#!/usr/bin/bash
#
# License: GNU General Public License (GPL)
# Support: linux-ha@lists.linux-ha.org
#
# This script manages IP alias IP addresses
#
# It can add an IP alias, or remove one.
#
# usage: $0 {start|stop|status|monitor|validate-all|meta-data}
#
# The "start" arg adds an IP alias.
#
# Surprisingly, the "stop" arg removes one. :-)
#
# OCF parameters are as below
# OCF_RESKEY_ip
# OCF_RESKEY_broadcast
# OCF_RESKEY_nic
# OCF_RESKEY_cidr_netmask
# OCF_RESKEY_lvs_support ( e.g. true, on, 1 )
# OCF_RESKEY_ARP_INTERVAL_MS
# OCF_RESKEY_ARP_REPEAT
# OCF_RESKEY_ARP_BACKGROUND (e.g. yes )
# OCF_RESKEY_ARP_NETMASK
# OCF_RESKEY_local_start_script
# OCF_RESKEY_local_stop_script
#
#######################################################################
# Initialization:
: ${OCF_FUNCTIONS_DIR=${OCF_ROOT}/lib/heartbeat}
. ${OCF_FUNCTIONS_DIR}/ocf-shellfuncs
SENDARP=${HA_BIN}/send_arp
SENDARP=/usr/bin/arpsend
SLEEP=/usr/gnu/bin/sleep
FINDIF=${HA_BIN}/findif
VLDIR=${HA_RSCTMP}
SENDARPPIDDIR=${HA_RSCTMP}
SENDARPPIDFILE="${SENDARPPIDDIR}/send_arp-${OCF_RESKEY_ip}"
USAGE="usage: $0 {start|stop|status|monitor|validate-all|meta-data}";
#######################################################################
SYSTYPE="`uname -s`"
case "${SYSTYPE}" in
SunOS)
# `uname -r` = 5.9 -> SYSVERSION = 9
SYSVERSION="`uname -r | cut -d. -f 2`"
;;
Darwin)
# Treat Darwin the same as the other BSD variants (matched as *BSD)
SYSTYPE="${SYSTYPE}BSD"
;;
*)
;;
esac
meta_data() {
cat <<END
<?xml version="1.0"?>
<!DOCTYPE resource-agent SYSTEM "ra-api-1.dtd">
<resource-agent name="IPaddr">
<version>1.0</version>
<longdesc lang="en">
This script manages IP alias IP addresses
It can add an IP alias, or remove one.
</longdesc>
<shortdesc lang="en">Manages virtual IPv4 addresses (portable version)</shortdesc>
<parameters>
<parameter name="ip" unique="1" required="1">
<longdesc lang="en">
The IPv4 address to be configured in dotted quad notation, for example
"192.168.1.1".
</longdesc>
<shortdesc lang="en">IPv4 address</shortdesc>
<content type="string" default="" />
</parameter>
<parameter name="nic" unique="0">
<longdesc lang="en">
The base network interface on which the IP address will be brought
online.
If left empty, the script will try and determine this from the
routing table.
Do NOT specify an alias interface in the form eth0:1 or anything here;
rather, specify the base interface only.
Prerequisite:
There must be at least one static IP address, which is not managed by
the cluster, assigned to the network interface.
If you can not assign any static IP address on the interface,
modify this kernel parameter:
sysctl -w net.ipv4.conf.all.promote_secondaries=1
(or per device)
</longdesc>
<shortdesc lang="en">Network interface</shortdesc>
<content type="string" default="eth0"/>
</parameter>
<parameter name="cidr_netmask">
<longdesc lang="en">
The netmask for the interface in CIDR format. (ie, 24), or in
dotted quad notation 255.255.255.0).
If unspecified, the script will also try to determine this from the
routing table.
