lang="en">
	Resource script for portblock. It is used to temporarily block ports
	using iptables. In addition, it may allow for faster TCP reconnects
	for clients on failover. Use that if there are long lived TCP
	connections to an HA service. This feature is enabled by setting the
	tickle_dir parameter and only in concert with action set to unblock.
	Note that the tickle ACK function is new as of version 3.0.2 and
	hasn't yet seen widespread use.
	</longdesc>
	<shortdesc lang="en">Block and unblocks access to TCP and UDP ports</shortdesc>

	<parameters>
	<parameter name="protocol" unique="0" required="1">
	<longdesc lang="en">
	The protocol used to be blocked/unblocked.
	</longdesc>
	<shortdesc lang="en">protocol</shortdesc>
	<content type="string" default="" />
	</parameter>

	<parameter name="portno" unique="0" required="1">
	<longdesc lang="en">
	The port number used to be blocked/unblocked.
	</longdesc>
	<shortdesc lang="en">portno</shortdesc>
	<content type="integer" default="" />
	</parameter>

	<parameter name="action" unique="0" required="1">
	<longdesc lang="en">
	The action (block/unblock) to be done on the protocol::portno.
	</longdesc>
	<shortdesc lang="en">action</shortdesc>
	<content type="string" default="" />
	</parameter>

	<parameter name="reset_local_on_unblock_stop" unique="0" required="0">
	<content type="boolean" default="${OCF_RESKEY_reset_local_on_unblock_stop_default}" />
	<shortdesc lang="en">(try to) reset server TCP sessions when unblock stops</shortdesc>
	<longdesc>
	If for some reason the long lived server side TCP sessions won't be cleaned up
	by a reconfiguration/flush/stop of whatever services this portblock protects,
	they would linger in the connection table, even after the IP is gone
	and services have been switched over to an other node.

	An example would be the default NFS kernel server.

	These "known" connections may seriously confuse and delay a later switchback.

	Enabling this option will cause this agent to try to get rid of these connections
	by injecting a temporary iptables rule to TCP-reset outgoing packets from the
	blocked ports, and additionally tickle them locally,
	just before it starts to DROP incoming packets on "unblock stop".
	</longdesc>
	</parameter>

	<parameter name="ip" unique="0" required="0">
	<longdesc lang="en">
	The IP address used to be blocked/unblocked.
	</longdesc>
	<shortdesc lang="en">ip</shortdesc>
	<content type="string" default="${OCF_RESKEY_ip_default}" />
	</parameter>

	<parameter name="tickle_dir" unique="0" required="0">
	<longdesc lang="en">
	The shared or local directory (_must_ be absolute path) which
	stores the established TCP connections.
	</longdesc>
	<shortdesc lang="en">Tickle directory</shortdesc>
	<content type="string" default="" />
	</parameter>

	<parameter name="sync_script" unique="0" required="0">
	<longdesc lang="en">
	If the tickle_dir is a local directory, then the TCP connection state
	file has to be replicated to other nodes in the cluster. It can be
	csync2 (default), some wrapper of rsync, or whatever. It takes the
	file name as a single argument. For csync2, set it to "csync2 -xv".
	</longdesc>
	<shortdesc lang="en">Connection state file synchronization script</shortdesc>
	<content type="string" default="" />
	</parameter>
	</parameters>

	<actions>
	<action name="start" timeout="20" />
	<action name="stop" timeout="20" />
	<action name="status" depth="0" timeout="10" interval="10" />
	<action name="monitor" depth="0" timeout="10" interval="10" />
	<action name="meta-data" timeout="5" />
	<action name="validate-all" timeout="5" />
	</actions>
	</resource-agent>
	END
	}


	#
	# Because this is the normal usage, we consider "block"
	# resources to be pseudo-resources -- that is, their status can't
	# be reliably determined through external means.
	# This is because we expect an "unblock" resource to come along
	# and disable us -- but we're still in some sense active...
	#

	#active_grep_pat {udp\|tcp} portno,portno
	active_grep_pat()
	{
	w="[ ][ ]*"
	any="0\\.0\\.0\\.0/0"
	echo "^DROP${w}${1}${w}--${w}${any}${w}${3}${w}multiport${w}dports${w}${2}\>"
	}

