#!/bin/bash # # usage: # arp_update: # Send ipv6 multicast pings to all "UP" L3 interfaces including vlan interfaces to # refresh link-local addresses from neighbors. # Send gratuitous ARP/NDP requests to VLAN member neighbors to refresh # the ipv4/ipv6 neighbors state. ARP_UPDATE_VARS_FILE="/usr/share/sonic/templates/arp_update_vars.j2" while /bin/true; do # find L3 interfaces which are UP, send ipv6 multicast pings ARP_UPDATE_VARS=$(sonic-cfggen -d -t ${ARP_UPDATE_VARS_FILE}) SWITCH_TYPE=$(echo $ARP_UPDATE_VARS | jq -r '.switch_type') if [[ "$SWITCH_TYPE" == "chassis-packet" ]]; then # Get array of Nexthops and ifnames. Nexthops and ifnames are mapped one to one STATIC_ROUTE_NEXTHOPS=($(echo $ARP_UPDATE_VARS | jq -r '.static_route_nexthops')) STATIC_ROUTE_IFNAMES=($(echo $ARP_UPDATE_VARS | jq -r '.static_route_ifnames')) # on supervisor/rp exit the script gracefully if [[ -z "$STATIC_ROUTE_NEXTHOPS" ]] || [[ -z "$STATIC_ROUTE_IFNAMES" ]]; then logger "arp_update: exiting as no static route in packet based chassis" exit 0 fi for i in ${!STATIC_ROUTE_NEXTHOPS[@]}; do nexthop="${STATIC_ROUTE_NEXTHOPS[i]}" if [[ $nexthop == *"."* ]]; then neigh_state=( $(ip -4 neigh show | grep -w $nexthop | tr -s ' ' | cut -d ' ' -f 3,4) ) ping_prefix=ping elif [[ $nexthop == *":"* ]] ; then neigh_state=( $(ip -6 neigh show | grep -w $nexthop | tr -s ' ' | cut -d ' ' -f 3,4) ) ping_prefix=ping6 fi if [[ -z "${neigh_state}" ]] || [[ "${neigh_state[1]}" == "INCOMPLETE" ]] || [[ "${neigh_state[1]}" == "FAILED" ]]; then interface="${STATIC_ROUTE_IFNAMES[i]}" if [[ -z "$interface" ]]; then # should never be here, handling just in case logger "ERR: arp_update: missing interface entry for static route $nexthop" interface=${neigh_state[0]} fi intf_up=$(ip link show $interface | grep "state UP") if [[ -n "$intf_up" ]]; then pingcmd="timeout 0.2 $ping_prefix -I ${interface} -n -q -i 0 -c 1 -W 1 $nexthop >/dev/null" eval $pingcmd logger "arp_update: static route nexthop not resolved, pinging $nexthop on ${neigh_state[0]}" fi fi done sleep 300 continue fi # find L3 interfaces which are UP, send ipv6 multicast pings INTERFACE=$(echo $ARP_UPDATE_VARS | jq -r '.interface') PC_INTERFACE=$(echo $ARP_UPDATE_VARS | jq -r '.pc_interface') VLAN_SUB_INTERFACE=$(echo $ARP_UPDATE_VARS | jq -r '.vlan_sub_interface') ALL_INTERFACE="$INTERFACE $PC_INTERFACE $VLAN_SUB_INTERFACE" for intf in $ALL_INTERFACE; do ping6cmd="ping6 -I $intf -n -q -i 0 -c 1 -W 0 ff02::1 >/dev/null" intf_up=$(ip link show $intf | grep "state UP") if [[ -n "$intf_up" ]]; then eval $ping6cmd fi done VLAN=$(echo $ARP_UPDATE_VARS | jq -r '.vlan') SUBTYPE=$(sonic-db-cli CONFIG_DB hget 'DEVICE_METADATA|localhost' 'subtype' | tr '[:upper:]' '[:lower:]') for vlan in $VLAN; do # generate a list of arping commands: # arping -q -w 0 -c 1 -i ; # arping -q -w 0 -c 1 -i ; # ... arpingcmd="sed -e 's/ / -i /' -e 's/^/arping -q -w 0 -c 1 /' -e 's/$/;/'" ipcmd="ip -4 neigh show | grep $vlan | cut -d ' ' -f 1,3 | $arpingcmd" eval `eval $ipcmd` # send ipv6 multicast pings to Vlan interfaces to get/refresh link-local addrs ping6cmd="timeout 1 ping6 -I $vlan -n -q -i 0 -c 1 -W 0 ff02::1 >/dev/null" eval $ping6cmd # generate a list of ndisc6 commands (exclude link-local addrs since it is done above): # ndisc6 -q -w 0 -1 ; # ndisc6 -q -w 0 -1 ; # ... ndisc6cmd="sed -e 's/^/ndisc6 -q -w 0 -1 /' -e 's/$/;/'" ip6cmd="ip -6 neigh show | grep -v fe80 | grep $vlan | cut -d ' ' -f 1,3 | $ndisc6cmd" eval `eval $ip6cmd` if [[ $SUBTYPE == "dualtor" ]]; then # capture all current failed/incomplete IPv6 neighbors in the kernel to avoid situations where new neighbors are learned # in the middle of the below sequence of commands unresolved_kernel_neighbors=$(ip -6 neigh show | grep -v fe80 | grep $vlan | grep -E 