What is OSPF Priority – Exclusive Explanation

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Each broadcast and Non-Broadcast Multi-Access (NBMA) network has a designated router. This router is the central point for collecting and distributing LSAs, so it must have enough CPU and memory capability to handle the workload. Configurations can be used to control the DR/BDR election process.

The designated router decreases routing protocol traffic by enabling a decrease in the number of adjacencies required on a broadcast or non-broadcast multi-access (NBMA) network.

Two routers connected to a multi-access network attempt to become the designated router. The router with the highest OSPF priority becomes the designated router. Suppose the interface priorities are the same on all routers. In that case, the router with the highest router ID is elected the DR. We can manually configure the router ID to manipulate the DR/BDR election.

Another way to manipulate the DR/BDR election process is the configuration of interface priorities. It is an interface-specific value that provides better control on a multiaccess network. This also allows a router to be the DR in one network and a DROTHER in others. The OSPF priority values are between 0 – 255. When the priority value is 0, the interface cannot become a DR or BDR. The router interface with a higher OSPF priority value becomes the DR and BDR. To manipulate the default priorities, use the following commands:

  • ip ospf priority <value>– OSPFv2 Command
  • ipv6 ospf priority <value>– OSPFv3 command

In Figure 1, all routers have the default OSPF priority. Therefore, the router ID decides the DR (R1) and BDR (R2). We can change the priority value on an interface from 1 to a higher value, which could change a specific router to become a DR or BDR during the next election. It is important to know that when OSPF is running and enabled, the administrator must shut down the OSPF process on all routers and then re-enable the OSPF process to force a new DR and BDR election.

OSPF Priority

Changing the OSPF Priority

In the topology in Figure 1, R1 is the DR, and R2 is the BDR. It has been decided that:

  • R1 should never be a DR or BDR and will be configured with a priority of 0.
  • R2 should be on the default priority value.
  • R3 should be the DR and will be configured with a priority of 200.
  • R4 should be the BDR and will be configured with the priority of 199.

Configuration on R1

R1>enable

R1#config terminal

R1(config)#interface gig 0/0

R1(config-if)#ip ospf priority 0

R1(config-if)#exit

R1(config)#exit

R1#clear ip ospf process

Configuration on R3

R3>enable

R3#config terminal

R3(config)#interface gig 0/0

R3(config-if)#ip ospf priority 200

R3(config-if)#exit

R3(config)#exit

R3#clear ip ospf process

Configuration on R4

R4>enable

R4#config terminal

R4(config)#interface gig 0/0

R4(config-if)#ip ospf priority 199

R4(config-if)#exit

R4(config)#exit

R4#clear ip ospf process

Also, clear the OSPF process on Router R2 and then check the output of the “show ip ospf interface” command. Figures 2 and 3 illustrate the output of this command for R3 (DR) and R4(BDR), even with small router IDs.