Frame relay ip routing, Frame relay ip routing -15, Rwsx – Alcatel Carrier Internetworking Solutions Omni Switch/Router User Manual

Frame Relay IP Routing

Page 29-15

Frame Relay IP Routing

Frame Relay routing is different than standard

LAN

IP

Routing. In normal

LAN IP

Routing

MAC

addresses are used as source and destination addresses. In Frame Relay IP Routing, no

MAC

addresses are included in a routed frame. In fact, the only address in a routed Frame Relay
frame is the

DLCI

, or virtual circuit identifier. The

DLCI

is the main indentifier for source and

destination addresses.

Because Frame Relay uses 10-bit

DLCIs

as the main addressing units, routed Frame Relay

frames require less overhead than

LAN

IP

frames, which use

LAN

standard 48-bit addresses.

However, due to the nature of

DLCIs

on a

WAN

, Frame Relay routing requires a special

version of the IP protocol. The

DLCI

for a single VC may or may not be different on both

sides of a Frame Relay connection. That’s why Frame Relay uses the Inverse Address Resolu-
tion Protocol (InARP) to resolve

DLCI

issues and to automatically learn the IP addresses of

remote routers.

The InARP protocol ensures that before any data passes between two Frame Relay routers,
those routers notify each other of their IP addresses and associated

DLCIs

. So, the first

communication over a routed Frame Relay network is normally initiated by InARP.

Frame Relay InARP Protocol

R

WSX

WSX

sends Router a message inform-

ing of its IP address and

DLCI

(“IP

111.22.33.44 on

DLCI

24”).

Router returns a message to

WSX

with its IP address and

DLCI

(“IP

222.33.44.55 on

DLCI

32”).

➊

➋

DLCI 24

R

WSX

DLCI 32

Frame Relay

Network