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Wichita State University
Department of Electrical and Computer Engineering
CCIE Preparation Laboratory
WSU CCIE Lab #1
Basic Multiprotocol Skills Lab
Version 3.01.2-324, 11-3-2000
NBMA Network
(Frame Relay)
Ring 2
Ring 1
R1
R5
R2
R3
R7
Backbone 3
E0 130.10.Y.5
VLAN 3
?? Configure the network using network 130.10.x.x
?? Use an 8 bit subnet mask unless otherwise specified
?? The address of the tftp server is 130.10.Y.2, where Y is the rack #
?? If a password is needed, use cisco for the password
Lab 1. Connect Terminal Server (30 minutes)
1. Setup routers as shown in the diagram above.
2. Document your network and include a diagram with all configured interfaces and all network
addresses.
3. Configure an ip host list on R5 for a reverse telnet session into each router.
Lab 2. IP (1 hour)
At the end of each exercise, verify connectivity between all ports:
?? All ip routes appearing in all routers
?? Ping from any interface to any other interface
Lab 2a
1. Configure R8 as a frame-relay switch.
2. Connect R1, R2, and R5 over Frame Relay. Configure R5 using subinterfaces. Configure R1
without using subinterfaces and using map commands. Configure R2 without using
subinterfaces or map commands. Use multiple subnets over the frame cloud. Use only 1 PVC
on R1 and R2.
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3. Configure OSPF with the cloud in area 0. Configure R3, R7 serial, and R2-R3 serial to be in
area 1. Configure R7 Ring 1 in area 2.
4. Configure two loopbacks on R1 using subnets that will contain at most 14 host ip addresses.
Configure two loopbacks on R5 using subnets that will contain at most 62 hosts. Summarize
the two loopback interfaces on R1 and R5 such that R2 only sees one route from each.
Lab 2b
1. Remove OSPF configurations from R3, R7 and the serial connection between R2 and R3.
Configure EIGRP on R3, R7 and on the serial connection between R2 and R3. Redistribute
OSPF and EIGRP on R2.
2. Repeat step 1 using IGRP instead of EIGRP.
Lab 2c
1. Filter such that R7 can ping the loopbacks on R5 but not the ethernet. The route for the
ethernet should still be visible
2. Filter on R3 such that R1, R5, and R2 only see the routes from the token-ring interface on R7.
3. Remove the filters from R3.
Lab 3. Appletalk (1 hour)
At the end of each exercise, verify connectivity between all ports:
?? All Apple routes/zones appearing in all routers
?? Apple ping from any interface to any other interface
Lab 3a
1. Configure all ports (except loopbacks) for appletalk. Define a zone on each interface. Define
an interface on R7 as Appletalk phase I.
2. Configure EIGRP for R2, R3, and R7.
3. Configure RTMP/ZIP for the NBMA network.
Lab 3b
1. Filter on R3 such that R7 only sees routes and zones from R1.
Lab 3c
1. Remove Appletalk from the serial network between R2 and R3. All zones and routes should
still be seen by all routers running Appletalk
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Lab 4. IPX (1 hour)
At the end of each exercise, verify connectivity between all ports:
?? Appropriate IPX routes/SAP’s appearing in all routers
?? IPX ping from any interface to any other interface
Lab 4a
1. Configure all ports (including loopbacks) for IPX.
2. Configure RIP/SAP on R3, R7, and the serial network between R2 and R3.
3. Configure only EIGRP on R1, R5, and R2’s NBMA network interface.
4. Redistribute on R2.
Lab 4b
1. Configure two static SAPs on R7. Filter on R3 such that R1, R5, and R2 see only one of the
SAPs.
2. Disable IPX across the NBMA network. All routes should still be seen by all routers running
IPX.
3. Change the frequency of RIP updates across the serial connection between R3 and R7 to once
every 2 minutes.
Lab 5. Dial-on-demand routing (1 hour)
At the end of each exercise, verify connectivity between all ports:
?? Ping all interfaces using applicable protocols
Lab 5a
1. Configure an ISDN connection between R2 and R3
2. Disconnect the serial link between R2 and R3.
3. Configure dial-on-demand routing for IP and IPX between R2 and R3. No broadcast packets
should initiate the dialing.
4. Reconnect the serial link and configure ISDN as a backup for the serial interface.
Lab 6. DLSW (30 minutes)
At the end of each exercise, verify connectivity between all ports:
?? Check the DLSW setup using appropriate show commands
Lab 6a
1. Configure DLSW between Ring 1 and Ring 2.
2. Add R2’s ethernet into the DLSW network. Make sure there is connectivity between all lan
interfaces.
Lab 6b
1. Configure a filter that blocks Netbios packets with destination name “SHOCKER” from
leaving Ring 1.
2. Set up a filter that would permit only SNA traffic between the token-rings.
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Lab 7. BGP (30 minutes)
At the end of each exercise, verify connectivity between all ports:
?? R1 should be able to ping the first host on both of the BGP networks
Lab 7a
1. Connect R5's ethernet to Backbone 3. Use IP address 130.10.Y.5 for R5's ethernet.
Configure BGP between R5 and the router at address 130.10.Y.4. Use the AS number that
matches your rack number. The router at 130.10.Y.4 is using AS number 12Y.
2. Configure BGP between R5 and R1.
3. The BGP speaker at 130.10.Y.4 is advertising networks 192.10.5.0 and 192.10.6.0. Filter on
R5 so R1 only sees the route to 192.10.5.0.
Lab 8. Catalyst Switch (15 minutes)
At the end of each exercise, verify connectivity between all ports:
?? All devices on the network should be able to ping the switch SW1
?? SW1 should be able to ping all IP interfaces within the 130.10.x.x network
Lab 8a
1. Connect R3 to the Catalyst 5000 switch, SW1, as shown in the diagram on page 1.
2. Use 130.10.30.5/24 for the IP address of SW1.
3. Configure SW1 to use 130.10.30.3 as its default gateway.
. Terminal Server (30 minutes)
1. Setup routers as shown in the diagram above.
2. Document your network and include a diagram with all configured interfaces and