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1、CCIE Boot Camp R&S Lab SubscriptionLab#11- Day Format Version 2.002- Policy Routing Frame relay OSPF(本文挡由Hanson 和Victoria 整理)Network Learning, Inc. R&S CCIE Practice Lab 1 Version 2.00 1-day VersionAt the end of this lab verify connectivity to all ports. You should be able to ping every interface fo
2、rm any router. (dont worry about being able to ping a local frame-relay interface. Please disregard this statement if you are asked to filter packets, routers or other specific tasks.)1. Initial Configuration 5 pts (30 minutes)a. Use the pre-configuration files to apply proper IP addresses to the ro
3、uter interfaces. Add IP addresses as needed as shown on the network diagram.b. Configure router R7 as a frame-relay switch. Refer to the diagram for interface connections to other routers connected to router R7.c. Connect routers R1,R2, R3, and R5 over the frame-relay cloud. Configure router R1s S0
4、interface as a sub-interface. Configure R2,R3, and R5 without using sub-interfaces. Use only one frame-relay PVC on routers R2, R3, and R5. The recommended DLCI numbers 102, 201,103,301,105, and 501 are indicated on the lab diagram.d. Routers R1, R2, R3, and R5 should share network 10.10.x.x 255.255
5、.0.0 on their frame-relay interfaces.e. Router R1 should have network 10.1.x.x with an 8-bit subnet mask on its Ethernet interface( The mask should be 255.255.0.0)f. Make sure all the Ethernet interfaces are in their own broadcast domain if you are using an Ethernet switch for your Ethernet connecti
6、ons.2. OSPF Configuration 25pts (2 hours 30 minutes)a. configure OSPF area 0 on the frame-relay interfaces between R1, R2, R3, and R5.b. Configure router R1s interface Ethernet 0 for OSPF area 1c. Configure router R2s interface E0 for OSPF area 10d. Configure router R3s interface S 1 and all of rout
7、er R4s interface for OSPF area 3.e. Configure router R5s interface E 0 for OSPF area 4.f. Create two loopback interface on R4 and put both of the associated subnets on these interfaces in OSPF area 44.g. Summarize the (2) loopback interface you just created on router R4 so they appear as one route t
8、o the rest of the OSPF routers in your network.h. Here is the tricky part. You cant use the command ip ospf network xxxx anywhere in your router configurations.i. Redistribute the default route on router R2 as type-1 with a metric of 100. This route is already part of the initial configurations we p
9、rovided for you.j. Also, one of the problems in this lab can be solved with multiple frame map ip statements, but that is not the solution we want you to use, Solve the problem with routing, not layer 3 to layer 2 mapping via additional frame map statements!(Yes, this is a tricky issue)You have comp
10、leted lab 1. compare your configurations to the ones we provided. Often there is more than one complete a task so your configurations may be different than ours. If your configuration are different than ours make sure you understand how to complete the lab with our configurations too.Lab 2At the end
11、 of this lab verify connectivity to all ports. You should be able to ping every interface from and router. (Dont worry about being able to ping a local frame-relay interface. Please disregard this statement if you are asked to filter packets. Routes or other specific tasks.)1. Initial Configuration
12、5 pts (30 mins)a. Use the pre-configuration files to apply proper IP addresses to the router interfaces. Add IP addresses as needed as shown on the network diagram. You may have to add additional IP addresses to complete some tasks.b. Connect routers R1, R2, R3, and R5 over the frame-relay cloud. Co
13、nfigure router R1 using sub-interfaces. Configure routers R2, R3, and R5 without using sub-interface.c. Use only one frame-relay PVC on routers R2, R3, and R5, The recommended DLCI numbers 102,201,103, 301,105, and 501 for the frame-relay PVCs are indicated on the network diagram.d. Routers R1,R3,an
14、d R5 should share network 10.10.x.x 255.255.0.0 on their frame-relay interfacese. Routers R1 and R2 should share network 10.20.x.x 255.255.0.0 on their frame-relay interfaces.f. Router R1 should have network 10.1.x.x with an 8-bit subnet mask on its Ethernet interface( The mask should be 255.255.0.0
15、)g. Router R2 should have network 137.20.20.0 with a 24-bit mask on its Ethernet interface.h. Router R3 should have network 10.3.x.x with an 8-bit subnet mask on its token-ring interface ( The mask should be 255.255.0.0)2. OSPF configuration 30 pts (2 Hours 30 minutes)a. configure OSPF area 0 on the
16、 frame-relay interfaces between routers R1, R3 and Router R5.b. Place router R1s Ethernet in OSPF area 1. place router R5s interface E0 in OSPF area 0.c. Setup a default static route (default gateway) from R3 to R4. Redistribute this default static route into OSPF with a metric-type of 1 and a metri
