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CISCO SYSTEMS TECHNICAL READINESS DOCUMENT CCIE Practice Scenario Labs Introduction This document is designed to be a companion to Volume 1,2,3 and 4. The CCIE certification is a written test and a lab test. This document will help the student further build upon their technical skills and configuration skills. The document contains practice CCIE scenario labs. Background These scenarios have been compiled from various sources including current partner CCIEs. These are not the only scenarios you will be tested with on the CCIE lab exam. They are designed to give you a flavor for the lab exam. Students are encouraged to use these scenarios to assist them in devising other scenarios with different physical topologies using multiprotocol scenarios. REMEMBER: YOU CAN BE TESTED ON ANY AND ALL TECHNOLGIES ON THE CCIE LAB EXAM Prerequisites The student must also have taken and past the CCIE written test. CISCO SYSTEMS TECHNICAL READINESS DOCUMENT CCIE Practice Lab Scenario 2 W here there is no FD D I available T oken R ing m ay be used Fram e Rela y S0 S1 E0 E0 E 0/0 E 0/2 E 0/1 FDDI Dual Ring R2 R3 R1 E1 S 2/0 O SPF B ackbone A A rea 1 A rea 2 A rea 3 EIGRP IG R P R4 The following lab exercises are based on the above topology CISCO SYSTEMS TECHNICAL READINESS DOCUMENT Lab 1 Communications Server Setup / Network Connections (30 minutes) 1. The Communications Server is cabled as shown on the previous diagram. 2. Communication Server port 2 is connected to a 7000 (R2). 3. Communication Server port 3 is connected to a 4500 (R3). 4. Communication Server port 4 is connected to a 4700 (R1) 5. Configure the Communications Server so that when you type the name of a router on the Server you are connected to the console port of that respective router. Lab 2 IP Routing Configuration (30 minutes) The objective of this lab is to configure OSPF/IGRP/EIGRP/BGP in different parts of the network and to redistribute routing information. In the working setup all routers should see every route and should be able to ping any interface in the network. Do NOT configure static routes to accomplish this. Topology and Basic IP Setup You will be using the CLASS B network 172.17.0.0 with the 3’rd octet set to 59. Thus all your addresses should look like 172.17.59.X 2a Configure R3 as a frame relay switch (Time 30 minutes) 1. DLCI 100 goes to R1. 2. DLCI 101 goes to R2. 2b Configure IP across the Frame Relay network (Time 30 minutes) 1. Use a 28 bit subnet mask. 2. Confirm connectivity across the Frame Relay network by pinging from R2 to R1. CISCO SYSTEMS TECHNICAL READINESS DOCUMENT 2c Configure IP across the remaining interfaces (Time 45 minutes) 1. Configure R2 Ethernet 0/0 to IP address 171.68.62.93 with a 26 bit subnet mask. 2. Subnet Ethernet 0/1 on R2 such that it has 6 host addresses. 3. Subnet the Ethernet that connects R2 and R3 using a 30 bit subnet mask. 4. Subnet R3 ‘s Ethernet 1 such that it has 14 host addresses. 5. Subnet the R1’s FDDI ring such that it has 2 hosts. 6. Verify that you have basic IP setup by pinging the local interfaces that you have just configured. 2d: Configure OSPF on your network as per Diagram 3 (Time 45 minutes) 1. Configure OSPF on R2, R3, and R1. Refer to Diagram 3 for area designations. 2. Ensure that R2 can ping R1’s FDDI interface and R3’s Ethernet 1 interface. Also ensure that R1 can ping R3’s Ethernet 1 interface. Lab 2e: IGRP Configuration and Redistribution (time 45 minutes) 1. Configure IGRP on R4’s Ethernet 0 and R2’s Ethernet 0/0. 2. Make sure that these are the ONLY interfaces that are advertising IGRP. 3. Redistribute OSPF into IGRP on R2. 4. Verify that R4 can ping all interfaces in the OSPF domain. Lab 2f: EIGRP Configuration and Redistribution (time 30 minutes) 1. Configure EIGRP on R2’s Ethernet 0/1. 2. Make sure that this is the ONLY interface that is advertising EIGRP. 