Latest Cisco CCNP 642-902 ROUTE Real Exam Download 1-5



In this question you need to redistribute between OSPF and EIGRP such that is reachable from router R1.




R2 is an ASBR for EIGRP 100 and OSPF AREA 24

R3 is an ASBR for EIGRP 100 and OSPF AREA 34

NotE. There are TWO separate areas on TWO separate ASBRS thus you need to do redistribution on R2 and R3

R1 is ONLY in EIGRP 100, and is THE ONLY router you can ping from. R4 has a loopback interface that must be pinged from R1.

R4 is running OSPF and has redundant links to EIGRP network over R3 router.

NotE. You should ping from R1 to network to make sure everything is working correctly.


Correct Answer:

First we need to find out 5 K-Values used for EIGRP (Bandwidth, Delay, Reliability, Load, MTU) of the s0/0/0 interface (the interface of R2 connected to R4) for redistribution:


R2#show interface s0/0/0


Write down these 5 parameters, notice that we have to divide the Delay by 10 because its metric unit is tens of microsecond. For example, we get Bandwidth=1544 Kbit, Delay=20000 us, Reliability=255, Load=1, MTU=1500 bytes then we would redistribute as follows:


R2#config terminal

R2(config)#router ospf 1

R2(config-router)# redistribute eigrp 100 metric-type 1 subnets


R2(config-router)#router eigrp 100

R2(config-router)#redistribute ospf 1 metric 1544 2000 255 1 1500


(NoticE. In fact, these parameters are just used for reference and we can use other parameters with no problem. Also, a candidate said that the simulator didn’t accept the Bandwidth of 1544; in that case, we can use a lower value, like 128.)

If the delay is 20000us then we need to divide it by 10, that is 20000 / 10 = 2000)

For R3 we use the show interface fa0/0 to get 5 parameters too


R3#show interface fa0/0


For example we get Bandwidth=10000 Kbit, Delay=1000 us, Reliability=255, Load=1, MTU=1500 bytes


R3#config terminal

R3(config)#router ospf 1

R3(config-router)#redistribute eigrp 100 metric-type 1 subnets


R3(config-router)#router eigrp 100

R3(config-router)#redistribute ospf 1 metric 10000 100 255 1 1500







Company Acan has two links which can take it to the Internet. The company policy demands that you use web traffic to be forwarded only to Frame Relay link and other traffic can go through any links that are available. Use BGP attributes to solve the requested action.




Correct Answer:

1) Create an Access list that catches the HTTP traffic:

BorderRouter#access-list 101 permit tcp any any eq www

Note that the server was not directly connected to the Border Router. There were a lot of EIGRP routes on it. In the real exam you do not know the exact IP address of the server in the EIGRP network so we have to use the source as "any" to catch all the source addresses.


2) Route map that sets the next hop address to be ISP1 and permits the rest of the traffic: BorderRouter(config)#route-map pbr permit 10

BorderRouter(config-route-map)#match ip address 101

BorderRouter(config-route-map)#set ip next-hop


BorderRouter(config)#route-map pbr permit 20

(NoticE. the route-map pbr permit 20 line allows other traffic than HTTP to be routed. Otherwise, other traffic will be dropped)


3) Apply the route-map on the interface to the server in the EIGRP Network: BorderRouter(config-route-map)#exit

BorderRouter(config)#int fa0/0

BorderRouter(config-if)#ip policy route-map pbr




4) There is a "Host for Testing", click on this host to open a box in which there is a button named "Generate HTTP traffic". Click on this button to generate some packets for HTTP traffic. Jump back to the BorderRouter and type the command "show route-map".

BorderRouter#show route-map

In the output you will see the line "Policy routing matches: 9 packets…". It means that the route- map we configured is working properly.




By increasing the first distant office, JS manufactures has extended their business. They configured the remote office router (R3) from which they can reach all Corporate subnets. In order to raise network stableness and lower the memory usage and CPU utilization to R3, JS manufactures makes use of route summarization together with the EIGRP Stub Routing feature. Another network engineer is responsible for the implementing of this solution. However, in the process of configuring EIGRP stub routing connectivity with the remote network devices off of R3 has been missing.




Presently JS has configured EIGRP on all routers in the network R2, R3, and R4. Your duty is to find and solve the connectivity failure problem with the remote office router R3. You should then configure route summarization only to the distant office router R3 to complete the task after the problem has been solved. The success of pings from R4 to the R3 LAN interface proves that the fault has been corrected and the R3

IP routing table only contains two subnets.


Correct Answer:

Use the show runningconfig command on router R3



Notice that R3 is configured as a stub receive-only router. The receive-only keyword will restrict the router from sharing any of its routes with any other router in that EIGRP autonomous system. This keyword will also prevent any type of route from being sent. Therefore we will remove this command and replace it with the eigrp stub command:


R3#configure terminal

R3(config)#router eigrp 123

R3(config-router)#no eigrp stub receive-only

R3(config-router)#eigrp stub



Now R3 will send updates containing its connected and summary routes to other routers. Notice that the eigrp stub command equals to the eigrp stub connected summary because the connected and summary options are enabled by default. Next we will configure router R3 so that it has only 2 subnets of network. Use the show ip route command on R3 to view its routing table R3#show ip route



Because we want the routing table of R3 only have 2 subnets so we have to summary sub- networks at the interface which is connected with R3, the s0/0 interface of R4. There is one interesting thing about the output of the show ip route shown abovE. the /24, which is a directly connected network of R3. We can’t get rid of it in the routing table no matter what technique we use to summary the networks. Therefore, to make the routing table of R3 has only 2 subnets we have to summarize the other subnets into one subnet. In conclusion, we will use the ip summary-address eigrp 123 at the interface s0/0 of R4 to summary.