</longdesc>
<shortdesc lang="en">Netmask</shortdesc>
<content type="string" default=""/>
</parameter>
<parameter name="broadcast">
<longdesc lang="en">
Broadcast address associated with the IP. If left empty, the script will
determine this from the netmask.
</longdesc>
<shortdesc lang="en">Broadcast address</shortdesc>
<content type="string" default=""/>
</parameter>
<parameter name="iflabel">
<longdesc lang="en">
You can specify an additional label for your IP address here.
</longdesc>
<shortdesc lang="en">Interface label</shortdesc>
<content type="string" default=""/>
</parameter>
<parameter name="lvs_support">
<longdesc lang="en">
Enable support for LVS Direct Routing configurations. In case a IP
address is stopped, only move it to the loopback device to allow the
local node to continue to service requests, but no longer advertise it
on the network.
</longdesc>
<shortdesc lang="en">Enable support for LVS DR</shortdesc>
<content type="boolean" default="false"/>
</parameter>
<parameter name="local_stop_script">
<longdesc lang="en">
Script called when the IP is released
</longdesc>
<shortdesc lang="en">Script called when the IP is released</shortdesc>
<content type="string" default=""/>
</parameter>
<parameter name="local_start_script">
<longdesc lang="en">
Script called when the IP is added
</longdesc>
<shortdesc lang="en">Script called when the IP is added</shortdesc>
<content type="string" default=""/>
</parameter>
<parameter name="ARP_INTERVAL_MS">
<longdesc lang="en">
milliseconds between ARPs
</longdesc>
<shortdesc lang="en">milliseconds between gratuitous ARPs</shortdesc>
<content type="integer" default="500"/>
</parameter>
<parameter name="ARP_REPEAT">
<longdesc lang="en">
How many gratuitous ARPs to send out when bringing up a new address
</longdesc>
<shortdesc lang="en">repeat count</shortdesc>
<content type="integer" default="10"/>
</parameter>
<parameter name="ARP_BACKGROUND">
<longdesc lang="en">
run in background (no longer any reason to do this)
</longdesc>
<shortdesc lang="en">run in background</shortdesc>
<content type="boolean" default="yes"/>
</parameter>
<parameter name="ARP_NETMASK">
<longdesc lang="en">
netmask for ARP - in nonstandard hexadecimal format.
</longdesc>
<shortdesc lang="en">netmask for ARP</shortdesc>
<content type="string" default="ffffffffffff"/>
</parameter>
</parameters>
<actions>
<action name="start" timeout="20s" />
<action name="stop" timeout="20s" />
<action name="monitor" depth="0" timeout="20s" interval="5s" />
<action name="validate-all" timeout="20s" />
<action name="meta-data" timeout="5s" />
</actions>
</resource-agent>
END
exit ${OCF_SUCCESS}
}
# The 'ping' command takes highly OS-dependent arguments, so this
# function creates a suitable argument list for the host OS's 'ping'.
# We use a subset of its functionality:
# 1. single packet
# 2. reasonable timeout (say 1 second)
#
# arguments:
# $1: IP address to ping
# result string:
# arguments for ping command
#
# If more flexibility is needed, they could be specified in the environment
# to this function, to adjust the resulting 'ping' arguments.
# David Lee <t.d.lee@durham.ac.uk> May 2007
pingargs() {
_baseip=$1
_timeout=1 # seconds
_pktcount=1
_systype="`uname -s`"
case ${_systype} in
Linux)
# Default is perpetual ping: need "-c ${_pktcount}".
# -c count -t timetolive -q(uiet) -n(umeric) -W timeout
_pingargs="-c ${_pktcount} -q -n ${_baseip}"
;;
SunOS)
# Default is immediate (or timeout) return.
_pingargs="${_baseip} $_timeout"
;;
*)
_pingargs="-c ${_pktcount} ${_baseip}"
;;
esac
echo "${_pingargs}"
}
# On Linux systems the (hidden) loopback interface may
# conflict with the requested IP address. If so, this
# unoriginal code will remove the offending loopback address
# and save it in VLDIR so it can be added back in later
# when the IPaddr is released.
#
lvs_remove_conflicting_loopback() {
ipaddr="$1"
ifname="$2"
ocf_log info "Removing conflicting loopback ${ifname}."
