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Click to edit Master subtitle style Chapter 9: Introduction to IP Routing Instructor: Click to edit Master subtitle style

Chapter 9 Objectives The Following CompTIA Network+ Exam Objectives Are Covered in This Chapter: 1.4 Explain the purpose and properties of routing and switching. Link state vs. distance vector vs. hybrid Static vs. dynamic Next hop IGP vs. EGP Routing tables Convergence (steady state) 2

IP Routing Basics Once you create an internetwork by connecting your wide area networks (WANs) and local area networks (LANs) to a router, you then need to configure logical network addresses, such as IP addresses, to all hosts on the internetwork so that they can communicate via routers across that internetwork. In IT, routing essentially refers to the process of taking a packet from one device and sending it through the network to another device on a different network. Routers don’t really care about hosts—they only care about networks and the best path to each network. 3

IP Routing Basics Continued The logical network address of the destination host is used to get packets to a network through a routed network, and then the hardware address of the host is used to deliver the packet from a router to the correct destination host. If your network has no routers, then it should be apparent that you are not routing. But if you do have them, they’re there to route traffic to all the networks in your internetwork. To be capable of routing packets, a router must know at least the following information: Destination address Neighbor routers from which it can learn about remote networks Possible routes to all remote networks The best route to each remote network How to maintain and verify routing information 4

IP Routing Basics Continued The router learns about remote networks from neighbor routers or from an administrator. The router then builds a routing table (a map of the internetwork) that describes how to find the remote networks. If a network is directly connected, then the router already knows how to get to it. If a network isn’t directly connected to the router, the router must use one of two ways to learn how to get to it. One way is called static routing, which can be a ton of work because it requires someone to hand-type all network locations into the routing table. The other way is known as dynamic routing. In dynamic routing, a protocol on one router communicates with the same protocol running on neighbor routers. 5

Simple Routing Example This figure shows a simple two-router network. Lab_A has one serial interface and three LAN interfaces By looking at the figure and the output of the routing table, can you tell what IP will do with a received packet that has a destination IP address of 10.10.10.10? If you answered, “The router will packet-switch the packet to interface FastEthernet 0/0, and this interface will then frame the packet and send it out on the network segment,” you’re right. Looking at the figure, can you figure out which interface Lab_A will use to forward an IP datagram to a host with an IP address of 10.10.10.10? 6

The IP Routing Process What happens when Host_A wants to communicate with Host_B on a different network? The instructor needs to explain the 36-steps in detail that are listed in the book. Host_A pings Host_B’s IP address. Routing doesn’t get any simpler than this, but it still involves a lot of steps. Let’s work through them. 7

Testing your understanding This figure shows a LAN connected to RouterA, which is, in turn, connected via a WAN link to RouterB. RouterB has a LAN connected with an HTTP server attached. Take a look. 1. The destination address of a frame, from HostA, will be the MAC address of the F0/0 interface of the RouterA router. 2. The destination address of a packet will be the IP address of the network interface card (NIC) of the HTTP server. 3. The destination port number in the segment header will have a value of 80. 1. The destination address of a frame, from HostA, will be the MAC address of the _________________________. 2. The destination address of a packet will be the IP address of the __________________of the HTTP server. 3. The destination port number in the segment header will have a value of ___. 8

Testing your understanding This figure shows a network with only one router but two switches. 1. The destination address of a frame from HostA will be the MAC address of the F0/0 interface of the RouterA router. 2. The destination address of a packet will be the IP address of the NIC of the HTTPS server. 3. The destination port number in the segment header will have a value of 443. 1. The destination address of a frame from HostA will be the MAC address of the __________________________. 2. The destination address of a packet will be the IP address of the _______________________. 3. The destination port number in the segment header will have a value of ___. 9

Static and Dynamic Routing How does a router send packets to remote networks when the only way it can send them is by looking at the routing table to find out how to get to the remote networks? And what happens when a router receives a packet for a network that isn’t listed in the routing table? It doesn’t send a broadcast looking for the remote network—the router just discards the packet. Period. 10

Static and Dynamic Routing There are several ways to configure the routing tables to include all the networks so that packets will be forwarded. Understand that what’s best for one network isn’t necessarily what’s best for another. Knowing about and being able to recognize the different types of routing will really help you come up with the best solution for your specific environment and business requirements. Let’s take a look at our options… 11

Static and Dynamic Routing Looking at the figure, we can see that we can configure a router either with static or dynamic routing. If we choose static routing, then we have to go to each router and type in each network and the path that IP will use to send packets. 12

Static and Dynamic Routing Dynamic routing protocols break up into many different categories or types of protocols, as shown in the figure. The first split in the dynamic protocol branch is the division of interior gateway protocols (IGPs) and exterior gateway protocols (EGPs). 13

Static and Dynamic Routing That is the end of the EGP branch of the tree, but the IGP branch continues to split out as we go down further. Looking at the figure, with the IGP split, you can see that there are two primary categories: Distance Vector (DV) and Link State (LS) routing protocols. 14

Static and Dynamic Routing We’re going to discuss all of these types of protocols in the next chapters. But in the Distance Vector category, for example, we have RIP and Interior Gateway Routing Protocol (IGRP). Under the Link State category are OSPF and Intermediate System-to-Intermediate System (IS-IS). 15

Static and Dynamic Routing Now, in this figure, you can see from the diagram that there is a third category: the Hybrid Protocol category. The only protocol under this category is EIGRP. It is Cisco proprietary and uses the features of both DV and LS, and again, discussed in the next chapter. 16

Summary Summary Exam Essentials Section Written Labs Review Questions 17