X7ROOT File Manager
Current Path:
/usr/lib/ocf/resource.d/pacemaker
usr
/
lib
/
ocf
/
resource.d
/
pacemaker
/
📁
..
📄
ClusterMon
(7.47 KB)
📄
Dummy
(8.71 KB)
📄
HealthCPU
(5.99 KB)
📄
HealthSMART
(9.21 KB)
📄
Stateful
(5.76 KB)
📄
SysInfo
(10.78 KB)
📄
SystemHealth
(5.87 KB)
📄
attribute
(6.95 KB)
📄
controld
(8.67 KB)
📄
ifspeed
(15.25 KB)
📄
ping
(11.64 KB)
📄
pingd
(6.91 KB)
📄
remote
(4.12 KB)
Editing: ifspeed
#!/bin/bash # # OCF resource agent which monitors state of network interface and records it # as a node attribute in the CIB based on the sum of speeds of its active (up, # link detected, not blocked) underlying interfaces. # # Copyright (c) 2011 Vladislav Bogdanov <bubble@hoster-ok.com> # Partially based on 'ping' RA by Andrew Beekhof # # Change on 2017 by Tomer Azran <tomerazran@gmail.com>: # Add "ip" parameter to detect network interface name by ip address: # http://lists.clusterlabs.org/pipermail/users/2017-August/006224.html # # OCF instance parameters: # OCF_RESKEY_name: name of attribute to set in CIB # OCF_RESKEY_ip ip address to check # OCF_RESKEY_iface: network interface to monitor # OCF_RESKEY_bridge_ports: if not null and OCF_RESKEY_iface is a bridge, list of # bridge ports to consider. # Default is all ports which have designated_bridge=root_id # OCF_RESKEY_weight_base: Relative weight of 1Gbps. This can be used to tune # value of resulting CIB attribute. # # Initialization: : ${OCF_FUNCTIONS=${OCF_ROOT}/resource.d/heartbeat/.ocf-shellfuncs} # If these aren't available, we can still show help, # which is all that is needed to build the man pages. [ -r "${OCF_FUNCTIONS}" ] && . "${OCF_FUNCTIONS}" [ -r "${OCF_FUNCTIONS_DIR}/findif.sh" ] && . "${OCF_FUNCTIONS_DIR}/findif.sh" : ${OCF_SUCCESS=0} : ${__OCF_ACTION=$1} FINDIF=findif # Defaults OCF_RESKEY_name_default="ifspeed" OCF_RESKEY_bridge_ports_default="detect" OCF_RESKEY_weight_base_default=1000 OCF_RESKEY_dampen_default=5 : ${OCF_RESKEY_name=${OCF_RESKEY_name_default}} : ${OCF_RESKEY_bridge_ports=${OCF_RESKEY_bridge_ports_default}} : ${OCF_RESKEY_weight_base=${OCF_RESKEY_weight_base_default}} : ${OCF_RESKEY_dampen=${OCF_RESKEY_dampen_default}} meta_data() { cat <<END <?xml version="1.0"?> <!DOCTYPE resource-agent SYSTEM "ra-api-1.dtd"> <resource-agent name="ifspeed" version="1.0"> <version>1.0</version> <longdesc lang="en"> Every time the monitor action is run, this resource agent records (in the CIB) (relative) speed of network interface it monitors. This RA can monitor physical interfaces, bonds, bridges, vlans and (hopefully) any combination of them. Examples: *) Bridge on top of one 10Gbps interface (eth2) and 802.3ad bonding (bond0) built on two 1Gbps interfaces (eth0 and eth1). *) Active-backup bonding built on top of one physical interface and one vlan on another interface. For STP-enabled bridges this RA tries to some-how guess network topology and by default looks only on ports which are connected to upstream switch. This can be overridden by 'bridge_ports' parameter. Active interfaces in this case are those in "forwarding" state. For balancing bonds this RA summs speeds of underlying "up" slave interfaces (and applies coefficient 0.8 to result). For non-balancing bonds ('active-backup' and probably 'broadcast'), only the speed of the currently active slave is used. </longdesc> <shortdesc lang="en">Network interface speed monitor</shortdesc> <parameters> <parameter name="name" unique="1"> <longdesc lang="en"> The name of the attribute to set. This is the name to be used in the