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Distance Vector Routing Protocols and RIP V.1

Distance Vector Routing Protocols and RIP V.1. Routing Protocols and Concepts – Chapter 4, 5 Editted by Nugroho Agus H., M.Si . Routing Protocol Algorithm :. Routing Protocol Characteristics. Criteria used to compare routing protocols includes Time to convergence Scalability

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Distance Vector Routing Protocols and RIP V.1

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  1. Distance Vector Routing Protocols and RIP V.1 Routing Protocols and Concepts – Chapter 4, 5 Editted by NugrohoAgus H., M.Si.

  2. Routing Protocol Algorithm:

  3. Routing Protocol Characteristics • Criteria used to compare routing protocols includes • Time to convergence • Scalability • Resource usage • Implementation & maintenance

  4. Network Discovery • Router initial start up (Cold Starts) • Initial network discovery • Directly connected networks are initially placed in routing table

  5. Network Discovery • Initial Exchange of Routing Information • If a routing protocol is configured then: • Routers will exchange routing information • Routing updates received from other routers • Router checks update for new information • If there is new information: • Metric is updated • New information is stored in routing table

  6. Network Discovery • Exchange of Routing Information • Router convergence is reached when • All routing tables in the network contain the same network information • Routers continue to exchange routing information • If no new information is found then Convergence is reached

  7. Network Discovery • Convergence must be reached before a network is considered completely operable • Speed of achieving convergence consists of 2 interdependent categories • Speed of broadcasting routing information • Speed of calculating routes

  8. Distance Vector Technology • - The Meaning of Distance Vector • A router using distance vector routing protocols knows 2 things: • Distance to final destination • Vector, or direction, traffic should be directed

  9. Characteristics of Distance Vector routing protocols: • Periodic updates • Neighbors • Broadcast updates • Entire routing table is included with routing update

  10. Examples of Distance Vector routing protocols: • Routing Information Protocol (RIP) • Interior Gateway Routing Protocol (IGRP) • Enhanced Interior Gateway Routing Protocol (EIGRP)

  11. Distance Vector Routing Protocols

  12. Routing Table Maintenance • Periodic Updates: RIPv1 & RIPv2 • These are time intervals in which a router sends out its entire routing table • RIP uses 4 timers • Update timer • Invalid timer • Holddown timer • Flush timer

  13. Routing Loops • Routing loops are • A condition in which a packet is continuously transmitted within a series of routers without ever reaching its destination.

  14. Routing Loops • Routing loops may be caused by: • Incorrectly configured static routes • Incorrectly configured route redistribution • Slow convergence • Incorrectly configured discard routes • Routing loops can create the following issues: • Excess use of bandwidth • CPU resources may be strained • Network convergence is degraded • Routing updates may be lost or not processed in a timely manner

  15. Routing Loops • Count to Infinity • This is a routing loop whereby packets bounce infinitely around a network

  16. Routing Loops • Setting a maximum • Distance Vector routing protocolsset a specified metric value to indicate infinity • Once a router “counts to infinity” it marks the route as unreachable

  17. Routing Loops • Preventing loops with holddown timers • Holddown timers allow a router to not accept any changes to a route for a specified period of time • Point of using holddown timers • Allows routing updates to propagate through network with the most current information

  18. Routing Loops • The Split Horizon Rule is used to prevent routing loops • Split Horizon rule: • A router should not advertise a network through the interface from which the update came

  19. Routing Loops • Split horizon with poison reverse • The rule states that once a router learns of an unreachable route through an interface, advertise it as unreachable back through the same interface

  20. Routing Loops • IP & TTL • Purpose of the TTL field • The TTL field is found in an IP header and is used to prevent packets from endlessly traveling on a network • How the TTL field works • TTL field contains a numeric value • The numeric value is decreased by one by every router on the route to the destination • If numeric value reaches0 then Packet is discarded

  21. Routing Protocols Today • Factors used to determine whether to use RIP or EIGRP include • Network size • Compatibility between models of routers • Administrative knowledge

  22. Routing Protocols Today • RIP • Features of RIP: • Supports split horizon & split horizon with poison reverse • Capable of load balancing • Easy to configure • Works in a multi vendor router environment