17、c of 500.d. Configure router R3s serial 1 interface as 173.168.40.1/24 and router R4s serial 0 interface as 172.168.40.2/24.e. Configure router R4s E0 interface as 200.100.100.1/24.f. Configure a default gateway on router R4 to route all packets for which it has no routes to router R3.g. Configure t
18、wo loopback interfaces on router R3 with networks that could have at most 254 hosts and put them both in the same OSPF area, but different from OSPF area 0. Summarize this route into OSPF so that the two subnets appear as one route.h. Configure router R2 for EIGRP and put all interface in the routin
19、g process.i. Configure router R1 with EIGRP and redistribute with OSPF. Set the metric type to type-1 when you redistribute from EIGRP to OSPF. Also, redistribute OSPF into EIGRP.j. Configure router R1 so that it only listens to EIGRP updates on E0 and S0.2.k. Configure router R6 for OSPF with a dif
20、ferent process ID than used thus far. Do not configure R6s E0 for OSPF.l. Configure router R8 to be in the same OSPF area as router R6. put router R8s interface E0&Lo0 into the OSPF routing process. Configure router R6 so that its S1 interface speed is correctly reflected in the OSPF metrics without
21、 using the “ip ospf cost xxx” command.m. Configure OSPF message-digest authentication between routers R6 & R8.n. Change the OSPF hello interval between routers R6 & R8 to 45 seconds.o. Configure router R8 suing the “ip ospf cost” command such that the speed of the link for interface S0 is correctly
22、reflected in the OSPF metrics.p. Change the OSPF transmit interval delay to 10 seconds between routes R6 & R8.q. Add a default route to router R2 that points to 137.20.20.2. configure one static route on router R2 so that full connectivity to R4s interface E0 is available. You will notice that the d
23、efault gateway of router R2 has a lower administrative cost than the one learned via router R1. as a result, the other default route never makes it in the routing table for router R2.r. You will notice that R2 cant ping the serial interfaces between routers R3 & R4. fix this problem by only making c
24、hanges to router R3 without static routes.3. BGP configuration -15 pts (1 hour)a. Configure router R4 in BGP autonomous system 1.b. Create a static route to null0 router R4 and redistribute into BGP.c. Create a loopback interface on R4 and add its network to BGPd. When adding the first loopback to B
25、GP use a class A address with a 24-bit mask. The network that was added to BGP from the first loopback address should appear in the routing table of other routers as “ B 44.1.1.0”e. Create another loopback on router R4 with a class A address and put this network into RIP and redistribute RIP into BG
26、P.f. Configure router R3 in BGP autonomous system 1 and use interface loopback 0 as the update source.g. Configure routers R1, R2, and R5 in BGP autonomous system 2, only use one neighbor x.x.x.x remote-as 2 command on routers R2, R3. &R5 for autonomous system 2.h. Place routers R6 and R8 in BGP aut
27、onomous system 3.i. Configure BGP authentication between router R6 & R8.j. Configure a loopback interface on router R8 and enable RIP for this network. Redistribute this RIP network into OSPF.k. Redistribute the OSPF routing process that contains routers R6 and R8 into BGP.l. You are not allowed to
28、add any static routes to router R8 during this exercise.m. Configure router R6 such that all BGP routes learned from router R5 have a local preference of 300.n. Filter on router R5 such that the BGP route to null0 defined on router R4 isnt seen on routers R6 &R8.o. Hint the object of this BGP sectio
29、n is to provide end-to-end connectivity between all routers and interfaces. In this exercise you are not allowed to configure IGP or two-way static route connectivity between routers R5 & R6, BGP should be providing the necessary routing information. You are allowed to setup a default route on route
30、r R6 to point to router R5.Now that you have completed lab 2 check., the routing tables on all routers. Do they make sense? Ping all interfaces from all routers. Can you ping everywhere? Do the appropriate routers see the static route to null0 on R4 via BGP? Go to every router and ping every interfa
31、ce. If you cant ping everything you are not done yes.You have completed lab 2. Compare your configuration to ones we provided. Often there is more than one to complete a task so your configurations may be different than ours. If your configurations are different than ours make sure you understand ho
32、w to complete the lab with our configurations too.Lab 3At the end of this lab verify connectivity to all ports. You should be able to ping every interface from any router. (Dont worry about being able to ping a local frame-relay interface. Please disregard this statement if you are asked to filter p
33、ackets. Routes or other specific tasks.)1. Initial configuration -5 pts (30 mins)a. Use the pre-configuration files to apply proper IP addresses to the router interfaces. Add IP addresses as needed as shown on the network diagram. You may have to add additional IP addresses to complete some tasks.b.