constraints. </longdesc> <shortdesc lang="en">Attribute name</shortdesc> <content type="string" default="${OCF_RESKEY_name_default}"/> </parameter> <parameter name="iface" unique="0" required="1"> <longdesc lang="en"> Network interface to monitor. </longdesc> <shortdesc lang="en">Network interface</shortdesc> <content type="string" default=""/> </parameter> <parameter name="ip" unique="0" required="0"> <longdesc lang="en"> Try to detect interface name by detecting the interface that holds the IP address. The IPv4 (dotted quad notation) or IPv6 address (colon hexadecimal notation) example IPv4 "192.168.1.1". example IPv6 "2001:db8:DC28:0:0:FC57:D4C8:1FFF". </longdesc> <shortdesc lang="en">IPv4 or IPv6 address</shortdesc> <content type="string" default="" /> </parameter> <parameter name="bridge_ports" unique="0"> <longdesc lang="en"> If not null and OCF_RESKEY_iface is a bridge, list of bridge ports to consider. Default is all ports which have designated_bridge=root_id. </longdesc> <shortdesc lang="en">Bridge ports</shortdesc> <content type="string" default="${OCF_RESKEY_bridge_ports_default}"/> </parameter> <parameter name="weight_base" unique="0"> <longdesc lang="en"> Relative weight of 1Gbps in interface speed. Can be used to tune how big attribute value will be. </longdesc> <shortdesc lang="en">Weight of 1Gbps</shortdesc> <content type="integer" default="${OCF_RESKEY_weight_base_default}"/> </parameter> <parameter name="dampen" unique="0"> <longdesc lang="en"> The time to wait (dampening) for further changes to occur. </longdesc> <shortdesc lang="en">Dampening interval</shortdesc> <content type="integer" default="${OCF_RESKEY_dampen_default}"/> </parameter> <parameter name="debug" unique="0"> <longdesc lang="en"> Log what have been done more verbosely. </longdesc> <shortdesc lang="en">Verbose logging</shortdesc> <content type="string" default="false"/> </parameter> </parameters> <actions> <action name="start" timeout="30" /> <action name="stop" timeout="30" /> <action name="monitor" depth="0" timeout="30" interval="10"/> <action name="meta-data" timeout="5" /> <action name="validate-all" timeout="30" /> </actions> </resource-agent> END } usage() { cat <<END usage: $0 {start|stop|monitor|validate-all|meta-data} Expects to have a fully populated OCF RA-compliant environment set. END } start() { monitor if [ $? -eq $OCF_SUCCESS ]; then return $OCF_SUCCESS fi ha_pseudo_resource ${ha_pseudo_resource_name} start update return $? } stop() { ha_pseudo_resource ${ha_pseudo_resource_name} stop attrd_updater -D -n ${OCF_RESKEY_name} -d ${OCF_RESKEY_dampen} ${attrd_options} return $OCF_SUCCESS } monitor() { local ret ha_pseudo_resource ${ha_pseudo_resource_name} monitor ret=$? if [ ${ret} -eq $OCF_SUCCESS ] ; then update fi return ${ret} } # This function tries to guess nic interface by IP get_nic_name_by_ip(){ # $FINDIF takes its parameters from the environment. # Its output is as follows: # [NIC_NAME] netmask [NETMASK] broadcast [BROADCAST} NICINFO=$( ${FINDIF} ) rc=$? if [ $rc -eq 0 ];then # Get NIC_NAME part of findif function output. echo "${NICINFO%% *}" else echo "" fi } validate() { # Check the interface parameter if [ -z "${OCF_RESKEY_iface}" ]; then if [ -z "${OCF_RESKEY_ip}" ]; then ocf_log err "Empty iface and ip parameters. Please specify either an interface name or valid ip address." exit $OCF_ERR_CONFIGURED else ipcheck_ipv4 "${OCF_RESKEY_ip}" if [ $? -eq 1 ] ; then ipcheck_ipv6 "${OCF_RESKEY_ip}" if [ $? -eq 1 ] ; then ocf_exit_reason "ip parameter [${OCF_RESKEY_ip}] is