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VLAN Overview

This chapter covers these topics:

VLAN Overview

Introduction to VLAN

The traditional Ethernet is a broadcast network, where all hosts are in the same broadcast domain and

connected with each other through hubs or switches. Hubs and switches, which are the basic network

connection devices, have limited forwarding functions.

A hub is a physical layer device without the switching function, so it forwards the received packet to

all ports except the inbound port of the packet.

A switch is a link layer device which can forward a packet according to the MAC address of the

packet. A switch builds a table of MAC addresses mapped to associated ports with that address

and only sends a known MAC’s traffic to one port. When the switch receives a broadcast packet or

an unknown unicast packet whose MAC address is not included in the MAC address table of the

switch, it will forward the packet to all the ports except the inbound port of the packet.

The above scenarios could result in the following network problems.

Large quantity of broadcast packets or unknown unicast packets may exist in a network, wasting

network resources.

A host in the network receives a lot of packets whose destination is not the host itself, causing

potential serious security problems.

Related to the point above, someone on a network can monitor broadcast packets and unicast

packets and learn of other activities on the network. Then they can attempt to access other

resources on the network, whether or not they are authorized to do this.

Isolating broadcast domains is the solution for the above problems. The traditional way is to use routers,

which forward packets according to the destination IP address and does not forward broadcast packets

in the link layer. However, routers are expensive and provide few ports, so they cannot split the network

efficiently. Therefore, using routers to isolate broadcast domains has many limitations.

The Virtual Local Area Network (VLAN) technology is developed for switches to control broadcasts in

LANs.

A VLAN can span across physical spaces. This enables hosts in a VLAN to be located in different

physical locations.

By creating VLANs in a physical LAN, you can divide the LAN into multiple logical LANs, each of which

has a broadcast domain of its own. Hosts in the same VLAN communicate in the traditional Ethernet

way. However, hosts in different VLANs cannot communicate with each other directly but need the help

of network layer devices, such as routers and Layer 3 switches.

illustrates a VLAN

implementation.