When you remove the VLT domain on one of the VLT nodes, the peer routing configuration removal is
notified to the peer. In this case, the VLT peer node disables the proxy ARP. When you remove the ICL link on
one of the VLT nodes using the
no peer-link
command, the ICL down event is triggered on the other VLT
node, which in turn starts the proxy ARP application. The VLT node, where the ICL link is deleted, flushes the
peer IP addresses and does not perform proxy ARP for the additional LAG hashed ARP requests.
VLT Nodes as Rendezvous Points for
Multicast Resiliency
You can configure VLT peer nodes as rendezvous points (RPs) in a Protocol Independent Multicast (PIM)
domain.
PIM uses a VLT node as the RP to distribute multicast traffic to a multicast group. Messages to join the
multicast group (Join messages) and data are sent towards the RP, so that receivers can discover who the
senders are and begin receiving traffic destined for the multicast group.
To enable an explicit multicast routing table synchronization method for VLT nodes, you can configure VLT
nodes as RPs. Multicast routing needs to identify the incoming interface for each route. The PIM running on
both VLT peers enables both the peers to obtain traffic from the same incoming interface.
You can configure a VLT node to be an RP using the
ip pim rp-address
command in Global
Configuration mode. When you configure a VLT node as an RP, the (*, G) routes that are synchronized from
the VLT peers are ignored and not downloaded to the device. For the (S, G) routes that are synchronized from
the VLT peer, after the RP starts receiving multicast traffic via these routes, these (S, G) routes are considered
valid and are downloaded to the device. Only (S, G) routes are used to forward the multicast traffic from the
source to the receiver.
You can configure VLT nodes, which function as RP, as Multicast source discovery protocol (MSDP) peers in
different domains. However, you cannot configure the VLT peers as MSDP peers in the same VLT domain. In
such instances, the VLT peer does not support the RP functionality.
If the same source or RP can be accessed over both a VLT and a non-VLT VLAN, configure better metrics for
the VLT VLANs. Otherwise, it is possible that one VLT node chooses a non-VLT VLAN (if the path through the
VLT VLAN was not available when the route was learned) and another VLT node selects a VLT VLAN. Such a
scenario can cause duplication of packets. ECMP is not supported when you configure VLT nodes as RPs.
Backup RP is not supported if the VLT peer that functions as the RP is statically configured. With static RP
configuration, if the RP reboots, it can handle new clients only after it comes back online. Until the RP returns
to the active state, the VLT peer forwards the packets for the already logged-in clients. To enable the VLT
peer node to retain the synchronized multicast routes or synchronized multicast outgoing interface (OIF)
maps after a peer node failure, use the timeout value that you configured using the
multicast peer-
routing timeout
value
command. You can configure an optimal time for a VLT node to retain synced
multicast routes or synced multicast outgoing interface (OIF), after a VLT peer node failure, using the
multicast peer-routing-timeout
command in VLT DOMAIN mode. Using the bootstrap router (BSR)
mechanism, you can configure both the VLT nodes in a VLT domain as the candidate RP for the same group
range. When an RP fails, the VLT peer automatically takes over the role of the RP. This phenomenon enables
resiliency by the PIM BSR protocol.
Virtual Link Trunking (VLT)
1163
Summary of Contents for S4048T
Page 1: ...Dell Configuration Guide for the S4048T ON System 9 10 0 1 ...
Page 98: ... saveenv 7 Reload the system uBoot mode reset Management 98 ...
Page 113: ...Total CFM Pkts 10303 CCM Pkts 0 LBM Pkts 0 LTM Pkts 3 LBR Pkts 0 LTR Pkts 0 802 1ag 113 ...
Page 411: ...mode transit no disable Force10 Resilient Ring Protocol FRRP 411 ...
Page 590: ...Figure 67 Inspecting the LAG Configuration Link Aggregation Control Protocol LACP 590 ...
Page 646: ...Figure 87 Configuring Interfaces for MSDP Multicast Source Discovery Protocol MSDP 646 ...
Page 647: ...Figure 88 Configuring OSPF and BGP for MSDP Multicast Source Discovery Protocol MSDP 647 ...
Page 653: ...Figure 91 MSDP Default Peer Scenario 2 Multicast Source Discovery Protocol MSDP 653 ...
Page 654: ...Figure 92 MSDP Default Peer Scenario 3 Multicast Source Discovery Protocol MSDP 654 ...
Page 955: ...Figure 119 Single and Double Tag First byte TPID Match Service Provider Bridging 955 ...