  23. Routing Protocols Today • EIGRP • Features of EIGRP: • Triggered updates • EIGRP hello protocol used to establish neighbor adjacencies • Supports VLSM & route summarization • Use of topology table to maintain all routes • Classless distance vector routing protocol • Cisco proprietary protocol

  24. Routing Information Protocol (RIP) • A distance vector protocol that has 2 versions • RIPv1 - a classful routing protocol • RIPv2 - a classless routing protocol

  25. RIPv1 • RIP Characteristics • A classful, Distance Vector (DV) routing protocol • Metric = hop count • Routes with a hop count > 15 are unreachable • Updates are broadcast every 30 seconds

  26. RIPv1 • RIP Operation • RIP uses 2 message types: • Request message • This is sent out on startup by each RIP enabled interface • Requests all RIP enabled neighbors to send routing table • Response message • Message sent to requesting router containing routing table

  27. RIPv1 • IP addresses initially divided into classes • Class A • Class B • Class C • RIP is a classful routing protocol • Does not send subnet masks in routing updates

  28. RIPv1 • Administrative Distance • RIP’s default administrative distance is 120

  29. Basic RIPv1 Configuration • A typical topology suitable for use by RIPv1 includes: • Three router set up • No PCs attached to LANs • Use of 5 different IP subnets

  30. Basic RIPv1 Configuration • Router RIP Command • To enable RIP enter: • Router rip at the global configuration prompt • Prompt will look like R1(config-router)#

  31. Basic RIPv1 Configuration • Specifying Networks • Use the network command to: • Enable RIP on all interfaces that belong to this network • Advertise this network in RIP updates sent to other routers every 30 seconds

  32. Verification and Troubleshooting • Show ip Route • To verify and troubleshoot routing • Use the following commands: • show ip route • show ip protocols • debug ip rip

  33. Verification and Troubleshooting • show ip protocols command • Displays routing protocol configured on router

  34. Verification and Troubleshooting • Debug ip rip command • Used to display RIP routing updates as they are happening

  35. Verification and Troubleshooting • Passive interface command • Used to prevent a router from sending updates through an interface • Example: • Router(config-router)#passive-interface interface-type interface-number

  36. Passive interfaces

  37. Automatic Summarization • Modified Topology • The original scenario has been modified such that: • Threeclassfulnetworks are used: • 172.30.0.0/16 • 192.168.4.0/24 • 192.168.5.0/24 • The 172.30.0.0/16 network is subnetted into three subnets: • 172.30.1.0/24 • 172.30.2.0/24 • 172.30.3.0/24 • The following devices are part of the 172.30.0.0/16 classful network address: • All interfaces on R1 • S0/0/0 and Fa0/0 on R2

  38. Configuration Details • To remove the RIP routing process use the following command • No router rip • To check the configuration use the following command • Show run

  39. Boundary Routers • RIP automatically summarizes classful networks • Boundary routers summarize RIP subnets from one major network to another

  40. Automatic Summarization • Advantages of automatic summarization: • The size of routing updates is reduced • Single routes are used to represent multiple routes which results in faster lookup in the routing table

  41. Automatic Summarization • Disadvantage of Automatic Summarization: • Does not support discontiguous networks

  42. Automatic Summarization • Discontiguous Topologies do not converge with RIPv1 • A router will only advertise major network addresses out interfaces that do not belong to the advertised route

  43. Default Route and RIPv1 • Modified Topology: Scenario C • Default routes • Packets that are not defined specifically in a routing table will go to the specified interface for the default route • Example: Customer routers use default routes to connect to an ISP router • Command used to configure a default route is ip route 0.0.0.0 0.0.0.0 s0/0/1

  44. Default Route and RIPv1

  45. Default Route and RIPv1 • Propagating the Default Route in RIPv1 • Default-information originate command • This command is used to specify that the router is to originate default information, by propagating the static default route in RIP update

  46. Summary • RIP characteristics include: • Classful, distance vector routing protocol • Metric is Hop Count • Does not support VLSM or discontiguous subnets • Updates every 30 seconds • Rip messages are encapsulated in a UDP segment with source and destination ports of 520

  47. Summary: Commands used by RIP

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