Routing protocol overview, Static routing and dynamic routing, Classification of dynamic routing protocols – H3C Technologies H3C S7500E Series Switches User Manual

1-3

Figure 1-1 A sample routing table

Router A

Router B

Router H

Router E

16.0.0.2

17.0.0.3

15.0.0.0

12.0.0.0

17.0.0.0

11.0.0.0

16.0.0.0

13.0.0.0

14.0.0.0

Router C

Router D

Router F

Router G

11.0.0.1

12.0.0.1

12.0.0.2

15.0.0.1

15.0.0.2

17.0.0.1

16.0.0.1

13.0.0.1

13.0.0.2

14.0.0.1

14.0.0.2

14.0.0.3

14.0.0.4

17.0.0.2

11.0.0.2

13.0.0.3

Destination Network

Nexthop

Interface

11.0.0.0 11.0.0.1 2
12.0.0.0 12.0.0.1 1
13.0.0.0 12.0.0.2 1
14.0.0.0 14.0.0.4 3
15.0.0.0 14.0.0.2 3
16.0.0.0 14.0.0.2 3
17.0.0.0 11.0.0.2 2

Routing Protocol Overview

Static Routing and Dynamic Routing

Static routing is easy to configure and requires less system resources. It works well in small, stable

networks with simple topologies. Its major drawback is that you must perform routing configuration

again whenever the network topology changes; it cannot adjust to network changes by itself.

Dynamic routing is based on dynamic routing protocols, which can detect network topology changes

and recalculate the routes accordingly. Therefore, dynamic routing is suitable for large networks. Its

disadvantages are that it is difficult to configure, and that it not only imposes higher requirements on

the system, but also consumes a certain amount of network resources.

Classification of Dynamic Routing Protocols

Dynamic routing protocols can be classified based on the following standards:

Operational scope

z

Interior gateway protocols (IGPs): Work within an autonomous system, including RIP, OSPF, and

IS-IS.