The backbone is the only area with a default area number. All other areas can have their Area ID assigned
in the configuration.
In the previous example, Routers A, B, C, G, H, and I are the Backbone.
• A stub area (SA) does not receive external route information, except for the default route. These areas
do receive information from inter-area (IA) routes.
NOTE: Configure all routers within an assigned stub area as stubby, and not generate LSAs that
do not apply. For example, a Type 5 LSA is intended for external areas and the Stubby area
routers may not generate external LSAs. A virtual link cannot traverse stubby areas.
• A not-so-stubby area (NSSA) can import AS external route information and send it to the backbone. It
cannot receive external AS information from the backbone or other areas. However, a virtual link can
traverse it.
• Totally stubby areas are referred to as no summary areas in the Dell Networking OS.
Networks and Neighbors
As a link-state protocol, OSPF sends routing information to other OSPF routers concerning the state of
the links between them. The state (up or down) of those links is important.
Routers that share a link become neighbors on that segment. OSPF uses the Hello protocol as a neighbor
discovery and keep alive mechanism. After two routers are neighbors, they may proceed to exchange and
synchronize their databases, which creates an adjacency.
Router Types
Router types are attributes of the OSPF process.
A given physical router may be a part of one or more OSPF processes. For example, a router connected
to more than one area, receiving routing from a border gateway protocol (BGP) process connected to
another AS acts as both an area border router and an autonomous system router.
Each router has a unique ID, written in decimal format (A.B.C.D). You do not have to associate the router
ID with a valid IP address. However, to make troubleshooting easier, Dell Networking recommends that
the router ID and the router’s IP address reflect each other.
The following example shows different router designations.
552
Open Shortest Path First (OSPFv2 and OSPFv3)
Содержание Z9000
Страница 1: ...Dell Configuration Guide for the Z9000 System 9 7 0 0 ...
Страница 80: ...grub reboot 80 Management ...
Страница 128: ... 0 Te 1 1 Te 1 2 rx Flow N A N A 128 Access Control Lists ACLs ...
Страница 436: ...Figure 50 Inspecting Configuration of LAG 10 on ALPHA 436 Link Aggregation Control Protocol LACP ...
Страница 439: ...Figure 52 Inspecting a LAG Port on BRAVO Using the show interface Command Link Aggregation Control Protocol LACP 439 ...
Страница 440: ...Figure 53 Inspecting LAG 10 Using the show interfaces port channel Command 440 Link Aggregation Control Protocol LACP ...
Страница 491: ...Figure 70 Configuring OSPF and BGP for MSDP Multicast Source Discovery Protocol MSDP 491 ...
Страница 492: ...Figure 71 Configuring PIM in Multiple Routing Domains 492 Multicast Source Discovery Protocol MSDP ...
Страница 496: ...Figure 73 MSDP Default Peer Scenario 1 496 Multicast Source Discovery Protocol MSDP ...
Страница 497: ...Figure 74 MSDP Default Peer Scenario 2 Multicast Source Discovery Protocol MSDP 497 ...
Страница 498: ...Figure 75 MSDP Default Peer Scenario 3 498 Multicast Source Discovery Protocol MSDP ...
Страница 760: ...Figure 100 Single and Double Tag TPID Match 760 Service Provider Bridging ...
Страница 761: ...Figure 101 Single and Double Tag First byte TPID Match Service Provider Bridging 761 ...