if
echo ${ifname} > "${VLDIR}/${ipaddr}"
then
: Saved loopback information in ${VLDIR}/${ipaddr}
else
ocf_log err "Could not save conflicting loopback ${ifname}." \
"it will not be restored."
fi
if [ ! -z "${OCF_RESKEY_local_stop_script}" ]; then
if [ -x "${OCF_RESKEY_local_stop_script}" ]; then
${OCF_RESKEY_local_stop_script} $*
fi
fi
delete_interface "${ifname}" "${ipaddr}"
# Forcibly remove the route (if it exists) to the loopback.
delete_route "${ipaddr}"
}
#
# On Linux systems the (hidden) loopback interface may
# need to be restored if it has been taken down previously
# by lvs_remove_conflicting_loopback()
#
lvs_restore_loopback() {
ipaddr="$1"
if [ ! -s "${VLDIR}/${ipaddr}" ]; then
return
fi
ifname=`cat "${VLDIR}/${ipaddr}"`
ocf_log info "Restoring loopback IP Address ${ipaddr} on ${ifname}."
CMD="OCF_RESKEY_cidr_netmask=32 OCF_RESKEY_ip=$1 OCF_RESKEY_nic=${ifname} ${FINDIF}"
if
NICINFO=`eval ${CMD}`
NICINFO=`echo ${NICINFO} | tr " " " " | tr -s " "`
then
netmask_text=`echo "${NICINFO}" | cut -f3 -d " "`
broadcast=`echo "${NICINFO}" | cut -f5 -d " "`
else
echo "ERROR: ${CMD} failed (rc=${rc})"
exit ${OCF_ERR_GENERIC}
fi
add_interface "${ipaddr}" "${ifname}" "${ifname}" $netmask_text $broadcast
rm -f "${VLDIR}/${ipaddr}"
}
#
# Find out which alias serves the given IP address
# The argument is an IP address, and its output
# is an aliased interface name (e.g., "eth0:0").
#
find_interface_solaris() {
ipaddr="$1"
${IFCONFIG} ${IFCONFIG_A_OPT} | ${AWK} '{if ($0 ~ /.*: / && NR > 1) {print "\n"$0} else {print}}' |
while read ifname linkstuff
do
: ifname = ${ifname}
read inet addr junk
: inet = $inet addr = $addr
while
read line && [ "X$line" != "X" ]
do
: Nothing
done
case ${ifname} in
*:*) ;;
*) continue;;
esac
# This doesn't look right for a box with multiple NICs.
# It looks like it always selects the first interface on
# a machine. Yet, we appear to use the results for this case too...
ifname=`echo "${ifname}" | sed s'%:$%%'`
case $addr in
addr:${ipaddr}) echo ${ifname}; return ${OCF_SUCCESS};;
${ipaddr}) echo ${ifname}; return ${OCF_SUCCESS};;
esac
done
return ${OCF_ERR_GENERIC}
}
find_interface_bsd() {
${IFCONFIG} ${IFCONFIG_A_OPT} | awk -v ip_addr="${ipaddr}" '
/UP,/ && $0 ~ /^[a-z]+[0-9]:/ {
if_name=$1; sub(":$","",if_name);
}
$1 == "inet" && $2 == ip_addr {
print if_name
exit(0)
}'