not a valid ip address." exit $OCF_ERR_CONFIGURED fi fi fi fi return $OCF_SUCCESS } iface_get_speed() { local iface=$1 local operstate local carrier local bridge_iface_speed local bond_iface_speed local vlan_iface_speed local speed if [ ! -e "/sys/class/net/${iface}" ] ; then echo "0" elif iface_is_bridge ${iface} ; then # bridges do not have operstate read carrier < "/sys/class/net/${iface}/carrier" if [ "${carrier}" != "1" ] ; then echo "0" else bridge_get_speed ${iface} fi else read operstate < "/sys/class/net/${iface}/operstate" read carrier < "/sys/class/net/${iface}/carrier" if [ "${operstate}" != "up" ] || [ "${carrier}" != "1" ] ; then echo "0" elif iface_is_bond ${iface} ; then bond_get_speed ${iface} elif iface_is_vlan ${iface} ; then iface_get_speed $( vlan_get_phy ${iface} ) elif iface_is_hfi1 "${iface}" ; then hfi1_get_speed "${iface}" else read speed < "/sys/class/net/${iface}/speed" echo ${speed} fi fi } iface_is_vlan() { local iface=$1 [ -e "/proc/net/vlan/${iface}" ] && return 0 || return 1 } iface_is_bridge() { local iface=$1 [ -e "/sys/class/net/${iface}/bridge" ] && return 0 || return 1 } iface_is_bond() { local iface=$1 [ -e "/sys/class/net/${iface}/bonding" ] && return 0 || return 1 } iface_is_hfi1() { local iface=$1 driver=$(readlink /sys/class/net/${iface}/device/driver) [[ $(basename ${driver}) =~ "hfi1" ]] && return 0 || return 1 } vlan_get_phy() { local iface=$1 sed -ne "s/^${iface} .*| *//p" < /proc/net/vlan/config } bridge_is_stp_enabled() { local iface=$1 local stp read stp < "/sys/class/net/${iface}/bridge/stp_state" [ "${stp}" = "1" ] && return 0 || return 1 } bridge_get_root_ports() { local bridge=$1 local root_id local root_ports="" local bridge_id read root_id < "/sys/class/net/${bridge}/bridge/root_id" for port in /sys/class/net/${bridge}/brif/* ; do read bridge_id < "${port}/designated_bridge" if [ "${bridge_id}" = "${root_id}" ] ; then root_ports="${root_ports} ${port##*/}" fi done root_ports=${root_ports# } if [ -n "$2" ] ; then # Record value in specified var. This expects we were called not in a sub-shell. eval $2=\${root_ports} else # Expect sub-shell echo ${root_ports} fi } # From /inlude/linux/if_bridge.h: #define BR_STATE_DISABLED 0 #define BR_STATE_LISTENING 1 #define BR_STATE_LEARNING 2 #define BR_STATE_FORWARDING 3 #define BR_STATE_BLOCKING 4 bridge_get_active_ports() { local bridge=$1 shift 1 local ports="$*" local active_ports="" local port_state local stp_state local warn=0 bridge_is_stp_enabled ${bridge} stp_state=$? if [ -z "${ports}" ] || [ "${ports}" = "detect" ] ; then bridge_get_root_ports ${bridge} ports fi for port in $ports ; do if [ ! -e "/sys/class/net/${bridge}/brif/${port}" ] ; then ocf_log warning "Port ${port} doesn't belong to bridge ${bridge}" continue fi read port_state < "/sys/class/net/${bridge}/brif/${port}/state" if [ "${port_state}" = "3" ] ; then if [ -n "${active_ports}" ] && ${stp_state} ; then warn=1 fi active_ports="${active_ports} ${port}" fi done if [ ${warn} -eq 1 ] ; then ocf_log warning "More then one upstream port in bridge '${bridge}' is in forwarding state while STP is enabled: ${active_ports}" fi echo "${active_ports# }" } bridge_get_speed() { local iface=$1 local bridge_port_speed local aggregate_speed=0 if ! iface_is_bridge ${iface} ; then echo 0 return fi local ports=$( bridge_get_active_ports ${iface} ${OCF_RESKEY_bridge_ports} ) for port in ${ports} ; do : $(( aggregate_speed += $( iface_get_speed ${port} ) )) done if [ -n "$2" ] ; then # Record value in specified