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17/08/2022 Module 1: Single-Area OSPFv2 Concepts Enterprise Networking, Security, and Automation v7.0 (ENSA) 1...

17/08/2022 Module 1: Single-Area OSPFv2 Concepts Enterprise Networking, Security, and Automation v7.0 (ENSA) 1 OFFICIAL Module Objectives Module Title: Single-Area OSPF Concepts Module Objective: Explain how single-area OSPF operates in both point-to-point and broadcast multiaccess networks. Topic Title Topic Objective OSPF Features and Describe basic OSPF features and characteristics. Characteristics OSPF Packets Describe the OSPF packet types used in single-area OSPF. OSPF Operation Explain how single-area OSPF operates. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 2 OFFICIAL 2 1 17/08/2022 1.1 OSPF Features and Characteristics © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 3 3 OFFICIAL OSPF Features and Characteristics Introduction to OSPF OSPF is a link-state routing protocol that was developed as an alternative for the distance vector Routing Information Protocol (RIP). OSPF has significant advantages over RIP in that it offers faster convergence and scales to much larger network implementations. OSPF is a link-state routing protocol that uses the concept of areas. A network administrator can divide the routing domain into distinct areas that help control routing update traffic. A link is an interface on a router, a network segment that connects two routers, or a stub network such as an Ethernet LAN that is connected to a single router. Information about the state of a link is known as a link-state. All link-state information includes the network prefix, prefix length, and cost. This module covers basic, single-area OSPF implementations and configurations. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 4 OFFICIAL 4 2 17/08/2022 OFFICIAL OSPF Features and Characteristics Components of OSPF All routing protocols share similar components. They all use routing protocol messages to exchange route information. The messages help build data structures, which are then processed using a routing algorithm. Routers running OSPF exchange messages to convey routing information using five types of packets: Hello packet Database description packet Link-state request packet Link-state update packet Link-state acknowledgment packet These packets are used to discover neighboring routers and also to exchange routing information to maintain accurate information about the network. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 5 OFFICIAL 5 OFFICIAL OSPF Features and Characteristics Components of OSPF (Cont.) OSPF messages are used to create and maintain three OSPF databases, as follows: Database Table Description List of all neighbor routers to which a router has established bi-directional communication. Adjacency Neighbor This table is unique for each router. Database Table Can be viewed using the show ip ospf neighbor command. Lists information about all other routers in the network. Link-state Topology The database represents the network LSDB. Database Table All routers within an area have identical LSDB. (LSDB) Can be viewed using the show ip ospf database command. List of routes generated when an algorithm is run on the link-state database. Forwarding Routing Each router's routing table is unique and contains information on how and where to send Database Table packets to other routers. Can be viewed using the show ip route command. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 6 OFFICIAL 6 3 17/08/2022 OFFICIAL OSPF Features and Characteristics Components of OSPF (Cont.) The router builds the topology table using results of calculations based on the Dijkstra shortest-path first (SPF) algorithm. The SPF algorithm is based on the cumulative cost to reach a destination. The SPF algorithm creates an SPF tree by placing each router at the root of the tree and calculating the shortest path to each node. The SPF tree is then used to calculate the best routes. OSPF places the best routes into the forwarding database, which is used to make the routing table. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 7 OFFICIAL 7 OFFICIAL OSPF Features and Characteristics Link-State Operation To maintain routing information, OSPF routers complete a generic link-state routing process to reach a state of convergence. The following are the link-state routing steps that are completed by a router: 1. Establish Neighbor Adjacencies 2. Exchange Link-State Advertisements 3. Build the Link State Database 4. Execute the SPF Algorithm 5. Choose the Best Route © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 8 OFFICIAL 8 4 17/08/2022 OFFICIAL OSPF Features and Characteristics Single-Area and Multiarea OSPF To make OSPF more efficient and scalable, OSPF supports hierarchical routing using areas. An OSPF area is a group of routers that share the same link-state information in their LSDBs. OSPF can be implemented in one of two ways, as follows: Single-Area OSPF - All routers are in one area. Best practice is to use area 0. Multiarea OSPF - OSPF is implemented using multiple areas, in a hierarchical fashion. All areas must connect to the backbone area (area 0). Routers interconnecting the areas are referred to as Area Border Routers (ABRs). The focus of this module is on single-area OSPFv2. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 9 OFFICIAL 9 OFFICIAL OSPF Features and Characteristics Multiarea OSPF The hierarchical-topology design options with multiarea OSPF can offer the following advantages. Smaller routing tables - Tables are smaller because there are fewer routing table entries. This is because network addresses can be summarized between areas. Route summarization is not enabled by default. Reduced link-state update overhead - Designing multiarea OSPF with smaller areas minimizes processing and memory requirements. Reduced frequency of SPF calculations -– Multiarea OSPF localize the impact of a topology change within an area. For instance, it minimizes routing update impact because LSA flooding stops at the area boundary. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 10 OFFICIAL 10 5 17/08/2022 OFFICIAL OSPF Features and Characteristics OSPFv3 OSPFv3 is the OSPFv2 equivalent for exchanging IPv6 prefixes. OSPFv3 exchanges routing information to populate the IPv6 routing table with remote prefixes. Note: With the OSPFv3 Address Families feature, OSPFv3 includes support for both IPv4 and IPv6. OSPF Address Families is beyond the scope of this curriculum. OSPFv3 has the same functionality as OSPFv2, but uses IPv6 as the network layer transport, communicating with OSPFv3 peers and advertising IPv6 routes. OSPFv3 also uses the SPF algorithm as the computation engine to determine the best paths throughout the routing domain. OSPFv3 has separate processes from its IPv4 counterpart. The processes and operations are basically the same as in the IPv4 routing protocol, but run independently. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 11 OFFICIAL 11 1.2 OSPF Packets © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 12 12 6 17/08/2022 OFFICIAL OSPF Packets Video - OSPF Packets This video will cover the following packet types: Hello Database Description (DBD) Link-State Request (LSR) Link-State Update (LSU) Link-State Acknowledgment (LSAck) © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 13 OFFICIAL 13 OFFICIAL OSPF Packets Types of OSPF Packets The table summarizes the five different types of Link State Packets (LSPs) used by OSPFv2. OSPFv3 has similar packet types. Type Packet Name Description 1 Hello Discovers neighbors and builds adjacencies between them 2 Database Description (DBD) Checks for database synchronization between routers 3 Link-State Request (LSR) Requests specific link-state records from router to router 4 Link-State Update (LSU) Sends specifically requested link-state records 5 Link-State Acknowledgment (LSAck) Acknowledges the other packet types © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 14 OFFICIAL 14 7 17/08/2022 OFFICIAL OSPF Packets Link-State Updates LSUs are also used to forward OSPF routing updates. An LSU packet can contain 11 different types of OSPFv2 LSAs. OSPFv3 renamed several of these LSAs and also contains two additional LSAs. LSU and LSA are often used interchangeably, but the correct hierarchy is LSU packets contain LSA messages. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 15 OFFICIAL 15 OFFICIAL OSPF Packets Hello Packet The OSPF Type 1 packet is the Hello packet. Hello packets are used to do the following: Discover OSPF neighbors and establish neighbor adjacencies. Advertise parameters on which two routers must agree to become neighbors. Elect the Designated Router (DR) and Backup Designated Router (BDR) on multiaccess networks like Ethernet. Point-to- point links do not require DR or BDR. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 16 OFFICIAL 16 8 17/08/2022 1.3 OSPF Operation © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 17 17 OFFICIAL OSPF Operation Video - OSPF Operation This video will cover the 7 states of OSPF operation: Down state Init state Two-way state ExStart state Exchange state Loading state Full state © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 18 OFFICIAL 18 9 17/08/2022 OFFICIAL OSPF Operation OSPF Operational States State Description No Hello packets received = Down. Down State Router sends Hello packets. Transition to Init state. Hello packets are received from the neighbor. Init State They contain the Router ID of the sending router. Transition to Two-Way state. In this state, communication between the two routers is bidirectional. Two-Way State On multiaccess links, the routers elect a DR and a BDR. Transition to ExStart state. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 19 OFFICIAL 19 OFFICIAL OSPF Operation OSPF Operational States (Cont.) State Description On point-to-point networks, the two routers decide which router will initiate ExStart State the DBD packet exchange and decide upon the initial DBD packet sequence number. Routers exchange DBD packets. Exchange If additional router information is required then transition to Loading; State otherwise, transition to the Full state. LSRs and LSUs are used to gain additional route information. Loading State Routes are processed using the SPF algorithm. Transition to the Full state. Full State The link-state database of the router is fully synchronized. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 20 OFFICIAL 20 10 17/08/2022 OFFICIAL OSPF Operation Establish Neighbor Adjacencies To determine if there is an OSPF neighbor on the link, the router sends a Hello packet that contains its router ID out all OSPF-enabled interfaces. The Hello packet is sent to the reserved All OSPF Routers IPv4 multicast address 224.0.0.5. Only OSPFv2 routers will process these packets. The OSPF router ID is used by the OSPF process to uniquely identify each router in the OSPF area. A router ID is a 32-bit number formatted like an IPv4 address and assigned to uniquely identify a router among OSPF peers. When a neighboring OSPF-enabled router receives a Hello packet with a router ID that is not within its neighbor list, the receiving router attempts to establish an adjacency with the initiating router. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 21 OFFICIAL 21 OFFICIAL OSPF Operation Establish Neighbor Adjacencies (Cont.) The process routers use to establish adjacency on a multiaccess network: 1 Down to Init State When OSPFv2 is enabled on the interface, R1 transitions from Down to Init and starts sending OSPFv2 Hellos out of the interface in an attempt to discover neighbors. 2 Init State When a R2 receives a hello from the previously unknown router R1, it adds R1’s router ID to the neighbor list and responds with a Hello packet containing its own router ID. 3 Two-Way State R1 receives R2’s hello and notices that the message contains the R1 router ID in the list of R2’s neighbors. R1 adds R2’s router ID to the neighbor list and transitions to the Two- Way State. If R1 and R2 are connected with a point-to-point link, they transition to ExStart If R1 and R2 are connected over a common Ethernet network, the DR/BDR election occurs. 4 Elect the DR & BDR The DR and BDR election occurs, where the router with the highest router ID or highest priority is elected as the DR, and second highest is the BDR © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 22 OFFICIAL 22 11 17/08/2022 OFFICIAL OSPF Operation Synchronizing OSPF Databases After the Two-Way state, routers transition to database synchronization states. This is a three step process, as follows: Decide first router: The router with the highest router ID sends its DBD first. Exchange DBDs: As many as needed to convey the database. The other router must acknowledge each DBD with an LSAck packet. Send an LSR: Each router compares the DBD information with the local LSDB. If the DBD has more current link information, the router transitions to the loading state. After all LSRs have been exchanged and satisfied, the routers are considered synchronized and in a full state. Updates (LSUs) are sent: When a change is perceived (incremental updates) Every 30 minutes © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 23 OFFICIAL 23 OFFICIAL OSPF Operation The Need for a DR Multiaccess networks can create two challenges for OSPF regarding the flooding of LSAs, as follows: Creation of multiple adjacencies - Ethernet networks could potentially interconnect many OSPF routers over a common link. Creating adjacencies with every router would lead to an excessive number of LSAs exchanged between routers on the same network. Extensive flooding of LSAs - Link-state routers flood their LSAs any time OSPF is initialized, or when there is a change in the topology. This flooding can become excessive. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 24 OFFICIAL 24 12 17/08/2022 OFFICIAL OSPF Operation LSA Flooding with a DR An increase in the number of routers on a multiaccess network also increases the number of LSAs exchanged between the routers. This flooding of LSAs significantly impacts the operation of OSPF. If every router in a multiaccess network had to flood and acknowledge all received LSAs to all other routers on that same multiaccess network, the network traffic would become quite chaotic. On multiaccess networks, OSPF elects a DR to be the collection and distribution point for LSAs sent and received. A BDR is also elected in case the DR fails. All other routers become DROTHERs. A DROTHER is a router that is neither the DR nor the BDR. Note: The DR is only used for the dissemination of LSAs. The router will still use the best next- hop router indicated in the routing table for the forwarding of all other packets. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 25 OFFICIAL 25 1.4 Module Practice and Quiz © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 26 26 13 17/08/2022 OFFICIAL Module Practice and Quiz What Did I Learn In This Module? Open Shortest Path First (OSPF) is a link-state routing protocol that was developed as an alternative for the distance vector Routing Information Protocol (RIP). OSPF is a link-state routing protocol that uses the concept of areas for scalability. A link is an interface on a router. A link is also a network segment that connects two routers, or a stub network such as an Ethernet LAN that is connected to a single router. All link-state information includes the network prefix, prefix length, and cost. All routing protocols use routing protocol messages to exchange route information. The messages help build data structures, which