Cisco Systems 3560 Configuring Layer 2 Protocol Tunneling

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Catalyst 3560 Switch Software Configuration Guide

OL-8553-06

Chapter 16 Configuring IEEE 802.1Q and Layer 2 Protocol Tunneling

Configuring Layer 2 Protocol Tunneling

For example, in Figure 16-6, Customer A has two switches in the same VLAN that are connected

through the SP network. When the network tunnels PDUs, switches on the far ends of the network can

negotiate the automatic creation of EtherChannels without needing dedicated lines. See the “Configuring

Layer 2 Tunneling for EtherChannels” section on page 16-14 for instructions.

Figure 16-6 Layer 2 Protocol Tunneling for EtherChannels

Configuring Layer 2 Protocol Tunneling

You can enable Layer 2 protocol tunneling (by protocol) on the ports that are connected to the customer

in the edge switches of the service-provider network. The service-provider edge switches connected to

the customer switch perform the tunneling process. Edge-switch tunnel ports are connected to customer

IEEE 802.1Q trunk ports. Edge-switch access ports are connected to customer access ports. The edge

switches connected to the customer switch perform the tunneling process.

You can enable Layer 2 protocol tunneling on ports that are configured as access ports or tunnel ports.

You cannot enable Layer 2 protocol tunneling on ports configured in either switchport mode dynamic

auto (the default mode) or switchport mode dynamic desirable.

The switch supports Layer 2 protocol tunneling for CDP, STP, and VTP. For emulated point-to-point

network topologies, it also supports PAgP, LACP, and UDLD protocols. The switch does not support

Layer 2 protocol tunneling for LLDP.

Caution PAgP, LACP, and UDLD protocol tunneling is only intended to emulate a point-to-point topology. An

erroneous configuration that sends tunneled packets to many ports could lead to a network failure.

When the Layer 2 PDUs that entered the service-provider inbound edge switch through a Layer 2

protocol-enabled port exit through the trunk port into the service-provider network, the switch

overwrites the customer PDU-destination MAC address with a well-known Cisco proprietary multicast

address (01-00-0c-cd-cd-d0). If IEEE 802.1Q tunneling is enabled, packets are also double-tagged; the

outer tag is the customer metro tag, and the inner tag is the customer’s VLAN tag. The core switches

ignore the inner tags and forward the packet to all trunk ports in the same metro VLAN. The edge

switches on the outbound side restore the proper Layer 2 protocol and MAC address information and

forward the packets to all tunnel or access ports in the same metro VLAN. Therefore, the Layer 2 PDUs

remain intact and are delivered across the service-provider infrastructure to the other side of the

customer network.

Switch A

VLAN 17

VLAN 18

VLAN 19

VLAN 20

VLAN 17

VLAN 18

VLAN 19

VLAN 20

Switch B

Switch C

Service

Provider

EtherChannel 1

Customer A

Site 1

Customer A

Site 2

101844

Switch D

EtherChannel 1

Trunk

Asymmetric link