Introduction |
RIP Distance Vector Routing protocols |
Distance |
Vector |
Configuring RIP on Router |
Process to configure redistribution between OSPF and RIP |
Default Route with IPSLA on Routing Information Protocol |
Configuring Offset-list on Router |
How to Troubleshoot Routing Information Protocol |
wrong network command |
Interface shut |
Passive Interfacce |
Version Missmatch |
Max hop count |
Router filtering |
Authentication |
Split Horizon |
Auto-summarizon |
Rip Timers Debug |
update |
Holdtime |
Brief Knowledge about Router Summarizaion |
saves Memory |
Saves CPU cycles |
Stability |
RIP Passive Interface |
RIP stands for Routing Information Protocol that is an old distance vector routing protocol. It permits the usage of maximum 15 routers for hop count as it is distance vector. RIP has 2 versions. First syncs with full updates every 30 seconds by using doing broadcast. Fews updates and brought about are performed by using 2nd version by the usage of multicast. If we evaluate different routing protocols like OSPF, EIGRP and IS-IS. RIP is quite slow protocol. Because of this, RIP is now not used generally by using networking administrations however its understanding is very important if your beginner in the networking field. In this lesson, we will study basic and advance topics of Routing Information Protocols.
In this direction you will learn:
Requirements
You must be acquainted with the fundamentals of routing.
Lessons
RIP is a distance-vector routing protocol and the easiest routing protocol, to begin with. We’ll begin with the aid of paying interest to the distance vector class. What does the identify distance-vector mean?
Distance: How some distance away, in routing world we use metrics which we simply discussed.
Vector: Which direction, in routing world we care about which interface and the IP-address of the subsequent router to trigger it too.
In this picture, we've got three routers and we're jogging a distance vector routing protocol (RIP). As we begin our routers they construct a routing table by default but the only component they know is theirs without delay related interfaces. You can see that this record is in their routing table. In red, you can see which interface and in inexperienced you can see the metric. RIP uses hop rely on as its metric that is nothing greater than counting the number of routers (hops) you need to skip to get in your vacation spot. Now I’m going to allow distance vector routing, what's going to happen is that our routers will reproduction their routing desk to their directly connected neighbour. R1 will copy its routing table to R2. R2 will reproduction its routing table to R3 and the opposite manner round. If a router gets records about a community it doesn’t understand approximately yet, it'll upload this data to its routing table:
Take a note at R1 and you will see that it has realized about the 192.168.2.0 /24 and 3.3.3.0 /24 network from R2. You see that it has brought the interface (Fa1/0) how to attain these networks (that’s the vector part) and you see that it has brought the metric (hop count) for these networks (that’s the distance part). 192.168.2.0 /24 is one hop away, 3.3.3.0 /24 is two hops away. Awesome! You too see that R2 and R3 have mapped their routing tables. Every 30 seconds our routers will ship a full replica of their routing table to their neighbors who can update they're its routing table. So a long way so good, our routers are working and we are aware of the destination to all of our networks…distance vector routing protocols are susceptible to some
Verlag: BookRix GmbH & Co. KG
Texte: Mulayam Singh
Bildmaterialien: Prince Kumar Gond
Cover: Mitesh Srivastav
Lektorat: Adarsh Gupta
Übersetzung: Vishnu Thakur
Satz: Nishchal Agrahari
Tag der Veröffentlichung: 15.05.2020
ISBN: 978-3-7487-4103-9
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Widmung:
RIP stands for Routing Information Protocol that is an old distance vector routing protocol. It permits the usage of maximum 15 routers for hop count as it is distance vector. RIP has 2 versions. First syncs with full updates every 30 seconds by using doing broadcast. Fews updates and brought about are performed by using 2nd version by the usage of multicast. If we evaluate different routing protocols like OSPF, EIGRP and IS-IS. RIP is quite slow protocol. Because of this, RIP is now not used generally by using networking administrations however its understanding is very important if your beginner in the networking field. In this lesson, we will study basic and advance topics of Routing Information Protocols.