are then processed using a routing algorithm. Routers running OSPF exchange messages to convey routing information using five types of packets: the Hello packet, the database description packet, the link-state request packet, the link- state update packet, and the link-state acknowledgment packet. OSPF messages are used to create and maintain three OSPF databases: the adjacency database creates the neighbor table, the link-state database (LSDB) creates the topology table, and the forwarding database creates the routing table. The router builds the topology table using results of calculations based on the Dijkstra SPF (shortest-path first) algorithm. The SPF algorithm is based on the cumulative cost to reach a destination. In OSPF, cost is used to determine the best path to the destination. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 27 OFFICIAL 27 OFFICIAL Module Practice and Quiz What Did I Learn In This Module? To maintain routing information, OSPF routers complete a generic link-state routing process to reach a state of convergence: Establish Neighbor Adjacencies, Exchange Link-State Advertisements, Build the Link State Database, Execute the SPF Algorithm, Choose the Best Route With single-area OSPF any number can be used for the area, best practice is to use area 0. Single-area OSPF is useful in smaller networks with few routers. With multiarea OSPF, one large routing domain can be divided into smaller areas, to support hierarchical routing. Routing still occurs between the areas (interarea routing), while many of the processor intensive routing operations, such as recalculating the database, are kept within an area. OSPFv3 is the OSPFv2 equivalent for exchanging IPv6 prefixes. Recall that in IPv6, the network address is referred to as the prefix and the subnet mask is called the prefix-length. OSPF uses the following link-state packets (LSPs) to establish and maintain neighbor adjacencies and exchange routing updates: 1 Hello, 2 DBD, 3 LSR, 4 LSU, and 5 LSAck. LSUs are also used to forward OSPF routing updates, such as link changes. Hello packets are used to: Discover OSPF neighbors and establish neighbor adjacencies, Advertise parameters on which two routers must agree to become neighbors, and Elect the Designated Router (DR) and Backup Designated Router (BDR) on multiaccess networks like Ethernet. Point-to- point links do not require DR or BDR. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 28 OFFICIAL 28 14 17/08/2022 OFFICIAL Module Practice and Quiz What Did I Learn In This Module? Some important fields in the Hello packet are type, router ID, area ID, network mask, hello interval, router priority, dead interval, DR, BDR and list of neighbors. The states that OSPF progresses through to do reach convergence are down state, init state, two- way state, ExStart state, Exchange state, loading state, and full state. When OSPF is enabled on an interface, the router must determine if there is another OSPF neighbor on the link by sending a Hello packet that contains its router ID out all OSPF-enabled interfaces. The Hello packet is sent to the reserved All OSPF Routers IPv4 multicast address 224.0.0.5. Only OSPFv2 routers will process these packets. When a neighboring OSPF-enabled router receives a Hello packet with a router ID that is not within its neighbor list, the receiving router attempts to establish an adjacency with the initiating router. After the Two-Way state, routers transition to database synchronization states, which is a three step process: Multiaccess networks can create two challenges for OSPF regarding the flooding of LSAs: the creation of multiple adjacencies and extensive flooding of LSAs. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 29 OFFICIAL 29 OFFICIAL Module Practice and Quiz What Did I Learn In This Module? A dramatic increase in the number of routers also dramatically increases the number of LSAs exchanged between the routers. This flooding of LSAs significantly impact the operation of OSPF. If every router in a multiaccess network had to flood and acknowledge all received LSAs to all other routers on that same multiaccess network, the network traffic would become quite chaotic. This is why DR and BDR election is necessary. On multiaccess networks, OSPF elects a DR to be the collection and distribution point for LSAs sent and received. A BDR is also elected in case the DR fails. © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 30 OFFICIAL 30 15 17/08/2022 Module 1: Single-Area OSPFv2 Concepts OFFICIAL New Terms and Commands single-area OSPFv2 OSPFv3 Address Families multiarea OSPF link-state advertisement OSPFv3 router ID link-state routing protocol designated router distance vector routing protocol backup designated router hello packet down state database descriptor packet (DBD) Init state link-state request packet (LSR) two-way state link-state update packet (LSU) ExStart state link-state acknowledgment packet (LSAck) Exchange state link-state database loading state adjacency database full state forwarding database Dijkstra shortest-path first (SPF) neighbor adjacency © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 31 OFFICIAL 31 32 16

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