Cisco Catalyst 4500 series Administration Manual page 235

Chapter 5 Configuring Virtual Switching Systems
The same router MAC address, assigned by the VSS Active supervisor engine, is used for all Layer 3
interfaces on both VSS member switches. After a switchover, the original router MAC address is still
used. The router MAC address is configurable and can be chosen from three options: virtual-mac
(derived from domainId), chassis-mac (preserved after switchover), and user-configured MAC address.
VSS uses virtual MAC address as the default.
The following sections describe Layer 3 protocols for a VSS:
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IPv4
The supervisor engine on the VSS Active switch runs the IPv4 routing protocols and performs any
required software forwarding. All routing protocol packets received on the VSS Standby switch are
redirected to the VSS Active supervisor engine across the VSL. The VSS Active supervisor engine
generates all routing protocol packets to be sent out over ports on either VSS member switch.
Hardware forwarding is distributed across both members on the VSS. The supervisor engine on the VSS
Active switch sends Forwarding Information Base (FIB) updates to the VSS Standby supervisor engine,
which installs all routes and adjacencies in its hardware.
Packets intended for a local adjacency (reachable by local ports) are forwarded locally on the ingress
switch. Packets intended for a remote adjacency (reachable by remote ports) must traverse the VSL.
The supervisor engine on the VSS Active switch performs all software forwarding (for protocols such
as IPX) and feature processing (such as fragmentation and TTL exceed). If a switchover occurs, software
forwarding is disrupted until the new VSS Active supervisor engine obtains the latest CEF and other
forwarding information.
In virtual switch mode, the requirements to support non-stop forwarding (NSF) match those in
standalone redundant mode of operation.
From a routing peer perspective, Multi-Chassis EtherChannels (MEC) remain operational during a
switchover (only the links to the failed switch are down, but the routing adjacencies remain valid).
The VSS achieves Layer 3 load-balancing over all paths in the FIB entries, be it local or remote.
IPv6
VSS supports IPv6 unicast and multicast as it is there on standalone system.
IPv4 Multicast
The IPv4 multicast protocols run on the VSS Active supervisor engine. Internet Group Management
Protocol (IGMP) and Protocol Independent Multicast (PIM) protocol packets received on the VSS
Standby supervisor engine are transmitted across VSL to the VSS Active supervisor engine. The VSS
Active supervisor engine generates IGMP and PIM protocol packets to be sent over ports on either VSS
member.
The VSS Active supervisor engine syncs Multicast Forwarding Information Base (MFIB) state to the
VSS Standby supervisor engine. On both member switches, all multicast routes are loaded in hardware
with replica expansion table (RET) entries programmed for only local outgoing interfaces. Both member
switches are capable of performing hardware forwarding.
OL-30933-01
IPv4, page 5-19
IPv6, page 5-19
IPv4 Multicast, page 5-19
Software Features, page 5-20
Software Configuration Guide—Release IOS XE 3.6.0E and IOS 15.2(2)SG
Understanding Virtual Switching Systems
5-19