3com 2500 User Guide
3-4
C
HAPTER
3: B
RIDGING
AND
R
OUTING
IN
THE
C
ORE
B
UILDER
2500 S
YSTEM
Bridging and
Routing Models
Routing Models
The CoreBuilder 2500 system implements routing differently from the
way bridging and routing usually coexist. Traditionally, network systems
first try to route packets that belong to recognized protocols; all other
packets are bridged. In the CoreBuilder 2500 model, the system first tries
to bridge a packet. Then, if a packet’s destination network address is not
on the same subnetwork, the system routes the packet.
way bridging and routing usually coexist. Traditionally, network systems
first try to route packets that belong to recognized protocols; all other
packets are bridged. In the CoreBuilder 2500 model, the system first tries
to bridge a packet. Then, if a packet’s destination network address is not
on the same subnetwork, the system routes the packet.
The next sections describe these approaches.
Traditional Bridging
and Routing
In traditional routing, the bridge or router determines what to do with a
packet based on the packet’s protocol. If the packet belongs to a
recognized protocol, the packet is routed. Otherwise, the packet is
bridged. Figure 3-4 illustrates traditional bridging:
packet based on the packet’s protocol. If the packet belongs to a
recognized protocol, the packet is routed. Otherwise, the packet is
bridged. Figure 3-4 illustrates traditional bridging:
1 The packet enters the bridge or router.
2 The bridge or router determines that the packet does not belong to a
recognized routing protocol, so the packet is passed to the bridge.
3 The bridge examines the destination MAC address and forwards the
packet to the port where that address was learned.
Figure 3-4 Traditional Bridging
1
Transmitting host
Destination host
Interfaces (ports)
Router
Bridge
2
Networks
3
Router vs. Bridge ?