Cisco认证实验考试经典题库CCIE_BootCamp3.0(5)

时间:2014-08-29 18:29:00   来源:无忧考网     [字体: ]
i. configure the ethernet interface e0 on router r4 to be in ospf area 40. j. configure the r5, r6, and r8 ethernet 0 interface to use eigrp. k. configure r8’s interface loop5 as 192.168.100.1/24 and add it to rip l. 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 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 ethernet 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, don’t see the route to router r8’s interface loopback 5. p. create three loopback interfaces on router r8 and use 160.10.10.1/24 for loopback 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 you 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 router r3’s 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 remaining individual packet that needs to be emptied from the queue. c. configure the frame-relay interface on router r2’s 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. use 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 access-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 r5’s routing table.

4. ipx configuration – 20 pts (1h) a. configure all interface(including loopbacks ) for ipx b. configure ipx eigrp on the nbma frame-relay network c. configure ipx rip/sap everywhere else.