Routing

RIPng

CCIE blueprint: 2.4.a Implement and troubleshoot RIPv2 When looking at the blueprint for CCIE RIPng is not listed as a subject. However, it is good practice to have some knowledge of this routing protocol. This post is part of a multipost series about RIP. Other posts in this series are: RIP RIP configuration part 1 RIP configuration part 2 RIP authentication RIP summarization Miscelanious RIP commands Since IPv6 contains much longer addresses it is more difficult to use the old syntax that is used for RIP.

RIP summarization

CCIE blueprint: 3.4.a Implement and troubleshoot RIPv2 This post is part of a multipost series about RIP. Other posts in this series are: RIP RIP configuration part 1 RIP configuration part 2 RIP authentication Miscelanious RIP commands RIPng Because RIP is a distance vector routing protocol summarization can be applied everywhere in the topology. This makes it easy to apply policy using summarization. For this post I’m using a very simple network shown in the diagram below.

RIP authentication

CCIE blueprint: 3.4.a Implement and troubleshoot RIPv2 This post is part of a multipost series about RIP. Other posts in this series are: RIP RIP configuration part 1 RIP configuration part 2 RIP summarization Miscelanious RIP commands RIPng This post will zoom in to the authentication process in RIP. This is largely the same for other protocols, so a lot of this information can be applied to other routing protocols.

RIP configuration part 1

CCIE blueprint: 3.4.a Implement and troubleshoot RIPv2 This post is part of a multipost series about RIP. Other posts in this series are: RIP RIP configuration part 2 RIP authentication RIP summarization Miscelanious RIP commands RIPng This post will cover the configuration of RIP. Basic RIP configuration is peanuts and done in seconds. There are some additional features that can be configured, but most of the time these won’t really be necessary.

RIP configuration part 2

CCIE blueprint: 3.4.a Implement and troubleshoot RIPv2 This post is part of a multipost series about RIP. Other posts in this series are: RIP RIP configuration part 1 RIP authentication RIP summarization Miscelanious RIP commands RIPng This post is a continuation of the previous post. This post will cover the following configuration items for RIP: RIPv1 and Ripv2 interoperability Bidirectional Forwarding Detection RIPv1 and RIPv2 interoperability By default, when you enable RIP it enables version 1.

RIP

CCIE blueprint: 3.4.a Implement and troubleshoot RIPv2 RIP is the easiest routing protocol on the CCIE R&S 5.1 blueprint. It is not a very widely used protocol anymore, but it is interesting to look into. I will create several posts about RIP in the near future. These are: RIP configuration part 1 RIP configuration part 2 RIP authentication RIP summarization Miscelanious RIP commands RIPng This first post will cover RIP basics