}
#
# Find out which alias serves the given IP address
# The argument is an IP address, and its output
# is an aliased interface name (e.g., "eth0:0").
#
find_interface_generic() {
ipaddr="$1"
${IFCONFIG} ${IFCONFIG_A_OPT} |
while read ifname linkstuff
do
: Read gave us ifname = ${ifname}
read inet addr junk
: Read gave us inet = $inet addr = $addr
while
read line && [ "X$line" != "X" ]
do
: Nothing
done
case ${ifname} in
*:*) ifname=`echo ${ifname} | sed 's/:$//'`;;
*) continue;;
esac
: "comparing ${ipaddr} to $addr (from ifconfig)"
case $addr in
addr:${ipaddr}) echo ${ifname}; return ${OCF_SUCCESS};;
${ipaddr}) echo ${ifname}; return ${OCF_SUCCESS};;
esac
done
return ${OCF_ERR_GENERIC}
}
#
# Find out which alias serves the given IP address
# The argument is an IP address, and its output
# is an aliased interface name (e.g., "eth0:0").
#
find_interface() {
ipaddr="$1"
case "${SYSTYPE}" in
SunOS)
NIC=`find_interface_solaris ${ipaddr}`;;
*BSD)
NIC=`find_interface_bsd ${ipaddr}`;;
*)
NIC=`find_interface_generic ${ipaddr}`;;
esac
echo $NIC
return ${OCF_SUCCESS};
}
#
# Find an unused interface/alias name for us to use for new IP alias
# The argument is an IP address, and the output
# is an aliased interface name (e.g., "eth0:0", "dc0", "le0:0").
#
find_free_interface() {
NIC="$1"
if [ "X$NIC" = "X" ]; then
ocf_log err "No free interface found for ${OCF_RESKEY_ip}"
return ${OCF_ERR_GENERIC};
fi
NICBASE="${VLDIR}/IPaddr-$NIC"
touch "$NICBASE"
case "${SYSTYPE}" in
*BSD)
echo $NIC;
return ${OCF_SUCCESS};;
SunOS)
j=1
IFLIST=`${IFCONFIG} ${IFCONFIG_A_OPT} | \
grep "^$NIC:[0-9]" | sed 's%: .*%%'`;;
*)
j=0
IFLIST=`${IFCONFIG} ${IFCONFIG_A_OPT} | \
grep "^$NIC:[0-9]" | sed 's% .*%%'`
TRYADRCNT=`ls "${NICBASE}:"* 2>/dev/null | wc -w | tr -d ' '`
if [ -f "${NICBASE}:${TRYADRCNT}" ]; then
: OK
else
j="${TRYADRCNT}"
fi
;;
esac
IFLIST=" `echo $IFLIST` "
while
[ $j -lt 512 ]
do
case $IFLIST in
*" "$NIC:$j" "*)
;;
*)
NICLINK="$NICBASE:$j"
if
ln "$NICBASE" "$NICLINK" 2>/dev/null
then
echo "$NIC:$j"
return ${OCF_SUCCESS}
fi
;;
esac
j=`expr $j + 1`
done
return ${OCF_ERR_GENERIC}
}
delete_route () {
ipaddr="$1"
case "${SYSTYPE}" in
SunOS) return 0;;
*BSD) CMD="${ROUTE} -n delete -host ${ipaddr}";;
*) CMD="${ROUTE} -n del -host ${ipaddr}";;
esac
${CMD}
return $?
}
delete_interface () {
ifname="$1"
ipaddr="$2"
case "${SYSTYPE}" in
SunOS)
if [ "$SYSVERSION" -ge 8 ] ; then
CMD="${IFCONFIG} ${ifname} unplumb"
else
CMD="${IFCONFIG} ${ifname} 0 down"
fi;;
Darwin*)
CMD="${IFCONFIG} ${ifname} ${ipaddr} delete";;
*BSD)
CMD="${IFCONFIG} ${ifname} inet ${ipaddr} delete";;
*)
CMD="${IFCONFIG} ${ifname} down";;
esac
ocf_log info "${CMD}"
${CMD}
return $?