	#chain_isactive {udp\|tcp} portno,portno ip
	chain_isactive()
	{
	PAT=`active_grep_pat "$1" "$2" "$3"`
	$IPTABLES -n -L INPUT \| grep "$PAT" >/dev/null
	}

	save_tcp_connections()
	{
	[ -z "$OCF_RESKEY_tickle_dir" ] && return
	statefile=$OCF_RESKEY_tickle_dir/$OCF_RESKEY_ip
	if [ -z "$OCF_RESKEY_sync_script" ]; then
	netstat -tn \|awk -F '[:[:space:]]+' '
	$8 == "ESTABLISHED" && $4 == "'$OCF_RESKEY_ip'" \
	{printf "%s:%s\t%s:%s\n", $4,$5, $6,$7}' \|
	dd of="$statefile".new conv=fsync &&
	mv "$statefile".new "$statefile"
	else
	netstat -tn \|awk -F '[:[:space:]]+' '
	$8 == "ESTABLISHED" && $4 == "'$OCF_RESKEY_ip'" \
	{printf "%s:%s\t%s:%s\n", $4,$5, $6,$7}' \
	> $statefile
	$OCF_RESKEY_sync_script $statefile > /dev/null 2>&1 &
	fi
	}

	tickle_remote()
	{
	[ -z "$OCF_RESKEY_tickle_dir" ] && return
	echo 1 > /proc/sys/net/ipv4/tcp_tw_recycle
	f=$OCF_RESKEY_tickle_dir/$OCF_RESKEY_ip
	[ -r $f ] \|\| return
	$TICKLETCP -n 3 < $f
	}

	tickle_local()
	{
	[ -z "$OCF_RESKEY_tickle_dir" ] && return
	f=$OCF_RESKEY_tickle_dir/$OCF_RESKEY_ip
	[ -r $f ] \|\| return
	# swap "local" and "remote" address,
	# so we tickle ourselves.
	# We set up a REJECT with tcp-reset before we do so, so we get rid of
	# the no longer wanted potentially long lived "ESTABLISHED" connection
	# entries on the IP we are going to delet in a sec. These would get in
	# the way if we switch-over and then switch-back in quick succession.
	local i
	awk '{ print $2, $1; }' $f \| $TICKLETCP
	netstat -tn \| grep -Fw $OCF_RESKEY_ip \|\| return
	for i in 0.1 0.5 1 2 4 ; do
	sleep $i
	awk '{ print $2, $1; }' $f \| $TICKLETCP
	netstat -tn \| grep -Fw $OCF_RESKEY_ip \|\| break
	done
	}

	SayActive()
	{
	echo "$CMD DROP rule for INPUT chain [$*] is running (OK)"
	}

	SayConsideredActive()
	{
	echo "$CMD DROP rule for INPUT chain [$*] considered to be running (OK)"
	}

	SayInactive()
	{
	echo "$CMD DROP rule for INPUT chain [$*] is inactive"
	}

	#IptablesStatus {udp\|tcp} portno,portno ip {block\|unblock}
	IptablesStatus() {
	local rc
	rc=$OCF_ERR_GENERIC
	activewords="$CMD $1 $2 is running (OK)"
	if chain_isactive "$1" "$2" "$3"; then
	case $4 in
	block)
	SayActive $*
	rc=$OCF_SUCCESS
	;;
	*)
	SayInactive $*
	rc=$OCF_NOT_RUNNING
	;;
	esac
	else
	case $4 in
	block)
	if ha_pseudo_resource "${OCF_RESOURCE_INSTANCE}" status; then
	SayConsideredActive $*
	rc=$OCF_SUCCESS
	else
	SayInactive $*
	rc=$OCF_NOT_RUNNING
	fi
	;;

	*)
	if ha_pseudo_resource "${OCF_RESOURCE_INSTANCE}" status; then
	SayActive $*
	#This is only run on real monitor events.
	save_tcp_connections
	rc=$OCF_SUCCESS
	else
	SayInactive $*
	rc=$OCF_NOT_RUNNING
	fi
	;;
	esac
	fi

	return $rc
	}

	#IptablesBLOCK {udp\|tcp} portno,portno ip
	IptablesBLOCK()
	{
	local rc=0
	local try_reset=false
	if [ "$1/$4/$__OCF_ACTION" = tcp/unblock/stop ] &&
	ocf_is_true $reset_local_on_unblock_stop
	then
	try_reset=true
	fi
	if
	chain_isactive "$1" "$2" "$3"
	then
	: OK -- chain already active
	else
	if $try_reset ; then
	$IPTABLES -I OUTPUT -p "$1" -s "$3" -m multiport --sports "$2" -j REJECT --reject-with tcp-reset
	tickle_local
	fi
	$IPTABLES -I INPUT -p "$1" -d "$3" -m multiport --dports "$2" -j DROP
	rc=$?
	if $try_reset ; then
	$IPTABLES -D OUTPUT -p "$1" -s "$3" -m multiport --sports "$2" -j REJECT --reject-with tcp-reset
	fi
	fi