var. This expects we were called not in a sub-shell. eval $2=\${aggregate_speed} else # Expect sub-shell echo ${aggregate_speed} fi } hfi1_get_speed() { local iface=$1 local hfi1_speed local hfi1_value local hfi1_desc # Currently (9/14/2017 Intel Omni Path v10.5.0.0.155) Intel doesn't have Dual/Multiple ports Host Channel Adapters # and it's save to use such method to get a speed. # Example of output: # [root@es-host0 ~]# cat /sys/class/net/ib0/device/infiniband/*/ports/*/rate # 100 Gb/sec (4X EDR) read hfi1_speed hfi1_value hfi1_desc < /sys/class/net/${iface}/device/infiniband/*/ports/*/rate # hfi1_value always in Gb/sec, so we need to convert hfi1_speed in Mb/sec echo $(( hfi1_speed * 1000 )) } bond_get_slaves() { local iface=$1 local slaves read slaves < "/sys/class/net/${iface}/bonding/slaves" if [ -n "$2" ] ; then # Record value in specified var. This expects we were called not in a sub-shell. eval $2=\${slaves} else # Expect sub-shell echo ${slaves} fi } bond_get_active_iface() { local iface=$1 local active read active < "/sys/class/net/${iface}/bonding/active_slave" if [ -n "$2" ] ; then # Record value in specified var. This expects we were called not in a sub-shell. eval $2=\${active} else # Expect sub-shell echo ${active} fi } bond_is_balancing() { local iface=$1 read mode mode_index < "/sys/class/net/${iface}/bonding/mode" case ${mode} in "balance-rr"|"balance-xor"|"802.3ad"|"balance-tlb"|"balance-alb") return 0 ;; *) return 1 ;; esac } bond_get_speed() { local iface=$1 local aggregate_speed=0 local bond_slave_speed local active_iface local bond_slaves if ! iface_is_bond ${iface} ; then echo 0 return fi bond_get_slaves ${iface} bond_slaves if bond_is_balancing ${iface} ; then for slave in ${bond_slaves} ; do : $(( aggregate_speed += $( iface_get_speed ${slave} ) )) done # Bonding is unable to get speed*n : $(( aggregate_speed = aggregate_speed * 8 / 10 )) else bond_get_active_iface ${iface} active_iface aggregate_speed=$( iface_get_speed $active_iface ) fi if [ -n "$2" ] ; then # Record value in specified var. This expects we were called not in a sub-shell. eval $2=\${aggregate_speed} else # Expect sub-shell echo ${aggregate_speed} fi } update() { local speed; local nic=${OCF_RESKEY_iface}; if [ -z "${OCF_RESKEY_iface}" ]; then nic=$( get_nic_name_by_ip ) if [ -z "${nic}" ];then ocf_log err "Could not retrieve network interface name from ip address (${OCF_RESKEY_ip})" exit $OCF_ERR_GENERIC fi fi speed=$( iface_get_speed ${nic} ) : $(( score = speed * ${OCF_RESKEY_weight_base} / 1000 )) if [ "$__OCF_ACTION" = "start" ] ; then attrd_updater -n ${OCF_RESKEY_name} -B ${score} -d ${OCF_RESKEY_dampen} ${attrd_options} else attrd_updater -n ${OCF_RESKEY_name} -v ${score} -d ${OCF_RESKEY_dampen} ${attrd_options} fi rc=$? case ${rc} in 0) ocf_is_true ${OCF_RESKEY_debug} && ocf_log debug "Updated ${OCF_RESKEY_name} = ${score}" ;; *) ocf_log warn "Could not update ${OCF_RESKEY_name} = ${score}: rc=${rc}" ;; esac return ${rc} } case $__OCF_ACTION in meta-data) meta_data exit $OCF_SUCCESS ;; usage|help) usage exit $OCF_SUCCESS ;; esac if [ `uname` != "Linux" ] ; then ocf_log err "This RA works only on linux." exit $OCF_ERR_INSTALLED fi : ${ha_pseudo_resource_name:="ifspeed-${OCF_RESOURCE_INSTANCE}"} attrd_options='-q' if ocf_is_true ${OCF_RESKEY_debug} ; then attrd_options='' fi validate || exit $? case $__OCF_ACTION in start) start ;; stop) stop ;; monitor) monitor ;; validate-all) ;; *) usage exit $OCF_ERR_UNIMPLEMENTED ;; esac exit $?
Upload File
Create Folder