}
add_interface () {
ipaddr="$1"
iface_base="$2"
iface="$3"
netmask="$4"
broadcast="$5"
if [ $# != 5 ]; then
ocf_log err "Insufficient arguments to add_interface: $*"
exit ${OCF_ERR_ARGS}
fi
case "${SYSTYPE}" in
SunOS)
if [ "$SYSVERSION" -ge 10 ] ; then
CMD="${IFCONFIG} $iface plumb ${ipaddr} netmask $netmask up"
elif [ "$SYSVERSION" -ge 8 ] ; then
${IFCONFIG} $iface plumb
rc=$?
if [ ${rc} -ne 0 ] ; then
echo "ERROR: '${IFCONFIG} $iface plumb' failed."
return ${rc}
fi
else
# At Solaris 10, this single-command version sometimes broke.
# Almost certainly an S10 bug.
# CMD="${IFCONFIG} $iface inet ${ipaddr} $text up"
# So hack the following workaround:
CMD="${IFCONFIG} $iface inet ${ipaddr}"
CMD="${CMD} && ${IFCONFIG} $iface netmask $netmask"
CMD="${CMD} && ${IFCONFIG} $iface up"
fi
;;
*BSD)
# netmask is always set to 255.255.255.255 for an alias
CMD="${IFCONFIG} $iface inet ${ipaddr} netmask 255.255.255.255 alias";;
*)
CMD="${IFCONFIG} $iface ${ipaddr} netmask $netmask broadcast $broadcast";;
esac
# Use "eval ${CMD}" (not "${CMD}"): it might be a chain of two or more commands.
ocf_log info "eval ${CMD}"
eval ${CMD}
rc=$?
if [ ${rc} != 0 ]; then
echo "ERROR: eval ${CMD} failed (rc=${rc})"
case "${SYSTYPE}" in
SunOS)
CMD="${IFCONFIG} $iface unplumb"
eval ${CMD}
esac
else
case "${SYSTYPE}" in
SunOS)
if [ "$SYSVERSION" -ge 11 ] ; then
CMD="ipadm show-addr | grep ${ipaddr} | grep -ie 'TENTATIVE'"
$SLEEP 1
eval ${CMD}
rc=$?
if [ ${rc} = 0 ]; then
${IFCONFIG} $iface down
${IFCONFIG} $iface up
fi
CMD="ipadm show-addr | grep ${ipaddr} | grep -ie 'DUPLICATE' -ie 'TENTATIVE'"
else
CMD="${IFCONFIG} |grep ^$iface | grep -e 'DUPLICATE' -e 'TENTATIVE'"
fi
eval ${CMD}
rc=$?
if [ ${rc} = 0 ]; then
echo "ERROR: eval $iface DUPLICATE or TENTATIVE (rc=${rc})"
CMD="${IFCONFIG} $iface unplumb"
eval ${CMD}
rc=${OCF_ERR_GENERIC}
else
rc=0
fi
esac
fi
return ${rc}
}
#
# Remove the IP alias for the requested IP address...
#
ip_stop() {
SENDARPPIDFILE="${SENDARPPIDDIR}/send_arp-${OCF_RESKEY_ip}"
NIC=`find_interface ${OCF_RESKEY_ip}`
if [ -f "$SENDARPPIDFILE" ]; then
cat "$SENDARPPIDFILE" | xargs kill
rm -f "$SENDARPPIDFILE"
fi
if [ -z "$NIC" ]; then
: Requested interface not in use
return ${OCF_SUCCESS}
fi
if [ ${OCF_RESKEY_lvs_support} = 1 ]; then
case $NIC in
lo*)
: Requested interface is on loopback
return ${OCF_SUCCESS};;
esac
fi
delete_route "${OCF_RESKEY_ip}"
delete_interface "$NIC" "${OCF_RESKEY_ip}"
rc=$?
