Chapter 39 ospfv3, 1 introduction to ospfv3, Chapter 39 ospfv3 -1 – PLANET XGS3-24042 User Manual

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Chapter 39 OSPFv3

39.1 Introduction to OSPFv3

OSPFv3（Open Shortest Path First） is the third version for Open Shortest Path First, and it is the IPv6 version

of OSPF Protocol. It is an interior dynamic routing protocol for autonomous system based on link-state. The

protocol creates a link-state database by exchanging link-states among layer3 switches, and then uses the

Shortest Path First algorithm to generate a route table basing on that database.

Autonomous system (AS) is a self-managed interconnected network. In large networks, such as the Internet,

a giant interconnected network is broken down to autonomous systems. Big enterprise networks connecting

to the Internet are independent AS, since the other hosts on the Internet are not managed by those AS and

they don’t share interior routing information with the layer3 switches on the Internet.

Each link-state layer3 switch can provide information about the topology with its neighboring layer3 switches.

• The network segment (link) connecting to the layer3 switch

• State of the connecting link

Link-state information is flooded throughout the network so that all layer3 switches can get first hand

information. Link-state layer3 switches will not broadcast all information contained in their route tables;

instead, they only send changed link-state information. Link-state layer3 switches establish neighborhood by

sending “HELLO” to their neighbors, then link-state advertisements (LSA) will be sent among neighboring

layer3 switches. Neighboring layer3 switch copy the LSA to their routing table and transfer the information to

the rest part of the network. This process is referred to as “flooding”. In this way, firsthand information is sent

throughout the network to provide accurate map for creating and updating routes in the network. Link-state

routing protocols use cost instead of hops to decide the route. Cost is assigned automatically or manually.

According to the algorithm in link-state protocol, cost can be used to calculate the hop number for packets to

pass, link bandwidth, and current load of the link, the administrator can even add weight for better

assessment of the link-state.

1) When a link-state layer3 switch enters a link-state interconnected network, it sends a HELLO packet to

get to know its neighbors and establish neighborhood.

2) The neighbors respond with information about the links they are connecting and the related costs.

3) The originate layer3 switch uses this information to build its own routing table.

4) Then, as part of the regular update, layer3 switch send link-state advertisement (LSA) packets to its

neighboring layer3 switches. The LSA include links and related costs of that layer3 switch.

5) Each neighboring layer3 switch copies the LSA packet and passes it to the next neighbor (i.e. flooding).

6) Since routing database is not recalculated before layer3 switch forwards LSA flooding, the converging

time is greatly reduced.

One major advantage of link-state routing protocols is the fact that infinite counting is impossible, this is

because of the way link-state routing protocols build up their routing table. The second advantage is that

converging in a link-state interconnected network is very fast, once the routing topology changes, updates will