	return $rc
	}

	#IptablesUNBLOCK {udp\|tcp} portno,portno ip
	IptablesUNBLOCK()
	{
	if
	chain_isactive "$1" "$2" "$3"
	then
	$IPTABLES -D INPUT -p "$1" -d "$3" -m multiport --dports "$2" -j DROP
	else
	: Chain Not active
	fi

	return $?
	}

	#IptablesStart {udp\|tcp} portno,portno ip {block\|unblock}
	IptablesStart()
	{
	ha_pseudo_resource "${OCF_RESOURCE_INSTANCE}" start
	case $4 in
	block) IptablesBLOCK "$@";;
	unblock)
	IptablesUNBLOCK "$@"
	rc=$?
	tickle_remote
	#ignore run_tickle_tcp exit code!
	return $rc
	;;
	*) usage; return 1;
	esac

	return $?
	}

	#IptablesStop {udp\|tcp} portno,portno ip {block\|unblock}
	IptablesStop()
	{
	ha_pseudo_resource "${OCF_RESOURCE_INSTANCE}" stop
	case $4 in
	block) IptablesUNBLOCK "$@";;
	unblock)
	save_tcp_connections
	IptablesBLOCK "$@"
	;;
	*) usage; return 1;;
	esac

	return $?
	}

	#
	# Check if the port is valid, this function code is not decent, but works
	#
	CheckPort() {
	# Examples of valid port: "1080", "1", "0080"
	# Examples of invalid port: "1080bad", "0", "0000", ""
	echo $1 \|egrep -qx '[0-9]+(:[0-9]+)?(,[0-9]+(:[0-9]+)?)*'
	}

	IptablesValidateAll()
	{
	check_binary $IPTABLES
	case $protocol in
	tcp\|udp)
	;;
	*)
	ocf_log err "Invalid protocol $protocol!"
	exit $OCF_ERR_CONFIGURED
	;;
	esac

	if CheckPort "$portno"; then
	:
	else
	ocf_log err "Invalid port number $portno!"
	exit $OCF_ERR_CONFIGURED
	fi

	if [ -n "$OCF_RESKEY_tickle_dir" ]; then
	if [ x"$action" != x"unblock" ]; then
	ocf_log err "Tickles are only useful with action=unblock!"
	exit $OCF_ERR_CONFIGURED
	fi
	if [ ! -d "$OCF_RESKEY_tickle_dir" ]; then
	ocf_log err "The tickle dir doesn't exist!"
	exit $OCF_ERR_INSTALLED
	fi
	fi

	case $action in
	block\|unblock)
	;;
	*)
	ocf_log err "Invalid action $action!"
	exit $OCF_ERR_CONFIGURED
	;;
	esac

	if ocf_is_true $reset_local_on_unblock_stop; then
	if [ $action != unblock ] ; then
	ocf_log err "reset_local_on_unblock_stop is only relevant with action=unblock"
	exit $OCF_ERR_CONFIGURED
	fi
	if [ -z $OCF_RESKEY_tickle_dir ] ; then
	ocf_log warn "reset_local_on_unblock_stop works best with tickle_dir enabled as well"
	fi
	fi

	return $OCF_SUCCESS
	}

	if
	( [ $# -ne 1 ] )
	then
	usage
	exit $OCF_ERR_ARGS
	fi

	case $1 in
	meta-data) meta_data
	exit $OCF_SUCCESS
	;;

	usage) usage
	exit $OCF_SUCCESS
	;;
	*) ;;
	esac

	if [ -z "$OCF_RESKEY_protocol" ]; then
	ocf_log err "Please set OCF_RESKEY_protocol"
	exit $OCF_ERR_CONFIGURED
	fi

	if [ -z "$OCF_RESKEY_portno" ]; then
	ocf_log err "Please set OCF_RESKEY_portno"
	exit $OCF_ERR_CONFIGURED
	fi

	if [ -z "$OCF_RESKEY_action" ]; then
	ocf_log err "Please set OCF_RESKEY_action"
	exit $OCF_ERR_CONFIGURED
	fi

	protocol=$OCF_RESKEY_protocol
	portno=$OCF_RESKEY_portno
	action=$OCF_RESKEY_action
	ip=$OCF_RESKEY_ip
	reset_local_on_unblock_stop=$OCF_RESKEY_reset_local_on_unblock_stop

	case $1 in
	start)
	IptablesStart $protocol $portno $ip $action
	;;

	stop)
	IptablesStop $protocol $portno $ip $action
	;;

	status\|monitor)
	IptablesStatus $protocol $portno $ip $action
	;;

	validate-all)
	IptablesValidateAll
	;;

	*) usage
	exit $OCF_ERR_UNIMPLEMENTED
	;;
	esac

	exit $?

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