'FAILED|INCOMPLETE') failed_kernel_neighbors=$(echo "$unresolved_kernel_neighbors" | grep FAILED | cut -d ' ' -f 1) # it's possible for kernel neighbors to fall out of sync with the hardware # this can result in failed neighbors entries that don't have corresponding zero MAC neighbor entries # and therefore don't have tunnel routes installed in the hardware # flush these neighbors from the kernel to force relearning and resync them to the hardware: # 1. for every FAILED or INCOMPLETE neighbor in the kernel, check if there is a corresponding zero MAC neighbor in APPL_DB # 2. if no zero MAC neighbor entry exists, flush the kernel neighbor entry # - generates the command 'ip neigh flush ' for all such neighbors unsync_neighbors=$(echo "$unresolved_kernel_neighbors" | cut -d ' ' -f 1 | xargs -I{} bash -c "if [[ -z \"\$(sonic-db-cli APPL_DB hget NEIGH_TABLE:$vlan:{} neigh)\" ]]; then echo '{}'; fi") if [[ ! -z "$unsync_neighbors" ]]; then ip_neigh_flush_cmd="echo \"$unsync_neighbors\" | sed -e 's/^/ip neigh flush /' -e 's/$/;/'" eval `eval "$ip_neigh_flush_cmd"` sleep 2 fi # generates the following command for each FAILED or INCOMPLETE IPv6 neighbor # timeout 0.2 ping -n -q -i 0 -c 1 -W 1 -I >/dev/null if [[ ! -z "$unresolved_kernel_neighbors" ]]; then ping6_template="sed -e 's/^/timeout 0.2 ping /' -e 's/,/ -n -q -i 0 -c 1 -W 1 -I /' -e 's/$/ >\/dev\/null;/'" failed_ip6_neigh_cmd="echo \"$unresolved_kernel_neighbors\" | cut -d ' ' -f 1,3 --output-delimiter=',' | $ping6_template" eval `eval "$failed_ip6_neigh_cmd"` # allow some time for any transient INCOMPLETE neighbors to transition to FAILED sleep 5 fi # manually set any remaining FAILED entries to permanently INCOMPLETE # once these entries are INCOMPLETE, any subsequent neighbor advertisement messages are able to resolve the entry # ignore INCOMPLETE neighbors since if they are transiently incomplete (i.e. new kernel neighbors that we are attempting to resolve for the first time), # setting them to permanently incomplete here means the kernel will never generate a netlink message for that neighbor # generates the following command for each FAILED IPv6 neighbor # ip neigh replace dev nud incomplete failed_kernel_neighbors=$(ip -6 neigh show | grep -v fe80 | grep $vlan | grep -E 'FAILED') if [[ ! -z "$failed_kernel_neighbors" ]]; then neigh_replace_template="sed -e 's/^/ip neigh replace /' -e 's/,/ dev /' -e 's/$/ nud incomplete;/'" ip_neigh_replace_cmd="echo \"$failed_kernel_neighbors\" | cut -d ' ' -f 1,3 --output-delimiter=',' | $neigh_replace_template" eval `eval "$ip_neigh_replace_cmd"` fi fi done # sleep here before handling the mismatch as it is not required during startup sleep 300 # refresh neighbor entries from APP_DB in case of mismatch with kernel DBNEIGH=$(sonic-db-cli APPL_DB keys NEIGH_TABLE*) # resolve neighbor entries from CONFIG_DB in case of mismatch with kernel DBNEIGH="$DBNEIGH $(sonic-db-cli CONFIG_DB keys NEIGH* | sed -e 's/|/:/g')" KERNEIGH4=$(ip -4 neigh show | grep Vlan | grep -v 'FAILED\|INCOMPLETE' | cut -d ' ' -f 1,3 --output-delimiter=',') KERNEIGH6=$(ip -6 neigh show | grep -v fe80 | grep Vlan | grep -v 'FAILED\|INCOMPLETE' | cut -d ' ' -f 1,3 --output-delimiter=',') for neigh in $DBNEIGH; do intf="$( cut -d ':' -f 2 <<< "$neigh" )" ip="$( cut -d ':' -f 3- <<< "$neigh" )" if [[ $intf == *"Vlan"* ]]; then if [[ $ip == *"."* ]] && [[ ! $KERNEIGH4 =~ "${ip},${intf}" ]]; then pingcmd="timeout 0.2 ping -I $intf -n -q -i 0 -c 1 -W 1 $ip >/dev/null" eval $pingcmd logger "arp_update: mismatch arp entry, pinging ${ip} on ${intf}" elif [[ $ip == *":"* ]] && [[ ! $KERNEIGH6 =~ "${ip},${intf}" ]]; then ping6cmd="timeout 0.2 ping6 -I $intf -n -q -i 0 -c 1 -W 1 $ip >/dev/null" eval $ping6cmd logger "arp_update: mismatch v6 nbr entry, pinging ${ip} on ${intf}" fi fi done done