PLANET XGS3-24042 User Manual

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be flooded throughout the network very soon. Those advantages release some layer3 switch resources, as

the process ability and bandwidth used by bad route information are minor.

The features of OSPFv3 protocol include the following: OSPFv3 supports networks of various scales, several

hundreds of layer3 switches can be supported in an OSPFv3 network. Routing topology changes can be

quickly found and updating LSAs can be sent immediately, so that routes converge quickly. Link-state

information is used in shortest path algorithm for route calculation, eliminating loop route. OSPFv3 divides the

autonomous system intro areas, reducing database size, bandwidth occupation and calculation load.

(According to the position of layer3 switches in the autonomous system, they can be grouped as internal area

switches, area edge switches, AS edge switches and backbone switches). OSPFv3 supports load balance

and multiple routes to the same destination of equal costs. OSPFv3 supports 4 level routing mechanisms

(process routing according to the order of route inside an area, route between areas, type 1 external route

and type 2 external route). OSPFv3 support IP subnet and redistribution of routes from the other routing

protocols, and interface-based packet verification. OSPFv3 supports sending packets in multicast.

Each OSPFV3 layer3 switch maintains a database describing the topology of the whole autonomous system.

Each layer3 switch gathers the local status information, such as available interface, reachable neighbors, and

sends link-state advertisement (sending out link-state information) to exchange link-state information with

other OSPFv3 layer3 switches to form a link-state database describing the whole autonomous system. Each

layer3 switch builds a shortest path tree rooted by itself according to the link-state database, this tree provide

the routes to all nodes in an autonomous system. If two or more layer3 switches exist (i.e. multi-access

network), "designated layer3 switch” and “backup designated layer3 switch” will be selected. Designated

layer3 switch is responsible for spreading link-state of the network. This concept helps reducing the traffic

among the Layer3 switches in multi-access network.

OSPFv3 protocol requires the autonomous system to be divided into areas. That is to divide the autonomous

system into 0 area (backbone area) and non-0 areas. Routing information between areas are further

abstracted and summarized to reduce the bandwidth required in the network. OSPFv3 uses four different

kinds of routes: they are the route inside the area, route between areas, type 1 external route and type 2

external route, in the order of highest priority to lowest. The route inside an area and between areas describe

the internal network structure of an autonomous system, while external routes describe external routes

describe how to select the routing information to destination outside the autonomous system. The first type of

exterior route corresponds to the information introduced by OSPFv3 from the other interior routing protocols,

the costs of those routes are comparable with the costs of OSPFv3 routes; the second type of exterior route

corresponds to the information introduced by OSPFv3 from the other exterior routing protocols, but the costs

of those routes are far greater than that of OSPFv3 routes, so OSPFv3 route cost is ignored when calculating

route costs.

OSPFv3 areas are centered with the Backbone area, identified as the Area 0, all the other areas must be

connected to Area 0 logically, and Area 0 must be continuous. For this reason, the concept of virtual link is

introduced to the backbone area, so that physically separated areas still have logical connectivity to the

backbone area. The configurations of all the layer3 switches in the same area must be the same.