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Update 300-101 Dumps with VCE and PDF for Free (Question 41 - Question 45)

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QUESTION 41 Lab Simulation 2 - EIGRP Stub passleader-300-101-dumps-411 passleader-300-101-dumps-412

Answer: First we have to figure out why R3 and R4 can not communicate with each other. Use the "show running-config" command on router R3 passleader-300-101-dumps-413 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 R3(config-router)# end 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 passleader-300-101-dumps-414 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, 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 summary other subnets into one subnet. In the output if we don't see the summary line (like is a summary…) then we should use the command ip summary-address eigrp 123 so that all the ping can work well. In conclusion, we will use the ip summary-address eigrp 123 at the interface s0/0 of R4 to summary. R4> enable 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: passleader-300-101-dumps-415 (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. passleader-300-101-dumps-416 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. R3(config-if)# end R3# copy run start R4(config-if)# end R4# copy run start

QUESTION 42 Lab Simulation 3 - IPv6 OSPF Virtual Link passleader-300-101-dumps-421 passleader-300-101-dumps-422

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: And, The output of the "show running-config" command of R3: passleader-300-101-dumps-423 passleader-300-101-dumps-424 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> enable R2# configure terminal R2(config)# ipv6 router ospf 1 R2(config-rtr)# area 11 virtual-link Save the configuration: R2(config-rtr)# end 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> enable 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(config-rtr)# end 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 R4(config-router)# end After finishing the configuration don'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".

QUESTION 43 Lab Simulation 4 - Policy Based Routing You are a network engineer with, a small IT company. has two connections to the Internet; one via a frame relay link and one via an EoMPLS link. IT policy requires that all outbound HTTP traffic use the frame relay link when it is available. All other traffic may use either link. No static or default routing is allowed. Choose and configure the appropriate path selection feature to accomplish this task. You may use the Test Workstation to generate HTTP traffic to validate your solution. passleader-300-101-dumps-431

Answer: (1) First create the access list that catches the HTTP traffic: R1(config)# access-list 101 permit tcp any any eq www (2) Configure the route map that sets the next hop address to be ISP1 and permits the rest of the traffic: R1(config)# route-map pbr permit 10 R1(config-route-map)# match ip address 101 R1(config-route-map)# set ip next-hop R1(config-route-map)# exit R1(config)# route-map pbr permit 20 (3) Apply the route-map on the interface to the server in the EIGRP Network: R1(config-route-map)# exit R1(config)# int fa0/1 R1(config-if)# ip policy route-map pbr R1(config-if)# exit R1(config)# exit

QUESTION 44 Lab Simulation - EIGRP OSPF Redistribution You are a network engineer with, a small IT company. They have recently merged two organizations and now need to merge their networks as shown in the topology exhibit. One network is using OSPF as its IGP and the other is using EIGRP as its IGP. R4 has been added to the existing OSPF network to provide the interconnect between the OSPF and EIGRP networks. Two links have been added that will provide redundancy. The network requirements state that you must be able to ping and telnet from loopback 101 on R1 to the OPSF domain test address of All traffic must use the shortest path that provides the greatest bandwidth. The redundant paths from the OSPF network to the EIGRP network must be available in case of a link failure. No static or default routing is allowed in either network. A previous network engineer has started the merger implementation and has successfully assigned and verified all IP addressing and basic IGP routing. You have been tasked with completing the implementation and ensuring that the network requirements are met. You may not remove or change any of the configuration commands currently on any of the routers. You may add new commands or change default values. passleader-300-101-dumps-441

Answer: R2# show interface s0/0/0 Write down these 5 parameters, notice that we have to divide the Delay by 10 because the metric unit is in 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)# exit R2(config-router)# router eigrp 100 R2(config-router)# redistribute ospf 1 metric 1544 2000 255 1 1500 Note: In fact, these parameters are just used for reference and we can use other parameters with no problem. 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)# exit R3(config-router)# router eigrp 100 R3(config-router)# redistribute ospf 1 metric 10000 100 255 1 1500 Finally you should try to "show ip route" to see the network (the network behind R4) in the routing table of R1 and make a ping from R1 to this network. Note: If the link between R2 and R3 is FastEthernet link, we must put the command below under EIGRP process to make traffic from R1 to go through R3 (R1 -> R2 -> R3 -> R4), which is better than R1 -> R2 -> R4. R2(config-router)# distance eigrp 90 105 This command sets the Administrative Distance of all EIGRP internal routes to 90 and all EIGRP external routes to 105, which is smaller than the Administrative Distance of OSPF (110) -> the link between R2 & R3 will be preferred to the serial link between R2 & R4. Note: The actual OPSF and EIGRP process numbers may change in the actual exam so be sure to use the actual correct values, but the overall solution is the same.

QUESTION 45 You have been asked to evaluate how EIGRP is functioning in a customer network. passleader-300-101-dumps-451 Traffic from R1 to R6's Loopback address is load shared between R1-R2-R4-R6 and R1-R3-R5-R6 paths. What is the ratio of traffic over each path?

A.    1:1 B.    1:5 C.    6:8 D.    19:80

Answer: D

New 300-101 exam questions from PassLeader 300-101 dumps! Welcome to download the newest PassLeader 300-101 VCE and PDF dumps: 3 1 (563 Q&As --> 648 Q&As --> 739 Q&As --> 773 Q&As)

P.S. Free 300-101 dumps are available on Google Drive shared by PassLeader: 4 2

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Post date: 2016-11-01 08:52:43
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Post modified date: 2019-01-12 01:59:31
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