if [ ${OCF_RESKEY_lvs_support} = 1 ]; then
lvs_restore_loopback "${OCF_RESKEY_ip}"
fi
# remove lock file...
rm -f "${VLDIR}/IPaddr-$NIC"
if [ ${rc} != 0 ]; then
ocf_log warn "IP Address ${OCF_RESKEY_ip} NOT released: rc=${rc}"
return ${OCF_ERR_GENERIC}
fi
return ${OCF_SUCCESS}
}
#
# Add an IP alias for the requested IP address...
#
# It could be that we already have taken it, in which case it should
# do nothing.
#
ip_start() {
#
# Do we already service this IP address?
#
ip_status_internal
if [ $? = ${OCF_SUCCESS} ]; then
# Nothing to do, the IP is already active
return ${OCF_SUCCESS};
fi
NIC_unique=`find_free_interface ${OCF_RESKEY_nic}`
if [ -n "$NIC_unique" ]; then
: OK got interface [$NIC_unique] for ${OCF_RESKEY_ip}
else
return ${OCF_ERR_GENERIC}
fi
# This logic is mostly to support LVS (If I understand it correctly)
if [ ${OCF_RESKEY_lvs_support} = 1 ]; then
NIC_current=`find_interface ${OCF_RESKEY_ip}`
case $NIC_unique in
lo*)
if [ x"$NIC_unique" = x"$NIC_current" ]; then
# Its already "running" and not moving, nothing to do.
ocf_log err "Could not find a non-loopback device to move ${OCF_RESKEY_ip} to"
return ${OCF_ERR_GENERIC}
fi;;
*) lvs_remove_conflicting_loopback "${OCF_RESKEY_ip}" "$NIC_current";;
esac
fi
if [ ! -z "${OCF_RESKEY_local_start_script}" ]; then
if [ -x "${OCF_RESKEY_local_start_script}" ]; then
${OCF_RESKEY_local_start_script} $*
fi
fi
add_interface "${OCF_RESKEY_ip}" "${OCF_RESKEY_nic}" "$NIC_unique" \
"${OCF_RESKEY_cidr_netmask}" "${OCF_RESKEY_broadcast}"
rc=$?
if [ ${rc} != 0 ]; then
ocf_log err "Could not add ${OCF_RESKEY_ip} to ${OCF_RESKEY_nic}: rc=${rc}"
return ${rc}
fi
# The address is active, now notify others about it using sendarp
if [ "${SYSTYPE}" = "DarwinBSD" -a "$NIC_unique" = "lo0" ]; then
# Darwin can't send ARPs on loopback devices
SENDARP="x$SENDARP" # Prevent the binary from being found
fi
if [ -x $SENDARP ]; then
TARGET_INTERFACE=`echo $NIC_unique | sed 's%:.*%%'`
SENDARPPIDFILE="${SENDARPPIDDIR}/send_arp-${OCF_RESKEY_ip}"
# ARGS="-i ${OCF_RESKEY_ARP_INTERVAL_MS} -r ${OCF_RESKEY_ARP_REPEAT}"
# ARGS="$ARGS -p $SENDARPPIDFILE $TARGET_INTERFACE ${OCF_RESKEY_ip}"
# ARGS="$ARGS auto ${OCF_RESKEY_ip} $OCF_RESKEY_ARP_NETMASK"
ocf_log debug "Sending Gratuitous Arp for ${OCF_RESKEY_ip} on $NIC_unique [$TARGET_INTERFACE]"
IFS=' ' read -ra LINKS <<< `ipmpstat -a -o GROUP,OUTBOUND|grep $TARGET_INTERFACE |gsed -e "s#$TARGET_INTERFACE##g"`
for i in "${LINKS[@]}"; do
ocf_log debug "Sending Gratuitous Arp for ${OCF_RESKEY_ip} on $NIC_unique [$TARGET_INTERFACE] over link $i"
ARGS="-T ff:ff:ff:ff:fff:ff -t ${OCF_RESKEY_ip} -i $i"
case $OCF_RESKEY_ARP_BACKGROUND in
yes) ($SENDARP $ARGS || ocf_log err "Could not send gratuitous arps. rc=$?" & ) >&2 ;;
*) $SENDARP $ARGS || ocf_log err "Could not send gratuitous arps. rc=$?";;
esac
done
fi
ip_status_internal
return $?