34、 Configure lab 3 network using network 137.20.x.x c. Create a loopback interface on router R2 with 172.168.32.1/24.d. Connect routers R1,R2, R3, and R5 over frame-relay cloud.e. Configure router R1 using sub-interfaces.f. Configure router R2 without using sub-interfaces or frame-relay map commands.g
35、. Put routers R1 &R2 frame-relay interfaces on one subnet and routers R1, R3, and R5 on a different subnet.2. OSPF & Other IP Routing Configuration -35 pts ( 2 h)a. Configure OSPF with the frame-relay cloud in OSPF area 0b. Configure the R3-R4 serial connection to be in area 1.c. Set the ring-speed
36、on router R3 to 16 Mbps.d. Configure the loopback interface on router R2 in a different OSPF area.e. Configure the LAN interfaces on routers R1, R2,and R3 to be in different OSPF areas.f. Configure two loopbacks on router R3 using subnets that will contain at most 30 host IP addresses.g. Configure t
37、wo loopback interfaces on router R1 using subnets that will contain at most 14 host IP addresses.h. Summarize the two loopback interfaces on routers R1 and R3 such that router R2 only sees one route from each.i. Configure the Ethernet interface E0 on router R4 to be in OSPF area 40.j. Configure the
38、R5, R6, and R8 Ethernet 0 interface to use EIGRP.k. Configure R8s interface loop5 as 192.168.100.1/24 and add it to RIPl. Redistribute routes between all protocols such that router R1 can ping any interface.m. Configure 2 loopbacks interfaces on router R8 with 10.1.1.1/24 & 10.1.2.1/24. add there to
39、 RIP and redistribute RIP to EIGRP. Summarize such that all routers only see one route to the loopback interfaces. Test connectivity to loopback interface via ping.n. Filter such that router R6 can ping the loopbacks on router R1, but not the Ethernet interface on router R1. the route for the Ethern
40、et on router R1 should still be visible and all other traffic such as telnet should still pass unfiltered.o. Filter on router R5 such that routers R1 R2, R3, and R4, dont see the route to router R8s interface loopback 5.p. Create three loopback interfaces on router R8 and use 160.10.10.1/24 for loop
41、back 2,q. 161.10.10.1/24 for loopback 3, and 170.10.10.1 for loopback 4. now summarize the three loopback networks into one route. When done router R1 should see only one route for these three loopback interfaces ana should be able to ping all three of them. Hint, the route may not look like what yo
42、u think.3. NTP & Access-list & Other Tasks -15 pts (30 mins)a. configure NTP between routers R2 &R3. make R2 the time source. Set the correct time and date on router on router R2. Set the time-zone on routers R2 & R3, Verify that router R3 has synced with router R2 via NTP.b. Configure queuing on ro
43、uter R3s S0 interface such that telnet, IP, IPX, and everything else use 25% of the bandwidth each. Configure the queuing such that none of the traffic defined at 25% above uses more than 1000 bytes per time slice. You are allowed to exceed 1000 bytes per time slice only if there is part of a remain
44、ing individual packet that needs to be emptied from the queue.c. Configure the frame-relay interface on router R2s interface So such that IP is discard eligible on the frame.d. Create the following 6 static routes on router R6; suing the Cisco IOS command IP route 192.168.x.0 255.255.255.0 null 0. u
45、se the number 1,2,3,4,5 and 6 for the variable X. redistribute the static routes such that they are seen by all the other routers. Now filter on router R5 using any method that use an access list so that only the even routes (i.e. X=2,4,and 6) are seen past router R5 towards the OSPF network. Your a
46、ccess-list can only have two lines in it, not seven for this exercise. All the 192.168.x.0 routes must still be seen in router R5s routing table.4. IPX Configuration 20 pts (1h)a. Configure all interface(including loopbacks ) for IPXb. Configure IPX EIGRP on the NBMA frame-relay networkc. Configure
47、IPX RIP/SAP everywhere else.d. Configure two static SAPs on router R3. Filter on router R5 such that routers R6 and R8 only see one of the SAPs.e. Disable IPX on the between routers R3 &R4 all routes should still be seen by all routers running IPX.f. Change the frequency of the RIP updates across th
48、e R3-R4 serial connection to once every 2 minutes.g. Configure router R1s Ethernet with IPX 802.2 and 802.3 raw frame types.h. Configure routers R3 and R4 to pass IPX NETBIOS type-20 broadcasts between their LAN interfaces.5. DLSW Configuration 10 pts (45 mins)a. Configure DLSw between router R3s interface token-ring 0 and router R4s interface Ethernet 0.b. Place router R2s interface Ethernet 0 into the DLSw network. Make sure there is connectivity between all LAN interfaces.c. Configure a filter that blocks NETBIOS packets with destination name CCIERING1”
