Lab24 (1130266)
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Лабораторная работа № 24. Особенности протокола маршрутизации "IGRP"
Objectives:
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Work with IGRP metrics used in path selection
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Understand the path that is selected to route data to a particular host.
Step 1 - Connect router Lab-A to Lab-E.
Connect the DCE side of a V.35 WAN serial cable on port Serial 0 of Lab-E. Connect the other end of the cable (the DTE end) to port Serial 1 of Lab-A.
Step 2 - Configure the serial port on Lab-E.
On Lab-E, enter the privileged EXEC mode by entering the command enable. If prompted, enter the password class. Enter global configuration mode by entering the command configure terminal (abbreviated config t). Enter the interface configuration mode for port Serial 0 by entering the command interface Serial 0 (abbreviated int s 0). Assign the IP address of 220.68.33.1 to the serial port by entering the command ip address 220.68.33.1 255.255.255.0. This WAN link will be a 56 Kbps circuit, so enter the command bandwidth 56. Assign the clock rate of 56000 bits per second by entering the command clock rate 56000. Bring the interface up by entering the command no shutdown. Type the key sequence Control+Z to return to the command line interface.
Step 3 - Configure the serial port on Lab-A.
On Lab-A, enter the privileged EXEC mode by entering the command enable. If prompted, enter the password class. Enter global configuration mode by entering the command configure terminal (abbreviated config t). Enter the interface configuration mode for port Serial 1 by entering the command interface Serial 1 (abbreviated int s 1). Assign the IP address of 220.68.33.2 to the serial port by entering the command ip address 220.68.33.2 255.255.255.0. This WAN link will be a 56 Kbps circuit, so enter the command bandwidth 56. Bring the interface up by entering the command no shutdown. Type the key sequence Control+Z to return to the command line interface.
Step 4 - Document the change to the network topology.
To successfully complete this lab, you will be referring to the topology diagram at the start of this lab. Draw a WAN link (indicated by a lightening bolt-style line) between Lab-A and Lab-E. Indicate the network number 220.68.33.0 above this link. Indicate the point at which the line connects to Lab-E as S0 (DCE), with the IP address of 220.68.33.1. Indicate the point at which the line connects to Lab-A as S1 with an IP address of 220.68.33.2.
Step 5 - Configure IGRP routing on each router.
Each router in the lab needs to be configured with IGRP and the same autonomous system number. For purposes of this lab, use the number 10. On each router, enter privileged EXEC mode by entering the command enable. If prompted, enter the password of class. Enter global configuration mode by entering the command configure terminal (abbreviated config t). To ensure that RIP routing is not in use on the lab routers, enter the command no router rip. To start to configure IGRP enter the command router igrp 10 (where 10 is the autonomous system number you are assigned).
1. What does the prompt change to? Router-name(config-router)#
IGRP requires the router administrator to enter the network number of all networks that are physically connected to it. The command to do this is network xxx.xxx.xxx.xxx (where xxx.xxx.xxx.xxx is the IP address of the network connected to the interface, not the IP address of the interface itself). Refer to the network topology diagram at the start of this lab for these numbers. Be sure to include the IP address of the networks on the Ethernet ports as well as those on the serial ports (see example below). Type the key sequence Control+Z to return to the command line interface. Save the router configuration to NVRAM by entering the command copy running-config startup-config (abbreviated copy run start).
Example for Lab-A:
Lab-A(config)# router igrp 10
Lab-A(config-router)# network 205.7.5.0
Lab-A(config-router)# network 192.5.5.0
Lab-A(config-router)# network 201.100.11.0
Lab-A(config-router)# network 220.68.33.0
Step 6 - Examine a routing table.
Log onto the Lab-C router and issue the command show ip route.
2. Record the results below:
You will note that a "C" in the first column indicates that the network is directly connected to the router. An "I" in the first column indicates that the network was learned via IGRP. The first number in the square brackets indicate the calculated distance to the particular router. The second number indicates the calculated metric to the particular router.
Step 7 - Examine the path that data travels.
From Lab-C, follow the path that data travels to reach interface S0 on Lab-E. Issue the command traceroute 220.68.33.1 (abbreviated tr 220.68.33.1).
3. What path does the data travel?
Step 8 - Examine the path that data travels between two different routers.
Log onto Lab-E. Trace from Lab-E to the Ethernet 1 interface of the Lab-A router by entering the command traceroute 192.5.5.1 (abbreviated tr 192.5.5.1).
4. What path did the traceroute command follow?
5. Why didn't the path travel from Lab-E to Lab-A ?
Step 9 -- Shutdown one of the fast links between routers.
Since the network of routers has more than one path to route data, you have some redundancy in your system. If one of the links between routers goes down, data will be able to be routed via the alternate path. This routing will occur once the network has converged.
From Lab-E, issue the command show ip route.
6. Record the results below.
Disconnect the cable from Lab-E's Ethernet 0 interface. The output of the show ip route command (above) indicated that all traffic from Lab-E was being routed through the Ethernet 0 interface.
Entering the command traceroute 192.5.5.1 (abbreviated tr 192.5.5.1).
7. What path does the traceroute command now follow?
8. Record the results below.
Note that the IGRP metric (the second number in the square brackets) on each route has increased significantly from the results you recorded in question 6. This indicates that the 56Kbps WAN link, between Lab-E and Lab-A, is slower. Even though it is slower, this is the only way to route traffic out of Lab-E.
Step 10 - Examine the routing of traffic from another router. Log onto Lab-C. Note that it takes time for the network to converge between steps 9 and 10. Enter the command clear ip route * to force the router to clear all routing table information and obtain new information from the other routers, via a broadcast. Issue the command show ip route, and compare the results to those you recorded in question 2.
9. Have any of the routes changed?
10. What interface does this route now use?
Examine the path data now takes to go to interface Serial 0 on Lab-E. Enter the command traceroute 220.68.33.1 (abbreviated tr 220.68.33.1).
11. What path does the traceroute command now follow?
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