}
ip_status_internal() {
NIC=`find_interface "${OCF_RESKEY_ip}"`
if [ "x$NIC" = x ]; then
return $OCF_NOT_RUNNING
elif [ "${OCF_RESKEY_lvs_support}" = "1" ]; then
case $NIC in
lo*) return $OCF_NOT_RUNNING;;
*) return ${OCF_SUCCESS};;
esac
else
if [ x${OCF_RESKEY_nic} != x ]; then
simple_OCF_NIC=`echo ${OCF_RESKEY_nic} | awk -F: '{print $1}'`
simple_NIC=`echo $NIC | awk -F: '{print $1}'`
if [ $simple_OCF_NIC != $simple_NIC ]; then
ocf_log err "${OCF_RESKEY_ip} is running an interface ($simple_NIC) instead of the configured one ($simple_OCF_NIC)"
return ${OCF_ERR_GENERIC}
fi
fi
return ${OCF_SUCCESS}
fi
}
ip_status() {
ip_status_internal
rc=$?
if [ ${rc} = ${OCF_SUCCESS} ]; then
echo "running"
elif [ ${rc} = $OCF_NOT_RUNNING ]; then
echo "stopped"
else
echo "unknown"
fi
return ${rc};
}
#
# Determine if this IP address is really being served, or not.
# Note that we must distinguish if *we're* serving it locally...
#
ip_monitor() {
ip_status_internal
rc=$?
if [ $OCF_CHECK_LEVEL = 0 -o ${rc} != 0 ]; then
return ${rc}
fi
ocf_log info "Checking IP stack"
PINGARGS="`pingargs ${OCF_RESKEY_ip}`"
for j in 1 2 3 4 5 6 7 8 9 10; do
MSG=`${PING} ${PING}ARGS 2>&1`
if [ $? = 0 ]; then
return ${OCF_SUCCESS}
fi
done
ocf_log err "$MSG"
return ${OCF_ERR_GENERIC}
}
is_positive_integer() {
ocf_is_decimal $1 && [ $1 -ge 1 ]
if [ $? = 0 ]; then
return 1
fi
return 0
}
ip_validate_all() {
: ${OCF_RESKEY_ARP_BACKGROUND=yes}
: ${OCF_RESKEY_ARP_NETMASK=ffffffffffff}
: ${OCF_RESKEY_ARP_INTERVAL_MS=500}
: ${OCF_RESKEY_ARP_REPEAT=10}
check_binary ${AWK}
check_binary ${IFCONFIG}
check_binary ${ROUTE}
check_binary ${PING}
if is_positive_integer ${OCF_RESKEY_ARP_INTERVAL_MS}
then
ocf_log err "Invalid parameter value: ARP_INTERVAL_MS [${OCF_RESKEY_ARP_INTERVAL_MS}]"
return ${OCF_ERR_ARGS}
fi
if is_positive_integer ${OCF_RESKEY_ARP_REPEAT}
then
ocf_log err "Invalid parameter value: ARP_REPEAT [${OCF_RESKEY_ARP_REPEAT}]"
return ${OCF_ERR_ARGS}
fi
: ${OCF_RESKEY_lvs_support=0}
if [ "${SYSTYPE}" = "Linux" -o "${SYSTYPE}" = "SunOS" ]; then
:
else
if [ "${OCF_RESKEY_lvs_support}" = "1" ]; then
ocf_log err "${SYSTYPE} does not support LVS"
return ${OCF_ERR_GENERIC}
fi
fi
case ${OCF_RESKEY_ip} in
"") ocf_log err "Required parameter OCF_RESKEY_ip is missing"
return $OCF_ERR_CONFIGURED;;
[0-9]*.[0-9]*.[0-9]*.*[0-9]) : OK;;
*) ocf_log err "Parameter OCF_RESKEY_ip [${OCF_RESKEY_ip}] not an IP address"
return $OCF_ERR_CONFIGURED;;