R4#configure terminal

R4(config)#interface s0/0

R4(config-if)#ip summary-address eigrp 123


Now we jump back to R3 and use the show ip route command to verify the effect, the output is shown below: (But please notice that the ip addresses and the subnet masks in your real exam might be different so you might use different ones to solve this question) Just for your information, notice that if you use another network than to summary, for example, if you use the command ip summary-address eigrp 123 you will leave a /16 network in the output of the show ip route command.




But in your real exam, if you don’t see the line " is a summary,….Null0" then you can summary using the network This summarization is better because all the pings can work well. Finally don’t forget to use the copy running-config startup-config command on routers R3 and R4 to save the configurations.



R4#copy running-config startup-config








OSPF is configured on routers Amani and Lynaic. Amani’s S0/0 interface and Lynaic’s S0/1 interface are in Area 0. Lynaic’s Loopback0 interface is in Area 2.




Your task is to configure the following:

Portland’s S0/0 interface in Area 1

Amani’s S0/1 interface in Area 1


Use the appropriate mask such that ONLY Portland’s S0/0 and Amnani’s S0/1 could be in Area 1. Area 1 should not receive any external or inter-area routes (except the default route).


Correct Answer:

First, we configure Portland’s S0/0 interface so that it belongs to Area 1. So, we have to find out which subnetwork the IP address (the IP of interface S0/0 of Portland) belongs to. This address belongs to a subnetwork which has:


Increment: 4 (/30 = or 1111 1111.1111 1111.1111 1111.1111 1100)

Network address: (because 4 = 4 * 1 and 4 < 5)

Broadcast address: (because 7 = 4 + 4 – 1) (It is not necessary to find out the broadcast address but we should know it)

The question requires that only Portland’s S0/0 and Amani’s S0/1 could be in Area 1, therefore we must use a wildcard of (this wildcard is equivalent with a subnet mask of /30) so that there are only 2 IP addresses can participate in area 1 (they are & The full command we use here is network area 1 The question also requires that "Area 1 should not receive any external or inter-area routes (except the default route)". Recall that if we don’t want the router to receive external routes, we have to stop LSA Type 5. And if we don’t want to receive inter-area routes, we have to stop LSA Type 3 and Type 4. Therefore we have to configure area 1 as a totally stubby area. For your information, here is the definition of a totally stubby areA. "Totally stubb area – This area does not accept summary LSAs from other areas (types 3 or 4) or external summary LSAs (Type 5). Types 3,4 and 5 LSAs are replaced by the Area Border Router(ABR) with a default router. Totally stubby areas protect internal routers by minimizing the routing table and summarizing everything outside the area with a default route." (CCNP BSCI Official Exam Certification Guide, Fourth Edition) In conclusion, we have to configure area 1 as a totally stubby area. We do that by configuring Portland as stub and configuring Amani (ABR router) as a stub + "no-summary"suffix. + Configure Portland router as a stub:

Portland#configure terminal

Portland(config)#router ospf 1


Allow network to join Area 1, notice that you have to convert subnet mask into wildcard mask:

Portland(config-router)#network area 1


Configure Portland as a stub:

Portland(config-router)#area 1 stub


Portland#copy running-config startup-config


+ Configure Amani router as a "totally stub":

Amani#configure terminal

Amani(config)#router ospf 1

Amani(config-router)#network area 1


Make area 1 become a totally stubby area, notice that we can only use this command on ABR router:

Amani(config-router)#area 1 stub no-summary


Amani#copy running-config startup-config






Acme is a small export company that has an existing enterprise network that is running IPv6 OSPFv3. Currently OSPF is configured on all routers. However, R4’s loopback address (FEC0:4:4) cannot be seen in R1’s IPv6 routing table. You are tasked with identifying the cause of this fault and implementing the needed corrective actions that uses OSPF features and does no change the current area assignments. You will know that you have corrected the fault when R4’s loopback address (FEC0:4:4) can ping from R1 to R4 loopback address.



Correct Answer:

To troubleshoot the problem, first issue the show running-config on all of 4 routers. Pay more attention to the outputs of routers R2 and R3 The output of the "show running-config" command of R2:




The output of the "show running-config" command of R3:




We knew that all areas in an Open Shortest Path First (OSPF) autonomous system must be physically connected to the backbone area (Area 0). In some cases, where this is not possible, we can use a virtual link to connect to the backbone through a non-backbone area. The area through which you configure the virtual link is known as a transit area. In this case, the area 11 will become the transit area. Therefore, routers R2 and R3 must be configured with the area <area id> virtual- link <neighbor router-id>command. + Configure virtual link on R2 (from the first output above, we learned that the OSPF process ID of R2 is 1):



R2#configure terminal

R2(config)#ipv6 router ospf 1

R2(config-rtr)#area 11 virtual-link


Save the configuration:


R2#copy running-config startup-config


(Notice that we have to use neighbor router-id, not R2’s router-id + Configure virtual link on R3 (from the second output above, we learned that the OSPF process ID of R3 is 1 and we have to disable the wrong configuration of "area 54 virtual-link"):



R3#configure terminal

R3(config)#ipv6 router ospf 1

R3(config-rtr)#no area 54 virtual-link

R3(config-rtr)#area 11 virtual-link


Save the configuration:


R3#copy running-config startup-config


You should check the configuration of R4, too.

R4(config)#ipv6 router ospf 1

R4(config-router)#no area 54 virtual-link



After finishing the configuration doesn’t forget to ping between R1 and R4 to make sure they work well! NotE. If you want to check the routing information, use the show ipv6 route command, not "show ip route".




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