3. Redistribute OSPF into EIGRP and EIGRP into OSPF. 4. Redistribute the connected interface Ethernet 0/1 into OSPF and IGRP. 5. Verify that R1 and R4 can ping R2’s Ethernet 0/1. CISCO SYSTEMS TECHNICAL READINESS DOCUMENT Lab 2g: BGP Configuration(30 minutes) 1. Configure BGP on R3 and R2: 2. R3 and R2 should have different autonomous system numbers. 3. Configure 3 loopback interface on R3 using the network addresses 150.100.0.0, 160.100.0.0, and 170.100.0.0. 4. Configure BGP between R3 and R2 such that R2 sees all three loopbacks configured on R3. 5. A “show ip bgp” on R2 should show the three routes advertised by R3. Lab 2h: BGP Route Filter (15 minutes) 1. Configure a filter on R2 such that the only route now seen on R2 is 150.100.0.0. Lab 3: IP FIREWALL (30 minutes) Configure an inbound access-list on R3’s Ethernet 0 interface that satisfies the following criterion: 1. Telnet sessions are permitted only if originated from R4’s ethernet interface subnet. 2. FTP sessions are permitted only if established from R3’s Ethernet 1 subnet. 3. TFTP is permitted both ways allowed. 4. SMTP is not allowed. 5. WWW is not allowed. 6. PING is permitted from everywhere. 7. Confirm access to the network after applying the access list. Ping R3’s Ethernet 1 from R1. Also show a telnet to R3 from R2 fails. Lab 4 Appletalk Routing Configuration (45 minutes) 1. Configure all ports for appletalk. Use different cable ranges and zones on each interface. 2. Configure EIGRP for appletalk across the frame-relay network. 4a. Appletalk filter (45 minutes) 1. Configure a filter on R2 such that R3 only sees routes and zones from R4. CISCO SYSTEMS TECHNICAL READINESS DOCUMENT Lab 5 Decnet Routing Configuration (45 minutes) 1. Enable Decnet routing on all routers. 2. Configure R3’s ethernets to be in a separate DECnet area from the rest of the routers. 3. Verify connectivity between all routers by checking that the appropriate DEC areas/nodes appear in all routes. 4. Verify that you can DEC ping from any router to any other router. Lab 6 IPX Routing Configuration (45 minutes) 1. Enable IPX routing on all routers. 2. Configure all ports for IPX. 3. Configure IPX EIGRP across the frame-relay network. 4. Verify that all routes appear in each router. 5. Verify that you can IPX ping from any router to any other router. 6a: IPX SAP configuration and filter (45 minutes) 1. Configure two static SAPs on R3. 2. Verify that these two SAPs appear in R2’s SAP table. 3. Configure a filter on R2 such that it can see only one of the static SAPs. 4. Verify that R2 can now only see one of R3’s static SAPs in his SAP table. 6b: IPX route filter (30 minutes) 1. Configure a filter on R1 such that the only IPX routes it sees are R3’s ethernets. 2. Verify that only these two routes appear in R1’s route table. Lab 7 DLSw Configuration (20 minutes) 1. Configure DLSw between R3’s ethernet 1 and R2’s ethernet 0/1. 2. Verify that the DLSw peers are in the connected state. CISCO SYSTEMS TECHNICAL READINESS DOCUMENT 7a: DLSw port exclusion (20 minutes) 1. Configure transparent bridging between R2’s ethernet 0/0 and ethernet 0/1. 2. Configure DLSw such that there is connectivity between R3’s ethernet 1 and R2’s ethernet 0/1, but NOT between R3’s ethernet 1 and R2’s ethernet 0/0. 7b: DLSw protocol filter (20 minutes) 1. Configure a filter such that the only protocol that is transported via DLSw is NetBIOS. 2. Apply this filter to the DLSw remote peer statement on R3. 7c: DLSw mac filter: (20 minutes) Change the DLSw configuration such that R2 informs all his peers that the only mac address that R2 can reach is 4000.3725.0101.Verify that your configuration is correct by checking the peer capabilities. . TECHNICAL READINESS DOCUMENT CCIE Practice Scenario Labs Introduction This document is designed to be a companion to Volume 1,2,3 and 4. The CCIE certification. This document will help the student further build upon their technical skills and configuration skills. The document contains practice CCIE scenario labs.

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