esac
# Unconditionally do this?
case ${OCF_RESKEY_nic} in
*:*)
OCF_RESKEY_nic=`echo ${OCF_RESKEY_nic} | sed 's/:.*//'`
;;
esac
NICINFO=`${FINDIF}`
rc=$?
if [ ${rc} != 0 ]; then
ocf_log err "${FINDIF} failed [rc=${rc}]."
return ${OCF_ERR_GENERIC}
fi
tmp=`echo "${NICINFO}" | cut -f1`
if
[ "x${OCF_RESKEY_nic}" = "x" ]
then
ocf_log info "Using calculated nic for ${OCF_RESKEY_ip}: ${tmp}"
OCF_RESKEY_nic=${tmp}
elif
[ x${tmp} != x${OCF_RESKEY_nic} ]
then
ocf_log err "Invalid parameter value: nic [${OCF_RESKEY_nic}] Calculated nic: [${tmp}]"
return ${OCF_ERR_ARGS}
fi
tmp=`echo "${NICINFO}" | cut -f2 | cut -d ' ' -f2`
if
[ "x${OCF_RESKEY_cidr_netmask}" != "x${tmp}" ]
then
ocf_log info "Using calculated netmask for ${OCF_RESKEY_ip}: ${tmp}"
fi
# Always use the calculated version becuase it might have been specified
# using CIDR notation which not every system accepts
OCF_RESKEY_netmask=${tmp}
OCF_RESKEY_cidr_netmask=${tmp}; export OCF_RESKEY_cidr_netmask
tmp=`echo "${NICINFO}" | cut -f3 | cut -d ' ' -f2`
if
[ "x${OCF_RESKEY_broadcast}" = "x" ]
then
ocf_log debug "Using calculated broadcast for ${OCF_RESKEY_ip}: ${tmp}"
OCF_RESKEY_broadcast=${tmp}
elif [ x${tmp} != x${OCF_RESKEY_broadcast} ]; then
ocf_log err "Invalid parameter value: broadcast [${OCF_RESKEY_broadcast}] Calculated broadcast: [${tmp}]"
return ${OCF_ERR_ARGS}
fi
return ${OCF_SUCCESS}
}
usage() {
echo ${USAGE} >&2
return $1
}
if [ $# -ne 1 ]; then
usage ${OCF_ERR_ARGS}
fi
: ${OCF_RESKEY_lvs_support=0}
# Normalize the value of lvs_support
if [ "${OCF_RESKEY_lvs_support}" = "true" \
-o "${OCF_RESKEY_lvs_support}" = "on" \
-o "${OCF_RESKEY_lvs_support}" = "yes" \
-o "${OCF_RESKEY_lvs_support}" = "1" ]; then
OCF_RESKEY_lvs_support=1
else
OCF_RESKEY_lvs_support=0
fi
# Note: We had a version out there for a while which used
# netmask instead of cidr_netmask. So, don't remove this aliasing code!
if
[ ! -z "${OCF_RESKEY_netmask}" -a -z "${OCF_RESKEY_cidr_netmask}" ]
then
OCF_RESKEY_cidr_netmask=${OCF_RESKEY_netmask}
export OCF_RESKEY_cidr_netmask
fi
case $1 in
meta-data) meta_data;;
start) ip_validate_all && ip_start;;
stop) ip_stop;;
status) ip_status;;
monitor) ip_monitor;;
validate-all) ip_validate_all;;
usage) usage ${OCF_SUCCESS};;
*) usage ${OCF_ERR_UNIMPLEMENTED};;
esac
exit $?